CN101126540B - Air conditioner and method for operating air conditioner - Google Patents

Abstract

The invention discloses an air conditioner and a method for operating the said air conditioner. The air condtioner comprises: heat exchanger for heating exchanging with air; air suction inlet for intaking air; filter for filtering the dust through the said air suction inlet; cleaning unit moving along the said filter and for removing dust through the filter using suction force, and controller for controlling the movement of the cleaning unit.

Description

The method of air-conditioner and operating air conditioner

Technical field

The present invention relates to the method for a kind of air-conditioner and a kind of operating air conditioner, particularly, but relate to a kind of indoor unit that comprises the air-conditioner of automated cleaning filter, and a kind of method of moving described air-conditioner, more specifically, relate to a kind of comprising for to being used for the air-conditioner of the controller that the cleaning unit of automated cleaning filter controls, and a kind of method of moving described air-conditioner.

Background technology

The device of the air that air-conditioner is a kind of air amount, carried out heat exchange and discharged heat exchange the air that sucks by heat exchanger.In described air-conditioner, adopt blower fan to suck and discharge air, and in air sucking side filter is installed and filters out dust.

Filter need to clean or change.In fact, the user can often not clean or change filter.Cleaning or replacing filter are cumbersome.

Therefore, the mechanism that needs the automated cleaning filter.Yet the automated cleaning unit is installed in air-conditioner many restrictions.These restrictions are the change of air-conditioner outward appearance, the damage of automated cleaning unit and the space constraint of air-conditioner.

Summary of the invention

[technical problem]

But the object of the present invention is to provide a kind of air-conditioner that comprises the filter of automated cleaning, and a kind of method of moving described air-conditioner.

Another object of the present invention is to provide a kind of air-conditioner that wherein is equipped with for the critical piece of automated cleaning filter, and a kind of method of moving described air-conditioner.

A further object of the present invention is to provide a kind of air-conditioner that wherein is equipped with for the cleaning unit of automated cleaning filter, and a kind of method of moving described air-conditioner.

A further object of the present invention is to provide a kind of air-conditioner that comprises controller, and this controller is used for the cleaning unit of automated cleaning filter is controlled, and a kind of method of moving described air-conditioner is provided.

A further object of the present invention is to provide a kind of will be placed on for the controller that the cleaning unit of automated cleaning filter is controlled the structure at base portion place.

[technical scheme]

But the invention provides a kind of air-conditioner that comprises the filter of automated cleaning, and a kind of method of moving described air-conditioner.

The invention provides a kind of air-conditioner that wherein is equipped with for the critical piece of automated cleaning filter, and a kind of method of moving described air-conditioner.

The invention provides a kind of air-conditioner that wherein is equipped with for the cleaning unit of automated cleaning filter, and a kind of method of moving described air-conditioner.

The invention provides a kind of air-conditioner that comprises controller, this controller is used for the cleaning unit of automated cleaning filter is controlled, and a kind of method of moving described air-conditioner is provided.

The invention provides and a kind ofly will be placed on for the controller that the cleaning unit of automated cleaning filter is controlled the structure at base portion place.

[advantageous effects]

According to air-conditioner of the present invention and the method for moving described air-conditioner, described filter that can the described air-conditioner of automated cleaning.

According to air-conditioner of the present invention and the method for moving described air-conditioner, can eliminate cleaning and change the trouble of described filter.

According to air-conditioner of the present invention and the method for moving described air-conditioner, the cleaning unit that is used for the described filter of automated cleaning is installed in described air-conditioner, with protected.

According to air-conditioner of the present invention, can will be placed on described base portion place in the effective mode in space for the described critical piece of the described filter of automated cleaning by limited space.

Description of drawings

Fig. 1 is the perspective view that shows portalling according to example Air inlet hole of the indoor unit of air-conditioner of the present invention and air exhausting in opened condition;

Fig. 2 is the front view that shows portalling according to example Air inlet hole of the indoor unit of air-conditioner of the present invention and air exhausting in opened condition;

Fig. 3 shows in according to an example of the indoor unit of air-conditioner of the present invention front panel in opened condition perspective view on forward direction;

Fig. 4 is the schematic, exploded perspective view that shows according to an example of the indoor unit of air-conditioner of the present invention;

Fig. 5 is an example vertical sectional view that shows according to the indoor unit of air-conditioner of the present invention;

Fig. 6 is the part that shows Fig. 4 ' detailed perspective view of A ';

Fig. 7 is the decomposition diagram that shows the part of Fig. 6;

Fig. 8 is the part that shows Fig. 4 ' enlarged perspective of B ';

Fig. 9 is the decomposition diagram that shows the part of Fig. 8;

Figure 10 shows the wherein perspective view of the state of the top separation of the suction grid of filter panel from air-conditioner according to the present invention;

Figure 11 is the perspective view that shows the state that separates from the top of suction grid at air-conditioner middle filtrator panel according to the present invention;

Figure 12 cuts open the cutaway view of getting for the line A-A along Fig. 8;

Figure 13 cuts open the cutaway view of getting for the line B-B along Fig. 8;

Figure 14 cuts open the cutaway view of getting for the line C-C along Fig. 8;

Figure 15 cuts open the cutaway view of getting for the line D-D along Fig. 8;

Figure 16 is the exploded front perspective view that shows according to the cleaner external member of air-conditioner of the present invention;

Figure 17 is the backsight decomposition diagram that shows according to the cleaner external member of air-conditioner of the present invention;

Figure 18 is the expanded view that shows according to the enclosing cover of air-conditioner of the present invention;

Figure 19 cuts open the cutaway view of getting for the line A-A along Fig. 6;

Figure 20 is the exploded view that shows the part of Figure 19;

Figure 21 cuts open the cutaway view of getting for the line B-B along Fig. 6; And

Figure 22 is the explanatory view that shows another example of enclosing cover.

The specific embodiment

Describe according to the preferred embodiment of the invention air-conditioner in detail now with reference to accompanying drawing.

For convenience of explanation, around the indoor unit definition above-below direction of the air-conditioner of Fig. 1, left and right directions and forward backward direction with as a reference.Arrow Z represents above-below direction, and Y represents left and right directions, and X represents forward direction backward.

Fig. 1 shows portalling according to example Air inlet hole of the indoor unit of air-conditioner of the present invention and air exhausting to be the perspective view of the state of opening, Fig. 2 shows portalling according to example Air inlet hole of the indoor unit of air-conditioner of the present invention and air exhausting to be the front view of the state of opening, Fig. 3 is the perspective view that shows the state that in according to an example of the indoor unit of air-conditioner of the present invention front panel opens in forward direction, Fig. 4 is the decomposition diagram that shows according to an example of the indoor unit of air-conditioner of the present invention, and Fig. 5 is the vertical cross section according to an example of the indoor unit of air-conditioner of the present invention.

To shown in Figure 5, in the present embodiment, the indoor unit of air-conditioner comprises such as Fig. 1: be provided with for the main body 2 that sucks and regulate the air-conditioning unit of room air, and be connected to this main body 2 so that the front panel 500 that can forwards rotate up.

Main body 2 comprises base portion 10, casing 50, top panel 100, lower panel 150 and suction panel 200 and 300.

The top surface of casing 50, basal surface and front surface are opened, and its rear surface 51 is placed on the base portion 10 along the vertical direction, and its left side limit and right edge 52 and 53 51 begin to tilt from the rear surface.Top panel 54 is installed in the top of casing 50.

Main body 2 also comprises: heat exchanger 60, and this heat exchanger 60 is used for by utilizing cold-producing medium that air is heated/cools off; Air handling blower 70, this air handling blower 70 is used for the outdoor air of the indoor unit of air-conditioner is drawn into the indoor unit of air-conditioner, makes air pass through heat exchanger 60, and from the indoor unit vent the air overboard of air-conditioner; And master control box 65, this master control box 65 is used for the automatically controlled indoor unit that comprises the air-conditioner of air handling blower 70.

Heat exchanger 60 is installed in in casing 50 and the top panel 100 at least one, so that sloped position is between casing 50 and top panel 100.Air handling blower 70 is installed in the casing 50, to be positioned at the bottom of heat exchanger 60.Air handling blower 70 comprises: fan drum 71, and the front surface opened of this fan drum 71, and its top surface is formed with tap, and be installed in the casing 50; Fan 72, this fan 72 is rotatably installed in the fan drum 71; Air blast motor 73 makes fan 72 rotations thereby the axle of this air blast motor 73 is connected to fan 72; And orifice plate 74, this orifice plate 74 is installed on the front surface of fan drum 71.Be installed in the front portion of air handling blower 70 for the central purge unit 80 that purifies the air that is drawn into air handling blower 70.Central purge unit 80 comprises one or more central filter 81,82 and 83, and is installed in the central filter support 90 on the air handling blower 70, so that central filter 81 can be connected to central filter support 90 with unloading.Central filter support 90 opens wide obliquely along direction forward.Master control box 65 is installed in the front portion of air handling blower 70, to be placed between heat exchanger 60 and the central purge unit 80.

Basal surface and the rear surface of top panel 100 are opened wide, and its limit, left side and right edge 101 and 102 begin to tilt from front surface 103, and its top surface 104 is perpendicular to front surface 103.

In the above in the plate 100, the side air exhausting that is used for discharging air portals and 105 and 106 is respectively formed in limit, left side and right edge 101 and 102, and left and right sides tap panel 107 and 108 rotatably is mounted to and opens and closes respectively the side air exhausting and portal 105 and 106.In addition, the upper air tap 110 that is used for the discharge air is formed on upper forepart or end face 104 places of top panel 100, and upper tap panel 111 rotatably is mounted to the upper air tap 110 of opening and closing.Below, for convenience of explanation, suppose that upper air tap 110 is formed on end face 104 places of top panel 100, and upper tap panel 111 is to be placed on the end face 104 of top panel 100 along the rotatable mode of above-below direction.

Suction panel 200 and 300 comprises the left suction panel 200 at the bottom place on the limit, left side 101 that is placed on top panel 100, and the right suction panel 300 at place, bottom that is placed on the right edge 102 of top panel 100.The air suction inlet 201 and 301 that is used for air amount is respectively formed at left suction panel 200 and right suction panel 300 places.Below, air suction inlet 201 is called left air suction inlet 201, and air suction inlet 301 is called right air suction inlet 301.The filter by suction 203 and 303 that is used for the air that sucks left air suction inlet 201 and right air suction inlet 301 is purified is placed on respectively in left suction panel 200 and the right suction panel 300.Below, filter 203 is called left filter by suction 203, and filter 303 is called right filter by suction (not shown).By being arranged on the cleaning filtration unit 700 at main body 2 places, the left filter by suction 203 of automated cleaning and right filter by suction 303.

Cleaning filtration unit 700 comprises: be installed in movably cleaner external member 701 and (unshowned) cleaner external member on left filter by suction 203 and (unshowned) right filter by suction; Be connected to external member suction generation unit 705 on cleaner external member 701 and (unshowned) cleaner external member by dust flexible pipe 703 and 704, it is for generation of the suction that sucks from left filter by suction 203 and (unshowned) right filter by suction such as the filter impurity of dust; Cyclone separator 706 for the filter impurity that sucks from air separation; Dust collecting unit 708 for the filter impurity that is collected in cyclone separator 706 separation; And the external member control box 709 that is used for automatically controlled cleaning filtration unit 700.Below, cleaner external member 701 is called left cleaner external member 701, and cleaner external member 702 is called right cleaner external member (not shown).In addition, dust flexible pipe 703 is called left dust flexible pipe 703, and dust flexible pipe 704 is called right dust flexible pipe 704.External member suction generation unit 705 can form all kinds, such as blower fan and pump.In the present embodiment, external member suction generation unit 705 is set to blower fan, and is called as external member blower fan 705.Dust collecting unit 708 can form all kinds, such as dust bag and box.In the present embodiment, suppose that dust collecting unit 708 is set to box, and be referred to as dust box 708.

Front panel 500 is a kind of doors for the front surface that opens and closes main body 2.The height of front panel 500 is similar to or equals height between the top of the bottom of base portion 10 and top panel 100, and the width of front panel 500 is similar to or equal width between left suction panel 200 and the right suction panel 300.Thereby front panel 500 hinged can rotations around the limit, left side of housing and any one side in the right edge.That is, the top, left side of front panel 500 rotatably is attached to the upper hinge bracket 501 on the end face that is installed in top panel 100, and the bottom, left side of front panel 500 rotatably is attached to the lower hinge bracket 502 on the end face that is installed in base portion 10.In addition, front panel 500 is connected to main body 2 by the swiveling limitation mechanism 504 that is used for restricting rotation speed and angle.This swiveling limitation mechanism 504 is slide block, and an end of this slide block is connected to front panel 500 slidably, and its other end rotatably is connected to top panel 100.

The display 600 that is used for the operation information of demonstration air-conditioner is installed in front panel 500 places.This display 600 is placed on a side place at front portion, inside and the rear portion of front panel 500 movably or regularly.

Now said modules will be described in further detail.

At first, describe base portion 10 in detail with reference to Fig. 1 to Fig. 7.

In the part corresponding with left suction panel 200 and right suction panel 300 that left suction panel 200 and right suction panel 300 are assemblied in along above-below direction (arrow Z) that wherein left suction panel assembling groove 11 and right suction panel assembling groove 12 be formed on base portion 10.

In the part corresponding with dust box 708 that dust box 708 can be able to install that within it dust box guide recess 842 is formed on base portion 10 with unloading.Dust box groove 842 can be positioned at the center of base portion 10 on left and right directions (arrow Y), to be used for the balanced distribution design.

The hinge bracket installation groove 14 that lower hinge bracket 502 wherein is installed is formed on base portion 10 places.Hinge bracket installation groove 14 can be hinged carriage installation recess cover 14 ' and cover.Can on above-below direction (arrow Z), connect slidably and separate hinge bracket recess cover 14 ' is installed.

In order to arrange the distribution/pipe arrangement of cleaning filtration unit 700, base portion 10 comprises the base portion guiding piece of a side of the distribution/pipe arrangement that is connected to cleaning filtration unit 700.For example such as will be described, the wiring of cleaning filtration unit 700 comprises: is used for left and right sides external member photoelectric sensor (not shown) is connected to external member control box 709 with the left and right sides photoelectric sensor cable 781 and 781 ' of power supply or communication, and left and right sides external member power motor cable 753 and 753 '.In addition, the pipe arrangement of cleaning filtration unit 700 comprises left and right sides dust flexible pipe 703 and 704.

The base portion guiding piece can be included in the base portion guiding piece insertion portion 20 to 27 that base portion 10 places form groove shapes, a thereby side of the distribution/pipe arrangement of cleaning filtration unit 700, that is, left and right sides photoelectric sensor cable 781 and 781 ', left and right sides external member power motor cable 753 and 753 ' or a side of left and right sides dust flexible pipe 703 and 704 insert wherein.

Base portion guiding insertion portion 20 to 27 comprises: the first base portion guiding insertion portion 20, this the first base portion guiding insertion portion 20 is positioned between left suction panel assembling groove 11 and the dust box groove 13 along left and right directions (arrow Y), and a side of left external member power motor cable 753 and left dust flexible pipe 703 is inserted in this first base portion guiding insertion portion; And the second base portion guiding insertion portion 21, this the second base portion guiding insertion portion 21 is positioned between right suction panel assembling groove 12 and the dust box groove 13, and a side of right external member power motor cable 753 ' and right dust flexible pipe 704 is inserted in this second base portion guiding insertion portion.

The first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 at base portion 10 places along forward backward direction (arrow X) elongation, thereby along backward direction (arrow X) the left external member power motor cable 753 of guiding and right external member power motor cable 753 ' and left dust flexible pipe 703 and right dust flexible pipe 704 forward.

The top surface of the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 opens wide, thereby left external member power motor cable 753 and right external member power motor cable 753 ' and left dust flexible pipe 703 and right dust flexible pipe 704 can insert wherein along above-below direction (arrow Z).

The rear surface of the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 is opened wide, thereby the distribution/pipe arrangement of left external member power motor cable 753 and right external member power motor cable 753 ' and left dust flexible pipe 703 and right dust flexible pipe 704 can extend to the rear portion of base portion 10.

The first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 have ramp way 20A and 21A in their front portion of conduct along backward directions (arrow X) forward to the coupling part of left cleaner external member 701 and right cleaner external member (not shown), and described ramp way 20A and 21A tilt with respect to the end face of base portion 10 rear portion towards base portion 10.Left and right sides external member power motor cable 753 and 753 ' and left and right sides dust flexible pipe 703 and 704 in, bending be placed with wiring/stringing in the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 part and be connected to left cleaner external member 701 and the part of right cleaner external member (not shown).The sweep of left dust flexible pipe 703 and right dust flexible pipe 704 can be by ramp way 20A and the smooth wiring/stringing of 21A of left base portion guiding insertion portion 20 and right base portion guiding insertion portion 21.

The first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 comprise angled channel 20B and 21B at their rear portion, thereby the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 can be towards the center curvature of base portion 10 on left and right directions (arrow Y).Therefore, in left external member power motor cable 753 and right external member power motor cable 753 ' and left dust flexible pipe 703 and right dust flexible pipe 704, the part that extends to the rear portion of base portion 10 from the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 can be towards cyclone separator 706 smooth stringings.

For the wiring that prevents cleaning filtration unit 700/stringing separates, the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 comprise respectively inwardly outstanding the first retainer projection 20C and the second retainer projection 21C.In order to raise the efficiency, can in the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21, arrange a plurality of the first retainer projection 20C and the second retainer projection 21C.

Base portion guiding insertion portion 20 to 27 comprises: the 3rd base portion guiding insertion portion 22, the 3rd base portion guiding insertion portion 22 is positioned between left suction panel assembling groove 11 and the left base portion guiding insertion portion 20 along left and right directions (arrow Y), and a side of left photoelectric sensor cable 781 is inserted in the 3rd base portion guiding insertion portion 22; And the 4th base portion guiding insertion portion 23, the 4th base portion guiding insertion portion 23 is positioned between right suction panel assembling groove 12 and the right base portion guiding insertion portion 21 along left and right directions (arrow Y), and a side of right photoelectric sensor cable 781 ' is inserted in the 4th base portion guiding insertion portion 23.

The 3rd base portion guiding insertion portion 22 and the 4th base portion guiding insertion portion 23 at base portion 10 places along forward backward direction (arrow X) elongation, thereby along backward direction (arrow X) the left photoelectric sensor cable 781 of guiding and right photoelectric sensor cable 781 ' forward.Here, can upward be arranged to the 3rd base portion guiding insertion portion 22 and the 4th base portion guiding insertion portion 23 parallel with the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21 at left and right directions (arrow Y).

The top surface of the 3rd base portion guiding insertion portion 22 and the 4th base portion guiding insertion portion 23 opens wide, thereby left photoelectric sensor cable 781 and right photoelectric sensor cable 781 ' can insert along above-below direction (arrow Z).

The rear surface of the 3rd base portion guiding insertion portion 22 and the 4th base portion guiding insertion portion 23 is opened wide, thereby the wiring of left photoelectric sensor cable 781 and right photoelectric sensor cable 781 ' may extend into the rear portion of base portion 10.

Base portion guiding insertion portion 20 to 27 comprises: the 5th base portion guiding insertion portion 24, the 5th base portion guiding insertion portion 24 is positioned at the rear portion of the first base portion guiding insertion portion 20 and the 3rd base portion guiding insertion portion 22, thereby be communicated with the first base portion guiding insertion portion 20 and the 3rd base portion guiding insertion portion 22, a side of left external member power motor cable 753, left dust flexible pipe 703 and left photoelectric sensor cable 781 is inserted in the 5th base portion guiding insertion portion 24; And the 6th base portion guiding insertion portion 25, the 6th base portion guiding insertion portion 25 is positioned at the rear portion of the second base portion guiding insertion portion 21 and the 4th base portion guiding insertion portion 23, thereby be communicated with the second base portion guiding insertion portion 21 and the 4th base portion guiding insertion portion 23, a side of right external member power motor cable 753 ', right dust flexible pipe 704 and right photoelectric sensor cable 781 ' is inserted in the 6th base portion guiding insertion portion 25.

Base portion guiding insertion portion 20 to 27 comprises the 7th base portion guiding insertion portion 26, the 7th base portion guiding insertion portion 26 is positioned between the 5th guiding insertion portion 24 and the 6th guiding insertion portion 25 along left and right directions (arrow Y), thereby be communicated with the 5th guiding insertion portion 24 and the 6th guiding insertion portion 25 respectively, a side of right photoelectric sensor cable 781 ' is inserted in the 7th base portion guiding insertion portion 26.

Base portion guiding insertion portion 20 to 27 comprises the 8th base portion guiding insertion portion 27, the 8th base portion guiding insertion portion 27 is positioned between the 5th base portion guiding insertion portion 24 and the 6th base portion guiding insertion portion 25 along left and right directions (arrow Y), thereby be communicated with the 5th base portion guiding insertion portion 24 and the 6th base portion guiding insertion portion 25 respectively, a side of right external member power motor cable 753 ' is inserted in the 8th base portion guiding insertion portion 27.The 8th base portion guiding insertion portion 27 is positioned at the position more forward than the 7th base portion guiding insertion portion 26 in backward directions (arrow X) forward.

The base portion guiding piece comprises the base portions guiding hook portion 28 to 40 of giving prominence to from base portion 10, thereby the wiring/stringing of cleaning filtration unit 700 can be hooked on the base portion guiding hook portion 28 to 40.Base portion guiding hook portion 28 to 40 can realize with hook structure, thereby hooks the top of a side of the wiring/stringing of cleaning filtration unit 700.

Base portion guiding hook portion 28 to 40 can be included in the 5th base portion guiding insertion portion 24 interior outstanding and the first base portion guiding hook portion 28 between the first base portion guiding insertion portion 20 and the 8th base portion guiding insertion portion 27, the second base portion guiding hook portion 29 and the 3rd base portion guiding hook portions 30, is used for hooking left dust flexible pipe 703 and left external member power motor cable 753.

The first base portion guiding hook portion 28, the second base portion guiding hook portion 29 and the 3rd base portion guiding hook portion 30 can be arranged side by side along left and right directions (arrow Y), thereby guide the wiring/stringing of cleaning filtration unit 700 along left and right directions (arrow Y).The first base portion guiding hook portion 28, the second base portion guiding hook portion 29 and the 3rd base portion guiding hook portion 30 can be spaced from each other at left and right directions (arrow Y).Therefore, wiring/the stringing of cleaning filtration unit 700 owing to the first base portion guiding hook portion 28, the second base portion guiding hook portion 29 and the 3rd base portion guiding hook portion 30 become firmly, simple and easily, and easily guide between the hook portion 30 by the first base portion guiding hook portion 28, the second base portion guiding hook portion 29 and the 3rd base portion.

Because cyclone separator 706 and external member control cabinet 709 are installed in the front portion of base portion 10 along backward directions (arrow X) forward, thereby the first base portion guiding hook portion 28, the second base portion guiding hook portion 29 and the 3rd base portion guiding hook portion 30 can be positioned at the front portion of the 5th base portion guiding insertion portion 24.Therefore, can make the length minimum of the wiring/stringing of cleaning filtration unit 700.

Base portion guiding hook portion 28 to 40 can comprise that give prominence to the front portion from the 5th base portion guiding insertion portion 24 and the 4th base portion guiding hook portion 31 between the first base portion guiding insertion portion 20 and the 3rd base portion guiding insertion portion 22, is used for hooking left photoelectric sensor cable 781.

Base portion guiding hook portion 28 to 40 can comprise the 5th base portions guiding hook portion 32 of giving prominence to from the 5th base portion guiding insertion portion 24 interior right walls, is used for hooking right external member power motor cable 753 '.

Base portion guiding hook portion 28 to 40 can comprise the 6th base portions guiding hook portion 33 of giving prominence to from the 5th base portion guiding insertion portion 24 interior rear surfaces, is used for hooking right photoelectric sensor cable 781 '.

Base portion guiding hook portion 28 to 40 can comprise the 7th base portions guiding hook portion 34 of giving prominence to from the 5th base portion guiding insertion portion 24 interior left surfaces, is used for hooking right photoelectric sensor cable 781 '.

Base portion guiding hook portion 28 to 40 can be included in the 6th base portion guiding insertion portion 25 interior the 8th outstanding base portion guiding hook portions 35, is used for hooking right dust flexible pipe 704 and right external member power motor cable 753 '.For the length of wiring/stringing of making cleaning filtration unit 700 minimum, the 8th base portion guiding hook portion 35 is outstanding from the front surface of the 6th base portion guiding insertion portion 25, and is positioned between the second base portion guiding insertion portion 21 and the 8th base portion guiding insertion portion 27.

Base portion guiding hook portion 28 to 40 can comprise the nine base portion guiding hook portion 36 outstanding from the left surface of the 6th base portion guiding insertion portion 25, is used for hooking right external member power motor cable 753 '.

Base portion guiding hook portion 28 to 40 can be included in the tenth base portion guiding hook portion 37 of giving prominence in the front surface of the 6th base portion guiding insertion portion 25 between the second base portion guiding insertion portion 21 and the 4th base portion guiding insertion portion 23, be used for hooking right photoelectric sensor cable 781 '.

Base portion guiding hook portion 28 to 40 can comprise the hendecyl section guiding hook portion 38 outstanding from the right surface of the 6th base portion guiding insertion portion 25, is used for hooking right photoelectric sensor cable 781 '.

Base portion guiding hook portion 28 to 40 can comprise the dodecyl section guiding hook portion 39 outstanding from the rear surface of the 6th base portion guiding insertion portion 25, is used for hooking right photoelectric sensor cable 781 '.

Base portion guiding hook portion 28 to 40 can comprise the tritriacontyl section guiding hook portion 40 outstanding from the rear surface of the 7th base portion guiding insertion portion 26, is used for hooking right photoelectric sensor cable 781 '.

Because base portion guiding hook portion 28 to 40 is outstanding from base portion guiding insertion portion 20 to 27, thereby the overall structure of the wiring/stringing of cleaning filtration unit 700 becomes simple and intensive.And, base portion guiding hook portion 28 to 40 impels the wiring/stringing of cleaning filtration unit 700 near the wall of base portion guiding insertion portion 20 to 27, thereby so that the wiring/stringing of cleaning filtration unit 700 becomes simple and intensive, and not with on every side parts interference.

The base portion guiding piece can comprise and is arranged on the base portion guiding assembled portion 41 and 42 that base portion 10 is sentenced a side of the wiring/stringing that is attached to cleaning filtration unit 700.

Base portion guiding assembled portion 41 and 42 is included in the first base portion guiding assembled portion 41 and the second base portion guiding assembled portion 42 that forms groove structure on the bottom surface of the first base portion guiding insertion portion 20 and the second base portion guiding insertion portion 21, the insertion that will describe below being used for covering wherein left dust flexible pipe 703 and the lid 800 of right dust flexible pipe 704.In order to lay securely left dust flexible pipe 703, can a plurality of the first base portions guiding assembled portion 41 and the second base portion guiding assembled portion 42 be set along backward direction (arrow X) forward.

Describe left and right sides suction panel 200 and 300 in detail below with reference to Fig. 8 to Figure 16.

Left suction panel 200 comprises: be mounted to the left suction grid 202 that covers the leftward space between casing 50 and the front panel 500, left air suction inlet 201 is formed in this left suction grid 202; Be used for opening and closing the left suction blade 204 of left air suction inlet 201; Thereby and be positioned at the right side of left suction grid 202 and be arranged in left filter panel 206 in the main body 2 with 202 combinations of left suction grid, left filter by suction 203 is fixed to this left filter panel 206.Left suction grid 202 and left filter panel 206 are combined, thereby the air that sucks left air suction inlet 201 can be discharged from left suction panel 200 by left filter by suction 203.

That is, left suction grid 202 comprises: be mounted to the left base portion grid 210 of a part that covers the leftward space between casing 50 and the front panel 500, left air suction inlet 201 is formed in this left base portion grid 210; Extend to the left front extension grid 211 of the front portion of main body 2 from left base portion grid 210; Extend to the left back extension grid 212 at the rear portion of main body 2 from left base portion grid 210; Be positioned at respectively upper left baffle plate grid 213 and the lower-left baffle plate grid 214 of the upper and lower of left suction grid 202; And be positioned at the left top grid 215 to contact with 100 of top panels on the end face of left suction grid 202.

The front portion 210 ' that is connected to left front extension grid 211 of left base portion grid 210 can be on direction to the right bending at least one times.Left base portion grid 210 comprises that roughly the left suction grid that is assembled in the left suction panel assembling groove 11 of base portion 10 along above-below direction (arrow Z) assembles protruding 210A.Left front extension grid 211 is along to the right direction from left base portion grid 210 bendings, and covered by front panel 500.Fastener hole 211A roughly along backward direction (arrow X) perforation forward on the top of left front extension grid 211, thereby left front extension grid 211 can be fastened to lower panel 150 by the clamp structure B such as bolt.Left back extension grid 212 is along to the right direction from left base portion grid 210 bendings, thereby covers the part that is not covered by left base portion grid 210 in the leftward space between casing 50 and the front panel 500.Upper left baffle plate grid 213 and lower-left baffle plate grid 214 are overlapping with top and the bottom of left filter panel 206 respectively.Pilot hole 213C bores a hole in upper left baffle plate grid 213 along above-below direction (arrow Z) on the left suction blade, thereby left suction blade 204 can rotatably be attached to pilot hole 213C on the left suction blade.Pilot hole 214C bores a hole in lower-left baffle plate grid 214 along above-below direction (arrow Z) under the left suction blade, thereby left suction blade 204 can rotatably be attached to pilot hole 214C under the left suction blade.Left dust flexible pipe through hole 214D is formed in the lower-left baffle plate grid 214, thereby left dust flexible pipe 703 can pass wherein.

Left suction blade 204 comprises: the left suction blade panel 220 that is used for covering left air suction inlet 201; And outstanding from the top of left suction blade panel 220 and bottom and rotatably be assemblied in left suction blade upper-lower rotating shaft 222 and 224 in the left suction grid 202 respectively.In the left suction blade upper-lower rotating shaft 222 and 224 at least one is connected to left suction sliding-vane motor 226, sucks blade 204 so that automatic rotary turns left.Left suction sliding-vane motor 226 can be connected to left suction blade 204 directly or indirectly by pulley and band or gear train.In the present embodiment, suppose that left suction sliding-vane motor 226 is connected directly to left suction blade 204.In addition, left suction sliding-vane motor 226 is installed in any one position in the upper and lower of left suction blade 204.In the present embodiment, suppose that left suction sliding-vane motor 226 is installed in the bottom of left suction blade 204.Left suction sliding-vane motor 226 can be installed in the bottom of lower-left baffle plate grid 214.

Left filter panel 206 comprises: roughly face the left base portion filter panel 230 of left base portion grid 210 along left and right directions (arrow Y), left filter by suction 203 is fixed on this left base portion filter panel 230; Extend to the left front extension filter panel 231 of the front portion of main body 2 from left base portion filter panel 230; Extend to the left back extension filter panel 232 at the rear portion of main body 2 from left base portion filter panel 230; And be positioned at respectively the upper and lower place of left filter panel 206 and upper left filter panel 233 and the lower-left filter panel 234 overlapping with the upper left baffle plate grid 213 of left suction grid 202 and lower-left baffle plate grid 214.

The position corresponding with left filter by suction 203 that left filter by suction hole 230A is formed on left base portion filter panel 230, thus the air that is drawn in the left air suction inlet 201 can flow into main body 2.Left filter by suction hole 230A can be roughly along left and right directions (arrow Y) in the face of left air suction inlet 201, thereby so that suck that the air of left air suction inlet 201 is straight to flow.Left front extension filter panel 231 is bent to left suction grid 202 along direction left from left base portion filter panel 230, thereby overlaps with left front extension grid 211.Left back extension filter panel 232 is bent to left suction grid 202 along direction left from left base portion filter panel 230, thereby overlaps with left back extension grid 212.Left upper and lower photoelectric sensor hole 232A and 232B are respectively formed at the upper and lower of left back extension filter panel 232, thereby left external member photoelectric sensor 782 and 784 can be installed on the left back extension filter panel 232.Left upper and lower filter panel 233 and 234 overlaps with upper left and lower baffle plate grid 213 and 214 respectively.

Left suction grid 202 described above and left filter panel 206 can make up by the clamp structure B such as bolt or screw, and not separated from one another.

Namely, at left back extension grid 212 places left suction grid fastening part 212A is set, clamp structure B such as bolt can roughly be fastened among this left suction grid fastening part 212A along left and right directions (arrow Y), and is provided with the left filter panel fastening part 232C corresponding with left filter panel fastening part 212A at left back extension filter panel 232 places.In left suction panel 200, be positioned with left suction grid fastening part 212A and left filter panel fastening part 232C.Left suction grid fastening part 212A projects to the front portion of main body 2 from left back extension grid 212, thereby inserts at least in part left filter panel fastening part 232C.And left filter panel fastening part 232C forms groove structure, thereby left suction grid fastening part 212A can be inserted into wherein.Therefore, because left suction grid fastening part 212A is inserted into left filter panel fastening part 232C regularly, thereby the block position of left suction grid fastening part 212A and left filter panel fastening part 232C can be easily overlapped.

Clamp structure hole 213A bores a hole in upper left baffle plate grid 213 along above-below direction (arrow Z), so that upper left baffle plate grid 213 can be fastened to by the clamp structure B such as bolt left filter panel 206, particularly, be fastened to upper left filter panel 233, and in upper left filter panel 233, be formed with the clamp structure hole 233A corresponding with the clamp structure hole 213A of upper left baffle plate grid 213.

Clamp structure hole 214A bores a hole in lower-left baffle plate grid 214 along above-below direction (arrow Z), so that lower-left baffle plate grid 214 can be fastened to by the clamp structure B such as bolt left filter panel 206, particularly, be fastened to lower-left filter panel 234, and in lower-left filter panel 234, be formed with the clamp structure hole 234A corresponding with the clamp structure hole 214A of lower-left baffle plate grid 214.

Can clamp fastening left suction grid 202 and left filter panel 206 by anchor clamps 240.

Anchor clamps 240 comprise: be connected to the first anchor clamps coupling part 242 on the left suction grid 202, be connected to the second anchor clamps coupling part 244 on the left filter panel 206, and the anchor clamps linkage unit 246 that is used for connecting the first anchor clamps coupling part 242 and the second anchor clamps coupling part 244.

The first anchor clamps coupling part 242 and the second anchor clamps coupling part 244 form loop configuration, around the outstanding 206A of left filter plane board clamp of the outstanding 202A of the left suction grid anchor clamps that are assemblied in left suction grid 202 or left filter panel 206.The outstanding 206A of the outstanding 202A of left suction grid anchor clamps and left filter plane board clamp is positioned on the outer surface of left suction grid 202 or left filter panel 206, so that anchor clamps 240 can be clipped in the outside of left suction panel 200.Particularly, left back extension grid 212 and left back extension filter panel 232 is by clamp structure B and fastening.Therefore, in order to clamp left front extension grid 211 and left front extension filter panel 232 by anchor clamps 240, left suction grid anchor clamps projection 202A can give prominence to from left front extension grid 211, and left filter plane board clamp projection 206A can give prominence to from left front extension filter panel 231.

Anchor clamps linkage unit 246 can form wave structure, thereby anchor clamps linkage unit 246 can be assembled in the left suction panel 202 securely, thereby stably clamp left suction grid 202, and can easily clip to by elastic force on the left suction panel 202, or unclamp from left suction grid 202.Namely, when anchor clamps linkage unit 246 is clipped on the left suction panel 200, the middle body 246A of anchor clamps linkage unit 246 closely is connected on the left suction panel 200, and the part 246B between the middle body 246A of anchor clamps linkage unit 246 and the first anchor clamps coupling part 242 and the second anchor clamps coupling part 244 and 246C and left suction panel 200 are spaced apart.Here, part 246B and 246C between the middle body 246A of anchor clamps linkage unit 246 and the first anchor clamps coupling part 242 and the second anchor clamps coupling part 244 can have curvilinear structures, so that anchor clamps 240 strain suitably.Anchor clamps 240 are not limited to above embodiment.A plurality of anchor clamps 240 can be set, and the clamped position of anchor clamps 240 can carry out multiple remodeling.

As mentioned above, when mutually making up left suction grid 202 and left filter panel 206, can limit the position that they make up mutually, thereby they can overlap each other easily, and can As time goes on not hang down or fluff.

The left suction panel retainer that is used for determining the block position of left suction grid 202 and left filter panel 206 comprise be positioned between left suction grid 202 and the left filter panel 206 and with at least one first retainer rib 250 that combines of left suction grid 202 and left filter panel 206, be used for keeping the spacing between left suction grid 202 and the left filter panel 206.

The first retainer rib 250 is fixed to left suction grid 202, particularly, is fixed to left front extension grid 211.When 206 combination of left suction grid 202 and left filter panel, can be with left filter panel 206, particularly left front extension filter panel 231 is hooked on the first retainer rib 250.

Left front extension filter panel 231 is overlapping with the inner surface of left front extension grid 211.Therefore, the first retainer rib 250 is outstanding from the inner surface of left front extension grid 211.The first retainer rib 250 can be positioned on the center of left suction grid 200 on above-below direction (arrow Z).The first retainer rib 250 can be arranged to a plurality of, and is arranged to along above-below direction (arrow Z), and this is not to be determinate.That is, can first a retainer rib 250 be set along above-below direction (arrow Z), or a plurality of the first retainer ribs 250 are set dispersedly.

Left suction panel retainer can comprise be arranged on any place in left suction grid 202 and the left filter panel 206 and be fitted into them another in the second and the 3rd retainer rib.

The second and the 3rd retainer rib is arranged on left suction grid 202 places, and is assembled in the second and the 3rd retainer rib assembling groove 206B and 206B of left filter panel 206.Here, the second and the 3rd retainer rib can be constructed independently.In addition, as in the present embodiment, the upper left baffle plate grid 213 of left suction grid 202 and lower-left baffle plate grid 214 can be assembled in the second and the 3rd retainer rib assembling groove 206B and the 206B.Because upper left baffle plate grid 213 and lower-left baffle plate grid 214 have played the effect of the second and the 3rd retainer rib, thereby can simplify total.And because the second and the 3rd retainer rib evenly distributes along above-below direction (arrow Z) by the first retainer rib 250, thereby left suction grid 202 and left filter panel 206 can evenly make up.

Left suction panel retainer can comprise that the outstanding and hook of from left suction grid 202 and left filter panel 206 any one is to the retainer pawl 254 and 255 on another wherein.

Retainer pawl 254 and 255 can comprise: outstanding and be hooked in suction grid retainer pawl 254 on the left filter panel 206 from left suction grid 202, and outstanding and be hooked in filter panel retainer pawl 255 on the left suction grid 202 from left filter panel 206.

Suction grid retainer pawl 254 can be given prominence to from left front extension grid 211 particularly, and is hooked on the left front extension filter panel 231 of left filter panel 206.Especially, suction grid retainer pawl 254 can with filter panel retainer pawl 255 combination of left front extension filter panel 231, thereby but left filter panel 206 hooks thereon.Can be positioned with a suction grid retainer pawl 254 at left front extension grid 211 along the central part office of above-below direction (arrow Z), this is not to be determinate.Suction grid retainer pawl 254 can be arranged to a plurality of, and along above-below direction (arrow Z) dispersed placement.Suction grid retainer pawl 254 can be along left suction grid 202 and the combinations of directions of left filter panel 206, namely almost spaced apart along left and right directions (arrow Y) and the first retainer rib 250, thereby filter panel retainer pawl 255 can be assembled in the space between suction grid retainer pawl 254 and the first retainer rib 250.

Filter panel retainer pawl 255 can be given prominence to from left front extension filter panel 231 particularly.Filter panel retainer pawl 255 can with suction grid retainer pawl 254 combination, thereby so that left suction grid 202 can hooks thereon.Can be positioned with a filter panel retainer pawl 255 in left front extension filter panel 231 along the central part office of above-below direction (arrow Z), this is not to be determinate.Left filter panel retainer pawl 255 can be arranged to a plurality of, and along above-below direction (arrow Z) dispersed placement.Particularly, filter panel retainer pawl 255 can be along the combinations of directions of left suction grid 202 and left filter panel 206, namely almost be assemblied between suction grid retainer pawl 254 and the first retainer rib 250 along left and right directions (arrow Y).Filter panel retainer pawl 255 can have incline structure, easily to be assemblied between suction grid retainer pawl 254 and the first retainer rib 250.

As mentioned above, when left suction grid 202 and the 206 mutual combination of left filter panel, if filter panel retainer pawl 255 is assemblied between suction grid retainer pawl 254 and the first retainer rib 250, then filter panel retainer pawl 255, suction grid retainer pawl 254 and the first retainer rib 250 are collected in and a bit locate and be associated with each other.Like this, left suction grid 202 can easily make up/separate with left filter panel 206 and mutually strengthen.

In addition, as mentioned above, when the mutual block position of left suction grid 202 and left filter panel 206 was stopped the part restriction, their block position was easily overlapped.And left suction grid 202 can relatively not hang down or fluff with left filter panel 206.

Simultaneously, because cleaning filtration unit 700 uses electric power and by automatically controlled, thereby left suction panel 200 can comprise the cable guide 260 for the cable distribution of guiding cleaning filtration unit 700.Cable guide 260 can guide the cable 781 as the left photoelectric sensor of the following cleaner external member position detection unit that will describe, and can guide the wiring of the cable 753 of the following left external member power motor that will describe.In the present embodiment, suppose that cable guide 260 is placed on left suction panel 200 outsides, with the left photoelectric sensor cable 781 of guiding from left suction panel 200 outside wirings.

Left external member photoelectric sensor 782 and 784 is installed in the left filter panel 206 of left suction panel 200, specifically in left back extension filter panel 232.Therefore, cable guide 260 can be placed on left filter panel 206, specifically in left back extension filter panel 232, thereby left photoelectric sensor cable 781 has been carried out neat wiring, and prevented peripheral interference.

Cable guide 260 can have the superincumbent hook structure of left photoelectric sensor cable 781 hooks, left photoelectric sensor cable 781 and imbed wherein the guide rail structure that structure or left photoelectric sensor cable 781 insert wherein of imbedding by circulus wherein, left photoelectric sensor cable 781.The structure of cable guide 260 can be carried out various changes.And, can mix the structure of using two or more.

In the present embodiment, cable guide 260 has hook structure, so that easily integrally moulded with left filter panel 206.That is, cable guide 260 comprises: from left filter panel 206, particularly from the first outstanding cable guide rib 262 of left back extension filter panel 232, and the second cable guide ribs 263 crooked from this first cable guide rib 262 and that extend.The first cable guide rib 262 can vertically or obliquely be given prominence to from left back extension filter panel 232.The second cable guide rib 263 is given prominence to predetermined lengths from left back extension filter panel 232, thereby guarantees the wiring space of left photoelectric sensor cable 781 between the first cable guide rib 262 and left back extension filter panel 232.The length L 1 of the above-below direction of the first cable guide rib 262 can increase into so that the first cable guide rib 262 can be with left photoelectric sensor cable 781 most of overlapping, thereby photoelectric sensor cable 781 and 781 ' is firmly connected up.That is, the length L 1 of the above-below direction of the first cable guide rib 262 can be much larger than its outstanding length L 2.

The second cable guide rib 263 can be towards left back extension filter panel 232 bendings, thereby left photoelectric sensor cable 781 can closely be routed on the left back extension filter panel 232.The second cable guide rib 263 is can be almost parallel with left back extension filter panel 232, perhaps tilt from surface level and left back extension filter panel 232, thereby easily left photoelectric sensor cable 781 is connected up, and prevent the separation of left photoelectric sensor cable 781.

Can independent one or more cable guide 260 be set at left back extension filter panel 232 places.When a plurality of cable guide 260 is set, if external member control box 709 is positioned at than left external member photoelectric sensor 782 and 784 position more on the lower, then cable guide 260 can in a row be arranged along above-below direction (arrow Z), arrange brokenly or along left and right directions (arrow Y) or backward direction (arrow X) layout forward along above-below direction (arrow Z).

And, in the part corresponding with cable guide 260 that cable guide groove 264 can be formed on left suction panel 200, that is, in the left back extension filter panel 232, thereby left photoelectric sensor cable 781 can be routed between left back extension filter panel 232 and the cable guide 260.Cable guide groove 264 can broaden gradually towards the opening portion 264A that left photoelectric sensor cable 781 inserts wherein.Cable guide groove 264 broadens towards left suction grid 202 from left filter panel 206 gradually along left and right directions (arrow Y).Can flex inward into by the part with left back extension filter panel 232 in the left suction panel 200, and form cable guide groove 264.

As mentioned above, be used for guiding the cable guide 260 of the wiring of left photoelectric sensor cable 781 to be arranged on left suction panel 200 places, thereby left photoelectric sensor cable 781 is carried out neat wiring, and prevent peripheral the interference.And, because cable guide groove 264 is arranged on left suction panel 200 places, although then cable guide 260 is given prominence to too much from left suction panel 200, also can fully guarantee the wiring space of photoelectric sensor cable 781.

Simultaneously, left suction panel 200 can comprise the dust hose guide part 270 for the left dust flexible pipe 703 of guiding cleaning filtration unit 700.Because left cleaner external member 701 is positioned in the left suction panel 200, thereby dust hose guide part 270 can be placed in the left suction panel 200, thereby dust flexible pipe 703 can be routed in the left suction panel 200.

Dust hose guide part 270 can be arranged in the left suction grid 202 of left suction panel 200 and in the left filter panel 206 at least one.In the present embodiment, suppose that dust hose guide part 270 is arranged in the left suction grid 202.Particularly, dust hose guide part 270 can be arranged on left base portion grid 210 and left front extension grid 211 tops.

Dust hose guide part 270 is arranged so that at least a portion of left dust flexible pipe 703 can be on the direction of motion of cleaner external member 701, that is, and and in above-below direction (arrow Z) elongation or crooked.That is, dust hose guide part 270 can comprise: be arranged on the dust flexible pipe wiring portion 272 at left suction panel 200 places, be used for along left cleaner external member 701 the direction of motion, be that above-below direction (arrow Z) connects up to left dust flexible pipe 703; And for the dust flexible pipe standing part 274 on the side that left dust flexible pipe 703 is fixed to dust flexible pipe wiring portion 272.Dust flexible pipe wiring portion 272 can form by left front extension grid 211 and with dust hose guide rib 273 that left front extension grid 211 separates.In order to prevent left dust flexible pipe 703 and 201 interferences of left air suction inlet, the surface that is connected with left suction panel 200 sides inboard rather than left air suction inlet 201 of dust flexible pipe wiring portion 272 is by opening.Dust flexible pipe wiring portion 272 is communicated with left dust flexible pipe through hole 214D, thereby so that left dust flexible pipe 703 can pass left dust flexible pipe through hole 214D.That is, the bottom surface corresponding with left dust flexible pipe through hole 214D of dust flexible pipe wiring portion 272 is openings, and perhaps dust flexible pipe wiring portion 272 can have the through hole that left dust flexible pipe 703 passes.Dust flexible pipe standing part 274 can have clamp structure, covers the open surfaces of dust flexible pipe wiring portion 272, and has hook structure, uses the clamp structure such as bolt or screw, or adopts associated methods.Dust flexible pipe standing part 274 can be used the various ways change.In the present embodiment, suppose that dust flexible pipe standing part 274 is for outstanding from dust flexible pipe wiring portion 272 and be assembled to the dust flexible pipe fixing rib in any one groove the first groove 802A of enclosing cover 800 and the second groove 804A.For ease of explanation, dust flexible pipe standing part 274 is called dust flexible pipe fixing rib 274.But dust flexible pipe fixing rib 274 permanent wirings are at the left dust flexible pipe 703 at place, left suction panel 200 tops, or permanent wiring is at the left dust flexible pipe 703 at place, left suction panel 200 bottoms.In the present embodiment, because left dust flexible pipe 703 passes the left dust flexible pipe through hole 214D at the place, bottom that is positioned at left suction panel 200, thereby dust flexible pipe fixing rib 274 permanent wirings are at the left dust flexible pipe 703 at place, the bottom of left suction panel 200, thereby so that are routed in the part of the left dust flexible pipe 703 in the left suction panel 200 and can move.Dust flexible pipe fixing rib 274 can be arranged to a plurality of, thereby the part of left dust flexible pipe 703 can be fixed firmly to dust flexible pipe wiring portion 272.Described a plurality of dust flexible pipe fixing rib 274 can be along the direction of motion of left cleaner external member 701, that is, above-below direction (arrow Z) is perhaps along the circumferential arrangement of dust flexible pipe wiring portion 272.

As mentioned above, dust hose guide part 270 helps easily left dust flexible pipe 703 to be connected up, and does not have peripheral the interference, and helps to make in the motion process of left cleaner external member 701 part motion of left dust flexible pipe 703.Therefore, although left dust flexible pipe 703 moves with left cleaner external member 701, left dust flexible pipe 703 can not twist or separate with left cleaner external member 701 or cyclone separator 706.Particularly, left dust flexible pipe 703 can not interrupt being inhaled into flowing of air in the left air suction inlet 201.

Right suction panel 300 is similar or identical with the structure of left suction panel 200, thereby omits the detailed description to it.

Describe left filter by suction 203 and right filter by suction 303 in detail now with reference to Fig. 4,8,9,12,13 and 15.

Be placed on left suction panel 200 at left filter by suction 203, particularly under the state in left filter panel 206, this left filter by suction 203 can be by cleaning filtration unit 700 automated cleanings.Therefore, left filter by suction 203 is fixed to left filter panel 206.In left filter by suction 203, can with the mobile filter webs that filters 280 by left filter by suction 203 is directly connected to left filter panel 206, perhaps be connected to the filter frame 282 that is fixedly mounted on the left filter panel 206.In the present embodiment, suppose that left filter by suction 203 comprises filter webs 280 and filter frame 282.For convenience of explanation, the filter webs 280 of left filter by suction 203 is called left filter webs 280, and the filter frame 282 of left filter by suction 203 is called left filter frame 282.

Left filter webs 280 can be set to have the prefilter type of network.

Left filter frame 282 comprises: the base portion 283 of wherein placing left filter webs 280; And flange portion 284, flange portion 284 extends from base portion 283, and with left suction panel 200, contact with 206 of left filter panel particularly.The base portion 283 of left filter frame 282 has the size that can be inserted into by the left filter by suction hole 230A of left filter panel 206 in the left suction panel 200.More preferably, the base portion 283 of left filter frame 282 forms the size almost identical with the size of left filter by suction hole 230A, thereby very close to each other with left filter by suction hole 230A.The base portion 283 of left filter frame 282 is given prominence to towards left cleaner external member 701, thereby left filter webs 280 closely can be connected to left cleaner external member 701.Therefore, the base portion 283 of left filter frame 282 can inwardly be given prominence to towards left suction panel 200 from left filter by suction hole 230A.The flange portion 284 of left filter frame 282 contacts with 206 of the left filter panel of left suction panel 200.Here, the flange portion 284 of left filter frame 282 contacts with 230 of the left base portion filter panel of left filter panel 206, thereby can left filter by suction 203 be placed in the left filter panel 206 regularly by left filter by suction hole 230A.Therefore, because left filter by suction 203 is hooked on the left suction panel 200, thereby left filter by suction 203 and left cleaner external member 701 are closely interconnected, but mutually do not interfere.And, the gap between left filter by suction 203 and the left filter by suction hole 230A can be eliminated, thereby the assembling position of left filter by suction 203 can be easily determined.

Left filter by suction 203 can be fixed to left suction panel 200 by the mode of hook, the mode of utilizing bolt or screw, press-fit, connected mode, welding manner or other variety of ways.In the present embodiment, suppose that left filter by suction 203 is fixed to left suction panel 200 by the hook mode that does not need the specialized groups holding tool.That is, be arranged on left suction panel 200 places for the filter stay hook 286 of fixing left filter by suction 203 by the mode of hook, particularly at left filter panel 206 places.For convenience of explanation, the filter stay hook 286 of left filter panel 206 is called left filter stay hook 286.Left filter stay hook 286 is positioned at the outside of left suction panel 200.That is, because the flange portion 284 of left filter frame 282 contacts with 230 of left base portion filter panel in the outside of left suction panel 200, thereby left filter stay hook 286 is placed in the left base portion filter panel 230.A plurality of left filter stay hooks 286 can be set along the periphery of left filter by suction hole 230A, be used for firmly fixing left filter by suction 203.Above-mentioned left filter stay hook 286 comprises: the left filter stay hook base portion that the outside from left base portion filter panel 230 towards left suction panel 200 is outstanding; And extend and be hooked in left filter stay hook extension on the flange portion 284 of left filter frame 282 from left filter stay hook base portion.But left filter stay hook 286 hooks the flange portion 284 that passes left filter frame 282.That is, in the flange portion 284 of left filter frame 282, be formed with left filter stay hook through hole 284A, so that left filter stay hook 286 can pass this through hole.

As mentioned above, when left filter by suction 203 is fixed on the left suction panel 200, just do not need for the handle that connects or separate left filter by suction 203, do not need in other words for the guiding piece that connects or separate left filter by suction 203.Therefore, the structure of left filter by suction 203 and left suction panel 200 can be simplified, and is not subjected to the design restriction.When connecting or separating left filter by suction 203, it can be not damaged owing to interference.Cancelled in the design restriction of guaranteeing for the space that connects or separate left filter by suction 203.And prevented from flowing from connecting or separating the gap that forms the unskilled operation of left filter by suction 203 or leaking from the recess that is used for connecting or separate left filter by suction 203.As a result, can improve air purification efficiency.

And because left filter by suction 203 is fixed to left suction panel 200 by left filter by suction hole 203A, thereby the fixedly processing space of left filter by suction 203 is extended, thereby so that fixedly becoming of left filter by suction 203 is easy.

Because the mode of left filter by suction 203 by hook is fixed to left suction panel 200, thereby do not need the specialist tools for fixing left filter by suction 203, this so that fixing left filter by suction 203 be more prone to.

Because left filter stay hook 286 passes the left filter stay hook through hole 284A of left filter frame 284, thereby can more firmly fix left filter by suction 203.

The base portion that is placed with filter webs 280 283 of left filter frame 272 is given prominence to towards left cleaner external member 701.Therefore, left filter by suction 203 be connected cleaner external member 701 and closely connect each other, thereby so that the leakage of the suction of cleaning filtration unit 700 is minimum.As a result, can improve the cleaning capacity of cleaning filtration unit 700.

In addition, because the flange portion 283 of left filter frame 282 contacts with 206 of left filter panel, thereby can easily determine the fixed position of left filter by suction 203, and can cover the gap between left filter by suction 203 and the left filter by suction hole 230A fully.

Right filter by suction 303 is structurally similar or identical with left filter by suction 203, thereby omits detailed description thereof.

Describe cleaning filtration unit 700 in detail now with reference to Fig. 4, Fig. 5 and Figure 12 to Figure 21.As a reference, to according to the order of left cleaner external member 701 and right cleaner external member (not shown), left dust flexible pipe 703 and right dust flexible pipe 704, external member blower fan 705, cyclone separator 706, dust box 708 and external member control box 709, cleaning filtration unit 700 be described.

Left cleaner external member 701 is arranged in the left suction panel 200, in order to easily collect impurity from left filter by suction 203.

Left cleaner external member 701 is arranged on left filter by suction 203 places, and its size is very little, thereby can not interrupt being drawn into flowing in the left air suction inlet 201 under the cleaning ready mode of left filter by suction 203.Left cleaner external member 701 can be moved along left filter by suction 203, thereby cleans whole left filter by suction 203.Left cleaner external member 701 can be moved along any direction.In the present embodiment, left filter by suction 203 is longer on above-below direction (arrow Z), and narrower on backward direction (arrow X) forward.Therefore, suppose that left cleaner external member 701 only moves along above-below direction (arrow Z).

Can manually or by electric power automatically make left cleaner external member 701 motions.In the present embodiment, suppose by electric power and automatically make 701 motions of left cleaner external member.

Left cleaner external member 701 comprises external member housing 710 and the external member moving cell 750 that is used for automatically making by electric power 710 motions of external member housing, and this external member housing 710 has the dust chamber 711 of collecting impurity for from left filter by suction 203.

The part of external member housing 710 can be used as dust chamber 711 independently, and perhaps the whole part of external member housing 710 can be used as dust chamber 711.In external member housing 710, dust chamber 711 can be restricted to one or more spaces.In the present embodiment, suppose that dust chamber 711 is set to a separate space in the part of external member housing 710.

External member housing 710 comprises: the external member body 712 and 713 that is used for the outward appearance of restriction external member housing 710; Be used for from left filter by suction 203 suck impurity, be formed in the face of the dust inlet hole 720 in the part of left filter by suction 203; Thereby and be placed on the independent dust chamber bodies 714 that limit dust chamber 711 and be communicated with dust inlet hole 720 and external member blower fan 705 in external member body 712 and 713.

External member body 712 and 713 comprises: be placed to towards left filter by suction 203 and have the external member precursor 712 of dust inlet hole 720; Thereby and body 713 after the external member that can be placed on therebetween with external member precursor 712 combination dust chamber bodies 714.

Dust inlet hole 720 is formed in the bottom of external member precursor 712.Because left cleaner external member 701 is along above-below direction (arrow Z) motion, thereby dust inlet hole 720 can be along backward direction (arrow X) be elongated forward, and shortens along above-below direction (arrow Z).Namely, forward backward the width 720W of direction of dust inlet hole 720 equals or is longer than forward backward the width of direction of left filter by suction 203, and the above-below direction length 720L of dust inlet hole 720 is less than forward backward the width 720W of direction of dust inlet hole 720.

External member precursor 712 has the first groove 721 and the second groove 722 in the front and rear that is respectively formed at dust inlet hole 720.

External member precursor 712 comprises that body 713 is outstanding after the first and second external member precursor ribs 723 and 724, the first and second external member precursor ribs 723 and 724 are from external member precursor 712 towards external member, and be placed on respectively the first and second grooves 721 and 722 and dust inlet hole 720 between.Be formed with the first and second external member axle hole 723A and 724A in the first and second external member precursor ribs 723 and 724, described external member axle hole partly opens wide, thereby following the external member wheel shaft 752A that describes can be passed wherein.The first and second external member precursor ribs 723 and the first and second external member axle hole 723A of 724 and 724A can be formed on the position higher than dust chamber 711, thereby external member wheel shaft 752A can be placed on dust chamber 711 outsides.In the first and second external member precursor ribs 723 and 724, can be by the first and second agitator axis hole 723B and 724B wherein thereby be formed with the unlimited following stirrer shaft 762 with description of part.The first and second external member precursor ribs 723 and the first and second agitator axis hole 723B of 724 and 724B form at above-below direction (arrow Z) corresponding with dust chamber 711, thereby stirrer shaft 762 can pass through dust chamber 711.Therefore, easily assembling external member wheel shaft 752A and stirrer shaft 762.

External member precursor 712 can have dust chamber line rib 725, and dust chamber line rib 725 is positioned at place, dust inlet hole 720 tops, and closely is connected on the dust chamber body 714, is used for separating dust chamber 711.Therefore, because dust chamber line rib 725 is pressed towards dust chamber body 714, thereby can easily seal dust chamber 711.

After external member, in the body 713, compare with other parts, only have the built-in part 730 of motor more relatively outstanding along detaching direction from left filter by suction 203, in the built-in part 730 of this motor, be equipped with following with the external member power motor 754 of describing.Although external member power motor 754 places in the external member precursor 712, also can obtain little and structure closely.After external member, in the built-in part 730 of the motor of body 713, be formed with the external member power motor heat radiation holes 731 of carrying out radiation for the heat that produces driving external member power motor 754.External member power motor heat radiation holes 731 has played the effect that prevents that the external member power motor is 754 overheated, prevents the left cleaner external member 701 of cause thermal damage.The built-in part 730 of the motor of body 713 comprises that external member power motor motion prevents rib 732 after the external member, and the motion of external member power motor prevents that rib 732 body 713 after the external member is outstanding, and closely connects or be assembled in the external member power motor 754.It is single or multiple that the motion of external member power motor prevents that rib 732 can be set to, to prevent the motion of external member power motor 754.Therefore, external member power motor 754 can easily place in the built-in part 730 of motor of body 713 after the external member, and can easily determine its assembling position.In addition, can support securely external member power motor 754.

After external member, be formed with the dust hose coupling with large-size in the body 713 and open part 733, thus following with the dust hose coupling 790 described can be easily by wherein.Like this, dust hose coupling 790 can be easily connected to dust chamber body 714 or separate with dust chamber body 714.

Be formed with external member power motor axis hole 713A after external member in the body 713, this external member power motor axis hole 713A partly opens wide, thereby following axle 754A with the external member power motor 754 described can insert wherein.

Dust chamber body 714 is located so that dust chamber 711 can be arranged between dust chamber body 714 and the external member precursor 712.That is, the surface corresponding with dust inlet hole 720 of dust chamber body 714 opened wide, and is formed with the dust export 742 that is connected to external member blower fan 705 in the surface 741 relative with this open surfaces.Dust export 742 comprises: have the base portion 742A of preliminary dimension, and the extension 742B that stretches from the epitaxial lateral overgrowth of this base portion 742A.The extension 742B of dust export 742 can be arranged to single or multiple.In the present embodiment, suppose that two extension 742B are placed on around the dust export 742 and face with each other.In dust chamber body 714, be formed with the first and second agitator axis hole 714C and 714D, thereby stirrer shaft 762 can pass through wherein, and the first and second agitator axis hole 723B and the 724B of described the first and second agitator axis hole 714C and 714D and the first and second external member precursor ribs 723 and 724 are combined.Dust chamber body 714 comprises the first and second dust chamber body ribs 743 and 744, the first and second dust chamber body ribs 743 and 744 outwards outstanding from dust chamber 711, and closely is connected to respectively the first and second external member precursor ribs 723 and 724.In the first and second dust chamber body ribs 743 and 744, be formed with respectively the first and second external member axle hole 714A and 714B, thereby external member wheel shaft 752A can pass wherein, and the first and second axle hole 723A and the 724A of described the first and second external member axle hole 714A and 714B and described the first and second external member precursor ribs 723 and 724 are combined.In in the first and second dust chamber body ribs 743 and 744 any one, be formed with external member after the combined external member power motor axis hole 714E of the external member power motor axis hole 713A of body 713, thereby the axle 754A of external member power motor 754 can insert wherein.

The bottom of dust chamber 711 can form funnel structure, thereby can easily discharge the impurity that is collected in the dust chamber 711 by dust export 742.That is, the lower surface of dust chamber 711 can be downward-sloping.

As mentioned above, be arranged in the external member housing 710 because be used for the dust chamber body 714 of dust chamber 711, thereby suction is less leaked by external member blower fan 705, thereby at the dust chamber 711 interior suction of fully having kept.In addition, the outside of the dust chamber 711 in the external member housing 710 can be by the contaminating impurity of dust chamber 711 interior collections.

The assembly of external member housing 710 can followingly be assembled, that is, and and by using not separated clamp structure B such as bolt or screw.

Thereby be formed with after external member body 713 outstanding clamp structure B on the top of external member precursor 712 and can be fastened to the first fastener hole 726A on it.The first fastener hole 726A of external member precursor 712 is positioned at leading edge or the rear edge of external member precursor 712, not with 714 interferences of dust chamber body.Thereby be formed with in the bottom of external member precursor 712 towards dust chamber body 714 outstanding clamp structure B and can be fastened to the second fastener hole 726B on it.

Thereby can be fastened to the overlapping clamp structure B of the first fastener hole 726A of external member precursor 712 that the first fastener hole 736 on it is formed on body 713 after the external member with the corresponding part of the first fastening protuberance 726 of external member precursor 712 in.Thereby can be fastened to the overlapping clamp structure B of the second fastener hole 726B of external member precursor 712 that the second fastener hole 737 on it is formed on body 713 after the external member with the corresponding part of the second fastening protuberance 727 of external member precursor 712 in.The 3rd fastener hole 738 is formed on after the external member in the body 713, thereby body 713 can be fastened to dust chamber body 714 by clamp structure B after the external member.

Be formed on the top of dust chamber body 714 with overlapping the first fastener hole 745A of the second fastener hole 737 of body after the external member 713, thereby dust chamber body 714 can be fastened to body 713 after the external member.Thereby be formed in the bottom of dust chamber body 714 with the second fastener hole 745B that the overlapping clamp structure B of the second fastener hole 726B of external member precursor 712 can be fastened on it.

As mentioned above, for the mutual block position of the assembly that easily hides external member housing 710, the following external member housing retainer that arranges.

This external member housing retainer comprises: from the outstanding external member precursor rib of external member precursor 712; And dust chamber body hook 746, dust chamber body hook 746 is outstanding from dust chamber body 714, being assembled in the external member precursor rib, and is hooked on the external member precursor rib.As mentioned above, because the first external member precursor rib 723 and the second external member precursor rib 724 are formed on external member precursor 712 places, thereby the first external member precursor rib 723 and the second external member precursor rib 724 can use external member precursor rib jointly.Dust chamber body hook 746 can be arranged in pairs in in the first dust chamber body rib 743 and the second dust chamber body rib 744 each, thereby the first external member precursor rib 723 and the second external member precursor rib 724 can be assembled on it.

External member housing retainer comprises: from the first outstanding retainer protuberance part 727 of external member precursor 712; And be arranged on dust chamber body 714 places so that described the first retainer protuberance part 727 can be inserted the second retainer protuberance part 746 wherein.The opened upper end of the second retainer protuberance part 746, thus the first retainer protuberance part 727 can easily be inserted wherein.The second fastener hole 726B of external member precursor 712 can be formed in the first retainer protuberance part 727, and the second fastener hole 745B of dust chamber body 714 can be formed in the second retainer protuberance part 746.Therefore, the second fastener hole 726B of external member precursor 712 and the second fastener hole 745B of dust chamber body 714 are easily directly overlapping with the first retainer protuberance part 727 and the second retainer protuberance part 746, thereby so that fastening process becomes easy.

External member housing retainer comprises retainer assembling groove 747, and retainer assembling groove 747 is formed in the dust chamber body 714, so that external member precursor 712 can be assembled on it.Retainer assembling groove 747 can directly be positioned at the top of the second retainer protuberance part 746, easily to be assemblied in around the external member precursor 712.

External member housing retainer comprises external member ribs 726, and external member ribs 726 is outstanding and closely be connected to after the external member on the body 713 from external member precursor 712.External member ribs 726 is positioned at the place, top of dust chamber line rib 725, not with 714 interferences of dust chamber body.At external member precursor 712 places one or more external member ribs 726 can be set.External member ribs 726 has played the effect of keeping the interval between the body 713 after external member precursor 712 and the external member.Therefore, body 713 can not hang down or mutually extruding relatively after external member precursor 712 and the external member.And can also reinforcing sleeve spare housing 710.

Simultaneously, can by being installed in the wheel that rotates under the electric power effect in left cleaner external member 701 or using pulley mode, screw fastening mode or mode of traction, realize external member moving cell 750.In addition, in technical scope of the present invention, can change in many ways external member moving cell 750.In the present embodiment, suppose that external member moving cell 750 is by using the wheel that rotates to realize under the electric power effect.

Therefore, external member moving cell 750 can comprise: the external member wheel 752 that is rotatably installed in external member housing 710 places; And external member power motor 754, external member power motor 754 places external member housing 752, and being used for provides revolving force to external member wheel 752.

A plurality of external members wheel 752 can be set, thereby support securely left cleaner external member 701, and balance and stablize moving up and down of left cleaner external member 752.That is, for example, external member wheel 752 can be respectively formed at the front and rear place of external member housing 710, thereby is spaced apart from each other around left filter by suction 203.

Two external member wheels 752 are placed on dust chamber 711 outsides of external member housing 710, thereby can not be collected in the contaminating impurity in the dust chamber 711.Particularly, two external member wheels 752 can be placed in first groove 721 and the second groove 722 of external member precursor 712, thereby rotate in contact with left suction panel 200 or left filter by suction 203.In the present embodiment, suppose two external member wheels 752 and left suction panel 200, particularly contact with left filter panel 206.In addition, two external members wheel 752 is placed on the first groove 721 of external member precursor 712 and the top of the second groove 722, with not with following agitator 760 interferences with explanation.

Described two external members wheel 752 can separated from one another and independently rotation, perhaps interconnects and cooperates.In the present embodiment, for simplified structure, suppose that described two external members wheel 752 is interconnected with one another by external member wheel shaft 752A.

In described two external members wheel 752 at least one can have the cleaner external member tooth bar 756 meshed gears types with left filter panel 203, i.e. pinion type.In the present embodiment, suppose that described two external members wheel 752 has the pinion type, and described two cleaner external member tooth bars 756 are arranged to take turns 752 corresponding with described two external members.Cleaner external member tooth bar 756 is arranged along the above-below direction (arrow Z) as left cleaner external member 701 directions of motion.Therefore, left cleaner external member 701 can be along above-below direction (arrow Z) smooth motion.In addition, can guide this motion of left cleaner external member 701.

Single or multiple external member power motors 754 can be set.In the present embodiment, because described two external members wheel 752 interconnects by external member wheel shaft 752A, thereby an external member power motor 754 is set, to simplify total.

External member power motor 754 can be installed in inside or the outside of external member housing 710.In the present embodiment, suppose that external member power motor 754 places external member housing 710.Therefore, external member housing 710 has played the effect that is used for the protecting film of external member power motor 754, therefore reduced the driving noise of external member power motor 754, prevented because moisture or dust damage external member power motor 754, firmly fixed external member power motor 754, and prevented from separating or damaging external member power motor 754 owing to external force.

External member power motor 754 is fixed to external member housing 710 by the clamp structure B such as bolt or screw, is fixed to particularly body 713 after the external member.

External member wheel 752 can directly or by the external member power transfer unit be connected to external member power motor 754 indirectly.In the present embodiment because following agitator 760 with explanation also uses electric power, thereby supposition external member wheel 752 are connected with the external member power motor and indirectly connect by the external member power transfer unit, to share.

The external member power transfer unit can form gear-type, be with a pulley type or other various transmission types.In the present embodiment, suppose that the external member power transfer unit forms gear-type.That is, the external member power transfer unit comprises external member driven wheel 758, and external member driven wheel 758 is fixed on the axle of external member power motor 754, and with described two external members wheel 752 in any one engagement.External member wheel 752 can be carried out the function of external member power transfer unit, and this simplifies the structure.The invention is not restricted to this embodiment.For example, the external member power transfer unit can have respectively two external member driven wheels 758 with 752 engagements of described two external members wheel.

Simultaneously, left cleaner external member 701 also can comprise agitator 760, and agitator 760 is placed in the dust chamber 711, to pass through dust inlet hole 720 and left filter by suction 203 CONTACT WITH FRICTION.Agitator 760 can rotatably be placed in the dust chamber 711, thus reposefully with left filter by suction 203 CONTACT WITH FRICTION.That is, agitator 760 comprises: be rotatably installed in the stirrer shaft 762 in the dust chamber 711; And be fixed to this stirrer shaft 762 with the agitator bristle 764 of left filter by suction 203 CONTACT WITH FRICTION.Because left cleaner external member 701 is only along above-below direction (arrow Z) motion, thus agitator 760 forward backward direction (arrow X) length no better than or forward backward the direction length of being longer than left filter by suction 203.

In addition, can force to make agitator 760 rotations by electric power.That is the external member driven gear 766 that, rotates under the effect of the revolving force of external member power motor 754 is fixed to stirrer shaft 762.In external member driven gear 766 and described two external members wheel 752 at least one meshes, and provides the revolving force of external member power motor 754 by external member wheel 752.The invention is not restricted to this.For example, external member driven gear 766 can provide the revolving force of the external member power motor 754 of special power source rather than agitator 760, perhaps can be directly and 758 engagements of external member driven wheel.That is, in technical scope of the present invention, can change in many ways external member driven gear 766.

As mentioned above, because the CONTACT WITH FRICTION of agitator 760 and left filter by suction 203, thus can be easily from left filter by suction 203 removing impurities, and impurity is drawn in the dust chamber 711.And, because make agitator 760 rotations by electric power, thus can be more easily from left filter by suction 203 removing impurities.

Simultaneously, left cleaner external member 701 also can comprise agitator cleaning tooth 768, and described agitator cleaning tooth 768 is placed in the external member housing 710, with agitator 760, contact with agitator bristle 764 particularly, adheres to impurity on the agitator 760 with removal.

Agitator cleaning tooth 768 can be independent molded and be fixed on the external member housing 710 dividually with external member housing 710, perhaps can be integrally moulded with external member housing 710.Can a plurality of agitators cleaning teeth 768 be set along backward direction (arrow X) forward, come to remove impurity from whole agitator 760.Can along forward backward direction (arrow X) at regular intervals or irregular interval arrange described a plurality of agitator cleaning tooth 768.Agitator cleaning tooth 768 can be positioned on top or the bottom of agitator 760.In technical scope of the present invention, consider owing to the suction losses that causes of external member blower fan 705, staying impurity on the left filter by suction 203 or the bending of agitator bristle 764, each formed triangular cross-section, quadrangle section, curved profile or other various geometries in the agitator cleaning tooth 768.

As mentioned above, when agitator cleaning tooth 768 is set, can save the cleaning course of agitator 760, to improve convenience.In addition, agitator 760 also can work all the time.

On the other hand, the motion that cleaner external member motion guidance spare 770 also can be mounted to left cleaner external member 701 guides, and keeps left cleaner external member 701 with close left filter by suction 203.

Cleaner external member motion guidance spare 770 comprises: from external member housing 710, the outstanding cleaner external member motion guidance projection 772 of body 713 after the external member particularly; And the cleaner external member motion guide rail 774 that is placed on left suction panel 200 or left filter by suction 203 places, described cleaner external member motion guidance projection 772 is inserted in this cleaner external member motion guide rail 774 and motion thereon.

Cleaner external member motion guidance projection 772 can be projected into respectively front portion or the rear portion of external member housing 710, to be used for supporting securely external member housing 710.Two cleaner external member motion guidance projections 772 can be separately positioned on front surface and the place, rear surface of external member housing 710, to be spaced apart from each other at above-below direction (arrow Z), are used for along above-below direction (arrow Z) firm support external member housing 710.In the cleaner external member motion guidance projection 772 each all can form such as hemispheric circle, with the easiness that improves and cleaner external member motion guide rail 774 is assembled, and makes friction minimum.

Cleaner external member motion guide rail 774 can be given prominence to from left suction panel 200 or from left filter by suction 203, perhaps forms groove structure at left suction panel 200 or left filter by suction 203 places.

As mentioned above, because be provided with cleaner external member motion guidance spare 770, even thereby left cleaner external member 701 along the vertical direction (arrow Z) motion reduce the suction losses of external member blower fan 705, left cleaner external member 701 also can be near left filter by suction 203, and less vibration.

Simultaneously, cleaner external member position detection unit can be set also, detect the position of left cleaner external member 701.

This cleaner external member position detection unit can form by on-off mode or infrared ray or photoelectric sensor mode, and can arrange one or more.In the present embodiment, suppose that this cleaner external member position detection unit forms by the photoelectric sensor mode.Suppose also whether this cleaner external member position detection unit arrives uppermost position to left cleaner external member 701 and bottom position detects.

That is, this cleaner external member position detection unit can comprise: the primary importance detecting unit 782 and 784 that lays respectively at left suction panel 200 upper and lowers; And be placed in the left cleaner external member 701 with the second place detecting unit 786 corresponding with primary importance detecting unit 782 and 784.

Primary importance detecting unit 782 and 784 outwards outstanding from left suction panel 200, and not with left cleaner external member 701 interferences.Especially, in the present embodiment, because the front portion of lower panel 150 close left suction panels 200, thereby primary importance detecting unit 782 and 784 is given prominence to towards the rear portion of left suction panel 200.Therefore, primary importance detecting unit 782 and 784 is fixed to left filter panel 206.

Primary importance detecting unit 782 and 784 comprises respectively a pair of sensor 782A and the 784A that is spaced apart from each other, thereby second place detecting unit 786 can enter between the described right sensor.

Primary importance detecting unit 782 and 784 is connected to external member control box 709 by left photoelectric sensor cable 781, to receive respectively electric power and to communicate by letter with external member control box 709.Because primary importance detecting unit 782 is positioned at the top of left suction panel 200, thereby the left photoelectric sensor cable 781 that is connected to primary importance detecting unit 782 can be routed in the cable guide 260 of left suction panel 200.

Right cleaner external member is structurally similar or identical with left cleaner external member 701, thereby omits the detailed description to it.

One end of left dust flexible pipe 703 is connected to left cleaner external member 701, and its other end is connected to the cyclone separator 706 that is communicated with external member blower fan 705.Left dust flexible pipe 703 can form flexible structure, flexibly to extend or to shrink.Left dust flexible pipe 703 can be directly connected to left cleaner external member 701.As in the present embodiment, left dust flexible pipe 703 can be connected to indirectly by dust hose coupling 790 left cleaner external member 701.

Dust hose coupling 790 can assemble and be connected to left dust flexible pipe 703, and can be connected to left cleaner external member 701 with unloading, is connected to dust chamber body 714 particularly.Therefore, dust hose coupling 790 can comprise: dust hose coupling fastening part 792, dust hose coupling fastening part 792 are connected to dust chamber 711 by bending or separate, are connected to particularly dust chamber body 714 with dust chamber 711 or separate with dust chamber body 714; And dust hose coupling extension 794, dust hose coupling extension 794 extends to the outside of left cleaner external member 701 from this dust hose coupling fastening part 792, and is connected to left dust flexible pipe 703.

Dust hose coupling fastening part 792 comprises: the annular dust hose coupling fastening part flange 792A that is communicated with the dust export 742 of dust chamber body 714; The first dust hose coupling rib 792B, this the first dust hose coupling rib 792B is outstanding from dust hose coupling fastening part flange 792A, the extension 742B of the dust export 742 by dust chamber body 714 is inserted into dust chamber 711, and is hooked on the dust chamber body 714 in dust chamber 711 inside by bending; And the second dust hose coupling rib 792C, this second dust hose coupling rib 792C is outstanding from dust hose coupling fastening part flange 792A, and is hooked on the dust chamber body 714 in dust chamber 711 outsides.

Dust hose coupling fastening part flange 792A can be longer than the base portion 742A of the dust export 742 of dust chamber body 714, thereby contacts with dust chamber body 714 in dust chamber 711 outsides.

The first dust hose coupling rib 792B can form hook structure.The first dust hose coupling rib 792B is arranged to respectively corresponding with the extension 742B of the dust export 742 of dust chamber body 714.

The second dust hose coupling rib 792C contacts with 714 of dust chamber bodies.Single or multiple the second dust hose coupling rib 792C can be set.In the present embodiment, suppose around the dust export 742 of dust chamber body 714, two the second dust hose coupling rib 792C respect to one another are set.

The first dust hose coupling rib 792B and the second dust hose coupling rib 792C can be spaced apart from each other along the circumferential direction of dust hose coupling fastening part 792, thereby make up securely dust hose coupling 790 and dust chamber body 714.

On the other hand, when dust hose coupling 790 is connected to dust chamber 711, the anglec of rotation scope of dust hose coupling 790 can be limited by dust hose coupling rotation limit stop (not shown), thereby dust hose coupling 790 can not separate with dust chamber 711.

Dust hose coupling rotation limit stop comprises: the first dust flexible pipe rotation restriction rib that is arranged on any one place in left cleaner external member 701 and the dust hose coupling 790; And a pair of the second dust flexible pipe rotation restriction rib, described a pair of the second dust flexible pipe rotation restriction rib is arranged on another place wherein, and separated from one another near the first dust flexible pipe rotation restriction rib.In the present embodiment, suppose that the first dust flexible pipe rotation restriction rib is arranged on dust hose coupling 790 places, and the second dust flexible pipe rotation restriction rib is arranged on left cleaner external member 701 places, is arranged on particularly dust chamber body 714 places.

On structure, the second dust hose coupling rib 792C of dust hose coupling 790 can carry out the function of the first dust flexible pipe rotation restriction rib.Therefore, can omit the first dust flexible pipe rotation restriction rib.Be positioned at dust chamber 711 outsides because played the second dust hose coupling rib 792C of the effect of the first dust flexible pipe rotation restriction rib, thereby the second dust flexible pipe rotation restriction rib is arranged on dust chamber body 714 places, to be positioned at dust chamber 711 outsides.

Left dust flexible pipe 703 can pass through enclosing cover 800 and in bond and stringing/wiring, and in the cable that is connected to left cleaner external member 701, left external member power motor cable 753 is positioned in the left suction panel 200.

Enclosing cover 800 can be made by plastic material, firmly to protect left dust flexible pipe 703 and left external member power motor cable 753.

Enclosing cover 800 can constitute crooked, thereby improves the easiness of layout designs.That is, enclosing cover 800 is included in the upper groove pattern 802 and 804 of arranging of longitudinal direction (arrow L) of enclosing cover 800, concentrates for reducing the stress under the case of bending of enclosing cover 800, and improves the crooked free degree of enclosing cover 800.Especially, the groove pattern 802 and 804 of a plurality of enclosing covers 800 can be set along the circumferential direction (arrow C) of enclosing cover 800, but not limit the bending direction of enclosing cover 800.Here, at least some longitudinal directions at enclosing cover 800 in described a plurality of patterns 802 and 804 of enclosing cover 800 are spaced apart from each other.Therefore, enclosing cover 800 can be crooked, and can reduce stiffness, can be owing to the interference between described a plurality of groove patterns 802 and 804 yet limit design.In the present embodiment, described a plurality of groove patterns 802 and 804 of supposing enclosing cover 800 comprise: the first groove pattern 802 that is positioned at circumferential direction one side of enclosing cover 800; And be positioned at the circumferential direction opposite side of enclosing cover 800 and on the longitudinal direction of enclosing cover 800 with the first groove pattern 802 isolated the second groove patterns 804.

In the present embodiment, described a plurality of first groove 802A of the first groove pattern 802 of restriction enclosing cover 800 can form identical shape.Different from the present embodiment is that described a plurality of the first groove 802A can form two or more shapes.Described a plurality of first groove 802A of enclosing cover 800 can be arranged to rule or irregular pattern.Described a plurality of first groove 802A of enclosing cover 800 can be spaced apart from each other with rule or irregular interval on the longitudinal direction of enclosing cover 800.

The second groove pattern 804 of enclosing cover 800 is formed in the zone of the first groove pattern 802 that does not form enclosing cover 800 along the circumferential direction of enclosing cover 800.That is, as in the present embodiment, limiting the two ends 804B of described a plurality of the second groove 804A of the second groove pattern 804 of enclosing cover 800 and 804C can be corresponding to two end 802B and the 802C of the first groove 802A of the enclosing cover 800 on the circumferential direction of enclosing cover 800.Different from the present embodiment is that the first and second groove 802A of enclosing cover 800 and 804A can be partly overlapped on the circumferential direction of enclosing cover 800.The first groove pattern 802 is formed in some zone of enclosing cover 800 circumferential direction, and the second groove pattern 804 is formed in other zones of enclosing cover 800 circumferential direction.Therefore, when enclosing cover 800 bending, stress can not crossed along the circumferential direction of enclosing cover 800 and focus mostly on.And enclosing cover 800 can be easily crooked.

In the present embodiment, a plurality of second groove 804A of enclosing cover 800 can form identical shape.Different from the present embodiment is that described a plurality of the second groove 804A can form two or more shapes.Described a plurality of second groove 804A of enclosing cover 800 are arranged to regular pattern or irregular pattern.Described a plurality of second groove 804A of enclosing cover 800 can be spaced from each other with rule or irregular spacing on the longitudinal direction of enclosing cover 800.

Described a plurality of second groove 804A of enclosing cover 800 and described a plurality of first groove 802A of enclosing cover 800 arrange along the longitudinal direction of enclosing cover 800 with alternating.Therefore, when enclosing cover 800 bending, stress can evenly apply along the circumferential direction of enclosing cover 800.

Enclosing cover 800 has the cutting part 806 that forms by along circumferential direction cutting enclosing cover 800 1 sides.Because enclosing cover 800 can be expanded owing to this cutting part 806, thereby enclosing cover 800 can be easily combined with left dust flexible pipe 703 and left external member power motor cable 753, and can be flexibly crooked.Enclosing cover 800 can be overlapping on cutting part 806 peripheral part ground along its circumferential direction.Therefore, enclosing cover 800 does not open wide to fetter securely left dust flexible pipe 703 and left external member power motor cable 753.The cutting part 806 of enclosing cover 800 can be arranged to separate the first groove pattern 802 of enclosing cover 800 and any one in the second groove pattern 804 along the circumferential direction of enclosing cover 800.In the present embodiment, the cutting part 806 of supposing enclosing cover 800 separates the second groove pattern 804.Because the second groove pattern 804 of enclosing cover 800 by the cutting part 806 of enclosing cover 800 separately, thereby enclosing cover 800 can be more crooked.

Right dust flexible pipe 704 is structurally similar or identical with left dust flexible pipe 703, thereby omits the detailed description to it.

An external member blower fan 705 can be set, to be shared by left cleaner external member 701 and right cleaner external member (not shown), two external member blower fans 705 perhaps be set, with corresponding with left cleaner external member 701 and right cleaner external member (not shown) respectively.In the present embodiment, for simplified structure, suppose by left cleaner external member 701 and right cleaner external member (not shown) to share external member blower fan 705.

In external member blower fan 705, the inlet hole 705A that is used for air amount is communicated with cyclone separator 706, and tap 705B is discharged to the high flux under 705 effects of external member blower fan in the main body 2.External member fan filter (not shown) can be placed on the inlet hole 705A place of external member blower fan 705, thereby filters out trickle dust from the air that separates cyclone separator 706.Because the air of discharging from external member blower fan 705 is the air that has filtered through cyclone separator 706, thereby air can be discharged in the main body 2.External member blower fan 705 can be connected to cyclone separator 706 by pipe.In addition, as in the present embodiment, external member blower fan 705 can be placed on the top of cyclone separator 706, and makes up with cyclone separator 706.Because external member blower fan 705 is placed near cyclone separator 706, thereby can reduce flow losses, can simplify total, and effectively utilize the space.

A cyclone separator 706 can be set, to be shared by left cleaner external member 701 and right cleaner external member (not shown), two cyclone separators 706 perhaps can be set, with corresponding with left cleaner external member 701 and right cleaner external member (not shown) respectively.In the present embodiment, for simplified structure, suppose by left cleaner external member 701 and right cleaner external member (not shown) to share cyclone separator 706.

Therefore, cyclone separator 706 comprises the housing 810 that is connected on left cleaner external member 701 and right cleaner external member (not shown) and the external member blower fan 705, and this housing 810 has for the centrifugal space 811 of separating air and impurity in centrifugal mode.That is, housing 810 forms cylindrical, so that centrifugal in centrifugal space 811 becomes easy.Housing 810 has left dust flexible pipe 703 and right dust flexible pipe 704 and is connected to respectively left dust inlet hole 810A and right dust inlet hole 810B on it, thereby housing 810 can be connected on left cleaner external member 701 and the right cleaner external member (not shown).The left dust inlet hole 810A of cyclone separator 706 and right dust inlet hole 810B are positioned at the top of housing 810, so that centrifugal in centrifugal space 811 becomes easy.The left dust inlet hole 810A of cyclone separator 706 and right dust inlet hole 810B are arranged in the centrifugal space 811 along centrifugal direction, so that centrifugal in centrifugal space 811 becomes easy.The left dust inlet hole 810A of cyclone separator 706 and right dust inlet hole 810B are arranged to face with each other around housing 810, and mutually do not interfere.The left dust inlet hole 810A of cyclone separator 706 and right dust inlet hole 810B are outwards outstanding from housing 810, and have the shape of circular pipe, thereby can easily be attached to left dust flexible pipe 703 and right dust flexible pipe 704.

Housing 810 has dust tap 810C, and the impurity that dust tap 810C is used for separating in centrifugal mode in centrifugal space 811 is expelled to dust box 708.The dust tap 810C of cyclone separator 706 can be positioned on the bottom of housing 810, easily to discharge the impurity that drops to 811 bottoms, centrifugal space by centrifugal.The dust tap 810C of cyclone separator 706 is outwards outstanding from cyclone separator 706, and has the shape of essentially rectangular pipe, easily to be connected to dust box 708.Housing 810 has for arriving at the Bas Discharged of centrifugal space 811 interior separation the air outlet slit 810D of external member blower fan 705.The air outlet slit 810D of cyclone separator 706 is positioned at the top of housing 810, only to discharge the air that separates in centrifugal space 811.And the air outlet slit 810D of cyclone separator 706 is positioned at the center of the top surface of housing 810, not interfere with the impurity phase that separates in centrifugal space 811.

Housing 810 comprises upper shell 812 and lower house 814, thereby the basal surface opening of this upper shell 812 is separable, and this lower house 814 is combined with the bottom of this upper shell 812.Upper shell 812 can separate along above-below direction (arrow Z) around the dust tap 810C of cyclone separator 706 with lower house 814.That is, in housing 810, upper shell 812 is formed between the top surface of dust tap 810C of the top of housing 810 and cyclone separator 706, and lower house 814 is formed in another part.Upper shell 812 and lower house 814 can be by such as the clamp structure B of bolt or screw and mutually fastening.Namely, upper shell 812 has the first upper shell protuberance 812A, clamp structure B is fastened to this first upper shell protuberance 812A along above-below direction (arrow Z), and lower house 814 has the first lower house protuberance 814A, the first lower house protuberance 814A is overlapping with the first upper shell protuberance 812A along above-below direction (arrow Z), thereby clamp structure B can be fastened on it.The first upper shell protuberance 812A and the first lower house protuberance 814A are positioned at the outside of housing 810, with not with 811 interferences of centrifugal space.Upper shell 812 has the second upper shell protuberance 812B, and the external member blower fan protuberance 705D of the second upper shell protuberance 812A and external member blower fan 705 is overlapping, thereby upper shell 812 can be by such as the clamp structure B of bolt or screw and jointly be fastened to external member blower fan 705.Lower house 814 has the second lower house protuberance 814B, thereby cyclone separator 706 can be secured to base portion 10 by the clamp structure B such as bolt or screw.Upper shell 812 can comprise the upper shell rib 812C that contacts with a part of face of lower house 814, to seal tightly upper shell 812 and lower house 814.Upper shell rib 812C can insert lower house 814, thereby is hidden.

Centrifugal in order easily to carry out, cyclone separator 706 can comprise the core 816 that is positioned at 811 centers, centrifugal space.Core 816 forms substantial cylindrical, in case the fluid stopping dynamic resistance.Owing to be provided with core 816, thereby impurity can fall down along the edge in centrifugal space 811, and air can rise in centrifugal space 811, and being expelled to external member blower fan 705.Core 816 comprises: be positioned at the upper core 817 in the upper shell 812, and at the upper and upper core of above-below direction (arrow Z) 812 spaced apart and with the lower core 818 of lower house 814 combinations.The top surface of upper core 817 along above-below direction (arrow Z) from housing 810 is projected into than the left dust inlet hole 810A of whirlwind separator 706 and the lower position of right dust inlet hole 810B.In upper core 817, be formed with the air path 817A that is communicated with the air outlet slit 810D of cyclone separator 706, be used for discharge and pass through the air that the air outlet slit 810D of cyclone separator 706 separates with centrifugation.That is, upper core 817 can form the shape of hollow tube.Owing to being provided with core 817, thereby the air that sucks the impurity of the left dust inlet hole 810A of cyclone separator 706 and right dust inlet hole 810B and be discharged to the air outlet slit 810D of housing 810 does not mix, but separates with centrifugation.The basal surface of lower core 818 along above-below direction (arrow Z) from housing 810 is outstanding.Lower core 818 forms cylindrical, and its top surface opens wide.The lower core rib 818A of core 818 under in lower core 818, being provided with for multiple separation.Therefore, lower core 818 has played the effect that the impurity that prevents centrifugation and air mix mutually, and lower core rib 818A is used for preventing that the impurity of centrifugation from entering lower core 818 and leaking into external member blower fan 705 with the air with centrifugation.

Cyclone separator 706 and 819 combinations of cyclone separator hole, and cyclone separator hole 819 has cyclone separator hole path 819A, this cyclone separator hole 819 is connected to the air outlet slit 810D of cyclone separator 706, and this cyclone separator hole path 819A is towards the outside of cyclone separator 706, namely broaden towards external member blower fan 705 from cyclone separator 706.The effect of suitably keeping the suction of external member blower fan 705 has been played in cyclone separator hole 819.In addition, cyclone separator 706 can easily be made.The size 819D of cyclone separator hole path 819A on external member blower fan 705 1 sides is substantially equal to the size of the inlet hole 705A of external member blower fan 705, and in the size on cyclone separator 706 1 sides less than the size 819D on external member blower fan 705 1 sides.Because the size of the air path 817A of upper core 817 roughly equates with the size 819D of cyclone separator hole path 819A on external member blower fan 705 1 sides, thus cyclone separator hole 819 can with upper core 705 combinations, to keep the suction of external member blower fan 705.In order to simplify manufacture process, cyclone separator hole 819 can be integrally moulded with upper core 817.Cyclone separator hole 819 is placed on the top of cyclone separator 706, and external member blower fan 706 in the lower support of external member blower fan 706.Cyclone separator hole 819 is not fastened on cyclone separator 706 or the external member blower fan 705, but between cyclone separator 706 and external member blower fan 705.On the other hand, cyclone separator hole 819 can be by cyclone separator hole rib 810E and securely with cyclone separator 706 combination, this cyclone separator hole rib 810E is outstanding from cyclone separator 706, with around cyclone separator hole 819.Between the rib 810E of the cyclone separator hole of cyclone separator hole 819 and cyclone separator 706, the first cyclone separator hole seal 810F can be set.Cyclone separator hole 819 can be by outstanding to make up with external member blower fan 705 securely around the external member blower fan protuberance 705D in cyclone separator hole 819 from external member blower fan 705.Between the external member blower fan protuberance 705D of cyclone separator hole 819 and external member blower fan 705, the second cyclone separator hole seal 705E can be set.

Left filter by suction 203 and right filter by suction 303 are positioned at the bottom in the main body 2, and have remaining space within it.Therefore, cyclone separator 706 can be placed on the bottom place in the main body 2, and is installed on the main body 2, is installed on the base portion 10 particularly.

The cyclone separator retainer can be set, come easily cyclone separator 706 to be positioned at main body 2, particularly in the correct cyclone separator installation site of base portion 10.This cyclone separator retainer can comprise that being arranged on base portion 10 sentences cyclone separator retainer rib 820 around cyclone separator 706, thereby limits the correct cyclone separator installation site of base portion 10.Cyclone separator retainer rib 820 can be around the whole periphery of cyclone separator 706.As in the present embodiment, cyclone separator retainer rib 820 can be around the part of the periphery of cyclone separator 706.Therefore, cyclone separator retainer rib 820 can easily closely be connected on the cyclone separator 706, and cyclone separator 706 can easily connect and separate.In addition, cyclone separator retainer rib 820 can be roughly along forward backward the connection and separately of direction (arrow X) guiding cyclone separator 706.The cyclone separator retainer comprises cyclone separator retainer hook 824, and this cyclone separator retainer hook 824 is arranged in the cyclone separator 706, to be inserted into main body 2, specifically to refer in the cyclone separator retainer hook groove 822 of base portion 10.Because the cyclone separator retainer is intended to limit the correct installation site of cyclone separator 706, thereby cyclone separator retainer hook groove 822 can be on the direction of the connection of cyclone separator 706/separately, namely roughly be longer than cyclone separator retainer hook 824 in backward direction (arrow X) forward, so that cyclone separator retainer hook 824 can easily insert wherein.The compact structure in order to realize simple, cyclone separator retainer hook groove 822 can be positioned on the inside of cyclone separator retainer rib 820.Simultaneously, as shown in figure 19, can form outlet 719 at dust flexible pipe 703 places that are connected to dust inlet hole 810B along the cylinder direction, be used for air stream is guided to separator reposefully.

Dust box 708 comprises: dust box base portion 830; Be used for opening and closing the dust lid 832 of dust box base portion 830; And dust box lock cell 834, dust box lock cell 834 is arranged under the state that dust lid 832 covers dust box base portions 830 locked.

Dust box base portion 830 has the predetermined dust collection space 830A for the impurity that is collected in cyclone separator 706 separation.Dust box base portion 830 has the cyclone separator connection opening part 830B that is connected to cyclone separator 706.Cyclone separator connection opening part 830B is positioned on the rear surface of dust box 708, thereby dust box 708 can be connected to cyclone separator 706 or from cyclone separator 706 separately along backward direction (arrow X) forward.Cyclone separator connection opening part 830B can be projected into the outside of dust box 708, thereby dust box 708 can be easily connected to cyclone separator 706 or separate from cyclone separator 706.Cyclone separator connection opening part 830B is positioned at the top of dust box 708, is back to cyclone separator 706 to prevent the impurity in the dust box 708.Dust box base portion 830 has the dust discharge that is opened and closed by dust lid 832 and opens part, is used for and will be discharged to dust box 708 at the impurity that dust collection space 830A collects.By opening the whole top surface of dust box base portion 830, form the dust discharge and open part.

As in the present embodiment, dust lid 832 can separate fully with dust box base portion 830.In addition, dust lid 832 can be hinged to a side of dust box base portion 830, be connected to dust box base portion 830 or from dust box base portion 830 separately or be arranged to open and close dust box base portion 830 by the spring mode slidably.In several ways change of dust lid 832.

Dust box lock cell 834 can adopt the mode such as the lock in the present embodiment and lock side formula, hook mode, key mode or latch and striker combination.Dust box lock cell 834 can change in many ways.

In the present embodiment, dust box lock cell 834 comprises: the lock rib 835 that is arranged on any one place in dust box base portion 830 and the dust lid 832; And the locking plate 836 that is arranged on another place, this locking plate 836 flexibly is connected to being provided with on of lock rib 835 in dust box base portion 830 and the dust lid 832, and has the lock rib insertion portion 836A that lock rib 835 is inserted wherein.In the present embodiment, suppose that lock rib 835 is arranged on dust box base portion 830 places, and locking plate 836 is arranged on dust lid 832 places.

Lock rib 835 is arranged on the outside of dust box base portion 830, easily to make up with locking plate 836.Lock rib 835 is placed on the left surface or right surface of dust box base portion 830, with not with cyclone separator 706 or following with dust box handle 838 interferences of describing.Lock rib 835 is outstanding from dust box base portion 830 approximate vertical, to make up securely with locking plate 836.

Locking plate 836 is arranged on the outside of dust lid 832, easily to make up with lock rib 835.Locking plate 836 is with respect to the center curvature of lock rib insertion portion 836A, thereby flexibly is connected to dust box base portion 830.That is, locking plate 836 comprises: locking plate coupling part 836B, and locking plate coupling part 836B is outstanding from dust lid 832, and inwardly tilts towards dust box 708 with respect to above-below direction (arrow Z); And locking plate extension 836C, locking plate extension 836C extends from the bottom of locking plate coupling part 836B, and towards the outer bend of dust box 708, to keep the connection power of locking plate coupling part 836B.Locking plate coupling part 836B can form linear or waveform.It can change in technical scope of the present invention in every way.

Therefore, cover at dust lid 832 under the state of dust box base portion 830, when lock rib 835 was mounted in the locking plate 836, dust lid 832 can lock securely, not separate with dust box base portion 830.On the contrary, shown in the dotted line among Figure 21, when when under the lock-out state of dust lid 832, making locking plate 836 towards the outside strain of dust box 708 lock rib 835 be separated with locking plate 836, release dust lid 832 easily.

Dust box lock cell 834 can be arranged on the left surface of dust box 708 and each surface in the right surface, thereby locks securely dust lid 832.

Dust box 708 has for the dust box handle 838 that easily connects or separate.Dust box handle 838 is positioned at the front portion of dust box 708, thereby dust box 708 is connected on the main body 2 or from main body 2 separately along backward direction (arrow X) forward under the state opened of plate 500 in front.And dust box handle 838 is arranged in the dust box base portion 830, rather than at dust lid 832 places, thereby can hold securely dust box 708 by dust box handle 838.

When dust box 708 enters main body 2, can be by dust box guiding piece 840 guiding dust boxes 708.

As mentioned above, because cyclone separator 706 is installed on the base portion 10, thereby dust box guiding piece 840 enters main body 2 along base portion 10 guiding dust boxes 708, so that dust box 708 can be directly connected to cyclone separator 706.

Therefore, dust box guiding piece 840 comprise be arranged on main body 2, particularly in the dust box guide recess 842 at base portion 10 places, so that can insert dust box 708 or dust-separating box 708 from the direction that cyclone separator 706 separates along being connected to cyclone separator 706/.Dust box guide recess 842 is roughly opened along backward direction (arrow X) forward so that dust box 708 in front under the state opened of plate 500 front portion from main body 2 enter main body 2.Because the dust tap 810C of cyclone separator 706 is positioned at the bottom of cyclone separator 706, and cyclone separator connection opening part 830B is positioned at the top of dust box 708, thereby forming, dust box guide recess 842 has the predetermined degree of depth, so that when cyclone separator 706 is connected connection with the dust box, the dust tap 810C of cyclone separator 706 can be positioned on the identical horizontal line with the cyclone separator connection opening part 830B of dust box 708, and is connected to each other directly.

As mentioned above, because dust box guiding piece 840 comprises dust box guide recess 842, thereby can realize simple and compact structure.When dust box 708 is positioned in the main body 2, can support securely dust box 708.In addition, the link position of dust box 708 and cyclone separator 706 can be easily overlapped.

Dust box guiding piece 840 comprises dust box fixing device rib 844, this dust box fixing device rib 844 is from main body 2, outstanding from base portion 10 particularly, thereby be positioned at dust box guiding piece 840, be positioned in the dust box guide recess 842 particularly, and supporting dust box 708.Dust box fixing device rib 844 can comprise one or more combinations, and can place along backward direction (arrow X) and left and right directions (arrow Y) forward.Here, if a plurality of dust box fixing device ribs 844 are set, then preferably they are arranged to have suitable height, with horizontal supporting dust box 708.In the present embodiment, in order to support securely dust box 708, dust box fixing device rib 844 has: along the approach axis of dust box 708, i.e. the vertical component 844A that places of backward direction (arrow X) forward; And along the horizontal component 844B that places with the perpendicular left and right directions (arrow Y) of the approach axis of dust box 708.

When dust box 708 moved along dust box guiding piece 840, dust box fixing device rib 844 had reduced the friction between dust box 708 and the dust box guiding piece 840, thus mobile dust box 708 glossily.

Simultaneously, when dust box 708 was supported by dust box fixing device rib 844, dust box 708 floated from the bottom of dust box guide recess 842.Therefore, the dust box covers rib 845 and can be arranged to cover space between dust box 708 and the dust box guide recess 842.The dust box cover rib 845 from the bottom of dust box guide recess 842 an outstanding predetermined altitude, with the dust box fixing device rib 844 at the front end place that covers dust box guide recess 842.

Dust box guiding piece 840 comprises: be arranged on dust box 708 and main body 2, specifically refer to the dust box guiding rib 846 at any place in the base portion 10; And the dust box guide rail 848 that is arranged on another place, thereby dust box guiding rib 846 can insert dust box guide rail 848.In the present embodiment, suppose that dust box guiding rib 846 is arranged on dust box 708 places, and dust box guide rail 848 is arranged on main body 2, base portion 10 places particularly.

Dust box guiding rib 846 is outstanding from dust box 708, thereby contacts with the end face face of base portion 10 on the top of base portion 10.

Dust box guide rail 848 can be arranged in the dust box guide recess 842 with groove type.As in the present embodiment, dust box guide rail 848 can be outstanding from the top surface of base portion 10 with hook-type.

Therefore, dust box guiding piece 840 is so that dust box 708 can easily be connected to cyclone separator 706 or from cyclone separator 706 separately.In addition, be positioned at main body 2 when interior at dust box 708, dust box guiding piece 840 so that dust box 708 be mounted and fixed on securely in the main body 2.

When dust box 708 was positioned in the main body 2 by dust box connection/separate units 850, dust box 708 can be fixed to the correct installation site of main body 2 or separate from main body 2.

Dust box connection/separate units 850 comprises and is arranged on dust box 708 and main body 2, the dust box hook 852 at any one place in the base portion 10 particularly, and dust box hook 852 fasteners are on another.In the present embodiment, suppose that dust box hook 852 is arranged on dust box 708 places, thereby can manually remove the fastener of dust box hook 852.Dust box hook 852 is hooked on the horizontal component 844B of dust box fixing device rib 844.Therefore, need not to arrange at base portion 10 places special hole or rib and come fastener for dust box hook 852, thereby realized simple and compact structure.

For fastener dust box hook 852 securely, dust box connection/separate units 850 also can comprise dust box hook elastic component 854, this dust box hook elastic component 854 is hinged by dust box hook swivel pin 852A, so that the dust box hooks 852 in the dust box 708 rotate at above-below direction (arrow Z), and especially at fastener direction upper support dust box hook 852.Dust box hook elastic component 854 can be wind spring, leaf spring, helical spring, rubber or sponge.In addition, can change in several ways dust box hook elastic component 854.In the present embodiment, suppose that dust box hook elastic component 854 is wind spring.Dust box hook elastic component 854 can make up with dust box hook swivel pin 852A.If adopt following dust box shank 856 with explanation, then in the situation that consider property easy for installation and designs simplification, dust box hook elastic component 854 can be placed between dust box handle 838 and the dust box shank 856.

In order easily to remove the fastener of dust box hook 852, dust box connection/separate units 850 comprises dust box shank 856, and dust box shank 856 extends from dust box hook 852, with manual rotation dust box hook 852, and is connected on the dust box hook elastic component 854.Dust box shank 856 extends to from dust box hook 852 outstanding, is used for easily controlling dust box hook 852.Dust box shank 856 can be placed between dust box handle 838 and the dust box base portion 830, with dust box 708 modularizations.

Therefore, owing to being provided with dust box connection/separate units 850, thereby dust box hook 852 can be by dust box hook elastic component 854 fastener securely, and mildly removes fastener by the operation of dust box shank 856, and not with base portion 10 interferences.

On the other hand, dust box 708 and cyclone separator 706 can be interconnected by dust connector 860.

One side of dust connector 860 is connected on any one of cyclone separator 706 and dust box 708, and its opposite side closely is connected on wherein another by elastic force.In the present embodiment, be connected to cyclone separator 706 or from cyclone separator 706 separately because dust box 708 motion, thereby supposition dust connector 860 is connected to cyclone separator 706, thereby is fixed to cyclone separator 706 and closely is connected to dust box 708.

Dust connector 860 comprises: the dust connector base portion 862 that is connected to cyclone separator 706; And dust connector antelabium 864, dust connector antelabium 864 extends to dust box 708 from dust connector base portion 862, and closely is connected to dust box 708 by elastic force.

Dust connector base portion 862 is provided with dust path 862A, so that cyclone separator 706 and dust box 708 can be interconnected.Dust connector base portion 862 has the dust connector assembling groove 862B that cyclone separator 706 can be fitted into them.Dust connector assembling groove 862B can form annular, with the whole peripheral of the dust tap 810C that is assemblied in cyclone separator 706.In order to be attached to securely cyclone separator 706, dust connector 860 comprises the dust connector assembling hole 862C that the dust connector projection 810G of cyclone separator 706 can be fitted into them, and this dust connector assembling hole 862C is connected to the side of dust connector assembling groove 862B.

Dust connector antelabium 864 stretches out from dust connector 860 along the direction away from dust connector base portion 862, with strain on the direction of the connection of being connected with the dust box at cyclone separator 706/separately.

Dust connector 860 is by making such as the elastomeric material of PP or rubber, and easily being connected to cyclone separator 706 or from cyclone separator 706 separately, and so that dust connector antelabium 864 has enough elastic forces.

Dust connector 860 has played easy connection and secure seal dust box 708 and cyclone separator 706 and easy of the separately effect of dust box 708 of cyclone separator 706.When dust box 708 was connected to cyclone separator 706, dust box 708 only closely was connected to dust connector 860.Therefore, when separating dust box 708 from cyclone separator 706, parts can not be out of shape fully, can not damage yet.

In order to prevent the overload of master control box 65, external member control box 709 is constructed separately and is electrically connected to master control box 65 and is used for communication, with controlled filter device cleaning unit 700.

External member control box 709 contacts the left external member power motor cable 753 that is connected to left cleaner external member 701 and the right external member power motor cable 753 ' that is connected to right cleaner external member (not shown), is connected to the left photoelectric sensor cable 781 of left external member photoelectric sensor 782 and is connected to the right photoelectric sensor cable 781 ' of right external member photoelectric sensor 784 (not shown) and the cable of external member blower fan 705.Therefore, external member control box 709 is placed near left cleaner external member 701 and right cleaner external member (not shown), left external member photoelectric sensor 782 and right external member photoelectric sensor 784 (not shown) and the external member blower fan 705, and be placed on the base portion 10, thereby be positioned at for space efficiency in the remaining space of main body 2.

External member control box 709 can be fixedly secured to base portion 10 by the clamp structure B such as bolt or screw.That is, external member control box 709 has external member control box protuberance (not shown), and clamp structure B is fastened on this external member control box protuberance.Can in external member control box protuberance, form groove, so that can insert wherein from the base portion 10 outstanding fastening protuberance 709A ' of external member control box.

When external member control box 709 is installed on the base portion 10, can easily external member control box 709 be positioned at by the external member control box retainer 709 ' of base portion 10 in the main body 2, the correct installation site in the base portion 10 particularly.Be positioned at main body 2 at external member control box 709, particularly in the situation of the correct installation site in the base portion 10, external member control box retainer 709 ' can be set to rib structure, at least a portion that closely is connected to external member control box 709.

External member control box 709 is arranged to communicate by letter with remote controller, being used for wirelessly controlling air-conditioner or being arranged on the cleaner switch at display 600 places of air-conditioner, specifically accusing unit processed (not shown), thereby according to the operation of remote controller or cleaner switch and controlled filter device cleaning unit 700.Here, external member control box 709 can with remote controller or the direct communication of cleaner switch, or by master control box 65 and their indirect communications.

Figure 22 is the schematic diagram that shows another example of enclosing cover.Enclosing cover 800 is blown tubular on the whole.In order to receive dust flexible pipe 703 and external member power motor cable 753, enclosing cover 800 comprises: the flexible pipe acceptance division 910 that is used for receiving dust flexible pipe 703; And the cable acceptance division 920 that is used for receiving external member power motor cable 753.Preferably, 910 places arrange opening portion 930 along dust flexible pipe 800 at the flexible pipe acceptance division, so that dust flexible pipe 800 moves smoothly, and at cable acceptance division 920 places hole 940 are set.Because be provided with opening portion 930 and hole 940, thus dust flexible pipe 703 and external member power motor cable 753 can be along with the motion of cleaner external member easy motion.In addition, the effect that prevents that enclosing cover 800 from splitting has been played in hole 940.Preferably, the parts 910A of flexible pipe acceptance division 910 close cleaner external members forms shorter than its parts 910B relatively far away apart from the cleaner external member, thereby makes the more part of motion have activity, and the less part of moving has stability.In function aspects, the effect of the distortion admittance unit that is used for 800 distortion of admittance enclosing cover has been played in flexible pipe receiving unit 910, opening portion 930 and hole 940, and cable acceptance division 920 is as the motion guidance unit, is used for guiding by the restriction to the opening direction of opening portion 930 direction of motion of dust flexible pipe 800 and external member power motor cable 753.Simultaneously, distortion admittance unit can be the ripply bellows of tool.

Operation according to air-conditioner of the present invention will be described now.

When driving air handling blower 70 under the operation request at air-conditioner, the outdoor air of main body 2 is inhaled in the main body 2 by left air suction inlet 201 and the right air suction inlet 301 of main body 2.The air that is drawn in the main body 2 is cleaned by left filter by suction 203 and right filter by suction 303 and central filter 81,82 and 83, then is inhaled into air handling blower 70.The air that is incorporated into air handling blower 70 is sent to the top of air handling blower 70, and carries out heat exchange by heat exchanger 60.The air that has carried out heat exchange by heat exchanger 60 from main body 2 via the side air exhausting of main body 2 portal 105 and 106 and upper air tap 110 discharge.

Operation according to the cleaning filtration unit of air-conditioner of the present invention will be described now.

When request operation cleaning filtration unit 700, just from external member control box 709 to external member blower fan 705 and external member power motor 754 power.

Then, produce powerful suction from left cleaner external member 701 and right cleaner external member (not shown) to external member blower fan 705 by external member blower fan 705.Therefore, the impurity of left filter by suction 203 and right filter by suction 303 separates with right filter by suction 303 from left filter by suction 203, and owing to the suction of external member blower fan 705 is inhaled into the dust chamber 711 of left cleaner external member 701 and the dust chamber (not shown) of right cleaner external member (not shown).Such as will be described below, by the impurity of agitator 760 from left filter by suction 203 and the right filter by suction 303 left filter by suctions 203 of cleaning and right filter by suction 303, thereby from left filter by suction 203 and right filter by suction 303 complete removing impurities.The impurity that sucks the dust chamber (not shown) of the dust chamber 711 of left cleaner external member 701 and right cleaner external member (not shown) is sent to the centrifugal space 811 of cyclone separator 706 with air by left dust flexible pipe 703 and right dust flexible pipe 704.The impurity that is sent to the centrifugal space 811 of cyclone separator 706 separates with centrifugation with air by the eddy flow principle, and drops to the bottom in the centrifugal space 811 of cyclone separator 706, and is collected in the dust box 708 by dust connector 860.Here, by cyclone separator hole 819 will be in the centrifugal space 811 of cyclone separator 706 with the impurity centrifugation pure air deliver to external member blower fan 705, and be discharged in the main body 2 by the tap 705B of external member blower fan 705.

Because to 754 power supplies of external member power motor, thereby left cleaner external member 701 and right cleaner external member (not shown) move at above-below direction (arrow Z) along left filter by suction 203 and right filter by suction 303 under the dynamic action of external member power motor 754.More specifically, when external member power motor 754 produces power, just rotation of external member driven wheel 758, thus make 752 rotations of external member wheel.Therefore, left cleaner external member 701 and right cleaner external member (not shown) are because the gear engagement of external member wheel 752 and cleaner external member tooth bar 756 and moving along above-below direction (arrow Z) under the effect of power.Here, left cleaner external member 701 and right cleaner external member (not shown) closely are connected to left filter by suction 203 and right filter by suction 303 by cleaner external member motion guidance spare 770, and only move at above-below direction (arrow Z).In addition, because left cleaner external member 701 and right cleaner external member (not shown) move at above-below direction (arrow Z), thereby the enclosing cover 800 that covers left dust flexible pipe 703 and right dust flexible pipe 704 and left external member power motor cable 753 and right external member power motor cable 753 ' elongates and is rectilinear form, or along 270 bendings of dust hose guide part.Namely, by left dust flexible pipe 703 and right dust flexible pipe 803 and left external member power motor 753 and right external member power motor 753 ', when left cleaner external member 701 and right cleaner external member (not shown) move upward, enclosing cover 800 inserts dust hose guide part 270 and elongates, and when left cleaner external member 701 and right cleaner external member (not shown) move downward, enclosing cover 800 is partly extracted out from dust hose guide part 270, and crooked.

And, thereby because 752 rotations of external member wheel make 766 rotations of external member driven gear, thereby 760 rotations of the agitator of left cleaner external member 701 and right cleaner external member (not shown), thereby with left filter by suction 203 and right filter by suction 303 CONTACT WITH FRICTION.Therefore, the impurity of left filter by suction 203 and right filter by suction 303 can be cleared away, effectively to separate with right filter by suction 303 with left filter by suction 203.

The operation conditions of cleaning filtration unit 700 can followingly be set.

Cleaning filtration unit 700 can be in the run duration operation of air-conditioning unit.In the situation of the run duration cleaning filtration unit 700 of air-conditioning unit operation, cleaning filtration unit 700 can obtain the impurity that falls from left filter by suction 203 and right filter by suction 303, and the air stream sent by air handling blower 70 of blocking-up.Therefore, cleaning filtration unit 700 can only move under the inoperative situation of air-conditioning unit.Even stop the operation of air-conditioning unit, operation after the scheduled time that cleaning filtration unit 700 also can stop to begin at the air handling blower 70 from air-conditioning unit is with the impact of the excess power that is not subjected to air handling blower 70.

Cleaning filtration unit 700 can operation before or after each air-conditioning unit operation, periodically operation, move or move according to the pollution level that left filter by suction 203 and right filter by suction 303 detect according to the signal of remote controller or cleaner switch according to the number of times of the air conditioning operation of air-conditioner.

The operation method of cleaning filtration unit 700 can followingly arrange.

When left cleaner external member 701 and right cleaner external member (not shown) move up or down along left filter by suction 203 and right filter by suction 303, can drive external member blower fan 705.In addition, when left cleaner external member 701 and right cleaner external member (not shown) move up and down along left filter by suction 203 and right filter by suction 303, can drive external member blower fan 705.

Left cleaner external member 701 and right cleaner external member (not shown) can while or alternate runs.

Left cleaner external member 701 and right cleaner external member (not shown) can move up or down once or move back and forth one or many.

In left external member photoelectric sensor 782 and right external member photoelectric sensor 784 (not shown) position probing during to left cleaner external member 701 and right cleaner external member (not shown), they just stop at the motion on the current direction of motion, perhaps change the direction of motion.

After left cleaner external member 701 and right cleaner external member (not shown) are arrived by left external member photoelectric sensor 782 and right external member photoelectric sensor 784 (not shown) position probing, if they are not arrived by left external member photoelectric sensor 782 and right external member photoelectric sensor 784 (not shown) position probing in the given time, then they just are considered to be arrived by left external member photoelectric sensor 782 and right external member photoelectric sensor 784 (not shown) position probing.Therefore, left cleaner external member 701 and right cleaner external member (not shown) can change the direction of motion or out of service.

Begin request according to operation, left cleaner external member 701 and right cleaner external member (not shown) can or bring into operation such as the top of motion path or the specific location of bottom part in current location.

According to the end of run request, left cleaner external member 701 and right cleaner external member (not shown) can or stop such as the top of motion path or the specific location of bottom part in current location.

The operation of the number of times that moves up and down or remote controller or cleaner switch that can be by time, left cleaner external member 701 and right cleaner external member (not shown) determines that the operation of cleaning filtration unit 700 begins and finishes.

Simultaneously, under the state that plate 500 is opened and lower panel 150 separates from main body 2 in front, by the operation of cleaning filtration unit 700 collect impurity dust box 708 can from main body 2 separately, emptied and be reinstalled on the main body 2.

Although described the preferred embodiments of the present invention, it should be understood that, the present invention should not be limited to these preferred embodiments, but those skilled in the art can carry out multiple variation and remodeling in the present invention for required protection spirit and scope thereafter.

The various aspect protected of requiring of the present invention will be described now.Below be described as being the part that the present invention describes in detail.Below describe and must be considered to the technology of the present invention thought of understanding with regard to each viewpoint, or be used for the minimum technology according to air-conditioner of the present invention, and not as restricted boundary of the present invention.

Air-conditioner claimed in claim 1 in the application.

Air-conditioner claimed in claim 2 in the application.For example, described cable can be external member power cable and/or photoelectric sensor cable.

The described air-conditioner of claim 3 to 6 in the application.In this structure, in described air-conditioner, guaranteed to be used for the space of described controller by the confined space, and guaranteed to be used for the space of the described critical piece of the described filter of automated cleaning at described base portion place.

The described air-conditioner of claim 7 to 10 in the application.In this structure, can easily take out described dust box from described air-conditioner.

The method of the described operating air conditioner of the claim 11 in the application.It shows an example according to air-conditioner of the present invention.

The method of the described operating air conditioner of the claim 12 in the application.According to the method, can be in the inactive state that does not have dust to be moved into the described filter of automated cleaning.

Claims (11)

1. air-conditioner, this air-conditioner comprises:

Heat exchanger, this heat exchanger are used for carrying out heat exchange with air;

Air suction inlet, this air suction inlet is used for air amount;

Filter, this filter are used for falling dust from the air filtration by described air suction inlet;

Suction panel, described suction panel comprises left and right suction panel, described filter is installed in respectively in the described left and right suction panel;

Cleaning unit, this cleaning unit can along described filter movement, be used for removing dust by utilizing suction from described filter;

Position detection unit, this position detection unit is installed on respectively a left side, right suction panel, and be arranged to detect uppermost position and the bottom position whether described cleaning unit arrives described filter, wherein, described position detection unit comprises: the primary importance detecting unit that is positioned at the upper and lower of described suction panel, the primary importance detecting unit of the upper and lower of described suction panel comprises respectively pair of sensors, and second place detecting unit, thereby it is corresponding with the described primary importance detecting unit at suction panel place that described second place detecting unit is formed in the described cleaning unit, wherein, described pair of sensors is outstanding towards the rear portion of suction panel, thereby be spaced apart from each other, so that second place detecting unit can enter between the described pair of sensors; And

Controller, this controller are used for the motion of described cleaning unit is controlled.

2. air-conditioner according to claim 1, this air-conditioner comprises:

The power motor cable that can move with described cleaning unit, this power motor cable are used for power supply and described cleaning unit are connected to described controller; And

Be used for receiving the guiding piece of described power motor cable.

3. air-conditioner according to claim 2, this air-conditioner comprises base portion, and described heat exchanger is positioned at the top of described base portion, and described controller is installed in described base portion place.

4. air-conditioner according to claim 3, this air-conditioner comprises the suction generator, described suction generator is positioned at described base portion place, for generation of suction.

5. air-conditioner according to claim 4 comprises:

Dust flexible pipe, this dust flexible pipe be used for described cleaning unit be connected the suction generator and connect; And

Dust hose guide part, this dust hose guide part is arranged on the rear portion of described suction generator, is used for guiding described dust flexible pipe.

6. air-conditioner according to claim 4, wherein, described controller is positioned at a side of described suction generator.

7. air-conditioner according to claim 4, this air-conditioner comprises the dust box, described dust box is connected with described suction generator, and is positioned at described base portion place.

8. air-conditioner according to claim 7, wherein, described dust box is positioned at the front portion of described suction generator.

9. air-conditioner according to claim 8, wherein, described controller is positioned at a side of described suction generator.

10. the method for an operating air conditioner, this air-conditioner comprises: heat exchanger, this heat exchanger are used for carrying out heat exchange with air; Air suction inlet, this air suction inlet is used for air amount; Blower fan, this blower fan are used for air is guided to described heat exchanger from described air suction inlet; Filter, this filter are used for falling dust from the air filtration by described air suction inlet; Suction panel, described suction panel comprises left and right suction panel, described filter is installed in respectively in the described left and right suction panel; Cleaning unit, this cleaning unit can along described filter movement, be used for removing dust by utilizing suction from described filter; Position detection unit, this position detection unit are installed on respectively left and right suction panel and are arranged to detect uppermost position and the bottom position whether described cleaning unit arrives described filter; And controller, this controller is used for the motion of described cleaning unit is controlled, wherein, described position detection unit comprises: the primary importance detecting unit that is positioned at the upper and lower of described suction panel, the primary importance detecting unit of the upper and lower of described suction panel comprises respectively pair of sensors, and second place detecting unit, thereby it is corresponding with the described primary importance detecting unit at suction panel place that described second place detecting unit is formed in the described cleaning unit, wherein, described pair of sensors is outstanding towards the rear portion of suction panel, thereby be spaced apart from each other, so that second place detecting unit can enter between the described pair of sensors

Described method comprises:

First step for the operation of interrupting described blower fan; And

Be used for making described cleaning unit along the second step of described filter movement based on the result from described position detection unit.

11. method according to claim 10, the method comprises: the step that is used for blocking described air suction inlet before described second step.

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