CN101498479A - Air conditioner - Google Patents

Abstract

The invention provides an air conditioner capable of discharging all antibacterial ingredients mixed in the water after the drain pump is stopped. An antibacterial agent unit (110) having a recess portion (90) located below a suction port (71A) of the drain pump (71), the antibacterial agent unit is provided with a mount portion (91) around the recess portion (90), antibacterial agent being filled in the mount portion, a first opening portion through which drain water dropping from the suction port (71A) of the drain pump into the recess portion (90) is introduced into the mount portion when the drain pump (71) is stopped, and a second opening portion through which the drain water introduced into the mount portion is discharged to the outside of the antibacterial agent unit having.

Description

Aircondition

Technical field

The present invention relates to a kind of aircondition that utilizes draining pump that draining is carried out in the discharge water that stores in drain pan.

Background technology

Existence will store that discharge water in drain pan is extracted and the aircondition that carries out draining.In this aircondition, store the sticking juice (hereinafter referred to as mucus) that discharge water in drain pan produces semisolid (half shape) admittedly sometimes, this mucus probably can be stopped up draining pump or scupper hose.In order to eliminate above-mentioned unfavorable condition, propose to have at the device (for example with reference to patent documentation 1) of the draining of being located at drain pan with the configuration antiseptic unit, top position of bolt.

Patent documentation 1:(Japan) spy opens the 2006-194493 communique

But from driving state that draining pump extracts discharge water when stopping this driving, the discharge water in the extraction falls and stores in drain pan because of gravity.Because the discharge water continuation keeps storing the state in drain pan, this situation becomes the state that is easy to generate mucus, so fully mix antimicrobial component in the discharge water of hope after draining pump stops.

Yet in structure in the past, the antiseptic unit is disposed at the position of leaving from draining pump, is difficult to antimicrobial component is mixed in whole discharge waters, causes the concentration of antimicrobial component to produce deviation.In addition, even if only the antiseptic unit is disposed near the draining pump, also be difficult to make antimicrobial component to be mixed into from whole discharge waters that draining pump falls.

Summary of the invention

Therefore, in order to solve the problem that above-mentioned prior art exists, the object of the present invention is to provide a kind of aircondition that antimicrobial component can be mixed in whole discharge waters residual after draining pump stops.

In order to solve above-mentioned problem, aircondition of the present invention has: heat exchanger, be undertaken on the drain pan of the discharge water of this heat exchanger generation, extraction lodges in the discharge water in this drain pan and the draining pump that carries out draining, it is characterized in that, has the antiseptic unit that below described draining pump intake, has recess, this antiseptic unit is provided with the incorporating section of taking in antiseptic around described recess, and be formed with first peristome and second peristome, described first peristome will fall and the discharge water that flow in the recess imports to described incorporating section from described draining pump intake, and described second peristome can be discharged to the discharge water that imports to described incorporating section outside the unit.

According to this invention, the antiseptic unit has recess below the draining pump intake, this antiseptic unit is provided with the incorporating section of taking in antiseptic around recess, and be formed with first peristome and second peristome, this first peristome will fall and the discharge water that flow in the recess imports to the incorporating section from the draining pump intake, this second peristome can be discharged to the discharge water that imports to described incorporating section outside the unit, therefore, it is diffused into the drain pan, antimicrobial component is mixed in whole discharge waters in that antimicrobial component is mixed into after the discharge water that draining pump falls.

In said structure, also can be located at the wall portion of described recess for described first peristome, described second peristome is located at the cap of the described incorporating section that covers described antiseptic unit, takes in described antiseptic between this wall portion and cap.According to this structure, can make from the draining pump intake to fall and the discharge water that flow in the recess contacts with antiseptic in the incorporating section effectively.

In addition, in said structure, also can be located at the wall portion of described recess for described first peristome, described second peristome is located at the periphery wall portion of described antiseptic unit, takes in described antiseptic between these wall portions.According to this structure, also can make from the draining pump intake to fall and the discharge water that flow in the recess contacts with antiseptic in the incorporating section effectively.

In addition, in said structure,, also can below described draining pump intake, the through hole that draining is used be set to described drain pan, and, the bolt of closing this through hole is set, form described antiseptic unit in the end of described bolt.According to this structure, compare with the situation that this antiseptic unit is formed in addition, there is no need to guarantee in addition its configuration space, it is easy that the configuration of antiseptic unit becomes.

According to the present invention, has the antiseptic unit that below the draining pump intake, has recess, this antiseptic unit is provided with the incorporating section of taking in antiseptic around recess, and be formed with first peristome and second peristome, this first peristome will fall and the discharge water that flow in the recess imports to the incorporating section from the draining pump intake, this second peristome can be discharged to the discharge water that imports to the incorporating section outside the unit, therefore, antimicrobial component is mixed at draining pump stops in the residual whole discharge waters in back.

Description of drawings

Fig. 1 is the figure of the aircondition of expression present embodiment;

Fig. 2 is the exploded perspective view of indoor set body;

Fig. 3 (A), (B) are the exploded perspective views that indoor set body and pressure fan are represented in the lump;

Fig. 4 is the profile that draining pump and peripheral structure are represented in the lump;

Fig. 5 is vertical view and a side view of being located at the bolt of drain pan;

Fig. 6 is the sectional side view that bolt and draining pump intake are represented in the lump;

Fig. 7 is the figure that the antiseptic unit and the peripheral structure of variation are represented in the lump;

Fig. 8 is the sectional side view that is used to illustrate the antiseptic unit of variation;

Fig. 9 is the stereogram of the antiseptic unit of expression variation.

Description of reference numerals

1 indoor set body, 3 pressure fans

5 heat exchangers, 7 drain pans

7H draining recoverer 71 draining pumps

71A suction inlet 74 through holes

75 bolts, 81 bolt bodies

82 caps, 84 flange parts

85 handle portions, 86,90 recesses

91 slot parts (incorporating section), 92 antiseptics

94 wall portions, 95 first open pores (first peristome)

96 second open pores (second peristome), 100 airconditions

110 antiseptic unit

The specific embodiment

Below, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is the figure of the aircondition of expression present embodiment.This aircondition 100 be have two air blow-off outlets, so-called two Direction boxs (2 direction カ セ _StarCeiling embedded air-conditioner ト), it has: box-shaped indoor set body 1 and the off-premises station (not shown) that is connected with indoor set body 1 pipe arrangement.

Various apparatuses such as pressure fan 3, heat exchanger 5, foam styrene system drain pan 7 and draining pump described later in indoor set body 1, have been taken in, be suspended to the ceiling that is conditioned the chamber via many hanging bolts (not shown), on the opening surface of this indoor set body 1 downside, decoration panel 9 is installed overlappingly.

Fig. 2 is the exploded perspective view of indoor set body 1.Indoor set body 1 has the outer container (framework) 11 of metallic plate system.This outer container 11 constitutes to have: be bent into コ font roughly outer container body 11A, be installed on a pair of end plate 11B at this outer container body 11A two ends.Dispose heat insulating member 13 in the inboard of this outer container 11.This heat insulating member 13 is by constituting as lower member: with end part (internal foam styrene) 13A of a pair of foam styrene system of the corresponding configuration of each end plate 11B, with the attaching parts 13B of the polyethylene system that connects between the part 13A of these ends.

In the space that is surrounded by this heat insulating member 13, dispose and form the roughly heat exchanger 5 of U font, below this heat exchanger 5 (top of Fig. 2), dispose the drain pan 7 of reception by the foam styrene system of the discharge water of heat exchanger 5 generations.This drain pan 7 is chimeric with the lower aperture of outer container 11, is formed with big suction opening 7A in the central authorities of this drain pan 7, is formed with a pair of elongated opening 7B that blows out in the both sides of this opening 7A.

Reference numeral 17 is reinforcement metal parts of metallic plate system, and these reinforcement metal parts 17 are pasting the side edge part of the suction opening 7A of drain pan 7, and the rising wood 11C of the end plate 11B of outer container 11 is fixed at the two ends of reinforcement metal parts 17 via screw (not shown).Outer container 11 easy deformation of this metallic plate system and deflection.Therefore, in the substantial middle portion of outer container 11, be provided with central metal parts 21, it is crossed between the reinforcement metal parts 17 of the outer wall of outer container 11 and drain pan 7, utilize this central authorities' metal parts 21, prevent the opening of central portion of the warpage of top board 11D of outer container 11 and outer container 11.

Fig. 3 is an exploded perspective view of representing indoor set 1 and pressure fan 3 in the lump.As shown in Figure 3, in the space of the heat exchanger 5 of U font roughly, via the suction opening 7A of drain pan 7 pressure fan 3 of packing into.This pressure fan 3 is fixed in the demarcation strip 41 of the metallic plate system that forms box-shaped, and this demarcation strip 41 is fixed in the reinforcement metal parts 17 of indoor set body 1 via a plurality of screws.Particularly, this pressure fan 3 constitutes at central portion configuration motor 31, and the output shaft in these motor 31 both sides is provided with impeller 32.This impeller 32 is surrounded by fan guard 33, and this fan guard 33 is divided into cover 33A up and down and covers 33B down.

Both sides at last cover 33A have formed flange 36, cover the opening that 33A makes its a part of 33C be projected into the outside of demarcation strip 41 and is installed on this demarcation strip 41 on this, and this flange 36 makes screw be fixed in demarcation strip 41 by this flange 36.As shown in Figure 1, this demarcation strip 41 is separated the inside of above-mentioned outer container 11 up and down, forms primary space 41A below demarcation strip 41, forms quadratic space 41B above demarcation strip 41.Because last cover 33A is fixed in demarcation strip 41 via flange 36, thus the increase of the intensity of demarcation strip 41, and can improve sealing between primary space 41A and the quadratic space 41B.

Above-mentioned pressure fan 3 makes air suction inlet face the primary space 41A of demarcation strip 41 belows, make the air blow-off outlet face the quadratic space 41B of demarcation strip 41 tops, and make a part of 33C of fan guard 33 of flange 36 tops that are positioned at cover 33A face the quadratic space 41B of demarcation strip 41 tops.Therefore, according to the running of pressure fan 3, after the suction opening 7A (with reference to Fig. 2) of room air by drain pan 7 is inhaled into primary space 41A, be blown out in the quadratic space 41B.Be positioned at this quadratic space 41B owing to be disposed at the heat exchanger 5 of outer container 11 inboards, so room air carries out heat exchange by heat exchanger 5, tempered air after this heat exchange is blown out to indoorly by a pair of elongated opening 7B that blows out that forms in the suction opening 7A both sides of drain pan 7, carries out room air and is in harmonious proportion.

When this air is in harmonious proportion running, generate discharge water by heat exchanger 5, this discharge water flows to the concavity slot part along heat exchanger 5 formation (constituting the part that portion is accumulated in the draining) 7G (with reference to Fig. 1) that is positioned at drain pan upper face side (below of Fig. 2).The drain pan 7 of this structure forms draining and accumulates the draining carrier 7C (with reference to Fig. 2) of the minimum bottom (hereinafter referred to as draining recoverer 7H) of portion distolateral being provided with of suction opening 7A, and all discharge waters are recycled to draining carrier 7C.

At the upside (below of Fig. 2) of draining carrier 7C, be equipped with extraction and be recovered to the discharge water of draining carrier 7C and the draining pump 71 that carries out draining to the outside.

Fig. 4 is the profile that draining pump 7 and peripheral structure are represented in the lump.

Draining pump 71 faces the mode of the draining recoverer 7H of draining carrier 7C with the suction inlet 71A of this draining pump 71, via the outer container 11 that support plate 72 is fixed in indoor set body 1 is installed.Therefore, when draining pump 71 drove, the discharge water among the draining recoverer 7H was inhaled into draining pump 71, and the scupper hose (not shown) that links via the delivery outlet 71B (with reference to Fig. 2) with this draining pump 71 is discharged to the outside.In this aircondition 100, be in harmonious proportion between on-stream period at air, draining pump 71 is driven, and stops if air is in harmonious proportion to turn round, and then the driving of draining pump 71 also stops.

In addition, insert between draining pump 71 and installation support plate 72 and be provided with a plurality of vibration-proof rubbers 73, the vibration when these vibration-proof rubbers 73 drive draining pump 71 ends to the transmission of outer container 11.

Be provided with the through hole (internal thread hole) 74 that draining is used at this draining recoverer 7H, this through hole 74 is formed at corresponding position under the suction inlet 71A with draining pump 71, this through hole 74 is closed by bolt 75, by removing this bolt 75, the discharge water that stores in drain pan 7 can be discharged, carry out the cleaning work of drain pan 7.In addition, in Fig. 4, Reference numeral 76 is float switches, and the water level that this float switch 76 detects the discharge water that produces because of the fault of draining pump 71 or the obstruction of scupper hose etc. rises.

Fig. 5 represents the vertical view and the side view of this bolt 75, and Fig. 6 is the sectional side view that the suction inlet 71A with this bolt 75 and draining pump 71 represents in the lump.

As Fig. 5 and shown in Figure 6, this bolt 75 has: resin material is the integrally formed and bolt body 81 that forms; The cap 82 of the leading section (upper end) of bolt body 81 is located in loading and unloading freely.This bolt body 81 has: the axial region 83 of the external screw thread shape that formation can connect with through hole 74; Be located at the flange part 84 of the bottom of this axial region 83.

Constitute the bottom (flange part 84 sides) at this bolt body 81, form recess 86 in the mode that leaves the handle portion 85 that in-line roughly extends, by this handle portion 85, the upkeep operation person is tool using this bolt 75 of hand rotation easily not.

In addition, flange part 84 forms the big footpath bigger than through hole 74, when this bolt 75 is connect with through hole 74, and butt and be positioned the installation site of this bolt 75 around the lower end of this flange part 84 and through hole 74.In the present embodiment, as shown in Figure 4, the upper end of bolt 75 is positioned roughly to be positioned at same height with the bottom surface of draining recoverer 7H.In addition, in Fig. 5 and Fig. 6, the external screw thread shape of reduced representation axial region 83.

As shown in Figure 6, be formed with the recess 90 that caves in into substantial cylindrical on the top of axial region 83, in addition, be formed with the annular slot part 91 that surrounds around this recess 90, and annular cap 82 is installed in the mode of the top opening that covers this slot part 91.Promptly, the leading section of bolt 75 forms the general toroidal shape with medium pore, works in the incorporating section of the silver ion antimicrobial agent (being designated hereinafter simply as antiseptic) 92 that the slot part 91 of partes tegmentalis 82 obturations granular as taking in (being sphere in illustrated embodiment) is bigger.

This recess 90 is located at the position relative with the suction inlet 71A of draining pump 71 and formation and the roughly the same internal diameter of this suction inlet 71A when bolt 75 is fixed in through hole 74.And, vertically being arranged at this recess 90 wall portion 94 on every side ringwise, a plurality of first open pores (first peristome) 95 reserved the compartment of terrain at whole face and formed.In addition, at cap 82, a plurality of second open pores (second peristome) 96 are also reserved the compartment of terrain at whole face and are formed, via these open pores 95,96, discharge water free flow in slot part 91.

These open pores 95,96 form the path littler than granular antiseptic 92, thus, can prevent that antiseptic 92 from escaping to the outside in slot part 91.In addition, these open pores 95,96 both can dispose regularly, also can dispose arbitrarily.

Above-mentioned antiseptic 92 prevents agent for mucus produces, and the powder body (antimicrobial component) by contacting with discharge water with silver is mixed in the discharge water, thus, can prevent to produce mucus in discharge water.At this, why use granular antiseptic 92 to be because, also can between each antiseptic 92, guarantee the gap that discharge water is passed through and antimicrobial component (silver powder body) is mixed in the discharge water even if in whole slot part 91, fill up antiseptic 92.Wherein, produce and to prevent that agent from working, be not limited to above-mentioned silver ion antimicrobial agent, also can use other antiseptic as long as can be used as mucus.

Like this, in the present embodiment, recess 90 is formed at the top at bolt 75, around this recess 90, form the slot part (incorporating section) 91 of taking in antiseptic 92, and, form open pore 95,96 respectively in the wall portion 94 of this recess 90 and the cap 82 of covering slot part 91, antiseptic 92 is mixed into the antiseptic unit 110 that stores in the discharge water of drain pan 7 thereby form.

Therefore, from driving state that draining pump 71 extracts discharge waters when stopping this driving, residue in draining pump 71 with scupper hose that draining pump 71 is connected in discharge water fall and flow in the recess 90 on bolt 75 tops from suction inlet 71A.

Flowing shown in solid arrow among Fig. 6 of this discharge water, the discharge water that flow in the recess 90 is arranged at the recess 90 wall portion 94 change flow directions on every side towards setting, by being located at first open pore 95 of this wall portion 94, flow between the antiseptic 92 in slot part 91, after this be discharged to the outside by second open pore 96 of being located at cap 82.

Therefore, the discharge water that falls from the suction inlet 71A of draining pump 71 contact with antiseptic 92 in the slot part 91, behind the mixing antimicrobial component, be diffused in the drain pan 7.Thus, utilize the discharge water that has mixed antimicrobial component, the discharge water that residues in the drain pan 7 is mixed, and antimicrobial component is mixed in residual whole discharge waters.Consequently, can reduce the concentration deviation of the antimicrobial component in whole discharge waters, can avoid producing this situation of mucus, thereby can prevent to produce mucus effectively from the position that concentration becomes extremely low.

In addition, in the present embodiment, because bolt 75 is fixed (with reference to Fig. 4) in the roughly the same mode of the height of the minimum drain pan recoverer 7H bottom surface in its upper end and the drain pan 7, therefore, as long as in drain pan 7, stored discharge water, even if it stores the water yield seldom, also can make discharge water flow into the recess 90 of bolt 75, first open pore 95 of the sidewall 94 by being located at this recess 90 also contacts with antiseptic 92.Thus, irrelevant and can prevent to produce mucus constantly with the water yield of discharge water.

As described above described, according to present embodiment, the suction inlet 71A below that is configured in draining pump 71 has the antiseptic unit 110 of recess 90, this antiseptic unit 110 is provided with the slot part (incorporating section) 91 of taking in antiseptic 92 around recess 90, and be formed with first open pore 95 and second open pore 96, described first open pore 95 will be when this draining pump 71 stops to fall and the discharge water that flow in the recess 90 imports to slot part 91 from suction inlet 71A, described second open pore 96 can be discharged to the discharge water that imports to this slot part 91 outside the unit, therefore, can make antimicrobial component be mixed into from the discharge water that the suction inlet 71A of draining pump 71 falls and be diffused in the drain pan 7, antimicrobial component fully is mixed in whole discharge waters.

In addition, in this structure, owing to form antiseptic unit 110 with bolt 75, so compare with the situation that this antiseptic unit is formed separately, there is no need to guarantee in addition its configuration space, it is easy that the configuration of antiseptic unit 110 becomes.

In addition, in this structure, owing to around recess 90, form the slot part 91 of taking in antiseptic 92, so constituting the central portion that makes this antiseptic unit with hypothesis gives prominence to and the situation that antiseptic 92 is accommodated in this central portion is compared, the accommodation space broadness of antiseptic 92 can be guaranteed, and the exchange interval of antiseptic 92 can be increased.

More than, based on an embodiment the present invention has been described, but the present invention is not limited to this.For example, in the above-described embodiments, illustrated antiseptic unit 110 is installed on situation with the roughly the same height in bottom surface of draining recoverer 7H, but as shown in Figure 7, also can make antiseptic unit 110 outstanding to the top of draining recoverer 7H bottom surface.At this moment, as shown in Figure 8, also can a plurality of the 3rd open pores (the 3rd peristome) 98 that be communicated with slot part 91 be set in the periphery wall portion 97 of antiseptic unit 110.According to this structure, the discharge water that falls from the suction inlet 71A of draining pump 71, behind first open pore, the 95 inflow slot parts 91 via the wall portion 94 that is located at recess 90, not only via second open pore 96 of cap 82, also the 3rd open pore 98 via periphery wall portion 97 is discharged to the outside, so can make discharge water more easily in slot part 91 circulations.

In addition, in the above-described embodiments, the situation that antiseptic unit 110 is formed at the bolt 75 that is provided with at drain pan 7 has been described, but has been not limited to this, shown in the example among Fig. 9, also can separate formation with bolt 75.In the example of Fig. 9, expression forms the situation that has the cylindrical shape of through hole (being equivalent to recess 90) 90A in central authorities with antiseptic unit 110, and is disposed at drain pan 7 in the mode that this through hole 90A is positioned at the suction inlet 71A below of draining pump 71.According to this structure, with the foregoing description similarly, can make antimicrobial component be mixed into from the discharge water that the suction inlet 71A of draining pump 71 falls and spread, antimicrobial component fully is mixed in whole discharge waters.

In addition, the profile of this antiseptic unit 110 is not limited to cylindrical shape, the self-evident different shapes such as prism shape that also can be suitable for.

Claims (4)

1. aircondition has: heat exchanger, be undertaken on the discharge water that this heat exchanger generates drain pan, extract the draining pump that lodges in the discharge water in this drain pan and carry out draining, it is characterized in that,

This aircondition also has the antiseptic unit that has recess below described draining pump intake,

This antiseptic unit is provided with the incorporating section of taking in antiseptic around described recess, and be formed with first peristome and second peristome, described first peristome will fall and the discharge water that flow in the recess imports to described incorporating section from described draining pump intake, and described second peristome can be discharged to the discharge water that imports to described incorporating section outside the unit.

2. aircondition as claimed in claim 1, it is characterized in that, described first peristome is located at the wall portion of described recess, and described second peristome is located at the cap of the described incorporating section that covers described antiseptic unit, takes in described antiseptic between this wall portion and cap.

3. aircondition as claimed in claim 1 is characterized in that, described first peristome is located at the wall portion of described recess, and described second peristome is located at the periphery wall portion of described antiseptic unit, takes in described antiseptic between these wall portions.

4. as each described aircondition in the claim 1～3, it is characterized in that, at described drain pan, below described draining pump intake, the through hole that draining is used is set, and, be provided with the bolt of closing this through hole, form described antiseptic unit in the end of described bolt.

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