CN103925656A

CN103925656A - Outdoor unit of air conditioner

Info

Publication number: CN103925656A
Application number: CN201310627164.2A
Authority: CN
Inventors: 伊藤和穗; 山田博; 山内秀高; 竹内裕人
Original assignee: Mitsubishi Electric Corp
Current assignee: Mitsubishi Electric Corp
Priority date: 2013-01-15
Filing date: 2013-11-29
Publication date: 2014-07-16
Anticipated expiration: 2033-11-29
Also published as: JP5955233B2; JP2014137155A; CN203642378U; CN103925656B

Abstract

The invention provides an outdoor unit of an air conditioner capable of inhibiting electric corrosion of a parallel pipe heat exchanger. Comprising: a bottom plate (12) made of a thin steel plate; an aluminum or aluminum alloy parallel tube heat exchanger (1) provided on the bottom plate (12); first and third support members (15A, 16A) made of synthetic resin and provided at the lower end of the parallel tube heat exchanger (1), the first and third support members (15A, 16A) having: a pair of side plates extending in the transverse direction of the parallel tube heat exchanger (1) and facing each other, supporting the lower end portion of the parallel tube heat exchanger (1); an inclined plate disposed between the pair of side plates and inclined downward from one end toward the other end; and the drain holes are arranged at two ends of the inclined plate.

Description

The off-premises station of air conditioner

Technical field

The present invention relates to the off-premises station of the air conditioner of the parallel pipe heat exchanger that is for example equipped with aluminum or aluminium alloy system.

Background technology

Disclose a kind of off-premises station that disposes the air conditioner of distance piece between heat exchanger and base plate.Fin and tubing that heat exchanger uses are made up of aluminum or aluminum alloy.Base plate is made up of steel plate, and distance piece forms by metal or the synthetic resin etc. lower than aluminium current potential are nonmetal.By configuring this distance piece, can suppress the corrosion (for example,, with reference to patent documentation 1) of the fin of heat exchanger.

[prior art document]

[patent documentation]

[patent documentation 1] TOHKEMY 2005-114273 communique

In the off-premises station of air conditioner, sometimes on heat exchanger, be attached with the metal object such as iron powder or copper powder.Be attached to iron powder on heat exchanger or copper powder are not fluidly trapped in the heat exchanger contacting with distance piece together with water bottom by invading rainwater in off-premises station or drain water.In the long-term lasting situation of this state, in the off-premises station of above-mentioned air conditioner in the past, there is the problem that causes heat exchanger galvano-cautery.

Summary of the invention

The present invention researches and develops for solving above-mentioned problem, its objective is the off-premises station of the air conditioner that obtains a kind of galvano-cautery that can suppress heat exchanger.

The off-premises station of air conditioner of the present invention has: metal base plate; Heat exchanger, by the surface flowing into for air toward the outer side and be arranged on base plate, is made up of the metal different from the material of this base plate; Plastic lower support parts, it is arranged on the bottom of heat exchanger, and lower support parts have: pair of side plates, along the laterally extending of heat exchanger mutually relative, the bottom of supporting heat exchanger; Hang plate, is arranged between pair of side plates, along with tilting downwards from one end trend other end; Osculum, is arranged on the two ends of hang plate.

The effect of invention

In the present invention, on the plastic lower support parts of bottom that are arranged at heat exchanger, be provided with hang plate, and, two ends at hang plate are provided with osculum, so, even if rainwater or drain water are attached on heat exchanger, this water also flows downwards and discharges to base plate from osculum along hang plate.Therefore, rainwater or drain water are not trapped in the bottom of heat exchanger, can prevent the galvano-cautery of heat exchanger.

Brief description of the drawings

Fig. 1 is the stereogram that represents the off-premises station of the air conditioner of embodiment with decomposing.

Fig. 2 is the stereogram of the upper end side of the parallel pipe heat exchanger of presentation graphs 1.

Fig. 3 is the stereogram of the bottom side of the parallel pipe heat exchanger of presentation graphs 1.

Fig. 4 is the stereogram of an end of the left and right directions of the parallel pipe heat exchanger of presentation graphs 1.

Fig. 5 is the stereogram that represents first and second support unit of the parallel pipe heat exchanger of embodiment.

Fig. 6 is the amplification view of the top view of first and second support unit and the X-X cutaway view of first and second support unit and a part.

Fig. 7 cuts away the top view shown in the part of top board.

Fig. 8 is the Y-Y cutaway view of Fig. 7.

Fig. 9 is mounted in the side view of the second support unit on the upper end of positive planar portions of parallel pipe heat exchanger.

Figure 10 is the stereogram of observing the upper end of fan motor support unit from oblique upper.

Detailed description of the invention

Below, about the embodiment of the off-premises station of air conditioner of the present invention, use accompanying drawing to describe in detail.

Fig. 1 is the stereogram that represents the off-premises station of the air conditioner of embodiment with decomposing, Fig. 2 is the stereogram of the upper end side of the parallel pipe heat exchanger of presentation graphs 1, Fig. 3 is the stereogram of the bottom side of the parallel pipe heat exchanger of presentation graphs 1, and Fig. 4 is the stereogram of an end of the left and right directions of the parallel pipe heat exchanger of presentation graphs 1.

The off-premises station of the air conditioner of present embodiment is formed by the front panel 13, side panel 14 and the top board 19 that have the base plate 12 of foot 11, for example parallel pipe heat exchanger 1 that inner face is arranged at base plate 12 toward the outer side, relatively configure with the back side of parallel pipe heat exchanger 1, and outward appearance is case shape.In addition, in parallel pipe heat exchanger 1, the inflow side of air is the back side, and the outflow side of air is surface.

In addition, the dividing plate 10 that the inside of off-premises station is arranged between surface and the front panel 13 of parallel pipe heat exchanger 1 is divided into fan house 5 and Machine Room 9.In fan house 5, be provided with fan motor 3, this fan motor 3 is arranged at the surface of parallel pipe heat exchanger 1.On this fan motor 3, propeller type fan 2 is installed.In Machine Room 9, dispose the compressor 6 that is arranged on base plate 12, refrigerant piping 7, electric component 8 etc.Above-mentioned base plate 12 is formed by for example sheet metal with electric conductivity.

Parallel pipe heat exchanger 1 for example by positive planar portions 1a, from one end, left side of positive planar portions 1a to bight 1b that nearby lateral buckling forms and further form to the 1c of lateral plane portion that nearby side is extended from bight 1b.That is to say, this parallel pipe heat exchanger 1 is formed as plane L word shape.Be provided with collector at its both ends, between collector, dispose side by side multiple partially flat pipes, between partially flat pipe, dispose corrugated fin.Collector, partially flat pipe and corrugated fin are formed by aluminium (or aluminium alloy), and collector and partially flat pipe, partially flat pipe and corrugated fin are interfixed by soldering or welding respectively.

Being connected with compressor 6 via refrigerant piping 7 by the collector of Machine Room 9 sides in the collector at two ends, in addition, be connected with compressor 6 via the heat exchanger of not shown indoor set etc.The parallel pipe heat exchanger 1 of this off-premises station plays a role as evaporimeter in the time heating running, in the time of cooling operation, plays a role as condenser.

Bottom at the positive planar portions la of parallel pipe heat exchanger 1 is provided with the first support unit 15A as lower support parts, the second support unit 15B(as upper support parts is installed with reference to Fig. 1～Fig. 3 in the upper end of this front planar portions 1a).As shown in Figure 4, this first and second support unit 15A, 15B are embedded into connecting member 20, and both sides are fastened by screw 21.In addition, first and second support unit 15A, 15B illustrate in the back, are formed as same shape.

In addition, in the bottom of the 1c of lateral plane portion of parallel pipe heat exchanger 1, the 3rd support unit 16A as lower support parts is installed, in the upper end of the 1c of this lateral plane portion, the 4th support unit 16B as upper support parts is installed.In addition, the 3rd and the 4th support unit 16A, 16B illustrate in the back, are formed as same shape.

Said fans motor 3 is fixed on the fan motor support unit 4 with the second support unit 15B engaging of parallel pipe heat exchanger 1.In addition, about fan motor support unit 4 explanation in the back.

Electric component 8 is by forming to the circuit substrate of the power supplies such as fan motor 3, compressor 6.In the time that the electric power by from this electric component 8 is supplied with fan motor 3, propeller type fan 2 rotates.Now, attract air and it is passed through from positive planar portions 1a, the bight 1b of parallel pipe heat exchanger 1 and the back side of the 1c of lateral plane portion, and from surface, this air being sent in fan house 5.The air of sending into is forwards discharged from the horn mouth 13a of front panel 13.For example, in cooling operation, the cold-producing medium in parallel pipe heat exchanger 1 is cooling by air, and air and the cold-producing medium heat exchange of having passed through parallel pipe heat exchanger 1 are heated.

As the assembling sequence of above-mentioned each parts, first, the first support unit 15A is installed in the bottom of the positive planar portions 1a of parallel pipe heat exchanger 1, and the second support unit 15B is installed in end thereon.Then, this upper and lower first and second support unit 15A, 15B are embedded to connecting member 20 fastening by screw 21.In addition, in the bottom of the 1c of lateral plane portion of parallel pipe heat exchanger 1, the 3rd support unit 16A is installed, and the 4th support unit 16B is installed in end thereon.

Then, this parallel pipe heat exchanger 1 is arranged and is fixed on base plate 12, and then compressor 6 is fixed on base plate 12, the refrigerant piping 7 being connected with compressor 6 is connected in to parallel pipe heat exchanger 1.By 4 engagings of fan motor support unit and to be fixed on the second support unit 15B of positive planar portions 1a upper, and fan motor 3 is fixed on fan motor support unit 4.And, propeller type fan 2 is arranged on fan motor 3, dividing plate 10 is arranged on connecting member 20, and electric component 8 is fixed on dividing plate 10.Finally, front panel 13 and side panel 14 are arranged on base plate 12, and top board 19 is arranged in front panel 13 and side panel 14 and covers top.

Below, about the structure of first and second support unit 15A, 15B, use Fig. 5～Fig. 8 to describe.

Fig. 5 is the stereogram that represents first and second support unit of the parallel pipe heat exchanger of embodiment, Fig. 6 is the amplification view of the top view of first and second support unit and the X-X cutaway view of first and second support unit and a part, Fig. 7 is the top view illustrating partially that cuts away top board, and Fig. 8 is the Y-Y cutaway view of Fig. 7.

First and second support unit 15A, 15B are formed by synthetic resin.As shown in Figures 5 and 6, this first and second support unit 15A, 15B are made up of following part: along the laterally extending of parallel pipe heat exchanger 1 mutual relative pair of side plates 15a, 15b; Hang plate 15d, its cut off abreast in the longitudinal direction connect the dull and stereotyped 15c of pair of side plates 15a, 15b and arrange multiple, from dull and stereotyped 15c to a direction towards having a down dip; Be arranged on osculum 15e, the 15f of the both end sides of hang plate 15d; Support plate 15g, it is configured in the position higher than the hang plate 15d of the medial surface of pair of side plates 15a, 15b, and is configured to the state mutually staggering along the length direction of this side plate 15a, 15b; Be arranged on the positioning salient 15h of the fan motor support unit 4 on the lateral surface of a side plate 15a; Fitting portion 15i, it is arranged on the lateral surface of another side plate 15b highlightedly, and embeds fan motor support unit 4.Above-mentioned support plate 15g has the hook function that is provided with protruding structure, and this protruding structure embeds bottom and the upper end of the positive planar portions 1a of parallel pipe heat exchanger 1.

In an end of the left and right directions of this first and second support unit 15A, 15B, as shown in Figures 5 and 6, be provided with the collector insertion section 15j inserting for the end of collector.On the 15j of this collector insertion section, be provided with the screwed hole 15k being screwed into for above-mentioned screw 21.In addition, the other end opening of first and second support unit 15A, 15B, the situation of observing from this opening, cross section is formed as roughly H font.In addition, the hang plate 15d that is positioned at the other end side becomes level from assigned position, and is connected with above-mentioned opening.That is to say, this opening becomes osculum.

Although the 3rd and the 4th support unit 16A, 16B are not shown, are similarly formed by synthetic resin with first and second support unit 15A, 15B, and form shortlyer than the length of first and second support unit 15A, 15B.For example, be provided with a hang plate between pair of side plates, be provided with osculum in the high position of this hang plate, the low part of hang plate becomes level and is that opening is connected with osculum from assigned position.In an end of the left and right directions of the 3rd and the 4th support unit 16A, 16B, be similarly provided with collector insertion section with first and second support unit 15A, 15B.In addition, illustrated that the 3rd and the 4th support unit 16A, 16B have the situation of a hang plate, but it is an example, 2 or 2 above hang plates also can be set.

Be provided with the first support unit 15A in the bottom of parallel pipe heat exchanger 1, make the support plate 15g of the first support unit 15A upward, the bottom of the positive planar portions 1a of parallel pipe heat exchanger 1 is inserted in the groove between side plate 15a, 15b until contact with support plate 15g, and by the bottom insertion collector insertion section 15j of collector.Then, make the support plate 15g of the first support unit 15A shown in Fig. 5 downward as the second support unit 15B, the upper end of the positive planar portions la of parallel pipe heat exchanger 1 is inserted in the groove between side plate 15a, 15b until contact with support plate 15g, and by the upper end insertion collector insertion section 15j of collector.And, as mentioned above, upper and lower first and second support unit 15A, 15B are embedded to connecting member 20 fastening by screw 21.

As shown in Figure 1, the 3rd support unit 16A is installed in the bottom of the 1c of lateral plane portion of parallel pipe heat exchanger 1, and the above-below direction of the 3rd support unit 16A is put upside down and as the 4th support unit 16B, and is arranged on the upper end of the 1c of lateral plane portion.The installation method of the 3rd and the 4th support unit 16A, 16B is identical with first and second support unit 15A, 15B.

And, the parallel pipe heat exchanger 1 that first and second support unit 15A, 15B and the 3rd and the 4th support unit 16A, 16B are installed is arranged and is fixed on base plate 12.In this case, the bottom of parallel pipe heat exchanger 1 across the first support unit 15A and the 3rd support unit 16A be arranged on base plate 12, so the parallel pipe heat exchanger 1 of steel-sheet base plate 12 and aluminium (or aluminium alloy) system does not directly contact.In addition, even if rainwater or drain water are attached in the positive planar portions 1a of parallel pipe heat exchanger 1, this water also flows into the first support unit 15A, and flows downwards along hang plate 15d, flows to base plate 12 from osculum 15f or the opening that is formed at the other end of the first support unit 15A.In addition, even if rainwater or drain water are attached in the 1c of lateral plane portion of parallel pipe heat exchanger 1, this water also flows into the 3rd support unit 16A, flows downwards along hang plate, flows to base plate 12 from the opening of the other end of being formed at the 3rd support unit 16A.

In addition, even in the situation that covering top board 19, owing to being separated with the second support unit 15B and the 4th support unit 16B between top board 19 and the upper end of parallel pipe heat exchanger 1, so as shown in Figure 8, the interval of top board 19 and parallel pipe heat exchanger 1 can be kept to certain, the top board 19 of sheet metal system does not directly contact with the parallel pipe heat exchanger 1 of aluminium (or aluminium alloy) system.In addition, the water droplet that is attached to the rainwater of the inner face of top board 19 by rolling of wind falls, and this water flows downwards along hang plate 15d, and flows downwards from osculum 15e.

Below, about the structure of fan motor support unit 4, use Fig. 9 and Figure 10 to describe.

Fig. 9 is mounted in the side view of the second support unit on the upper end of positive planar portions of parallel pipe heat exchanger, and Figure 10 is the stereogram of observing the upper end of fan motor support unit from oblique upper.In addition, about entirety and the bottom of fan motor support unit, describe with reference to Fig. 1 and Fig. 3.

Fan motor support unit 4 is for example formed by steel plate.As shown in Figure 1, this fan motor support unit 4 is formed as the rectangle extending longitudinally along parallel pipe heat exchanger 1, and portion is fixed with fan motor 3 in the central.In the upper end of fan motor support unit 4, be provided with as shown in figure 10 engaging portion 4a, this engaging portion 4a has the groove with the lower opening of the second support unit 15B engaging.At the central portion of the side plate 15a side of the second support unit 15B of this engaging portion 4a, the mode entering for positioning salient 15h is provided with notch 4b.

In the both sides of the bottom of fan motor support unit 4, be provided with as shown in Figure 3 flexure strip 4c, this flexure strip 4c clamps the side that is arranged on the fitting portion 15i on the side plate 15b of the first support unit 15A.In addition, in the central authorities of the bottom of fan motor support unit 4, be provided with along parallel pipe heat exchanger 1 side and extend and bend with right angle the distance piece 4d forming upward.The Surface Contact of this distance piece 4d and parallel pipe heat exchanger 1, for keeping certain by fan motor support unit 4 and the interval of parallel pipe heat exchanger 1.

By above-mentioned positioning salient 15h, make to be fixed on the axle center of the fan motor 3 on fan motor support unit 4 and the horn mouth 13a center of front panel 13 is roughly consistent, prevent axle offset.

Above, according to embodiment, on the plastic first support unit 15A of bottom that is arranged at parallel pipe heat exchanger 1, be provided with multiple hang plate 15d, and be provided with osculum 15e, 15f at the two ends of each hang plate 15d, so, even if rainwater or drain water are attached on parallel pipe heat exchanger 1, this water also flows downwards along hang plate 15d, and discharges to base plate 2 from osculum 15f.Therefore, rainwater or drain water are not trapped in the bottom of parallel pipe heat exchanger 1, can prevent the galvano-cautery of parallel pipe heat exchanger 1.

In addition, due to the upper end at top board 19 and parallel pipe heat exchanger 1 be interval with the second support unit 15B and the 4th support unit 16B, so the interval of top board 19 and parallel pipe heat exchanger 1 can be kept to certain.Therefore, the top board 19 of sheet metal system does not directly contact with the parallel pipe heat exchanger 1 of aluminium (or aluminium alloy) system, can prevent the galvano-cautery causing because of adhering to of rainwater.

In addition, utilize engaging portion 4a and the second support unit 15B engaging of the upper end that is arranged at fan motor support unit 4.And, utilize the flexure strip 4c of the both sides of the bottom that is arranged at fan motor support unit 4 to clamp the side of the fitting portion 15i on the side plate 15b that is arranged on the first support unit 15A, fan motor support unit 4 is fixed on parallel pipe heat exchanger 1.Therefore, the installation of fan motor 3 becomes easily, and, at the central portion of the side plate 15a side of the second support unit 15B of engaging portion 4a, the mode entering for positioning salient 15h is provided with notch 4b, so, can prevent the dislocation of the left and right directions of fan motor 3.

In addition, because the structure of first and second support unit 15A, 15B is identical, and the structure of the 3rd and the 4th support unit 16A, 16B is identical, thus can reduce part number, and can reduce the manufacturing cost of off-premises station.

The explanation of Reference numeral

1 parallel pipe heat exchanger, the positive planar portions of 1a, 1b bight, 1c lateral plane portion, 2 propeller type fans, 3 fan motors, 4 fan motor support units, 4a engaging portion, 4b notch, 4c flexure strip, 4d distance piece, 5 fan houses, 6 compressors, 7 refrigerant pipings, 8 electric components, 9 Machine Rooms, 10 dividing plates, 11 foots, 12 base plates, 13 front panels, 13a horn mouth, 14 side panel, 15A the first support unit, 15B the second support unit, side plate of 15a, another side plate of 15b, 15c flat board, 15d hang plate, 15e, 15f osculum, 15g support plate, 15h positioning salient, 15i fitting portion, 15j collector insertion section, 15k screwed hole, 16A the 3rd support unit, 16B the 4th support unit, 19 top boards, 20 connecting members, 21 screws.

Claims

1. an off-premises station for air conditioner, is characterized in that, has:

Metal base plate;

Heat exchanger, described heat exchanger be arranged on described base plate and make for air flow into surface toward the outer side, described heat exchanger is made up of the metal different from the material of described base plate;

Plastic lower support parts, described lower support parts are arranged on the bottom of described heat exchanger,

Described lower support parts have: pair of side plates, and described pair of side plates is along the laterally extending of described heat exchanger mutually relative, the bottom of supporting described heat exchanger; Hang plate, described hang plate is arranged between described pair of side plates, along with tilting downwards from one end trend other end; Osculum, described osculum is arranged on the two ends of described hang plate.

2. the off-premises station of air conditioner as claimed in claim 1, is characterized in that, described hang plate is provided with multiple on the length direction of described side plate.

3. the off-premises station of air conditioner as claimed in claim 1 or 2, it is characterized in that, there are plastic upper support parts, described upper support parts are configured to the shape identical with described lower support parts, put upside down with the above-below direction of described lower support parts, and be arranged on the upper end of described heat exchanger.

4. the off-premises station of air conditioner as claimed in claim 3, is characterized in that,

Have the positioning salient of fan motor support unit, described positioning salient is arranged at the lateral surface of a side plate of described upper support parts highlightedly,

Described positioning salient is positioned at the rear side of described heat exchanger.