JP3572249B2 - Indoor unit of air conditioner - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention particularly relates to an indoor unit of an air conditioner provided with a heat exchanger formed in an inverted V shape, and particularly to a rear plate forming structure.
[0002]
[Prior art]
A commonly used air conditioner includes an indoor unit arranged in a room to be air-conditioned and an outdoor unit arranged outdoors, and these units are connected to each other by a refrigerant pipe and electric wiring.
[0003]
From the user's side, there is a great demand for miniaturization of these units and a reduction in installation space, and each manufacturer has to increase the heat exchange capacity while satisfying such conditions.
[0004]
As one of the solutions, for example, as disclosed in Japanese Utility Model Application Laid-Open No. 4-106425, a front heat exchanger and a rear heat exchanger are formed so as to face a main body and a front panel, respectively. There is an indoor unit of an air conditioner in which a heat exchanger including an exchanger is arranged, and a blower is arranged below the heat exchanger.
[0005]
With such a heat exchanger, a sufficient heat exchange area is secured, and the height of the heat exchanger itself is suppressed, thereby reducing the height of the unit body.
[0006]
[Problems to be solved by the invention]
By the way, when the heat exchanger having such an inverted V-shape is provided, drain water is simultaneously generated in the front heat exchanger and the rear heat exchanger due to the heat exchange action. These drain waters are dropped on a drain pan arranged below each heat exchanger and collected.
[0007]
Although there is no problem with drain water treatment, the front and rear panels have a drain pan before receiving drain water from the front heat exchanger and a drain pan after receiving drain water from the rear heat exchanger, respectively. Manufactured separately and assembled.
[0008]
As a result, the number of parts increases, and the cost of the mold required to manufacture each component has an adverse effect on the cost. In addition, noise (pip noise) due to thermal expansion and the like is generated from the connected parts in the assembled state. There is.
[0009]
Drain water collected by the rear drain pan at the lower part of the rear heat exchanger is drained from multiple drain ports provided here, but the inside of the rear drain pan is under negative pressure when the blower rotates. The raw air before heat exchange is sucked from the drain.
[0010]
As a result, dew is likely to be formed on the outer peripheral surface of the rear drain pan, and the dew drops into the air passage and is blown out to the room to be air-conditioned together with the heat exchange air, thereby deteriorating comfortable air conditioning.
[0011]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a heat exchanger formed in an inverted V-shape, and to drain water generated by the heat exchanger. Accordingly, it is an object of the present invention to provide an indoor unit of an air conditioner in which formation of dew is prevented, comfortable air conditioning is ensured, production and assembly are simplified, and cost is reduced.
[0012]
[Means for Solving the Problems]
In order to satisfy the above object, an indoor unit of an air conditioner according to the present invention includes, as claim 1, a unit main body including a front panel and a rear plate, having a suction port and a discharge port, and It is arranged on the rear plate and has an inverted V-shape when viewed from the side. The front heat exchanger is located on the front side of the unit body and the rear heat exchanger is located on the rear side. The lower end of the front heat exchanger A heat exchanger configured at a position lower than the lower end of the rear heat exchanger, a front drain pan arranged at the lower part of the front heat exchanger, and a rear drain pan arranged at the lower part of the rear heat exchanger. A gutter connecting the front drain pan and the rear drain pan, and arranged so as to be covered by a heat exchanger, sucks air from the air-conditioned room through a suction port, circulates the heat in the heat exchanger, and performs heat exchange here, and then through a ventilation path. to blow air from the air outlet In the indoor unit of Uniyokoryu fan and an air conditioner fan motor is equipped with a blower formed by connecting the axial direction, a rear plate constituting the unit body, to the transverse fan of the blower by a mold of an injection molding A blower passage formed and having an outlet opening at the front end, a blower support formed at both longitudinal sides of the blower to support both ends of the blower, and both ends connected to the blower support. And a front drain pan arranged at the lower part of the front heat exchanger provided on the front side of the air passage through the outlet, and a lower part of the rear heat exchanger provided along the upper side of the air passage. Drain water that is erected between the front and rear drain pans so that the upper end communicates with the rear drain pan and the lower end communicates with the front drain pan, and the drain water collected by the rear drain pan flows to the front drain pan. Characterized in that all the trough portions constituting the communication path to the inner integrally molded at the same time.
[0013]
According to a second aspect of the present invention, the front drain pan and the rear drain pan integrally provided on the rear plate according to the first aspect of the present invention are configured such that the ribs forming the front drain pan and the ribs forming the rear drain pan are mutually pulled out of the mold for injection molding. And is formed to protrude in the same direction as the above.
[0020]
By providing the means for solving the above-mentioned problems, in the invention of claim 1, the rear plate is formed by an injection molding die, a blow path, a blower support portion, a front and rear drain pan and a gutter portion. By forming all of them integrally, it is possible to improve the assembling accuracy with respect to a blowing system such as a blower or a nose, and since there is no connecting portion, noise (pissing noise) due to thermal expansion or the like does not occur.
[0021]
In the invention of claim 2, since the ribs forming the front drain pan and the ribs forming the rear drain pan are protruded in the same direction, the die-cutting directions of the front drain pan and the rear drain pan coincide with each other. The mold for injection molding requires only a simple configuration.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the indoor unit of the air conditioner is configured.
The unit main body 1, which is an air conditioner main body, includes a front panel 2 and a rear plate 3 described later. A front suction port 2a in which a grill 4 is fitted is opened on the front side of the front panel 2, and an upper suction port 2b in which a grill 5 is fitted is opened on the upper surface.
[0029]
In the unit main body 1, an air filter 6 which is bent into a gentle arc so as to face each other across the suction ports 2a and 2b, and a heat exchanger 7 formed in an inverted V shape are arranged. .
[0030]
The heat exchanger 7 includes a front heat exchanger 7A facing the front suction port 2a, and a rear heat exchanger 7B facing the upper suction port 2b. In particular, the auxiliary heat exchanger 8 is arranged along the upper surface of the rear heat exchanger 7B, and is interposed between the auxiliary heat exchanger 8 and the upper suction port 2b.
[0031]
The lower end of the front heat exchanger 7A constituting the heat exchanger 7 is located at a lower position, and the lower end of the rear heat exchanger 7B is located at a lower position. Is provided with a rear drain pan 9B. The front and rear drain pans 9A and 9B are provided integrally with the rear plate 3, and as shown in FIG. 10, a rib 91A forming the front drain pan 9A and a rib 91B forming the rear drain pan 9B are in the same direction. It is protruded. In FIG. 1, reference numerals 90A to 90E denote dies for injection molding the rear plate 3.
[0032]
The indoor blower is disposed inside the heat exchanger 7 formed in an inverted V-shape, that is, between the front heat exchanger 7A and the rear heat exchanger 7B so as to be covered by these heat exchangers. 11 are arranged.
[0033]
As shown in FIG. 2, the indoor blower 11 includes a cross flow fan 12 having the same axial dimension as the width of the heat exchanger 7, and an end plate 12 b on one side of the cross flow fan 12. And a bearing 14 for pivotally supporting a support shaft 12a protruding from an end plate 12c on the other side of the cross flow fan 12 via the fan motor 13 connected via the support 13a.
[0034]
On the other hand, a first blower support portion 15 is integrally formed on one side (right side) in the longitudinal direction of the rear plate 3, and a second blower support portion 16 is formed on the other side (left side). Are integrally formed.
[0035]
The inside portions of the blower support portions 15 and 16 are each formed with a recess having a narrow width, and these recesses are referred to as a right gutter portion 17A and a left gutter portion 17B. An air passage 18 is formed between the two gutter portions 17A and 17B, and reinforcement ribs 19 project from the gutter portion 17A at predetermined intervals in the longitudinal direction.
[0036]
An outlet 20 is opened along the front end of the air passage 18. The front drain pan 9A is provided along the front end of the outlet 20, and the rear drain pan 9B is provided along the upper side of the air passage 18.
[0037]
The upper ends of the left and right gutter sections 17A and 17B communicate with both side ends of the rear drain pan 9B, and the lower ends thereof communicate with both side ends of the front drain pan 9A. That is, both gutter sections 17A and 17B constitute a communication path that connects the rear drain pan 9B and the front drain pan 9A.
[0038]
A fan motor 13 constituting the indoor blower 11 is supported by the first blower support portion 15, and the fan motor 13 is further held down by a motor retainer 21 so as to be fixed to the first blower support portion 15. It has become.
[0039]
A bearing base 22 to which a bearing member 14 constituting the indoor blower 11 is supported and fixed is attached to the second blower support portion 16.
A right lid 23A and a left lid 23B are integrally connected to the motor holder 21 and the bearing base 22, respectively. The left and right lids 23A and 23B are fitted into the left and right gutter portions 17A and 17B formed inside the blower support portions 15 and 16, respectively, so as to close the upper openings.
[0040]
Next, the support structure of the fan motor 13 in the first blower support portion 15 will be described in detail.
As shown in FIG. 3, at the side end of the air passage 18, an air passage end plate 25 having an arcuate inner edge is erected, and a first space is provided at a predetermined distance from the air passage end plate 25. An abutment plate 26A constituting the blower support 15 is provided upright.
[0041]
The space between the ventilation path end plate 25 and the backing plate 26A is the right gutter 17A. In other words, the right gutter portion 17A is recessed between the ventilation path end plate 25 and the backing plate 26A, and is formed integrally with the rear plate 3 along the inner end of the ventilation path 18.
[0042]
As shown in FIG. 9, a drain port body 27 that opens downward is provided at a side end of the rear drain pan 9B, and communicates with a receiving section 28a that is the upper end of the right gutter section 17A. The lower portion of the receiving portion 28a is a vertical portion 28b, which extends substantially horizontally from the lower end of the vertical portion 28b, and has a front end portion serving as a horizontal portion 28c communicating with the front drain pan.
[0043]
In the assembled state, the vertical portion 28b of the right gutter portion 17A is located on the back side of the cross flow fan 12, and the horizontal portion 28c is located on the lower side of the cross flow fan 12 with respect to the cross flow fan 12 constituting the indoor blower 11. Will be.
[0044]
As shown in FIG. 3 again, the edge of the backing plate 26A is formed in a semicircular shape. A receiving plate 26B is provided upright in parallel with the backing plate 26A, and its edge is formed in a semicircular shape somewhat larger than the backing plate edge.
[0045]
The side portion of the receiving plate 26B is formed in an arc shape having a large radius of curvature, and is referred to as a support portion 28.
A right lid 23A is fitted to the right gutter 17A. That is, the receiving part 28a, the vertical part 28b, and the horizontal part 28c that constitute the right gutter part 17A are all formed with a U-shaped cross section and open at the top, and this opening is formed with an inverted U-shaped cross section. Is closed by the right lid 23A.
[0046]
An end portion of the right lid 23A, in particular, corresponding to the receiving portion 28a and the vertical portion 28b is provided with a pipe portion 29 having a rectangular cross section. The pipe portion 29 is inserted into the drain opening 27 of the rear drain pan 9B.
[0047]
The motor presser 21 is integrally connected to an end of the right lid 23A opposite to the pipe 29 via a so-called PP hinge 30.
The motor presser 21 includes a presser portion 31 formed in a semicircular shape, presser plates 32a and 32b integrally protruding at a substantially central portion of the presser portion 31 with a small gap therebetween. A closing plate portion 33 integrally and outwardly protruded along a side edge of the pressing portion 31 at a portion opposed to the lid 23A.
[0048]
The inner edge of the pressing plate 32a is formed in a semicircle having the same curvature as the inner edge of the backing plate 26A, and the inner edge of the pressing plate 32b is formed in a semicircular shape having the same curvature as the inner edge of the receiving plate 26B. The pressing portion 31 has the same radius of curvature as the inner edge of the right lid 23A.
[0049]
As shown in FIG. 4, the right lid 23A is fitted into the right gutter 17A, and the upper surface of the right lid 23A wraps with the end plate 12b of the cross flow fan 12 in a state where the upper opening of the right gutter is closed. I do. When the motor holder 21 is pivotally displaced rearward with the hinge 30 as a fulcrum, a circular portion is formed by the inner edge of the right lid 23A and the holder 31.
[0050]
At the same time, the inner edges of the backing plate 26A and one pressing plate 32a and the inner edges of the receiving plate 26B and the other pressing plate 32b face each other to form a circular portion having a predetermined diameter, and the other pressing portion 31 and the supporting portion 28 One circular part is formed.
[0051]
As shown in FIG. 5, the indoor blower 11 and the heat exchanger 7 are arranged on the rear plate 3.
That is, as described above, the right lid 23A is fitted to the right gutter 17A, and the motor holder 21 is rotated forward with the hinge 30 as a fulcrum to release the first blower support 15. .
[0052]
Then, the fan motor 13 constituting the indoor blower 11 is placed on the first blower support portion 15, and the motor retainer 21 is rotated to follow the peripheral surface of the fan motor 13, and attached to the rear plate 3 with the fixing screw 35. Fix it. (The fixed part is shown in Fig. 9)
In this state, the peripheral surface of the fan motor 13 is fitted into a circular portion formed by the support portion 28 of the first blower support portion 15 and the press portion 31 of the motor press 21. A peripheral surface of a boss (not shown) projecting from one side of the fan motor 13 is fitted into a circular portion formed by the inner edges of the receiving plate 26B and the pressing plate 32b.
[0053]
The axial position of the fan motor 13 is determined when the end face of the boss abuts on a circular portion formed by the inner edges of the abutment plate 26A and the holding plate 32a.
The boss portion 13b protruding from the front side of the fan motor 13 is supported by another divided holding member 36, and the fan motor 13 is securely mounted and fixed to the rear plate 3 in this manner.
[0054]
As described later, after the mounting of the bearing member 14 is performed, the heat exchanger 7 is arranged at a predetermined position, thereby completing the assembly as shown in FIG.
Next, the support structure of the bearing 14 in the second blower support 16 will be described in detail.
[0055]
As shown in FIG. 6, at the side end portion of the air passage 18, an air passage end plate 37 having an arcuate inner edge is provided upright. A receiving plate 38 constituting the blower support 16 is provided upright.
[0056]
The space between the ventilation path end plate 37 and the receiving plate 38 is the left gutter 17B. In other words, the left gutter portion 17 </ b> B is recessed between the ventilation path end plate 37 and the receiving plate 38, and is formed integrally with the rear plate 3 along the inner end of the ventilation path 18.
[0057]
The end of the second drain fan 9B on the side of the rear drain pan 9B on the side of the second blower support portion 16 is a drain outlet 27 similar to that of the first blower portion 15 described above, and is the upper end of the left gutter portion 17B. It communicates with the part 28a. The receiving portion 28a communicates with the horizontal portion 28c via the vertical portion 28b. Therefore, in the assembled state, the vertical portion 28b is located on the back side of the cross flow fan 12, and the horizontal portion 28c is located on the lower side of the cross flow fan 12.
[0058]
A left lid 23B for closing the upper opening of the left gutter 17B is fitted. Since the left lid 23B has the same shape as the first blower unit 15 described above, the same number is assigned and the new description is omitted.
[0059]
The end opposite to the pipe portion 29 is integrally connected to the bearing base 22 via a string portion 39.
The bearing base 22 has a ring-shaped fitting portion 40, a closing plate portion 41 integrally projecting outward around the fitting portion 40, and a plurality of mounting pieces 42 provided with mounting holes. And a plurality of screw holes 43.
[0060]
As shown in FIG. 7, the upper surface of the left lid 23B wraps with the end plate 12c of the cross flow fan 12 in a state where the left lid 23B is fitted into the left gutter 17B and the upper opening of the left gutter is closed. . The bearing base 22 abuts on the receiving plate 38 with the string portion 39 as a fulcrum, and the end of the closing plate portion 41 is placed on the upper edge of the receiving plate 38. In this state, the mounting holes of the mounting pieces 42 provided in the closing plate 41 face the screw holes (not shown) formed in the rear plate 3 similarly to the first blower support 15 side.
[0061]
As shown in FIG. 8, the indoor blower 11 and the heat exchanger 7 are arranged on the rear plate 3.
That is, as described above, the left lid 23B is fitted to the left gutter 17B, and the bearing base 22 is temporarily released from the left lid 23B to the outside with the string portion 39 as a fulcrum, and the second blower support portion Make 16 empty.
[0062]
The bearing 14 constituting the indoor blower 11 is fitted to the fitting portion 40 of the bearing base 22, and the bearing base 22 is moved from the outside to the left lid 23 </ b> B, so that the support shaft 12 a of the cross flow fan 12 is moved to the bearing. Insert into 14.
[0063]
After that, by mounting the bearing base 22 on the second blower support portion 16, the mounting hole of the mounting piece portion 42 is inevitably formed in the screw hole portion provided integrally with the second blower support portion 16. Since the communication is established, the bearing base 22 is mounted and fixed to the rear plate 3 with fixing screws.
[0064]
Then, the heat exchanger 7 is arranged at a predetermined position, and the mounting hole provided in the heat exchanger end plate 7c is opposed to the screw hole 43 of the bearing base 22 and is mounted and fixed with the fixing screw 35. Therefore, the bearing base 22 is fixed to the rear plate 3 while supporting the bearing member 14.
[0065]
This is an indoor unit configured as described above. By performing a refrigeration cycle operation for the heat exchanger 7 and driving the indoor blower 11 to rotate the cross flow fan 12, the air to be air-conditioned is connected to the front inlet 2a. It is sucked into the unit main body 1 from the upper suction port 2b, passes through the heat exchanger 7, and performs heat exchange. The heat exchange air after the heat exchange is guided to the air passage 18 and blown out from the outlet 20 into the room to be air-conditioned.
[0066]
In addition, the motor holding member 21 and the closing plate portions 33 and 41 integrally projecting from the bearing base 22 are inserted into the inner end of the heat exchanger 7 formed in an inverted V-shape. Therefore, the space formed at the side end portion of the inverted V-shaped heat exchanger 7 is closed to prevent the intake of fresh air therefrom.
[0067]
In the case of the cooling operation, drain water is generated and dropped in the heat exchanger 7. Drain water dropped from the front heat exchanger 7A is received by the front drain pan 9A, and drain water dropped from the rear heat exchanger 7B and the auxiliary heat exchanger 8 is received by the rear drain pan 9B.
[0068]
Since the rear drain pan 9B is higher than the front drain pan 9A, the drain water collected in the rear drain pan 9B flows to the left and right gutter portions 17A and 17B formed at both ends, and is collected in the front drain pan 9A. Is done. Then, the wastewater is collectively drained from the front drain pan 9A to the outside of the room.
[0069]
Thus, since the left and right gutter portions 17A and 17B for guiding the drain water are located inside the air passage 18 through which the heat-exchanged air passes, the left and right gutter portions 17A and 17B are not exposed to the cold drain water. . Further, an external drain hole is not required in the rear drain pan 9B as in the configuration of the conventional example, so that it is not necessary to suck in external fresh air, and there is no dew phenomenon.
[0070]
By integrally forming the front and rear drain pans 9A and 9B on the rear plate 3, it is possible to improve the assembling accuracy of the blower system such as the blower 11 and the nose. ) Does not occur.
[0071]
Further, a rib 91A constituting the front drain pan 9A and a rib 91B constituting the rear drain pan 9B project in the same direction. From this, as shown in FIG. 10, since the front and rear drain pans 9A and 9B have the same die-cutting direction, among the dies 90A to 90E for injection molding the rear plate 3, especially the die 90A is The front drain pan 9A and the rear drain pan 9B can be configured with a single mold without separately configuring them.
[0072]
Since the left and right gutter portions 17A and 17B are located at the side ends of the air passage 18, the influence on the air blowing performance is small, and the influence of the wind of the air blower 11 on the drain water is small.
[0073]
Although it is impossible to prevent the air in the rear drain pan 9B from being sucked into the right and left gutter portions 17A and 17B from the drain port body portion 27, this air is air that has already been heat-exchanged in the heat exchanger 11, so that dew formation occurs. There is no.
[0074]
Since the upper surface openings of the left and right gutter portions 17A and 17B are closed by the left and right lids 23A and 23B, respectively, it is possible to reliably prevent dust from entering the gutter portion and prevent the inside from being clogged with dust.
[0075]
That is, when a U-shaped lid is used for the vertical portion 28b, the pipe water 29 may be formed although drain water may seep out from the gap between the left and right lid members 23A and 23B and the right and left gutter portions 17A and 17B. Therefore, the drain water does not enter the gap between the vertical portion 28b of the left and right gutter portions 17A, 17B and the left and right lids 23A, 23B, and does not seep out from this gap.
[0076]
Since the upper surfaces of the left and right lids 23A and 23B are overlapped with the left and right end plates 12b and 12c of the cross flow fan 12, it is possible to prevent the escape of air from the air passage 18 to the vicinity of the left and right end plates 12b and 12c as much as possible. It is possible to reliably prevent a decrease in the blowing performance.
[0077]
The motor retainer 21 can move from the rear plate 3 side to the front side with the hinge portion 30 as a fulcrum, thereby easily performing maintenance work such as cleaning and replacement of the cross flow fan 12.
[0078]
The motor retainer 21 must be able to move for the above operation, but if the right lid 23A follows and moves at this time, there is a possibility that the right lid 23A will fall out of the fitted right gutter portion 17A, so that it moves. Not be.
[0079]
Therefore, the motor retainer 21 and the right lid 23A are connected via the hinge part 30 so that the movement of the motor retainer 21 does not affect the right lid 23A. Furthermore, the two parts of the right lid 23A and the motor retainer 21 are integrally formed to reduce the number of parts and cost.
[0080]
The bearing base 22 can move back and forth and left and right with respect to the rear plate 3, so that maintenance work such as cleaning and replacement of the cross flow fan 12 can be easily performed.
[0081]
The bearing base 22 needs to be able to move for the above-mentioned operation. However, if the left lid member 23B moves following it at this time, it may fall out of the left gutter portion 17B, so it should not move.
[0082]
Therefore, the bearing base 22 and the left lid 17B are connected via the string portion 39 so that the movement of the bearing base 22 does not affect the left lid 17B. Further, the two parts of the left lid 17B and the bearing base 22 are integrally formed to reduce the number of parts and cost.
[0083]
【The invention's effect】
As described above, according to the present invention, the blow plate, the blower supporting portion, the front and rear drain pans and the gutter portion are all integrally formed on the rear plate, so that the assembling accuracy of the blower or the nose can be improved. Since noise can be improved and there is no connecting portion, noise (pip noise) due to thermal expansion or the like does not occur.
[0084]
Furthermore, since the ribs forming the front drain pan and the ribs forming the rear drain pan project in the same direction, the die-cutting directions of the front drain pan and the rear drain pan coincide with each other. The mold may be a mold having a simple configuration.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of an air conditioner indoor unit, showing an embodiment of the present invention.
FIG. 2 is an exploded perspective view illustrating the embodiment and illustrating a support structure of the indoor blower with respect to a rear plate.
FIG. 3 is an exploded perspective view of the rear plate, the right lid, and the motor retainer, showing the embodiment;
FIG. 4 is a perspective view showing the same embodiment, in a state in which a right lid is fitted to a right gutter portion of a rear plate, and a motor retainer is closed.
FIG. 5 is a perspective view showing the same embodiment, on a motor retainer side in a state where an indoor blower and a heat exchanger are attached to a rear plate.
FIG. 6 is an exploded perspective view of the rear plate, the left lid, and the bearing base, showing the embodiment;
FIG. 7 is a perspective view showing the same embodiment in a state where a lid is fitted to a left gutter portion of a rear plate and a bearing base is closed.
FIG. 8 is a perspective view of the bearing base side in a state where the indoor blower and the heat exchanger are attached to the rear plate, showing the embodiment.
FIG. 9 is a view showing the embodiment, in which a lid is attached to a rear plate.
FIG. 10 is a view for explaining the manufacture of the rear plate, showing the embodiment.
[Explanation of symbols]
2a, 2b ... (front, upper) inlets,
20 ... outlet
4: Front panel,
3: Rear plate,
1. Unit body,
7A: Front heat exchanger,
7B ... rear heat exchanger,
7 ... heat exchanger,
18… Blast path,
11 ... indoor blower,
9A ... front drain pan,
9B ... after drain pan,
91A, 91B ... rib,
17A ... right gutter part,
27 ... drainage body,
28a ... receiving part,
28b ... vertical part,
28c ... horizontal part,
23A: Right lid,
30 ... hinge part,
21 ... Motor retainer,
23B: Left lid,
39 ... string
22. Bearing base.

Claims (2)

A unit main body comprising an inlet and an outlet, comprising a front panel and a rear plate,
This unit is disposed on a rear plate in the unit main body, has an inverted V shape in a side view, and includes a front heat exchanger located on the front side of the unit main body and a rear heat exchanger located on the rear side. The lower end of the front heat exchanger is configured at a position lower than the lower end of the rear heat exchanger,
A front drain pan disposed below the front heat exchanger, a rear drain pan disposed below the rear heat exchanger, and a gutter communicating between the front drain pan and the rear drain pan.
Are arranged so as to be covered with the above heat exchanger, sucks to be air-conditioned room air from the inlet to flow through the heat exchanger, as will now be blown from the blowout through the after air flow passage which has exchanged heat cross flow In an indoor unit of an air conditioner including a fan and a blower in which a fan motor is connected in an axial direction ,
The rear plate constituting the unit main body is formed by an injection molding die with respect to the cross flow fan of the blower, and has an air passage opening an outlet at a front side end portion, and a longitudinally opposite side portion of the air passage. A blower support portion formed to support both ends of the blower, and both end portions are connected to the blower support portion, and provided on the front side of the blower path through the outlet, the front heat exchanger. A front drain pan disposed at a lower portion of the air passage, a rear drain pan provided along an upper side of the air passage, and disposed at a lower portion of the rear heat exchanger, and an upper end portion communicates with the rear drain pan and a lower end portion thereof. A gutter portion that is erected between the front and rear drain pans so as to communicate with the front drain pan, and that constitutes a communication passage that guides the drain water collected in the rear drain pan to the front drain pan, and that all the parts are integrally formed at the same time. Characteristic The indoor unit of the air conditioner to be. The front drain pan and the rear drain pan provided integrally with the rear plate are characterized in that the ribs forming the front drain pan and the ribs forming the rear drain pan are formed so as to protrude from each other in the same direction as the drawing direction of the injection molding die. The indoor unit of the air conditioner according to claim 1, wherein

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