KR100995432B1 - Outside unit of air conditioning apparatus - Google Patents

Abstract

The unit case 11 is divided into a heat exchange chamber R1 and a machine chamber R2 by the partition plate 16 to accommodate the heat exchanger 21 and the blowers 22A and 22B in the heat exchange chamber R1. The compressor 31, the electric box 40, and the accumulator 32 were accommodated in (R2). The reinforcement plate 50 is attached to the partition plate 16, the accumulator 32 is attached to the partition plate 16 via the reinforcement plate 50, and the back portion 16D of the partition plate 16 is reinforcement plate. It fixed to the tube plate 35 of the heat exchanger 21 with (50). The electrical equipment box 40 extends onto the partition plate 16 with a width substantially the same as that of the partition plate 16 and includes a first support plate 41 for supporting the inverter substrate 43 on the machine room R2 side. Rib of the tube plate 35 of the heat exchanger 21 is transferred to the rear portion 41C of the first support plate 41 while the first support plate 41 is mounted on the upper surface portion 16E of the partition plate 16. Temporary fixation was possible at 35A. In addition, the unit case 11 includes a heat exchanger 21 in which a plurality of laminated fin tube heat exchange parts 151 to 153 are bent so as to generate a stepped part 155 on one end side thereof. The guide plate 156 which introduces outside air into the 155, and attaches the fixing part 156C of this guide plate 156 to the heat exchange part 151 arrange | positioned inside, The bottom plate 12 of the unit case 11 is provided with a gap 160 through which outside air flows between the side surface portion 156B and the end portion 153C of the heat exchange portion 153 disposed outside the side surface portion 156B. Mounted on.

Unit case, machine room, heat exchange room, air conditioner, heat exchanger

Description

Outdoor unit of air conditioner {OUTSIDE UNIT OF AIR CONDITIONING APPARATUS}

The present invention relates to an outdoor unit of an air conditioner.

Generally, the outdoor unit of the air conditioner which divides the inside of a housing into a heat exchange room and a machine room by a partition plate, accommodates a heat exchanger and a blower in a heat exchange room, and accommodates a compressor, an electrical equipment box, and an accumulator in a machine room is known. Moreover, in order to reduce the size of a machine room, it is proposed to arrange | position a compressor and an accumulator in a vertical relationship in this machine room, and to mount this accumulator to a partition plate (for example, Unexamined-Japanese-Patent No. 09-243115). See publication number). Moreover, the outdoor unit which arrange | positioned the electrical equipment box substantially horizontally on the upper part of a partition board, protrudes one end part of the electrical equipment box toward the heat exchange chamber side, and cools the said electronic equipment box by the air which passes through a heat exchange chamber is also proposed (for example, See, for example, Japanese Patent Application Laid-Open No. 2001-201110.

Moreover, the outdoor unit of the air conditioner which has a heat exchanger formed in the housing which is bent so that the fin tube type heat exchange part may be laminated in the thickness direction among these types of outdoor units, and a step part may be produced may be known (for example, See, for example, Japanese Patent Application Laid-Open No. 2002-250544.

In the configuration in which the accumulator is mounted on the partition plate, since the accumulator is heavy (for example, 8 kg), the partition plate is required to have a strength that does not deform even by the weight of the accumulator. In addition, since the vibration generated when the compressor is operating is transmitted to the accumulator through the pipe, it is considered that the partition plate vibrates by this vibration. When the partition plate vibrates, it is also contemplated that the panel connected to the partition plate and thus constituting the housing also vibrates, and as a result noise is generated from the outdoor unit. On the other hand, in the related art, since the elastic member is arrange | positioned between a partition plate and an accumulator, there existed a problem that the structure which mounts an accumulator to a partition plate becomes complicated. In addition, when one end of the electrical equipment box protrudes toward the heat exchange chamber side, the protruding portion becomes a blowing resistance, and the heat exchange efficiency in the heat exchanger is considered to be deteriorated. . On the other hand, when an electrical equipment box is arrange | positioned by suppressing the protrusion amount to the heat exchange chamber side, there exists a problem that attachment of this electronic equipment box to a housing becomes difficult.

Moreover, in the conventional structure, the heat exchanger forms a part of the side surface of a housing, the tube plate was provided in the heat exchange part arrange | positioned outside, and the front panel of the housing was attached to this tube plate. For this reason, there is a problem that the heat exchange efficiency of the heat exchanger is lowered since the outside air is not sufficiently distributed in the stepped portion of the heat exchanger and the stepped portion does not contribute to the heat exchange.

DISCLOSURE OF THE INVENTION An object of the present invention has been made in consideration of the above-described circumstances, and provides an outdoor unit of an air conditioner that can suppress vibration of a partition plate with a simple configuration and further suppress generation of noise accompanying this vibration. have.

Further, another object of the present invention is to provide an outdoor unit of an air conditioner that can easily be mounted on the housing of the electrical equipment box while suppressing the amount of protrusion to the heat exchange chamber side.

Further, another object of the present invention is to provide an outdoor unit of an air conditioner which aims to improve the heat exchange efficiency of the heat exchanger by contributing the stepped portion of the heat exchanger to heat exchange.

In order to solve the above problems, the present invention divides the housing into a heat exchange chamber and a machine chamber by partition plates, accommodates a heat exchanger and a blower in the heat exchange chamber, and accommodates a compressor, an electric box, and an accumulator in the machine room. In the unit, a reinforcing plate is attached to the partition plate, and the accumulator is attached to the partition plate via the reinforcing plate, and one end of the partition plate is fixed to the tube plate of the heat exchanger together with the reinforcing plate. .

According to this configuration, since the accumulator is attached to the partition plate via the reinforcement plate, the rigidity of the partition plate is increased by this reinforcement plate, so that vibration of the partition plate is suppressed. In addition, since one end of the partition plate is fixed to the tube plate of the heat exchanger together with the reinforcing plate, the vibration of the partition plate is less likely to be transmitted to the heat exchanger, so that occurrence of noise accompanying the vibration can be suppressed.

In this configuration, the accumulator may include a container body and a pair of mounting metal members fixed to the container body, and the reinforcement plate may be disposed on the partition plate according to the pitch of these mounting metal members.

The partition plate and the reinforcement plate may have a configuration in which a hole portion through which the mounting metal member of the accumulator can be hooked is formed.

The machine room may include a service valve connected to the compressor and a refrigerant circuit connected to the accumulator, and one end of the support plate supporting the service valve may be fixed to the partition plate via the reinforcement plate.

In addition, the present invention is divided into a heat exchange chamber and a machine room by a partition plate in the housing, the heat exchanger and the blower are accommodated in the heat exchange chamber, the compressor and the electric box in the machine unit in the outdoor unit of the air conditioner, the electrical equipment box Extends onto the partition plate with a width substantially the same as that of the partition plate, and includes a support plate supporting the electrical equipment unit on the machine room side, and one end of the support plate is mounted in the state where the support plate is mounted on the upper end of the partition plate. It is characterized by temporarily fixing to the tube plate of a heat exchanger.

According to this configuration, since the electric unit is supported on the machine room side of the support plate extending onto the partition plate, the amount of protrusion of the electric box to the heat exchange chamber side can be suppressed. In addition, one end portion of the support plate can be temporarily fixed to the heat exchanger tube plate while the support plate is mounted on the upper end of the partition plate, so that the electrical equipment box can be easily attached to the housing.

In this configuration, the support plate may be configured to include a hole that can be locked to a screw portion provided in the tube plate at one end of the support plate. Moreover, the said hole part is equipped with the small diameter hole and the large diameter hole connected to this small diameter hole, Even if it is a structure which provided these small diameter hole and the large diameter hole on the substantially same radius centering on the lower end part of the said support plate, good. The support plate may be configured to include a tongue section extending from the lower end of the support plate to the machine room side.

The present invention provides an outdoor unit of an air conditioner having a heat exchanger formed in a housing in which a plurality of heat exchangers of a fin tube type are stacked in a thickness direction and bent so as to generate a stepped portion on one end side. A guide plate is provided, and one end of the guide plate is mounted on a heat exchanger disposed inside, and the outside air flows between the other end of the guide plate and an end of the heat exchanger disposed on the outside. A gap is provided and mounted on the bottom plate of the housing.

According to this configuration, the outside air sucked through the gap between the other end of the guide plate and the end of the heat exchanger disposed outside is guided to the guide plate and passes through the stepped portion of the heat exchanger. For this reason, this step part contributes to heat exchange, and the heat exchange efficiency of a heat exchanger can be improved. Further, since one end of the guide plate is mounted on the heat exchanger disposed inside, and the other end is mounted on the bottom plate of the housing, the guide plate can easily connect the heat exchanger and the bottom plate of the housing.

In this structure, it is good also as a structure which attached the front panel of the said housing to the said guide plate. The guide plate may have a configuration in which an opening for passing a connector for connecting a heat exchanger disposed inside and a heat exchanger adjacent to the heat exchanger is formed. The heat exchanger may have a configuration in which the heat exchanger having substantially the same shape is laminated in three stages.

According to the present invention, since the accumulator is attached to the partition plate via the reinforcement plate, the rigidity of the partition plate is increased by this reinforcement plate, so that vibration of the partition plate is suppressed. In addition, since one end of the partition plate is fixed to the tube plate of the heat exchanger together with the reinforcing plate, vibration of the partition plate is less likely to be transmitted to the heat exchanger, and generation of noise accompanying the vibration can be suppressed.

Further, according to the present invention, since the electric unit is supported on the machine room side of the support plate extending onto the partition plate, the amount of protrusion of the electric box to the heat exchange chamber side can be suppressed. In addition, one end portion of the support plate can be temporarily fixed to the tube plate of the heat exchanger while the support plate is mounted on the upper end of the partition plate, so that the electrical equipment box can be easily attached to the housing.

Further, according to the present invention, the outside air sucked through the gap between the other end of the guide plate and the end of the heat exchanger disposed on the outside is guided to the guide plate and passes through the step of the heat exchanger. For this reason, this step part contributes to heat exchange, and the heat exchange efficiency of a heat exchanger can be improved.

The outdoor unit of the air conditioner of the present invention can suppress the vibration of the partition plate with a simple configuration, further suppress the generation of noise accompanying this vibration, and suppress the amount of protrusion to the heat exchange chamber side, Can be easily attached to the housing, and the heat exchange efficiency of the heat exchanger can be improved by contributing the stepped portion of the heat exchanger to the heat exchange.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described in detail with reference to drawings.

The air conditioner which concerns on this embodiment is comprised from the outdoor unit 10 and the indoor unit (not shown), and makes a cooling operation and a heating operation by making a refrigerant flow through the refrigerant circuit connected by the refrigerant pipe. The outdoor unit 10 is installed outdoors, and heat exchanges with the outdoor air to condense the refrigerant to release heat to the outside during the cooling operation, and to extract heat from the outside air during the heating operation. In addition, the same directions as the up, down, left and right described below indicate the direction when viewed from the front face side in the state where the outdoor unit 10 is installed.

1 is a view of the outdoor unit 10 seen from the front side, and FIG. 2 is a view of the outdoor unit 10 seen from above. The outdoor unit 10 includes a unit case (housing) 11 having a substantially rectangular parallelepiped box shape, and the unit case 11 includes a bottom plate 12, a ceiling plate 13, a front panel 14, and an outer plate. (15), the inside of the unit case (11) is vertically partitioned by a partition plate (16) standing on the bottom plate (12) and divided into a heat exchange chamber (R1) and a machine chamber (R2). In addition, in the example of FIG. 1, the front panel 14 is removed, but the front panel 14 includes a first front panel 14A divided into two sides left and right with respect to the partition plate 16. It consists of the 2nd front panel 14B, and removes each front panel 14A, 14B so that an operator can perform maintenance work of components in the heat exchange chamber R1 and the machine room R2 from the front surface side. It is.

As shown in FIG. 2, the heat exchanger 21 is accommodated in the heat exchange chamber R1, and the blower 22A, 22B arrange | positioned in the up-down direction at the front surface side is accommodated. The heat exchanger 21 is formed to be bent in an approximately L shape when viewed from the upper surface, and is disposed along the rear surface from the left side (outer side) of the heat exchange chamber R1. Thus, the heat exchanger 21 forms the left side and the back side of the heat exchange chamber R1 (ie, the unit case 11), and the whole exposed surface from this left side to the back side functions as a ventilation path (intake). do. In addition, in this structure, the surface of the heat exchanger 21 is covered with the pin guard (not shown) which consists of a resin net etc. in order to prevent contact with the human body etc. to this heat exchanger 21.

The blowers 22A and 22B are attached to a pair of left and right support columns 24L and 24R arranged in the heat exchange chamber R1. These support pillars 24L and 24R hang the upper end portions of the support pillars 24L and 24R at the upper edge portions of the heat exchanger 21, respectively, and the lower end portions of the support pillars 24L and 24R are bottom plates 12, respectively. Is fixed by screws.

The blower 22A is a fan motor 26A fixed to the support pillars 24L and 24R through a pedestal 25A, and a propeller fan (axial fan) 27A mounted on the shaft of the fan motor 26A. The propeller fan 27A is disposed close to the front face side of the heat exchange chamber R1. Moreover, the front part of this propeller fan 27A enters inside the circular flange-shaped fan cover part 28A provided in the upper part of the 1st front panel 14A of the heat exchange chamber R1, and this fan cover part 28A is provided. The openings of the dome function as a ventilation path (outlet), and the openings are covered with a fan guard 29A which prevents contact of the human body or the like with the propeller fan 27. In addition, since the blower 22B is arrange | positioned under the said support pillar 24L, 24R, and has substantially the same structure as the said blower 22A, the code | symbol of the same kind as the apparatus which comprises this blower 22A is shown. The description thereof is omitted.

When the propeller fans 27A and 27B are rotationally driven by the fan motors 26A and 26B, the outside air is supplied from the surroundings of the outdoor unit 10, more specifically, from the rear side and the left side of the heat exchanger 21. After being sucked into R1 and passing through substantially the front face of the heat exchanger 21, it is discharged to the outside through the fan cover parts 28A and 28B of the front face of the heat exchange chamber R1. That is, this outdoor unit 10 is comprised by the front surface blowing type which blows out the air after heat exchange from the front surface.

As shown in Fig. 1, the machine room R2 includes a compressor 31, an accumulator 32, and a valve body such as a four-way valve 33 or an expansion valve (not shown) which constitute a part of a refrigerant circuit. Refrigerant circuit components are connected to each other and accommodated in a space substantially below the machine room R2.

In this structure, the compressor 31 and the accumulator 32 are equipped with the compression container which has the capacity | capacitance of the same grade, and are arrange | positioned in the machine room R2 side by side in the vertical direction. Specifically, the compressor 31 is provided on the bottom plate 12, and the accumulator 32 is attached to the partition plate 16 above the compressor 31. Thereby, the installation space of the compressor 31 and the accumulator 32 in the machine room R2 can be suppressed small.

Moreover, the support plate 36 is arrange | positioned in the substantially intermediate position in the front surface side of the machine room R2, The gas service valve 37 and the liquid service valve 38 are being fixed to this support plate 36. . The gas pipe and the liquid pipe (not shown) of the unit piping which extend from the indoor unit are connected to these gas pipe service valve 37 and the liquid pipe service valve 38, respectively, and the refrigerant circuit which circulates a refrigerant | coolant is comprised by this. . Moreover, the electrical equipment box 40 which arrange | positioned various electrical equipments, such as a control board which controls an air conditioning apparatus, is arrange | positioned in the upper space of the machine room R2. This electrical equipment box 40 is comprised with the 1st support plate (support plate) 41 extended to the upper part of the partition plate 16, and the 2nd support plate 42 attached to this 1st support plate 41, Electrical units, such as a board | substrate, are arrange | positioned at these 1st support plates 41 and the 2nd support plate 42. FIG.

Next, the mounting structure of the partition plate 16 and the accumulator 32 is demonstrated.

FIG. 3 is a perspective view showing the partition plate 16 and the accumulator 32, FIG. 4 is a perspective view showing the configuration of the partition plate 16, and FIG. 5 is the attachment of the accumulator 32 to the partition plate 16. FIG. It is a top view which shows a state.

As shown in Fig. 3, the partition plate 16 is disposed between the heat exchange chamber R1 and the machine chamber R2, and the substrate portion 16A which separates the heat exchange chamber R1 from the machine chamber R2, and The front surface part 16B formed by bending the side edge part of the front surface side of the board | substrate part 16A to the machine room R2 side, and the side edge part of the back side of the board | substrate part 16A bent at the machine room R2 side, are formed. One inclined surface portion 16C, the back portion 16D formed by bending the side edge portion of the inclined surface portion 16C approximately parallel to the front surface portion 16B, and the upper edge portion of the substrate portion 16A are machine rooms (R2). A tray having an upper surface portion 16E formed by bending toward the side) and a lower surface portion 16F formed by bending a lower edge portion of the substrate portion 16A toward the machine room R2 side substantially in parallel with the upper surface portion 16E. It is formed in a shape.

Thus, the partition plate 16 aims at the improvement of the rigidity (strength) of this partition plate 16 by forming a thin sheet metal in the said tray shape. In addition, in this structure, in order to further improve the rigidity of the partition plate 16, the reinforcement board 50 is provided in a part of this partition plate 16. As shown in FIG. The reinforcement board 50 is arrange | positioned against the one surface (surface on the machine room side) of the partition board 16, and the accumulator 32 is attached to the partition board 16 with this reinforcement board 50 interposed. .

This accumulator 32 is provided with the container main body 32A formed as a pressure vessel, and a pair of upper and lower mounting metal members 32B provided in the upper part and the lower part of this container main body 32A, respectively. As shown in Fig. 5, the mounting metal member 32B is formed by fixing the bolt 32C at approximately the center of the substantially inverted c-shaped metal member.

On the other hand, as shown in FIG. 3, the reinforcement board 50 is arrange | positioned in two places above and below the partition board 16 by the predetermined space | interval P corresponding to the mounting pitch of the mounting metal member 32B of the accumulator 32. As shown in FIG. . In this structure, since only the reinforcement board 50 is applied to a part of partition board 16, manufacturing cost can be reduced compared with forming the board thickness of the whole partition board thickly. In addition, even when the capacity of the accumulator or the like is changed and the mounting pitch of the mounting metal member is changed, the reinforcing plate 50 may be disposed on the partition plate 16 at intervals corresponding to the mounting pitch, so as to respond widely to various products. It becomes possible.

The reinforcement plate 50 is bent in the substantially same shape as this partition plate 16 from the front surface part 16B of the partition plate 16 to the board | substrate part 16A, the inclined surface part 16C, and the back part 16D. It is. Specifically, the reinforcing plate 50 is a substrate portion corresponding to the substrate portion 16A, the front surface portion 16B, the inclined surface portion 16C and the back portion 16D of the partition plate 16, as shown in FIG. 50A, a front surface portion 50B (FIG. 5), an inclined surface portion 50C and a back portion 50D, and these substrate portions 50A, a front surface portion 50B, an inclined surface portion 50C, and a back portion 50D. The upper edge and the lower edge of each of () are bent in an approximately L shape to form ribs 50E.

Since the reinforcement board 50 is shape | molded in tray shape by providing the said rib 50E, the rigidity of this reinforcement board 50 itself improves. The reinforcement plate 50 and the partition plate 16 are integrally formed by damaging the partition plate 16 by forming the reinforcement plate 50 in substantially the same shape as the partition plate 16. ) Can increase the rigidity.

In this configuration, the reinforcing plate 50 and the partition plate 16 are joined by spot welding, but may be joined by means such as screwing.

As shown in FIG. 3, the partition plate 16 stands up on the bottom plate 12 by screwing the lower surface portion 16F and the bottom plate 12 of the partition plate 16. Moreover, the back part 16D (one end part) of the partition plate 16 is screwed and fixed to the heat exchanger 21. Specifically, as shown in FIG. 3, the heat exchanger 21 includes a tube plate 35 at an end portion on the right side of the diagram of the heat exchanger 21, and the tube plate 35 has a unit case 11 inside thereof. A rib 35A is formed by bending a side edge portion of the shape into an approximately L shape. In this structure, as shown in FIG. 5, the back part 16D of the partition plate 16 is screwed to the rib 35A of the tube plate 35 with the back part 50D of the reinforcement board 50. As shown in FIG. In addition, in this structure, the front surface part 16B of the partition plate 16 is fixed to the 1st front panel 14A with the front surface part 50B of the reinforcement board 50 by screwing. As a result, the partition plate 16 can be fixed to the tube plate 35 and the first front panel 14A at the portion reinforced by the reinforcement plate 50, so that the partition plate 16 is more firmly united. It can be supported in the case 11, and the vibration of this partition plate 16 is difficult to transmit to each panel of the heat exchanger 21 or the unit case 11, and the generation of the noise accompanying this vibration can be suppressed. have.

In addition, since the accumulator 32 is attached to the partition plate 16 with the reinforcing plate 50 interposed therebetween, the rigidity of the partition plate 16 is increased by the reinforcing plate 50, and the load of the accumulator 32 is increased. As a result, deformation of the partition plate 16 can be prevented, and vibration of the partition plate 16 accompanying the vibration of the accumulator 32 can be suppressed.

In addition, in the board | substrate part 16A of the partition board 16 and the board | substrate part 50A of the reinforcement board 50, as shown in FIG. 4, the gourd-shaped hole (hole part) which penetrates them is shown. 52 is formed. The gourd-shaped hole 52 is formed by a hole 52A having a large diameter and a hole 52B having a small diameter extending up and down, and the hole 52B having a small diameter is a mounting metal member 32B of the accumulator 32. Is larger than the diameter of the bolt 32C and smaller than the nut 53 screwed to the bolt 32C. In addition, the large diameter hole 52A is formed with a diameter larger than that of the nut 53.

When attaching the accumulator 32 to the partition plate 16, the large diameter of the gourd-shaped hole 52 in the state which stuck the nut 53 to the bolt 32C of the mounting metal member 32B of this accumulator 32 The nut 53 bolt 32C is passed through the hole 52A. Next, when the accumulator 32 is moved downward, the bolt 32C moves into the hole 52B of the small diameter, and the nut 53 is caught by the hole 52B of the small diameter. For this reason, the accumulator 32 can be temporarily fixed to the partition plate 16 easily. The accumulator 32 is fixed to the partition plate 16 by tightening the nut 53. In this manner, since the partition plate 16 and the reinforcing plate 50 are formed with a gourd-shaped hole 52 which can catch the mounting metal member 32B of the accumulator 32, the accumulator 32 is divided into a partition plate ( Since it can be temporarily fixed to 16, the accumulator 32 can be attached to the partition plate 16 easily even by one operator.

Further, as shown in FIG. 5, one end portion 36A of the support plate 36 supporting the above-described gas pipe service valve 37 and liquid pipe service valve 38 is connected to the lower reinforcement plate 50. The other end portion 36B of the support plate 36 is connected to an end portion on the front surface side of the outer plate 15.

Gas pipes and liquid pipes (not shown) of the unit piping are connected to the service valve 37 for gas pipes and the service valve 38 for liquid pipes, respectively, when the outdoor unit 10 is installed. Refrigerant may be replenished through 38). For this reason, since there are many opportunities for piping or the like to be attached to or detached from the gas pipe service valve 37 and the liquid pipe service valve 38, it is preferable that the gas pipe service valve 37 and the liquid pipe service valve 38 are securely fixed. Do.

In this configuration, since one end portion 36A of the support plate 36 is fixed to the partition plate 16 via the lower reinforcement plate 50, the pipe is connected to the service valve 37 for gas pipe and the service valve 38 for liquid pipe. I can put on and take off easily.

According to this embodiment, the inside of the unit case 11 is divided into the heat exchange chamber R1 and the machine room R2 by the partition plate 16, and the heat exchanger 21 and the blowers 22A, 22B are connected to the heat exchange chamber R1. ), The compressor (31) and the accumulator (32) in the machine room (R2), the reinforcing plate 50 to the partition plate 16 and through the reinforcement plate 50 to the partition plate 16 Since the accumulator 32 is mounted, the rigidity of the partition plate 16 is increased by the reinforcement plate 50 by a simple structure, and the deformation of the partition plate 16 can be prevented by the load of the accumulator 32, The vibration of the partition plate 16 accompanying the vibration of the accumulator 32 can be suppressed. In addition, since the back portion 16D of the partition plate 16 is fixed to the tube plate 35 of the heat exchanger 21 together with the reinforcement plate 50, the partition plate 16 is more firmly unit unit 11. The vibration of this partition plate 16 is hard to be transmitted to the heat exchanger 21, and generation | occurrence | production of the noise accompanying this vibration can be suppressed.

In addition, according to the present embodiment, the accumulator 32 includes a container main body 32A and a pair of mounting metal members 32B fixed to the container main body 32A, and the pitch of these mounting metal members 32B is provided. Since the reinforcement plate 50 is arrange | positioned at the partition plate 16 according to this, even if the mounting pitch of the mounting metal member of the accumulator is changed, the reinforcement board 50 is divided by the space | interval corresponding to this mounting pitch 16 ), It is possible to cope with a wide range of products, it is possible to reduce the manufacturing cost.

In addition, according to this embodiment, the partition plate 16 and the reinforcement board 50 can go through these partition boards 16 and the reinforcement board 50, and the gourd foil which can hang the mounting metal member 32B of the accumulator 32 is possible. Since the shape hole 52 is formed, the accumulator 32 can be temporarily fixed to the partition plate 16, and even if only one operator can attach the accumulator 32 to the partition plate 16 easily.

Further, according to the present embodiment, there is provided a service valve 37 for gas pipe and a service valve 38 for liquid pipe connected to a refrigerant circuit connected to the compressor 31 and the accumulator 32 in the machine room R2. Since one end portion 36A of the support plate 36 supporting the gas service valve 37 and the liquid service valve 38 is fixed to the partition plate 16 via the reinforcement plate 50, these gas service valves are provided. (37) and the liquid service valve 38 can be firmly supported by the unit case 11, and the operation | work which attaches and detaches piping to the said gas pipe service valve 37 and the liquid pipe service valve 38 easily is easy. I can do it.

Next, the mounting structure of the electrical equipment box 40 is demonstrated.

FIG. 6 is a perspective view showing a mounting state of the electric box 40, and FIG. 7 is an enlarged perspective view thereof.

The electrical equipment box 40 is provided with the 1st support plate 41 extended to the upper part of the partition plate 16, as shown in FIG. 7, and the compressor 31 is provided in the machine room R2 side of this 1st support plate 41. As shown in FIG. The inverter board 43 which produces | generates the DC power supply which drives () is arrange | positioned. Since the inverter board 43 is a board mounted with a relatively large amount of heat generation such as an inverter circuit, the inverter board 43 is located on the opposite side of the inverter board 43, that is, on the heat exchange chamber R1 side of the first supporting plate 41. A heat sink 44 for dissipating heat generated in the heat sink is disposed. The heat sink 44 has a configuration in which metal plates constituting a plurality of fins are arranged at left and right intervals.

Moreover, the cover body 45 which covers the said heat sink 44 is arrange | positioned at the heat exchange chamber R1 side of the 1st support plate 41. As shown in FIG. The cover body 45 is formed by bending a metal plate, and openings 45A through which cooling air that exchanges heat with fins of the heat sink 44 pass through the upper and lower portions.

The first support plate 41 has a width substantially the same as that of the partition plate 16, and is disposed above the partition plate 16 to cooperate with the partition plate 16 so as to cooperate with the heat exchange chamber R1 and the machine room R2. Has the ability to distinguish between. In this structure, the height of the 1st support plate 41 is set so that it may become substantially the same height as the heat exchanger 21, when mounted on the partition plate 16. As shown in FIG.

The first supporting plate 41 is a substrate portion 41A on which the inverter substrate 43 and the heat sink 44 are disposed, and a side edge portion of the front surface side of the substrate portion 41A is bent to the machine room R2 side. 41C of the front surface part 41B formed in the back side, and the back side part (one end part) 41C formed by bending the side edge part of the back side of the board | substrate part 41A substantially parallel to the said front surface part 41B, and the board | substrate part 16A. The upper edge part 41D formed by bending the upper edge part of the side toward the machine room R2 side, and the lower edge part of the board | substrate part 41A was bent toward the machine room R2 side and formed in substantially parallel with this upper surface part 41D. The lower surface portion 41E is provided and formed into a tray shape. In addition, in this structure, the tongue section part 41F is formed in the 1st support plate 41 by bending the edge part of the lower surface part 41E of this 1st support plate 41 downward.

This tongue piece part 41F extends to the machine room R2 side of the upper end part of this partition plate 16, when the 1st support plate 41 is mounted on the partition plate 16, as shown in FIG. This tongue piece portion 41F functions as a positioning guide when placing the first support plate 41 on the partition plate 16 and also functions as a cover covering the gap between the first support plate 41 and the partition plate 16. do. For this reason, even if rainwater penetrates into the machine room R2 from the heat exchange chamber R1 through the clearance gap of the partition plate 16 and the 1st support plate 41, this rainwater contacts the tongue part 41F, and machine room R2. Since it flows down below), the rainwater does not penetrate into the electrical equipment box 40.

In addition, the electrical equipment box 40 is provided with the 2nd support plate 42 fixed to the 1st support plate 41, and extending in the width direction of the machine room R2. The second support plate 42 includes a plate portion 42A extending in the width direction of the machine room R2, and a bottom plate portion 42B formed by bending the lower edge portion of the plate portion 42A forward. The filter board | substrate 46 is arrange | positioned at the front surface side of 42A, and the reactor 47 is arrange | positioned at the back side of this board part 42A.

Moreover, the cover body 48 bent in substantially inverted c-shape when viewed from the top is disposed on the front face side of the plate portion 42A so as to cover the filter substrate 46. The cover body 48 is fixed to the plate portion 42A with a screw or the like, and the cover body 48 can be easily removed from the plate portion 42A by loosening the screw. On the front surface of the cover body 48, a control board 49 for controlling the operation of various devices arranged in the outdoor unit 10 is disposed. Since this control board 49 is arrange | positioned at the front surface side of the machine room R2, it is possible to remove easily the 2nd front panel 14B (refer FIG. 2), and to perform maintenance easily.

In addition, a mounting plate 51 formed by bending a metal plate is fixed to the bottom plate portion 42B of the second supporting plate 42, and power is supplied to the outdoor unit 10 to the front side of the mounting plate 51. And a terminal block 52 for communicating with an indoor unit and the like.

Thus, the electrical equipment box 40 is equipped with the 1st support plate 41 and the 2nd support plate 42, The said inverter board 43 as an electric component unit in these 1st support plate 41 and the 2nd support plate 42 is carried out. Since the heat sink 44, the filter substrate 46, the reactor 47, the control board 49, and the power relay, capacitor, etc. which are not shown in figure are arrange | positioned, the weight of the electrical box 40 becomes comparatively heavy (for example, , About 11 kg), and the mounting work of the electrical equipment box 40 was difficult.

For this reason, in this structure, in the state which mounted the 1st support plate 41 of the electrical equipment box 40 in the upper surface part of the partition plate 16, 41 C of the back parts of the said 1st support plate 41 were exchanged with the heat exchanger 21. It is comprised so that a temporary fixation is possible to the tube board 35 of (). Specifically, as shown in FIG. 8, the back part 41C of the 1st support plate 41 is a gourd-shaped hole (hole part) which can be hooked on the screw 62 attached to the rib 35A of the tube plate 35. 61 is formed.

This gourd-shaped hole 61 is formed by connecting a small diameter hole 61A and a large diameter hole 61B, and the small diameter hole 61A is larger than the screw diameter of the screw 62. It is formed with a diameter smaller than the diameter of the head of 62). In addition, the large diameter hole 61B is larger than the head of the screw 62, and is formed with a diameter that can penetrate the head.

In addition, in this structure, the gourd-shaped hole 61 is formed obliquely so that the hole 61B of large diameter may be located below the machine room R2 side rather than the hole 61A of small diameter. In addition, the gourd-shaped hole 61 is formed in substantially the same radius centering on the corner part 41E1 of the heat exchange chamber R1 side in the lower surface part 41E of the 1st support plate 41 more specifically, have.

In this way, the gourd-shaped hole 61 is formed obliquely such that the large-diameter hole 61B is located below the machine room R2 side than the small-diameter hole 61A, and thus the electric box 40 is mounted. As shown in FIG. 7, the large-diameter hole 61B does not extend to the heat exchange chamber R1 side than the rib 35A of the tube plate 35. As a result, since the large diameter hole 61B is blocked by the rib 35A, the heat exchange chamber R1 and the machine chamber R2 communicate with each other through the large diameter hole 61B, thereby preventing the above-mentioned. Rainwater or the like penetrates into the electrical equipment box 40 from the large-diameter hole 61B.

Next, the mounting procedure of the electrical equipment box 40 is demonstrated.

First, the first support plate 41 and the second support plate 42 are combined, and the electric length unit is disposed on the first support plate 41 and the second support plate 42 to form the electric box 40.

Subsequently, as shown in Fig. 8, the lower surface portion 41E of the first supporting plate 41 is placed on the upper surface portion 16E of the partition plate 16, and the first tongue section 41F is guided. The back portion 41C of the support plate 41 is press-fitted until it comes in contact with the rib 35A of the tube plate 35 of the heat exchanger 21. In this case, the electrical equipment box 40 can press-fit the electrical equipment box 40 to a predetermined position with a small force by sliding the upper surface portion 16E of the partition plate 16 with the tongue section portion 41F as a guide. have.

Subsequently, as shown in FIG. 7, the upper part (for example, upper surface part 41D of the 1st support plate 41) of the electrical equipment box 40 is inclined to the heat exchange chamber R1 side, and the 1st support plate 41 is carried out. The large diameter hole 61B of the gourd-shaped hole 61 formed in the back part 41C of the () is inserted into the head part of the screw 62 which was lightly screwed into the rib 35A of the tube plate 35 previously. This gourd-shaped hole 61 is formed in substantially the same radius centering on the corner part 41E1 of the heat exchange chamber R1 side in the lower surface part 41E of the 1st support plate 41 as mentioned above. Since the first support plate 41 (full length box 40) is rotated clockwise (in the R direction in the drawing) centering on the corner portion 41E1, the screw 62 is a small diameter hole 61A. ), The head of the screw is caught in the hole 61A of this small diameter.

For this reason, the electrical equipment box 40 can be temporarily fixed to the unit case 11, specifically, the partition plate 16 and the tube plate 35 of the heat exchanger 21. FIG. Then, the screw 62 is tightened to pass through the screw hole 64 formed at the corners of the second support plate 42 and the mounting plate 51 to allow the electrical box 40 to be removed from the outer plate 15 (FIG. 2). It is fixed to the front end side.

In this way, the tube plate of the heat exchanger 21 is mounted on the rear surface portion 41C of the first support plate 41 of the electrical equipment box 40 in the state in which the first support plate 41 is mounted on the upper surface of the partition plate 16. Since the gourd-shaped hole 61 which can be caught by the screw 62 provided in the 35 is formed, the electric box 40 is temporarily fixed to the partition plate 16 and the tube plate 35 of the heat exchanger 21. Therefore, even if only one operator can mount the electrical equipment box 40 in the unit case 11 easily.

According to this embodiment, the inside of the unit case 11 is divided into the heat exchange chamber R1 and the machine room R2 by the partition plate 16, and the heat exchanger 21 and the blowers 22A, 22B are connected to the heat exchange chamber R1. ) And a compressor (31) and an electrical equipment box (40) in the machine room (R2), and the electrical equipment box (40) extends onto the partition plate (16) with approximately the same width as the partition plate (16). And a first support plate 41 for supporting the inverter substrate 43 on the machine room R2 side, the heat for cooling the inverter substrate 43 on the heat exchange chamber R1 side of the first support plate 41. Only the sink 44 can protrude, and the amount of protrusion to the heat exchange chamber R1 side of the electronic box 40 can be suppressed. For this reason, the blowing resistance which arises when the electrical box 40 protrudes in the heat exchange chamber R1 is suppressed, and the heat exchange efficiency in the heat exchanger 21 can be improved.

In particular, in the configuration in which the blowers 22A and 22B are arranged side by side, as in the present embodiment, the flow distribution of the air blown from these blowers 22A and 22B is optimal by suppressing the amount of protrusion of the electric box 40. Since the blowers 22A and 22B can be arranged in the heat exchange chamber R1 so as to achieve the heat exchanger, further improvement of the heat exchange efficiency in the heat exchanger 21 can be achieved.

Further, in the state where the first supporting plate 41 is mounted on the upper surface portion 16E of the partition plate 16, the rear portion 41C of the first supporting plate 41 is placed on the tube plate 35 of the heat exchanger 21. Since the temporary fixing was made possible to the rib 35A, the electric box 40 can be easily mounted in the unit case 11.

Moreover, according to this embodiment, the 1st support plate 41 is a gourd-shaped hole which can catch the screw 62 attached to the rib 35A of the tube plate 35 to 41 C of back parts of this 1st support plate 41 ( Since the electrical equipment box 40 can be temporarily fixed to the partition board 16 and the tube board 35 of the heat exchanger 21, the electrical equipment box 40 can be easily attached to a unit case by one operator. (11) can be attached.

Moreover, according to this embodiment, the gourd-shaped hole 61 is equipped with the small diameter hole 61A and the large diameter hole 61B, These small diameter holes 61A and the large diameter hole 61B. Is formed about the same radius centering on the corner part 41E1 of the heat exchange chamber R1 side in the lower surface part 41E of the 1st support plate 41, and is centered on this corner part 41E1. By rotating the first support plate 41 (the electric box 40) in the clockwise direction (in the R direction in the figure), the screw 62 can be easily fastened to the gourd-shaped hole 61.

Further, according to the present embodiment, the first supporting plate 41 extends from the lower surface portion 41E of the first supporting plate 41 toward the machine room R2 side of the upper surface portion 16E of the partition plate 16 ( 41F), a small force is provided by sliding the upper portion box 40 on the upper surface portion 16E of the partition plate 16 with the tongue section portion 41F as a guide when the electrical portion box 40 is mounted. As a result, the electric box 40 can be press-fitted to a predetermined position.

Moreover, since it functions as a cover which covers the clearance gap of the 1st support plate 41 and the partition plate 16, it passes through the clearance gap of the partition plate 16 and the 1st support plate 41 from the heat exchange chamber R1, and the machine room R2. Even if rainwater intrudes into the rainwater, the rainwater touches the tongue tongue portion 41F and flows down the machine chamber R2, thereby preventing the rainwater from infiltrating into the electrical equipment box 40.

Next, the structure of the heat exchanger 21 is demonstrated.

As shown in Fig. 9, the heat exchanger 21 is formed by stacking a plurality of fin tube type heat exchange parts 151, 152, and 153 in the thickness direction. The heat exchange part 151 disposed inside is provided with a refrigerant pipe 151A through which a refrigerant flows, and a plurality of heat dissipation fins 151B disposed around the refrigerant pipe 151A. In addition, the heat exchange parts 152 and 153 disposed at the middle and the outside are formed to have substantially the same size as the heat exchange part 51, and have the same configuration as the heat exchange part 151, and therefore, the same type of symbols are given. The description is omitted.

As shown in FIG. 2, the heat exchange parts 151-153 are arrange | positioned at the position of the right end part in a figure, and the 1st tube plate 35 which connects the said heat exchange parts 151-153 with this end part is shown. Is installed. The first tube plate 35 is provided with ribs 35A which are bent into corner portions inside the unit case 11 of the first tube plate 35 in an approximately L shape, and the partition plate 16 is formed on the ribs 35A. ) Is screwed in.

Thus, the heat exchange parts 151 to 153 are formed in substantially the same size, are arranged in alignment with the position of the right end part in the figure, and are each bent in an approximately L shape when viewed from the top surface. For this reason, in the figure of the heat exchange parts 151-153, the edge part of the left side (one side) is not aligned, respectively, and the step part 155 is formed in this end side. Specifically, the end part 152C of the heat exchange part 152 arrange | positioned in the middle rather than the end part 151C of the heat exchange part 151 arrange | positioned inside is located in the back, and the heat exchange part arrange | positioned outside this end part 152C. End 153C of 153 is located rearward. For this reason, as a result, the position of each edge part 151C-153C is not aligned, and the step part 155 is formed in the one end side of the heat exchanger 21. As shown in FIG.

As shown in Fig. 10, the stepped section 155 is provided with a guide plate 156 for introducing outside air into the stepped section 155 by the operation of the blowers 22A and 22B. The guide plate 156 is a plate member having substantially the same height as the heat exchanger 21, and is disposed substantially parallel to the fins 151B to 153B of the respective heat exchangers 151 to 153 in the stepped portion 155. The front surface portion 156A, the side surface portion 156B formed by bending one end portion of the front surface portion 156A toward the step portion 155 side, and the other end portion of the front surface portion 156A, that is, the side opposite to the side surface portion 156B. A fixing portion 156C is formed by bending an end portion of the bent portion toward the front panel 14 side. This fixing part 156C (one end) is attached to the heat exchange part 151 arrange | positioned inside.

Specifically, a second tube plate 157 for attaching the guide plate 156 to the heat exchange part 151 is provided at the end 151C of the heat exchange part 151. The second tube plate 157 includes an end plate 157A disposed substantially parallel to the fin 151B of the heat exchange part 151, and an end portion on the left side of the end plate 157A, that is, an outer heat exchange part 153. A rib 157B is formed by bending an end portion of the side toward the front panel 14 side. This rib 157B is about the same width as the fixing part 156C of the guide plate 156, and the guide plate 156 makes the heat exchange part 151 by screwing this rib 157B and the fixing part 156C together. ) Is mounted. In this configuration, the guide plate 156 can be easily formed by bending one sheet material.

On the other hand, the side part (the other end part) 156B of the guide plate 156 is attached to the bottom plate 12. Specifically, the bottom plate 12 has a standing portion 112A around it, and the standing portion 112A has a recess 112B at a position facing the side portion 156B of the guide plate 156. Formed. This recessed part 112B is recessed to the position which contacts the said side part 156B, and the side part (the other end part) of the guide plate 156 by fixing the recessed part 112B and the side part 156B with the screw 158. 156B is mounted to the bottom plate 12.

In this way, the fixing part 156C of the guide plate 156 is mounted to the second tube plate 157 of the heat exchange part 151 disposed inside, and the side surface part 156B of the guide plate 156 is the bottom plate 12. Since it is attached to the recessed part 112B formed in the standing part 112A of (), the heat exchanger 21 and the bottom plate 12 are connected through this guide plate 156. This eliminates the need for a dedicated member for connecting the heat exchanger 21 to the bottom plate 12, thereby reducing the number of parts and reducing assembly work.

Here, the guide plate 156 is a bottom plate (width W) formed between the side portion 156B of the guide plate 156 and the end portion 153C of the heat exchanger 153 disposed outside. 12) is mounted. The width W of the gap 160 is large enough to allow the outside air to flow into the stepped portion 155 through the gap 160.

According to this, the outside air sucked through the gap 160 by the operation of the blowers 22A and 22B is guided to the guide plate 156 as shown by the arrow X in FIG. Pass through section 155. For this reason, since sufficient outdoor air flows to the step part 155, this step part 155 contributes to heat exchange, and the heat exchange efficiency of the heat exchanger 21 can be improved.

In particular, in the case where the heat exchanger 21 is formed by stacking three or more heat exchangers 51 to 53 as in the present embodiment, the guide plate 156 contributes to the heat exchange as indicated by the diagonal lines in FIG. Since the area to be enlarged more, the effect obtained is also larger.

In addition, in the front surface portion 156A and the fixing portion 156C of the guide plate 156, a plurality of cutouts (opening portions) of a plurality (four in this embodiment, see FIG. 1) at a predetermined pitch as shown in FIG. 161 is formed. This cutout 61 is used to connect the heat exchanger 151 arranged inside and the heat exchanger 152 arranged in the middle (adjacent to the heat exchanger). In this configuration, the coolant tube 151A of the heat exchanger 151 disposed inside the passage through the cutout 161 and the coolant tube 152A of the heat exchanger 152 disposed in the middle are bound by a band (connector). By tying in 162, these heat exchange parts 151 and 152 can be connected easily.

If the notch 161 is largely formed, the work to bundle the refrigerant pipes 151A and 152A with the binding band 162 becomes easy. However, since the outside air easily passes through the cutout portion 161 to the space inside the heat exchanger 21, the cutout portion 161 is preferably formed so small that the size of the cutout portion 161 is not inhibited. Do.

In addition, although not shown in the present configuration, the refrigerant pipe 152A of the heat exchanger 152 disposed in the middle and the refrigerant pipe 153A of the heat exchanger 153 disposed outside are arranged inside the guide plate 156. The heat exchangers 152 and 153 are connected by being bound by the binding band.

In addition, the first front panel 114A is fixed to the side surface portion 156B of the guide plate 156 as shown in FIG. The first front panel 114A has a side portion 114A1 formed by bending an end portion at the stepped portion 155 side of the heat exchanger 21 toward the rear side, and the side portion 114A1 is a side portion of the guide plate 156. It extends outward of 156B and is screwed to this side part 156B.

Although not shown, the side portion 114A1 is formed with a recessed portion that is in contact with the side portion 156B, and the first front panel 114A is mounted by screwing the recess portion and the side portion 156B. . According to this structure, the tube board for attaching the 1st front panel 114A to the edge part 153C of the outer side heat exchange part 153 is unnecessary, and the number of parts can be reduced and assembly work can be reduced. .

In this configuration, the side portion 114A1 of the first front panel 114A is mounted so as to substantially overlap the side portion 156 of the guide plate 156 as shown in FIG. According to this configuration, the gap 160 is prevented from being narrowed by the side portion 114A1 of the first front panel 114A, while the side portion 156B of the guide plate 156 is connected to the side portion 114A1. Since exposure to the outside is prevented by this, the aesthetics of the outdoor unit 10 of an air conditioner can be improved.

According to the present embodiment, the unit case 11 includes a heat exchanger 21 formed by bending a plurality of fin tube-type heat exchange parts 151 to 153 in the thickness direction and bending to generate a step 155 on one end side. A guide plate 156 which is provided inside and introduces outside air into the stepped portion 155, and the fixing portion 156C of the guide plate 156 is mounted to the heat exchange portion 151 disposed inside, The side case 156B of the guide plate 156 is provided with a gap 160 through which outside air flows between the side part 156B and the end 153C of the heat exchange part 153 disposed outside. Since it is attached to the bottom plate 12 of 11), the outside air sucked through this gap 160 is guided to the guide plate 156 and passes through the stepped portion 155 of the heat exchanger 21. For this reason, since sufficient outdoor air flows through the step part 155, this step part 155 contributes to heat exchange, and the heat exchange efficiency of the heat exchanger 21 can be improved.

In addition, since the heat exchanger 21 and the bottom plate 12 are connected through the guide plate 156, a dedicated member for connecting the heat exchanger 21 to the bottom plate 12 is unnecessary, thereby reducing the number of parts. At the same time, the assembly work can be reduced.

In addition, according to the present embodiment, since the first front panel 114A is mounted on the guide plate 156, the first front panel 114A is mounted on the end portion 153C of the outer heat exchange part 153. The tube plate becomes unnecessary, so that the number of parts can be reduced, and the assembly work can be reduced.

In addition, according to the present embodiment, the guide plate 156 includes a cutout 161 for passing the binding band 162 connecting the heat exchanger 151 disposed inside and the heat exchanger 152 disposed in the middle. Since it is formed, the binding band 162 connects the refrigerant pipe 151A of the heat exchange part 151 arrange | positioned inside through this cutout part 161, and the refrigerant pipe 152A of the heat exchange part 152 arrange | positioned in the middle. ), These heat exchange parts 151 and 152 can be easily connected.

Further, according to the present embodiment, since the heat exchanger 21 is formed by stacking heat exchangers 151 to 153 having substantially the same shape in three stages, the area contributing to the heat exchange by the guide plate 156 is two. The heat exchange efficiency can be further improved because the heat exchanger is further enlarged compared to the lamination.

As mentioned above, although this invention was demonstrated based on embodiment, this invention is not limited to this.

In the said embodiment, although it is set as the structure which arrange | positions two upper and lower reinforcement boards 50 to the partition board 16, it is not limited to this, It is good also as a structure which arrange | positions one or three or more reinforcement plates. In addition, in this embodiment, the structure which fixes the support plate 36 which supports the gas service valve 37 and the liquid service valve 38 to the partition board 16 via the lower reinforcement board 50 is demonstrated. However, it is good also as a structure fixed to the partition plate 16 through the upper reinforcement board 50. As shown in FIG.

In addition, although the heat exchanger 21 demonstrated what laminated | stacked three heat exchange parts 151, 152, and 153 in this embodiment, the heat exchanger may be what formed the heat exchange part into 2 layers, 4 layers, and 5 layers. In this configuration, as described above, the heat exchange efficiency can be improved as the number of heat exchange parts to be laminated increases, so that a greater effect can be obtained. In addition, although the binding band 62 is used as a connector in this embodiment, it is not limited to this, It is good also as a structure which connects a heat exchange part with a wire, a string, and a belt.

In addition, in this embodiment, although the structure provided with the two blowers 22A and 22B arrange | positioned up and down was demonstrated, it is a matter of course that the structure provided with one blower may be sufficient.

1 is a front view of an internal configuration of an outdoor unit according to an embodiment of the present invention.

2 is a top view of an internal configuration of an outdoor unit.

3 is a perspective view showing a partition plate and an accumulator;

4 is a perspective view showing a configuration of a partition plate;

Fig. 5 is a plan view showing the mounting state of the accumulator on the partition plate;

6 is a perspective view showing an electrical equipment box arranged in the shape of a partition plate;

Fig. 7 is a perspective view showing the configuration of an electrical equipment box.

8 is a view for explaining the mounting procedure of the electrical equipment box.

9 is a perspective view showing a stepped portion;

Fig. 10 is a perspective view showing the structure of a guide plate disposed on a stepped portion.

11 is a plan view for explaining the flow of outside air to be distributed to the stepped portion.

<Explanation of symbols for main parts of the drawings>

R1: heat exchange chamber

R2: Machine Room

10: outdoor unit

11: unit case

14: front panel

16: partition plate

21: heat exchanger

22A, 22B: Blower

26A, 26B: Fan Motor

27A, 27B: Propeller Fan

31: compressor

32: accumulator

33: four way valve

35: tube plate

36: support plate

37, 38: service valve

40: battlefield box

43: inverter board

44: heatsink

46: filter substrate

50: reinforcement plate

50E: Rib

151, 152, 153: heat exchanger

155 step difference

156: guide plate

Claims (12)

In an outdoor unit of an air conditioner in which a partition plate is divided into a heat exchange chamber and a machine chamber, a heat exchanger and a blower are accommodated in the heat exchange chamber, and a compressor, an electric box, and an accumulator are housed in the machine chamber. Attaching a pair of reinforcement plates to the partition plate, mounting the accumulator to the partition plate through the reinforcement plate, and fixing one end of the partition plate together with the reinforcement plate to the tube plate of the heat exchanger; The accumulator includes a container body and a pair of mounting metal members fixed to the container body, and the reinforcement plate is disposed on the partition plate at intervals corresponding to the pitch of the mounting metal members. Outdoor unit of the device. delete The outdoor unit of the air conditioner according to claim 1, wherein the partition plate and the reinforcement plate are provided with a hole for penetrating the partition plate and the reinforcement plate to hang the mounting metal member of the accumulator. A service valve connected to a refrigerant circuit connected to said compressor and said accumulator is provided in said machine room, and one end of a support plate for supporting said service valve is fixed to said partition plate through said reinforcement plate. Outdoor unit of air conditioner. In an outdoor unit of an air conditioner in which a partition plate is divided into a heat exchange chamber and a machine chamber, a heat exchanger and a blower are accommodated in the heat exchange chamber, and a compressor, an electric box, and an accumulator are housed in the machine chamber. The said electrical equipment box is provided with the support plate which extends in the vertical direction from the upper part of the said partition board in the substantially same width | variety as the said partition board, and supports the electrical equipment unit at the said machine room side, and this support plate was mounted in the upper end part of the said partition board. One end of the support plate can be temporarily fixed to the tube plate of the heat exchanger, The support plate has a hole in one end of the support plate that can be hooked to a screw portion provided in the tube plate. The hole has a small diameter hole and a large diameter hole connected to the small diameter hole, and the small diameter hole and the large diameter hole are provided on approximately the same radius around the lower end of the support plate. Outdoor unit of conditioner. delete delete The outdoor unit of the air conditioner according to claim 5, wherein the support plate includes a tongue section extending downward from a lower end portion on the machine room side of the support plate. delete delete delete delete

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