JPH08189669A - Air-condictioner - Google Patents

Abstract

PURPOSE: To provide an air-conditioner which is constituted to absorb vibration generated by a compressor and besides eliminate a fear of a piping which is connected to a four-passage switching valve, may come into contact with a compressor. CONSTITUTION: At least an outdoor heat-exchanger 22, a compressor 23 to effect compression of a refrigerant, an accumulator 24 attached to the side of the compressor and effecting gas-liquid of a returning refrigerant, and a four-passage switching valve 25 to switch a refrigerant flow passage are arranged in an outdoor machine 20. The four-passage switching valve 25 is arranged above the compressor 23 and the accumulator 24. First and fourth pipings 11 and 12 are shorter and thicker than the second pipe 13 and third pipe 14 so as to support the accumulator 24. The second and third pipings 13 and 14 are bent in a wave-form or a loop-form so as to absorb vibration generated by the compressor 23.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner.
More specifically, the present invention relates to a piping structure inside an outdoor unit of a heat pump type air conditioner.

[0002]

2. Description of the Related Art In an air conditioner of this type, as shown in a schematic view of FIG.
It was connected with. The outdoor unit 20 includes an outdoor heat exchanger 22, an outdoor fan 26 and a fan motor 27, a compressor 23 that compresses a refrigerant, an accumulator 24 that separates the recirculated refrigerant from gas and liquid, and a refrigerant flow path. The four-way switching valve 25 is provided.

During the cooling operation, the compressor 2 is set as shown by the solid line in FIG. 3 by changing the setting of the four way switching valve 25.
Refrigerant discharged by 3 is pipe 31, four-way switching valve 2
5, piping 33, outdoor heat exchanger 22, piping 36, piping 42
To the indoor heat exchanger 2, and is returned from the indoor heat exchanger 2 to the compressor 23 through the pipe 41, the pipe 34, the four-way switching valve 25, the pipe 32, the accumulator 24, and the pipe 35. During the heating operation, the four-way switching valve 25 is switched so that the refrigerant discharged from the compressor 23 is connected to the pipe 31, the four-way switching valve 25, the pipe 34, and the pipe 4 as shown by a broken line in FIG.
1 to the indoor heat exchanger 2, and the pipe 42, the pipe 36, the outdoor heat exchanger 22, the pipe 33, the four-way switching valve 25, the pipe 32, the accumulator 24, the pipe 3 from the indoor heat exchanger 2
It returns to the compressor 23 through 5.

Actually, when the inside of the outdoor unit 20 is viewed from above, as shown in FIG. 2A, the outdoor heat exchanger 22, the outdoor fan 26, and this outdoor fan are provided on the left side of the partition plate 21. A fan motor 27 for driving is arranged, and a compressor 23, an accumulator 24, and a four-way switching valve 25 are arranged on the right side of the partition plate 21. The compressor 23 is attached to the bottom plate of the casing, and the accumulator 24 is integrally attached to the side portion of the compressor 23. The four-way switching valve 25 is arranged behind them. Then, the pipe 31 that connects the four-way switching valve 25 and the outdoor heat exchanger 22 and the pipe 34 that connects the four-way switching valve 25 and the pipe 41 toward the indoor unit are not provided with an extra bend, It is almost straight. On the other hand, a pipe 31 connecting the compressor 41 and the four-way switching valve 25 and a pipe 32 connecting the four-way switching valve 25 and the accumulator 24 absorb the vibration generated by the compressor 41 (trap). 2 (b)
As shown in, it is bent in a wavy or loop shape. In particular, the pipe 31 connecting the compressor 41 and the four-way switching valve 25 is arranged so as to surround the outer periphery of the compressor 41 in order to save space.

[0005]

However, in the above-mentioned conventional air conditioner, since the pipe 31 is arranged so as to surround the outer periphery of the compressor 23, the pipe 31 may come into contact with the compressor 23. .

Therefore, an object of the present invention is to provide an air conditioner capable of absorbing the vibration generated by the compressor and eliminating the risk of the pipe connected to the four-way switching valve coming into contact with the compressor. .

[0007]

In order to achieve the above object, the air conditioner according to claim 1 has at least an outdoor heat exchanger, a compressor for compressing a refrigerant, and this compressor in an outdoor unit. Equipped with an accumulator attached to the side part of the refrigerant for performing gas-liquid separation of the refluxed refrigerant, and a four-way switching valve for switching the refrigerant flow path. The refrigerant discharged by the machine, the first pipe, the four-way switching valve, the second pipe,
It is sent to the indoor unit through the outdoor heat exchanger and returned from the indoor unit to the compressor through the third pipe, the four-way switching valve, the fourth pipe, and the accumulator, while the four-way switching valve is operated during heating operation. By switching, the refrigerant discharged by the compressor is sent to the indoor unit through the first pipe, the four-way switching valve, and the third pipe, and from the indoor unit, the outdoor heat exchanger, the second pipe, In the air conditioner configured to return to the compressor through the four-way switching valve, the fourth pipe, and the accumulator, the four-way switching valve is arranged above the compressor and the accumulator, and the first and the second The fourth pipe is set shorter and thicker than the second and third pipes so as to support the accumulator, and the second and third pipes absorb the vibration generated by the compressor. It is characterized by being bent in a wave or loop shape so as to.

[0008]

In the air conditioner according to the present invention, the vibration generated by the compressor is bent in a wavy or loop shape.
And is absorbed by the third pipe.

Further, since the first and fourth pipes are respectively provided from the compressor or accumulator toward the upper accumulator, there is no possibility of contact with the compressor or accumulator. Further, since the four-way switching valve is arranged above the compressor and the accumulator, between the four-way switching valve and the outdoor heat exchanger, between the four-way switching valve and the pipe outlet to the indoor unit. A space is generated in the space, and the second and third pipes, in particular, the portions that are bent in a wavy or loop shape can be arranged in the space. With such an arrangement, the second and third pipes have no possibility of coming into contact with the compressor or the accumulator. Therefore, in this air conditioner, there is no fear that the pipe connected to the four-way switching valve will come into contact with the compressor or the accumulator.

Further, the four-way switching valve includes the second and third
1 and 4 shorter and thicker than the pipes
Supported by the plumbing. Therefore, this air conditioner does not require any new member to support the four-way switching valve. Therefore, the cost does not increase as compared with the conventional air conditioner.

[0011]

EXAMPLES The air conditioner of the present invention will be described in detail below with reference to examples.

In this air conditioner, the outdoor unit 20 and the indoor unit 1 are connected by refrigerant pipes 41 and 42, as shown in the schematic diagram of FIG. The indoor unit 1 is provided with an indoor heat exchanger 2.

As shown in FIG. 1 (a), the outdoor unit 20 includes
An outdoor heat exchanger 22 and an outdoor fan 2 are provided on the left side of the partition plate 21.
6 and a fan motor 27 are arranged, a compressor 23 for compressing the refrigerant on the right side of the partition plate 21, an accumulator 24 for separating the refluxed refrigerant into gas and liquid, and a four-way switching valve for switching the refrigerant flow path. And 25 are arranged. Note that, for simplification, in FIG. 1, the same components as those in FIG. 2 are denoted by the same reference numerals. The compressor 23 is attached to the bottom plate of the casing, and the accumulator 24 is integrally attached to the side portion of the compressor 23.

During the cooling operation, the refrigerant discharged by the compressor 23 is set to the first pipe 11, the four-way switching valve 25, the second pipe 13, the outdoor heat exchanger 22, by the switching setting of the four-way switching valve 25. It sends to the indoor heat exchanger 2 through the pipes 36 and 42 shown in FIG.
The pipe 14, the four-way switching valve 25, the fourth pipe 12, the accumulator 24, and the pipe 35 (see FIG. 1B) are returned to the compressor 23. On the other hand, during the heating operation, the four-way switching valve 25 is switched so that the refrigerant discharged by the compressor 23 is passed through the first pipe 11, the four-way switching valve 25, the third pipe 14, and the pipe 41 to the indoor heat exchanger 2 And sent from the indoor heat exchanger 2 through the pipes 42 and 36, the outdoor heat exchanger 22, the second pipe 13, the four-way switching valve 25, the fourth pipe 12, the accumulator, and the pipe 35 shown in FIG. It is supposed to be returned to machine 2.

Here, as shown in FIG. 1B, the four-way switching valve 25 is arranged above the compressor 23 and the accumulator 24. The first pipe 11 and the fourth pipe 12 are shorter and thicker than the second pipe 13 and the third pipe 14, and support the four-way switching valve 25.

More specifically, the first pipe 11 is connected to the compressor 23.
Of the four-way switching valve 25, extends upward from above, passes near the side portion of the four-way switching valve 25, is curved in a semicircular shape, and is connected to the upper portion of the four-way switching valve 25. Further, the fourth pipe 12 is connected to the accumulator 2
4 extends upward from the upper part of 4 and is directly connected to the four-way switching valve 25.
Connected to the bottom of.

The second pipe 13 is bent in a wave shape or a loop shape, and is arranged in a space between the four-way switching valve 25 and the outdoor heat exchanger 22. The third pipe 14 is bent in a wave shape or a loop shape, and is arranged in a space between the four-way switching valve 25 and the pipe outlet toward the indoor unit. Since the second pipe 13 and the third pipe 34 are bent in a wavy or loop shape, the compressor 2
The vibration generated by 3 can be absorbed (trapped).

Further, the first pipe 11 and the fourth pipe 1
2 are provided from the compressor 23 and the accumulator 24 toward the upper four-way switching valve 25, respectively, so there is no risk of contact with the compressor 23 and the accumulator 24. Further, the second pipe 13 and the third pipe 14, especially the portions bent in a wavy or loop shape, have a space between the four-way switching valve 25 and the outdoor heat exchanger 22, respectively, and a four-way switching valve 25. Since it is arranged in the space between the pipe outlet toward the indoor unit and the pipe outlet toward the indoor unit, there is no possibility of contact with the compressor 23 or the accumulator 24. Thus, according to this air conditioner, the pipe 1 connected to the four-way switching valve 25
It is possible to eliminate the possibility that 1, 12, 13, 14 contact the compressor 23 and the accumulator.

Further, in this air conditioner, since a mounting plate or the like is not newly provided to support the four-way switching valve 25, the cost will not be increased as compared with the conventional one.

[0020]

As is apparent from the above, in the air conditioner according to the first aspect, the vibration generated by the compressor can be absorbed by the second and third pipes bent in a wavy or loop shape. it can.

Further, since the first and fourth pipes are provided from the compressor and the accumulator toward the upper four-way switching valve, respectively, there is no possibility of contact with the compressor and the accumulator. Further, since the four-way switching valve is arranged above the compressor and the accumulator, between the four-way switching valve and the outdoor heat exchanger, between the four-way switching valve and the pipe outlet to the indoor unit. A space is generated in the space, and the second and third pipes, in particular, the portions that are bent in a wavy or loop shape can be arranged in the space. With such an arrangement, the second and third pipes have no possibility of coming into contact with the compressor or the accumulator. Therefore, according to this air conditioner, it is possible to eliminate the risk that the pipe connected to the four-way switching valve will come into contact with the compressor or accumulator.

The four-way switching valve includes the second and the third.
1 and 4 shorter and thicker than the pipes
Supported by the plumbing. Therefore, this air conditioner does not require any new member to support the four-way switching valve. Therefore, the cost does not increase as compared with the conventional air conditioner.

[Brief description of drawings]

FIG. 1 is a diagram showing a piping structure inside an outdoor unit of an air conditioner according to an embodiment of the present invention.

FIG. 2 is a diagram showing a piping structure inside an outdoor unit of a conventional air conditioner.

FIG. 3 is a diagram schematically showing a piping system of an air conditioner of the related art and the one embodiment.

[Explanation of symbols]

11 First Pipe 12 Fourth Pipe 13 Second Pipe 14 Third Pipe 20 Outdoor Unit 22 Outdoor Heat Exchanger 23 Compressor 24 Accumulator 25 Four-way Switching Valve

Claims (1)

[Claims] 1. An outdoor unit (20) having at least an outdoor heat exchanger (22), a compressor (23) for compressing a refrigerant, and a refrigerant gas which is attached to a side portion of the compressor and recirculates. An accumulator (24) for performing liquid separation and a four-way switching valve (25) for switching the refrigerant flow path are provided, and during cooling operation, the compressor (23) is set by switching the four-way switching valve (25). ) The refrigerant discharged by the first pipe (11), the four-way switching valve (25), the second pipe
(13), sent to the indoor unit through the outdoor heat exchanger (22), from the indoor unit to the third pipe (14), the four-way switching valve (2
5), returning to the compressor (23) through the fourth pipe (12) and the accumulator (24), while heating operation,
By switching the four-way switching valve (25), the compressor (23)
The refrigerant discharged by the above is sent to the indoor unit through the first pipe (11), the four-way switching valve (25), and the third pipe (14), and from the indoor unit, the outdoor heat exchanger (22), An air conditioner configured to return to the compressor (23) through the second pipe (13), the four-way switching valve (25), the fourth pipe (12) and the accumulator (24), The four-way switching valve (25) is arranged above the compressor (23) and the accumulator (24), and the first and fourth pipes (11, 12) support the accumulator (24). The second and third pipes (13, 14) are set to be shorter and thicker than the second and third pipes (13, 14).
An air conditioner characterized by being bent in a wave shape or a loop shape so as to absorb the vibration generated by (23).