JPH08145481A - Air conditioner - Google Patents

Abstract

PURPOSE: To regulate to a suitable circulating quantity of a refrigerant by connecting a tube for connecting an outdoor heat exchanger to a pressure reducing unit to a first receiver tank by a tube, and connecting a tube for connecting an indoor heat exchanger to the unit to a second receiver tank by a tube. CONSTITUTION: Refrigerants fed to tubes 29A, 29B are combined by a tube 30, fed through a muffler 19, a four-way valve 9 and an accumulator 20, and returned to a compressor 6. At the time of this first operation, a solenoid valve 39 is closed, and hence the refrigerant is not fed from a tube 24 to a tube 37. At the time of the first operation, since the circulating quantity of the refrigerant is small, excess liquid refrigerant is stored in a first receiver tank 34 via a tube 2B. The excess liquid refrigerant which is not stored is stored in a second receiver tank 36 via the tubes 41, 37. Finally, the refrigerant of totally about 500g is stored in the tanks 34, 36. Thus, the quantity of the refrigerant is regulated to the suitable circulating quantity, and the excess refrigerant is not stored in the refrigerating circuit to eliminate the decrease of the capacity.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner for cooling and heating a room.

[0002]

2. Description of the Related Art This type is disclosed, for example, in Japanese Patent Laid-Open No. 6-1.
There is an air conditioner described in Japanese Patent No. 8062. In this publication, a compressor, a four-way valve, an outdoor heat exchanger, a pressure reducing device, and an indoor heat exchanger are connected by piping to form a refrigerating circuit capable of cooling and heating operation, and the outdoor heat exchanger and the pressure reducing device are connected to each other. An air conditioner is shown in which piping and a receiver tank are connected by piping.

[0003]

In the above-described air conditioner, during the cooling operation, the circulation amount of the refrigerant is smaller than that during the heating operation, so that the excess liquid refrigerant is accumulated in the receiver tank. However, with this configuration, when the refrigerant remains during the heating operation, the excess liquid refrigerant cannot be stored. When the filling amount of the refrigerant in the refrigerant circuit is made small so that excess refrigerant is not generated during heating operation, additional refrigerant is filled when the refrigerant pipe is long (when the refrigerant pipe connecting the indoor unit and the outdoor unit is long). This method is undesirable because it must be done.

The present invention provides an air conditioner capable of adjusting an appropriate refrigerant circulation amount during cooling operation and heating operation.

[0005]

In order to solve the above-mentioned problems, a first aspect of the present invention is capable of cooling and heating operation by connecting a compressor, a four-way valve, an outdoor heat exchanger, a pressure reducing device, and an indoor heat exchanger by piping. In an air conditioner having a different refrigeration circuit, the first and second receiver tanks are provided, and a pipe connecting the outdoor heat exchanger and the decompression device and the first receiver tank are connected by a pipe, and the indoor heat exchange is performed. A pipe that connects the container and the decompression device and the second receiver tank are connected by a pipe.

A second aspect of the invention is to construct a refrigerating circuit capable of cooling and heating operation by connecting a compressor, a four-way valve, an outdoor heat exchanger, a pressure reducing device and an indoor heat exchanger by piping, and to this refrigerating circuit. In an air conditioner having a branch passage and capable of connecting a plurality of indoor heat exchangers, a first and a second receiver tank are provided, and a pipe connecting the outdoor heat exchanger and a decompression device and the first receiver tank are provided. Is connected by a pipe, and the pipe connecting the indoor heat exchanger and the pressure reducing device and the second receiver tank are connected by a pipe.

A third aspect of the present invention is to configure a compressor / four-way valve, an outdoor heat exchanger, a pressure reducing device, and an indoor heat exchanger by pipe connection to form an air-conditioning refrigeration circuit capable of air-conditioning operation. An air conditioner in which a pipe on the discharge side, a pipe connecting the outdoor heat exchanger and a pressure reducing device are connected by a bypass pipe having an opening / closing valve, the first heat exchanger and the second receiver tank are provided, and the outdoor heat exchanger and the pressure reducing device are provided. The first receiver tank is provided in a bypass pipe that connects the pipe connecting the device and the opening / closing valve,
The second receiver tank is connected to a pipe connecting the indoor heat exchanger and the pressure reducing device by a pipe.

Further, a fourth aspect of the present invention is an air conditioner in which a compressor, a four-way valve, an outdoor heat exchanger, a pressure reducing device, and an indoor heat exchanger are connected by piping to form an air-conditioning refrigeration circuit capable of cooling and heating operation. The first and second receiver tanks, the pipe connecting the outdoor heat exchanger and the decompression device and the first receiver tank are connected by a pipe, and the pipe connecting the indoor heat exchanger and the decompression device and the first The two receiver tanks are connected by a connecting pipe, and the pipe connecting the pressure reducing device and the indoor heat exchanger and the connecting pipe are connected by a pipe having an auxiliary pressure reducing device.

[0009]

In the air conditioner according to the first to fourth aspects of the invention,
Excess refrigerant during the cooling operation is accumulated in the first receiver tank,
Excess refrigerant during heating collects in the second receiver tank.

In the air conditioner according to the second invention, in particular,
Even if a branch passage is provided so that a plurality of indoor units can be connected, and the refrigerant is filled more than that without the branch passage, the refrigerant is accumulated in the first and second receiver tanks and the circulation amount is increased. Is adjusted.

In the air conditioner according to the third invention, in particular,
The pipe connecting the outdoor heat exchanger and the pressure reducing device and the pipe connecting the first receiver tank can also be used as the bypass pipe.

In the air conditioner according to the fourth invention, in particular,
The auxiliary depressurizing device prevents the refrigerant from bypassing the depressurizing device during the cooling operation, and the first depressurizing device can be used during the cooling operation.
Excess refrigerant that did not collect in the receiver tank collects in the second receiver tank.

[0013]

Embodiments of the present invention will be described with reference to the drawings. In the figure, reference numeral 1 is a separation type air conditioner configured by connecting a plurality of indoor units 2A, 2B and a single outdoor unit 3 with pipes 4A, 4B, 5A, 5B, and can cool and heat two rooms. is there.

6 is a variable capacity compressor, 7 is a muffler,
8 is a four-way valve that can be switched during cooling / heating operation, 9 is an outdoor heat exchanger, 10 is a strainer, 11 is an electric expansion valve (pressure reducing device), 12A and 12B are diversion electric expansion valves, 13A,
13B is a strainer, 14A and 14B are service valves, 15A and 15B are connection parts, 16A and 16B are indoor heat exchangers, and 17A and 17B are connection parts. 18A, 18
B is a service valve, 19 is a muffler, and 20 is an accumulator. 21 is a pipe connecting the compressor 6 and the four-way valve 8, 22 is a pipe connecting the four-way valve 8 and the outdoor heat exchanger 9,
Reference numeral 23 is a pipe that connects the outdoor heat exchanger 9 and the electric expansion valve 11, and 24 and 25A are pipes that connect the electric expansion valve 11 and the electric expansion valve 12A. A pipe 25B connects the pipe 24 and the electric expansion valve 12B. 26
A and 26B are pipes connecting the electric expansion valves 12A and 12B and the service valves 12A and 14B, 27A and 2B, respectively.
7B, 28A, 28B are auxiliary refrigerant pipes, 29A, 29
B and 30, piping, 31 four-way valve 8 and accumulator 20
It is a pipe that connects to.

Reference numeral 32 is a bypass pipe connecting the pipe 21 and the pipe 23, and is constituted by a bypass pipe 32A on the compressor side and a bypass pipe 32B on the outdoor heat exchanger side. 33 is an opening / closing valve (electromagnetic valve) provided in the bypass pipe 32, 34 is a first receiver tank provided in the bypass pipe, 35 is a lower end portion of the receiver tank, 36 is a second receiver tank, 37
Is a connecting pipe for connecting the lower end portion 38 of this tank to a pipe, and 39 and 40 are opening / closing valves (solenoid valves) and check valves provided in the connecting pipes, respectively. The connecting pipe 37 includes a portion 37A connecting the pipe 24 and the open / close valve 39, and the open / close valve 39.
And a part 37B connecting the check valve 40 and a part 37 connecting the check valve 40 and the second receiver tank 36. Reference numeral 41 denotes a pipe connecting the pipes, and an auxiliary decompression device 42 (capillary tube having an inner diameter of 0.9 mm and a length of 600 mm) is provided. Numerals 43 and 44 are strainers arranged on both sides of the auxiliary decompression device to prevent dust and the like from clogging the auxiliary decompression device 42.

An outdoor fan for supplying outdoor air to the outdoor heat exchanger 9, an indoor fan for supplying indoor air to the indoor heat exchangers 16A and 16B, a compressor 6 and a four-way valve 8
And electric expansion valves 11, 12A, 12B and open / close valves 33, 39
Control device for controlling and, a switch that can be switched between short piping and long piping (provided in the outdoor unit and switched by the operator himself depending on the work performed by the construction operator)
Is not shown.

The first receiver tank 34 is approximately 230 cc.
(About 250 grams) of liquid refrigerant can be stored, and similarly, the second receiver tank 36 also stores about 230 cc (about 250 gram).
(G) is set to a capacity that can store the liquid refrigerant.

In this air conditioner, the circulation amount of the refrigerant required for the cooling operation (first operation) is about 2 with short piping.
A little less than 260 grams, the circulation amount of the refrigerant required for the cooling operation (second operation) in the long pipe is about 2260 grams, and the circulation amount of the refrigerant required for the heating operation in the short pipe (third operation) is about 2
The circulation amount of the refrigerant required for the heating operation (the fourth operation) is 510 grams and the piping amount is about 2760 grams. Therefore, this air conditioner is filled with the refrigerant (about 2760 grams) required for the fourth operation, which requires the most refrigerant. Therefore, about 500 grams in the first operation,
Approximately 500 grams in the second operation and approximately 250 in the third operation
There are more grams of refrigerant left over.

The above-mentioned short pipe means the pipes 4A, 4B, 5
The total length of A and 5B is less than 20 meters, and the long piping means that the total length of the piping 4A, 4B, 5A and 5B is 20 meters or more and 35 meters or less.

In the air conditioner 1 thus constructed,
The flow of the refrigerant and the required circulation amount of the refrigerant are different depending on the total length of the pipes, the cooling operation or the heating operation.

First, the case of short piping and during cooling operation (first operation) will be described. The refrigerant discharged from the compressor 6 includes a muffler 7, a four-way valve 8, an outdoor heat exchanger 9,
The electric expansion valve 11 flows in this order, and the pipe 24 to the pipe 25A,
Shunt to 25B. The refrigerants flowing through the pipes 25A and 25B are the electric expansion valves 12A and 12B and the strainer 1 respectively.
3A, 13B, service valves 14A, 14B, indoor heat exchangers 16A, 16B, service valves 18A, 18
B, flow to pipes 29A and 29B, and pipes 29A and 29B
The refrigerant flowing through the pipe merges with the pipe 30, flows with the muffler 19, the four-way valve 8 and the accumulator 20 and returns to the compressor 6.
During the first operation, the solenoid valve 39 is closed by the control device, so that the refrigerant does not flow from the pipe 24 to the pipe 37A. During the first operation, the operation in which the circulation amount of the refrigerant is the smallest is performed, and thus the excess liquid refrigerant is accumulated in the first receiver tank 34 through the pipe 32B. Further, the excess liquid refrigerant that did not collect in the first receiver tank passes through the pipes 41 and 37C and collects in the second receiver tank 36. Finally, depending on the load and temperature conditions, the total amount of the first receiver tank 34 and the second receiver tank 36 is about 5
00 grams (about 460 cc) of refrigerant accumulates. For this reason, it is possible to prevent the inconvenience that the amount of the refrigerant is adjusted to an appropriate amount of circulation, and the surplus refrigerant is accumulated in the refrigeration circuit to reduce the capacity. Further, since the bypass pipe 32B can be used as a pipe that connects the lower end portion 35 of the first receiver tank 34 and the pipe 23, the structure of the air conditioner 1 can be simplified.

Next, with long piping and during cooling operation (second
Driving) will be described. Refrigerant flow is especially first
The description is omitted because it is the same as driving. Excess liquid refrigerant is stored in the first receiver tank 34 and the second receiver tank 36.
Accumulate in. Although depending on the load and temperature conditions, about 500 grams (about 460 cc) or less of the refrigerant is stored in the first receiver tank and the second receiver tank. Therefore, the amount of refrigerant is adjusted to an appropriate circulation amount,
It is possible to prevent the inconvenience that the excess refrigerant accumulates in the refrigeration circuit and reduces the capacity.

Next, with short piping and during heating operation (3rd
Driving) will be described. The refrigerant discharged from the compressor 6 includes a muffler 8, a four-way valve 8, a muffler 19, indoor heat exchangers 16A and 16B, service valves 14A and 14
B, strainers 13A, 13B, electric expansion valves 12A, 1
It flows in the order of 2B and joins the pipe 24 from the pipes 12A and 12B. The refrigerant flowing through the pipe 24 is the electric expansion valve 11,
The strainer 10, the outdoor heat exchanger 9, the four-way valve 8, and the accumulator 20 flow, and then return to the compressor 6. During the third operation, the solenoid valve 39 is opened by the control device, and therefore the excess liquid refrigerant is discharged from the pipe 37A, the solenoid valve 39, and the pipe 37B.
Flow with the check valve 40 and the pipe 37C, the second receiver tank 3
Collect in 6. Since the excess liquid refrigerant is 250 grams,
When the second receiver tank 36 is almost full, the circulation amount of the refrigerant is adjusted to a proper amount.

Next, with long piping and during heating operation (No. 4)
Driving) will be described. In this case, what is different from the third operation is that the solenoid valve 39 is closed, and matters related to this point will be described. Since the electromagnetic valve 39 is closed, the flow of the liquid refrigerant to the second receiver tank 36 is restricted by the electromagnetic valve 39. Therefore, the liquid refrigerant does not collect in the second receiver tank 36. Further, in this fourth operation, since the circulation amount of the refrigerant is an appropriate amount, there is almost no excess refrigerant, and the tank 3
Almost no liquid refrigerant accumulates in 6.

In this embodiment, all the first to fourth operations have been described, but since the length of the pipe does not change when the air conditioner is installed, the first operation and the third operation are actually performed. Only the operation can be operated at the same time, and the second operation can be operated only at the same time as the fourth operation.

Further, when a detector (not shown) detects that frost has adhered to the outdoor heat exchanger 9 due to the continuation of the heating operation, the solenoid valve 33 is opened by the control device, so that the high temperature refrigerant transfers the outdoor heat exchanger. 9, the operation of defrosting the outdoor heat exchanger (defrosting operation) is performed.

As described above, in the air conditioner of the present invention, since the circulation amount of the refrigerant is adjusted, it is not necessary to additionally fill the refrigerant or remove the excess refrigerant. Especially, when moving or moving the indoor unit, it is not necessary to refill the refrigerant with long pipes, and even when it is necessary to change to short pipes, the excess refrigerant is extracted. There is no need to do any work, and the circulation rate of the refrigerant is adjusted.

Further, since the connecting portion between the receiver tank and the pipe is the lower end portion of the tank, even if the refrigerating machine oil of the compressor is carried to the receiver tank together with the refrigerant, it is easy to return to the refrigerating cycle again, and it is returned to the compressor again. I'm supposed to come back.

[0029]

In the air conditioner according to the first to fourth aspects of the invention, the excess refrigerant during the cooling operation is accumulated in the first receiver tank, and the excess refrigerant during the heating is accumulated in the second receiver tank. By filling the amount when the cooling operation is required most and when the pipe is long, even if there is excess refrigerant, this excess refrigerant accumulates in the receiver tank,
Since the circulation amount of the refrigerant is adjusted without additionally charging the refrigerant or removing the excess refrigerant, it is possible to eliminate the need to additionally charge the refrigerant or extract the excess refrigerant.

In the air conditioner according to the second invention, in particular,
Even if it has a branch passage and is filled with a large amount of refrigerant, the refrigerant accumulates in the first and second receiver tanks and the circulation amount is adjusted.

In the air conditioner according to the third invention, in particular,
The pipe connecting the outdoor heat exchanger and the pressure reducing device and the pipe connecting the first receiver tank can also be used as the bypass pipe, so that the configuration can be simplified.

In the air conditioner according to the fourth aspect of the invention,
Excess refrigerant that did not accumulate in the first receiver tank during air-conditioning operation accumulates in the second receiver tank, so even if the refrigerant is filled with too much refrigerant, it is adjusted to an appropriate refrigerant circulation amount and appropriate in the air conditioner. You can exert your full potential.

[Brief description of drawings]

FIG. 1 is a refrigerant circuit diagram showing an air conditioner of the present invention.

FIG. 2 is a refrigerant circuit diagram of a main part of the air conditioner during a cooling operation.

FIG. 3 is a main part refrigerant circuit diagram of the air conditioner during heating operation and short piping.

FIG. 4 is a refrigerant circuit diagram of essential parts of the air conditioner during heating operation and long piping.

[Explanation of Codes] 1 Air conditioner 6 Compressor 7 Four-way valve 9 Outdoor heat exchanger 11 Pressure reducing device 16A, 16B Indoor heat exchanger 18A, 18B Service valve (branch path) 32 Bypass pipe 33 Open / close valve 34 First receiver tank 36 Second receiver tank 37 Piping for connection 42 Auxiliary decompression device

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hiroshi Noguchi 2-5-5 Keihan Hondori, Moriguchi City, Osaka Sanyo Electric Co., Ltd. (72) Inventor Shintaro Sugimoto 2-5 Keihanmoto Dori, Moriguchi City, Osaka Prefecture No. 5 Sanyo Electric Co., Ltd.

Claims (4)

[Claims] 1. An air conditioner in which a compressor, a four-way valve, an outdoor heat exchanger, a pressure reducing device, and an indoor heat exchanger are connected by piping to form a refrigerating circuit capable of cooling and heating operation, the first and second receivers. A tank is provided, a pipe connecting the outdoor heat exchanger and the pressure reducing device and the first receiver tank are connected by a pipe, and a pipe connecting the indoor heat exchanger and the pressure reducing device and the second receiver tank are connected by a pipe. An air conditioner characterized by doing 2. A compressor, a four-way valve, an outdoor heat exchanger, a pressure reducing device, and an indoor heat exchanger are connected by piping to form a refrigerating circuit capable of cooling and heating operation, and a plurality of branch lines are provided in the refrigerating circuit. In the air conditioner capable of connecting the indoor heat exchanger, the first and second receiver tanks are provided, and the pipe that connects the outdoor heat exchanger and the pressure reducing device and the first receiver tank are connected by pipes, An air conditioner characterized in that a pipe connecting the indoor heat exchanger and the pressure reducing device and the second receiver tank are connected by a pipe. 3. A compressor, a four-way valve, an outdoor heat exchanger, a decompression device, and an indoor heat exchanger are connected by piping to form an air conditioner refrigeration circuit capable of cooling and heating operation, and the discharge side piping of the compressor and the above In an air conditioner in which a pipe connecting an outdoor heat exchanger and a pressure reducing device is connected by a bypass pipe having an opening / closing valve, a first and second receiver tanks are provided, and the pipe connecting the outdoor heat exchanger and the pressure reducing device and the pipe An air conditioner characterized in that the first receiver tank is provided in a bypass pipe connecting to an on-off valve, and a pipe connecting the indoor heat exchanger and the pressure reducing device is connected to a second receiver tank by a pipe. 4. An air conditioner in which a compressor, a four-way valve, an outdoor heat exchanger, a decompression device, and an indoor heat exchanger are connected by piping to form an air conditioner refrigeration circuit capable of cooling and heating operation.
A receiver tank, the pipe connecting the outdoor heat exchanger and the pressure reducing device to the first receiver tank is connected by a pipe, and the pipe connecting the indoor heat exchanger and the pressure reducing device to the second receiver tank. An air conditioner characterized in that it is connected by a connecting pipe, and the pipe connecting the pressure reducing device and the indoor heat exchanger and the connecting pipe are connected by a pipe having an auxiliary pressure reducing device.