JPH0719673A - Simple coolant recovering apparatus - Google Patents

Abstract

PURPOSE:To provide a simple coolant recovering apparatus in which the structure is simplified, the cost is not increased and the size is reduced. CONSTITUTION:When a refrigerator 1 is started, part of liquid high temperature and high pressure refrigerant liquefied by a condenser 1b is expanded by a second expansion valve 2d provided in a cooling route 17, evaporated by a cooling coil 2a which performs a function as an evaporator, i.e., cools a recovery gas cylinder 2b. Then, the pressure difference occurs between a refrigerating cycle and the cylinder 2b due to a temperature drop of the cylinder 2b, and the refrigerant flows to the cylinder 2b. When recovery of the refrigerant is advanced, as a stop valve 3 is closed, the refrigerant flows only to a recovering pipe 16 and a cooling route 17, and liquid refrigerant is recovered to the cylinder 2b to be cooled by the coil 2a of the route 17 through the pipe 16.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a simple refrigerant recovery device for recovering a refrigerant from a refrigeration system.

[0002]

2. Description of the Related Art FIG. 2 is a schematic diagram showing a refrigerating apparatus 4 having a conventional refrigerant recovery device.

The refrigerating apparatus 4 has a compressor 4a for compressing a gas refrigerant, and the compressor 4a has a condenser which liquefies by cooling the high temperature and high pressure gas refrigerant discharged from the compressor 4a. 4b is connected. An expansion valve 4c for expanding the high-temperature high-pressure liquid refrigerant liquefied by the condenser 4b is connected to the condenser 4b.
An evaporator 4d for evaporating the liquid refrigerant expanded by the expansion valve 4c is connected to the, thereby forming a refrigeration cycle.

Further, a stop valve 5 for recovering the refrigerant is disposed between the condenser 4b and the expansion valve 4c, and a recovery pipe 7 is connected between the condenser 4b and the stop valve 5. ing.
The recovery pipe 7 is connected to a recovery cylinder 6 that stores a refrigerant as a refrigerant recovery device.

Next, the operation will be described.

When recovering the refrigerant, the compressor 4a is stopped, the stop valve 5 is closed, and the high temperature and high pressure liquid refrigerant is recovered to the recovery cylinder 6 through the recovery pipe 7.

However, in the above-mentioned conventional refrigerant recovery apparatus, the compressor 4a, the recovery pipe 7 and the recovery cylinder 6 are provided.
The temperature and pressure immediately equilibrate in the route of, and 70% of the total refrigerant amount
There was a problem that only the rank could be collected. To solve this problem, a refrigerant recovery device 8 having a compressor and a condenser as shown in FIG. 3 has been put into practical use.

This refrigerant recovery device 8 has a recovery pipe 9 which communicates between the evaporator 4d and the compressor 4a.
A stop valve 10 is connected to the recovery pipe 9. A compressor 11 is connected to the stop valve 10, and the compressor 1
1 includes an oil separator 12 for separating the refrigerant and the oil component.
Are connected. Furthermore, in the oil separator 12,
An air-cooled condenser 13 for liquefying the refrigerant separated from the oil is connected, and the condenser 13 is connected with a take-out pipe 14 and a take-out valve 15 for taking out the liquid refrigerant.

Next, the operation will be described.

When recovering the refrigerant, the compressor 4a is stopped, the stop valve 10 is opened, and the compressor 11 is activated to suck and compress the gas refrigerant from the refrigeration apparatus 4 to the refrigerant recovery apparatus 8. Then, the oil separator 12 separates the refrigerant and the oil from each other, and the condenser 13 liquefies the gas refrigerant into a liquid refrigerant. Then, if necessary, the take-out valve 15 is opened to take out the liquid refrigerant.

[0011]

However, the conventional refrigerant recovery device 8 shown in FIG. 3 has the compressor 11 and the condenser 1.
Since it is equipped with 3 etc., the device becomes large and there is a problem that it is difficult to bring it into a narrow place,
Moreover, it is difficult to generalize because it is expensive.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a simple refrigerant recovery apparatus which simplifies the apparatus configuration, does not increase the cost, and can be downsized. And

[0013]

In order to achieve the above object, a simple refrigerant recovery device according to the present invention cools a compressor for compressing a gas refrigerant and a high temperature and high pressure gas refrigerant discharged from the compressor. A condenser that liquefies by doing so, an expansion valve that expands the high-temperature high-pressure liquid refrigerant that is liquefied by the condenser, an evaporator that evaporates the liquid refrigerant that is expanded by the expansion valve, the condenser and the expansion valve. In a simple refrigerant recovery device for recovering a refrigerant from a refrigeration system having a stop valve arranged between the condenser and the stop valve, a recovery pipe communicating between the condenser and the stop valve, and one end of the condenser. And a stop valve, and the other end communicates between the evaporator and the compressor; a second expansion valve disposed in the cooling path; The second expansion valve evaporates the expanded refrigerant. An evaporator and a recovery cylinder cooled by the second evaporator are provided, and when recovering the refrigerant, the stop valve is closed to allow the refrigerant to flow to the recovery pipe and the cooling path, and the recovery pipe. The liquid refrigerant is recovered in the recovery cylinder through the above.

[0014]

According to the above structure, when the refrigerant is recovered, the stop valve is closed so that the refrigerant flows to the recovery pipe and the cooling path, and the liquid is passed through the recovery pipe to the recovery cylinder cooled by the second evaporator. Collect the refrigerant. This makes it possible to realize a simple and inexpensive small-sized simple refrigerant recovery device.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic block diagram showing a refrigerating apparatus provided with a simplified refrigerant recovery apparatus according to the present invention.

The refrigerating apparatus 1 has a compressor 1a for compressing a gas refrigerant, and the compressor 1a has a condenser which liquefies by cooling the high temperature and high pressure gas refrigerant discharged from the compressor 1a. 1b is connected. An expansion valve 1c for expanding the high-temperature and high-pressure liquid refrigerant liquefied by the condenser 1b is connected to the condenser 1b, and the expansion valve 1c includes:
Evaporator 1 for evaporating the liquid refrigerant expanded by the expansion valve 1c
d is connected to form a refrigeration cycle.

Further, a stop valve 3 is arranged between the condenser 1b and the expansion valve 1c, and a recovery pipe 16 is connected between the condenser 1b and the stop valve 3. Further, a cooling path 17 is connected between the condenser 1b and the stop valve 3, and the other end of the cooling path 17 is connected between the evaporator 1d and the compressor 1a.

On the other hand, in the simplified refrigerant recovery device 2,
A second expansion valve 2d is arranged in the cooling path 17.
A cooling coil 2a as a second evaporator is provided in the cooling path 17. Further, it has a recovery cylinder 2b cooled by the cooling coil 2a, and the recovery cylinder 2b and the cooling coil 2a are covered with a heat insulating member 2c.

Next, the operation of this embodiment will be described.

When the refrigeration system 1 is started, the gas refrigerant is compressed by the compressor 1a, and the high temperature and high pressure gas refrigerant discharged from the compressor 1a is liquefied by being cooled by the condenser 1b. The high-temperature high-pressure liquid refrigerant liquefied by the condenser 1b is expanded by the expansion valve 1c, and the expansion valve 1c
The liquid refrigerant expanded by is evaporated by the evaporator 1d and returns to the gas refrigerant.

Further, a part of the high-temperature and high-pressure liquid refrigerant liquefied by the condenser 1b is expanded by the second expansion valve 2d provided in the cooling path 17, and evaporated by the cooling coil 2a which functions as an evaporator. . With this, that is, the recovery cylinder 2b is cooled. Then, a temperature difference of the recovery cylinder 2b causes a pressure difference between the refrigeration cycle and the recovery cylinder 2b, and the refrigerant flows into the recovery cylinder 2b.
Then, when the stop valve 3 is closed at the time when the recovery of the refrigerant progresses, the refrigerant starts flowing only through the recovery pipe 16 and the cooling path 17, and the recovery cylinder 2b cooled by the cooling coil 2a of the cooling path 17 enters the recovery cylinder 2b. The liquid refrigerant is recovered through the recovery pipe 16.

In this way, according to this embodiment, the refrigerant can be recovered despite the simple device construction.

Although the cooling passage 17 for cooling the recovery cylinder 2b is provided separately from the refrigeration cycle in the above embodiment, the invention is not limited to this, and the recovery cylinder 2b may be cooled by a part of the refrigeration cycle. Good. In this way, the cooling passage 17 and the second expansion valve 2d are unnecessary.

[0025]

As described above, according to the present invention, the recovery coil is cooled by the cooling coil, and the temperature drop of the recovery cylinder causes a pressure difference between the refrigeration cycle and the recovery cylinder to recover the refrigerant. Since it is configured to be collected in the cylinder, it is possible to collect the refrigerant with a simple and inexpensive small-sized device without requiring a compressor or a condenser.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram showing a refrigerating apparatus provided with a simple refrigerant recovery device according to the present invention.

FIG. 2 is a schematic configuration diagram showing a refrigeration apparatus provided with a conventional refrigerant recovery device.

FIG. 3 is a schematic configuration diagram showing a conventional refrigerant recovery device.

[Explanation of symbols]

 1 Refrigeration Device 1a Compressor 1b Condenser 1c Expansion Valve 1d Evaporator 2 Simple Refrigerant Recovery Device 2a Cooling Coil 2b Recovery Cylinder 2c Heat Insulation Member 2d Second Expansion Valve 3 Stop Valve 16 Recovery Pipe 17 Cooling Path

Claims (1)

[Claims] 1. A compressor that compresses a gas refrigerant, a condenser that liquefies by cooling the high-temperature high-pressure gas refrigerant discharged from the compressor, and a condenser that expands the high-temperature high-pressure liquid refrigerant liquefied by the condenser. A simple refrigerant for recovering a refrigerant from a refrigerating apparatus having an expansion valve, an evaporator for evaporating the liquid refrigerant expanded by the expansion valve, and a stop valve arranged between the condenser and the expansion valve. In the recovery device, a recovery pipe that communicates between the condenser and the stop valve, one end of the recovery pipe that communicates between the condenser and the stop valve, and the other end of the evaporator and the compressor. A cooling path communicating with the second expansion valve, a second expansion valve disposed in the cooling path, and a second evaporation valve for evaporating the refrigerant expanded by the second expansion valve.
And a recovery cylinder cooled by the second evaporator. When recovering the refrigerant, the stop valve is closed to allow the refrigerant to flow to the recovery pipe and the cooling path.
A simple refrigerant recovery device, characterized in that the liquid refrigerant is recovered in the recovery cylinder through a recovery pipe.