JPH11304272A - Compression type cooling device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To stabilize the fluctuating waste heat energy of a compression type cooling device by taking out the waste heat energy from a high-temperature refrigerant passed through a compressor and storing the energy in a heat exchanger by connecting the heat exchanger in series between the compressor and a condenser. SOLUTION: A heat exchanger 2 is connected in series between a compressor 1 and a condenser 3. The heat exchanger 2 is provided with a heat storage tank 2a which is used for temporarily storing unstable waste heat energy and piped in such a way that the heat exchanger 2 can store the waste heat energy from a high-temperature refrigerant passed through the compressor 1. It is preferable to provide a three-way valve 6 which is switched to prevent the refrigerant from flowing to the heat exchanger 2 on the tank 2a side. A temperature sensor 10 which is positioned between the three-way valve 6 and condenser 3 is utilized to forcibly turning on/off (starting/stopping) the fan 3a of the condenser 3 or increasing/decreasing the air blowing function of the fan 3a in steps or proportionally in accordance with the temperature of the refrigerant when the temperature reaches a prescribed value.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement in a compression cooling device, and more particularly, to a compression cooling device capable of stably and effectively utilizing waste heat energy.

[0002]

2. Description of the Related Art Conventionally, as such a compression type cooling device,
For example, the one shown in FIG. 3 is already known as a conventional example. This conventional cooling device, in the cooling cycle system,
The compressor 1, the condenser 3, and the evaporator 4 are arranged in a loop via a refrigerant pipe 5, and the refrigerant having passed through the compressor 1 is directly supplied to the condenser 3.

[0003]

However, in the above-mentioned conventional cooling device, the refrigerant that has passed through the compressor 1 is directly supplied to the condenser 3, so that the influence of fluctuations in the cooling load can be reduced. However, there is a problem that the supply of waste heat energy becomes unstable, and in recent years, from the viewpoint of energy resource shortage, stable and effective use of such waste heat energy has been demanded.

[0004] The present invention has been made in view of such conventional problems and demands, and by adding a heat exchanger between a compressor and a condenser and exchanging heat in a heat storage tank, In other words, it is an object of the present invention to provide a compression-type cooling device capable of stably effectively utilizing waste heat energy by temporarily storing unstable waste heat energy in the heat storage tank.

[0005]

SUMMARY OF THE INVENTION In order to solve the conventional problems as described above and to achieve the intended object, a configuration of the present invention is a compression type having at least a compressor and a condenser. In the cooler, the present invention resides in a compression type cooling device in which a heat exchanger is arranged in series between the compressor and the condenser.

Further, the heat exchanger preferably exchanges heat in a heat storage tank for storing waste heat energy, and the temperature of the heat storage water detected by a temperature sensor in the heat storage tank is higher than that of the heat storage water after the compressor outlet. If the temperature of the refrigerant detected by the temperature sensor is low, a switch such as a three-way valve switches the refrigerant so that it does not flow to the heat exchanger on the heat storage tank side, and controls the refrigerant to flow directly from the compressor to the condenser. Is preferred.

Further, a temperature sensor provided between the switching valve and the condenser is preferably used for controlling the start / stop or strength of the blower function of the condenser fan when the temperature of the refrigerant reaches a predetermined temperature. .

[0008] In the compression type cooling apparatus of the present invention thus constructed, a heat exchanger is arranged in series between the compressor and the condenser, so that the high temperature of the high temperature passing through the compressor is obtained. Waste heat energy is extracted from the refrigerant, and heat can be effectively stored in a heat exchanger (specifically, a heat storage tank).

Further, the heat exchanger can temporarily store unstable waste heat energy in the heat storage tank by performing heat exchange in the heat storage tank for storing waste heat energy.

Further, when the temperature of the refrigerant detected from the temperature sensor after the compressor outlet is lower than the temperature of the heat storage water detected from the temperature sensor in the heat storage tank, a switching valve such as a three-way valve or the like is used. If the control is performed so that the refrigerant does not flow into the condenser and the refrigerant flows directly from the compressor to the condenser, the temperature of the stored water can be maintained so as not to decrease once.

The temperature sensor located between the switching valve and the condenser is used for controlling the start / stop or strength of the blower function of the fan of the condenser when the temperature of the refrigerant reaches a predetermined temperature. It is possible to reduce the blowing power of the condenser.

[0012] In particular, such control of the condenser fan is performed when the heat exchanger for the heat storage tank has a function that can be considered as a condenser at the stage of heating with the refrigerant.
It can be used as energy saving control.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of a compression cooling device according to the present invention will be described with reference to the drawings. FIG. 1 is an explanatory diagram showing a cooling cycle system of a cooling device according to the present invention, in which a compressor 1, a heat exchanger 2, a condenser 3, and an evaporator 4 are arranged in a circle via a refrigerant pipe 5. .

A heat exchanger 2 is disposed between the compressor 1 and the condenser 3 in series. The heat exchanger 2 includes a heat storage tank 2 a for storing unstable waste heat energy, and is arranged so that waste heat energy can be stored from a high-temperature refrigerant that has passed through the compressor 1.

Reference numeral 6 in the figure denotes a three-way valve (switching valve) which switches according to a preset temperature so that the refrigerant does not flow into the heat exchanger 2 on the side of the heat storage tank 2a. It controls the refrigerant to flow directly from the compressor 1 to the condenser 3.

More specifically, as shown in FIG. 2, when the temperature of the refrigerant detected from the temperature sensor 9 after the outlet of the compressor 1 is lower than the temperature of the heat storage water detected from the temperature sensor 7 in the heat storage tank 2a. The heat storage tank 2a is operated by the three-way valve 6.
This is automatically switched so that the refrigerant does not flow to the heat exchanger 2 on the side.

A temperature sensor 10 between the three-way valve 6 and the condenser 3 forcibly turns on and off (starts and stops) the fan 3a of the condenser 3 when the temperature of the refrigerant reaches a predetermined temperature.
It is used to increase or decrease the blowing function stepwise or proportionally according to the temperature.

In the cooling apparatus of the present invention thus configured, since the heat exchanger 2 is disposed between the compressor 1 and the condenser 3, the cooling apparatus is designed to stabilize the waste heat energy. Since the waste heat energy can be temporarily stored in the heat storage tank 2a and hot water can be stably taken out from the heat storage tank 2a, the waste heat energy can be effectively used, for example, it can be used for hot water supply and air conditioning. be able to. Incidentally, in the figure, 4a is a fan of the evaporator 4, 8 is a temperature sensor, and 11 is an expansion valve.

The cooling device according to the present invention is not limited to the present embodiment, but can be freely designed and changed within the scope of the present invention, and the present invention covers all of them. Things.

[0020]

According to the present invention, the heat exchanger constructed as described above is arranged in series with a heat exchanger between the compressor and the condenser so that the high-temperature refrigerant passing through the compressor is discarded. Since heat energy can be taken out and stored in the heat exchanger, it is possible to stabilize variable waste heat energy.

Further, the heat exchanger can temporarily store unstable waste heat energy in the heat storage tank by exchanging heat in the heat storage tank for storing the waste heat energy. It can be taken out and can be used for hot water supply, air conditioning, and the like, and has the effect of effectively utilizing waste heat energy.

Further, when the temperature of the refrigerant detected by the temperature sensor after the compressor outlet is lower than the temperature of the heat storage water detected by the temperature sensor in the heat storage tank, a switching valve such as a three-way valve or the like is used. If the refrigerant is switched so that it does not flow to the compressor and the refrigerant is controlled so as to flow directly from the compressor to the condenser, it is possible to keep the temperature of the stored water so as not to lower it once. It is.

The temperature sensor located between the switching valve and the condenser is used for controlling the blower function of the fan of the condenser when the temperature of the refrigerant reaches a predetermined temperature or controlling the strength of the refrigerant. In particular, because the power to blow the condenser can be reduced,
At the stage of heating with the refrigerant, when the heat exchanger for the heat storage tank has a function that can be considered as a condenser, it can be used as an energy saving control.

As described above, according to the present invention, a heat exchanger is added between the compressor and the condenser, and the heat is exchanged in the heat storage tank (in other words, unstable waste heat energy is stored). It is possible to stably and effectively use waste heat energy, and it is also possible to implement the present invention such as being applicable to a compression cooling device such as a heat pump chiller or a heat pump air conditioner. Its profitable value is enormous.

[Brief description of the drawings]

FIG. 1 is a simplified explanatory view showing a compression cooling device according to the present invention.

FIG. 2 is a simplified explanatory diagram showing an example of a refrigerant temperature in a cooling cycle of the compression type cooling device.

FIG. 3 is a simplified explanatory view showing a conventional compression-type cooling device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Compressor 2 Heat exchanger 2a Heat storage tank 3 Condenser 3a Fan 4 Evaporator 4a Fan 5 Refrigerant pipe 6 Three-way valve 7 Temperature sensor 8 Temperature sensor 9 Temperature sensor 10 Temperature sensor 11 Expansion valve

Claims (4)

[Claims] 1. A compression type cooler comprising at least a compressor and a condenser, wherein a heat exchanger is arranged in series between the compressor and the condenser. Type cooling device. 2. The compression type cooling device according to claim 1, wherein the heat exchanger exchanges heat in a heat storage tank for storing waste heat energy. 3. When the temperature of the refrigerant detected from the temperature sensor after the compressor outlet is lower than the temperature of the heat storage water detected by the temperature sensor in the heat storage tank, a heat exchanger on the heat storage tank side is switched by a three-way valve or the like. 3. The compression-type cooling device according to claim 2, wherein the refrigerant is switched so that the refrigerant does not flow, and control is performed such that the refrigerant flows directly from the compressor to the condenser. 4. A temperature sensor located between the switching valve and the condenser is used for controlling the start / stop or strength of the blower function of the condenser fan when the temperature of the refrigerant reaches a predetermined temperature. The compression-type cooling device according to claim 3, wherein