KR200360454Y1 - A heating and cooling system for prevent overload of a compressor - Google Patents

Abstract

The present invention relates to a cooling and heating system for preventing a compressor overload, comprising: an expander (1) for expanding a refrigerant in an insulated state, an indoor unit (2) having a heat exchanger, a compressor (3) for compressing the refrigerant in an insulated state, and a heat exchanger It is composed of an outdoor unit (4), condensing the refrigerant gas of the high temperature and high pressure compressed by the compressor (3) in the indoor unit (2), and expands the refrigerant liquid condensed in the indoor unit (2) in the expander (1), After being evaporated in the outdoor unit 4 and sucked into the compressor 3, a heat-promoting composite circuit device 5 is formed between the expander 1 and the indoor unit 2, and is provided at the inlet of the compressor 3. A circuit (SV-2) having a bypass structure is configured to be connected to the indoor unit (2), and an auxiliary expander (6) is installed in the circuit (SV-2) having the bypass structure so that the indoor unit (2) Part of the high temperature and high pressure saturated liquid refrigerant discharged to the secondary expander (6) After changing to low temperature and low pressure through the () to the inlet of the compressor (3), by reducing the temperature of the refrigerant through the outdoor unit (evaporator) by increasing the compression by preventing overload of the compressor, the outdoor unit (evaporator) By suppressing the fresh gas flowing into the) it is possible to increase the work of the outdoor unit.

Description

A heating and cooling system for prevent overload of a compressor

The present invention relates to a cooling and heating system using a heat pump, and in particular to prevent the compressor from overheated steam due to the outside temperature or system problems to prevent the compressor overload heating and cooling system to ensure the stability of the entire system at high temperatures It is about.

In general, the heating cycle is a high-temperature, high-pressure, gaseous refrigerant flows into the indoor unit to condense and release heat to the room, and the refrigerant discharged from the indoor unit is expanded to low temperature and low pressure in the expander and discharged to the outdoor unit, and the outdoor unit is introduced The low temperature low pressure refrigerant is evaporated to extract heat from the outside and discharged to the compressor, and the compressor compresses the refrigerant to high temperature and high pressure and introduces it into the indoor unit.

However, the heating cycle as described above has a problem that the refrigerant in the superheated steam state is sucked into the compressor to deteriorate internal components, thereby reducing the service life, and also reducing the efficiency of the compressor.

In addition, the method of introducing the refrigerant discharged from the compressor back into the compressor has an effect of immediately increasing the inlet temperature and pressure, but if it does not continue, the effect is immediately extinguished. Will be difficult to use.

On the other hand, if the evaporation of the refrigerant liquid in the outdoor unit is not enough to flow into the compressor in the wet refrigerant vapor state, the compressor is damaged by liquid hammer and liquid back phenomenon, to overcome this, a separate liquid separator between the outdoor unit and the compressor However, a separate source of heat such as hot water or heated air must be used below it, and when the liquid separator is used, the refrigerant liquid collected in the liquid separator body in winter is reintroduced into the compressor when the operation resumes.

Here, there is a device using a heat pipe and a heating fluid chamber for heating and evaporating the refrigerant liquid collected in the liquid separator powder, or the high temperature and high pressure refrigerant discharged from the compressor to directly increase the temperature of the refrigerant sucked into the compressor Some use a device to circulate some of it back into the compressor.

However, the liquid separator is generally installed in an outdoor unit, and the separation of the refrigerant liquid is not good in the winter season when the outside temperature is low, and there is a limit in the capacity to process the refrigerant, and the refrigerant discharged from the compressor is returned to the compressor. The method of inflow has an effect of raising the inflow temperature and pressure immediately, but if not continued, the effect is immediately extinguished. As a result, the efficiency of the heating system is lowered, which makes it difficult to use the heating system.

Therefore, the present invention was devised in view of the above-mentioned circumstances, and the compressor overload was made to prevent the inflow of the compressor in the superheated steam state due to the outside temperature or the system problem, so that the whole system can be stabilized at high temperature. It is an object of the present invention to provide a heating and cooling system for prevention.

The present invention for achieving the above object is composed of an expander for expanding the refrigerant in a thermal insulation state, an indoor unit having a heat exchanger, a compressor for compressing the refrigerant in the thermal insulation state, and an outdoor unit having a heat exchanger, A cooling and heating system configured to condense a compressed high-temperature high-pressure refrigerant gas in an indoor unit, expand the refrigerant liquid condensed in the indoor unit in the expander, and form a circulation cycle that is evaporated in the outdoor unit and sucked into the compressor. A thermal accelerator composite circuit device is formed between the expander and the indoor unit, and a circuit SV-2 having a bypass structure at the inlet of the compressor is configured to be connected to the indoor unit, and a circuit having the bypass structure SV-2. An auxiliary expander is installed in the secondary expander to pass a portion of the high temperature and high pressure saturated liquid refrigerant discharged from the indoor unit. After the change to low-temperature and low-pressure is a structure to be passed to the inlet of the compressor.

In addition, the heat-promoting composite circuit device has a cylindrical body configured to accumulate liquid refrigerant in a lower portion thereof, and spirally separates liquid for heat-exchanging liquid refrigerant discharged from the indoor unit (condenser) inside the body. The pipe is installed, the inlet pipe is installed in the center of the upper side of the main body so that the low-temperature low-pressure saturated liquid passing through the outdoor unit (evaporator) can be introduced into the main body, and the refrigerant liquid accumulated in the lower part of the main body evaporates. A connecting pipe is installed vertically at the center of the lower part of the main body so that the refrigerant gas can be introduced into the compressor, and an oil hole capable of returning an appropriate amount of oil to the compressor together with suction gas to a predetermined position of the connecting pipe. Is formed.

Accordingly, the cooling and heating system reduces the temperature of the refrigerant through the outdoor unit (evaporator), thereby increasing the compression by preventing the compressor from being overloaded, and suppressing the fresh gas flowing into the outdoor unit (evaporator) to increase the amount of the outdoor unit. In addition, it is possible to reduce manufacturing costs by integrating the existing liquid separator and oil separator into the heat promoting composite circuit device, and to operate a stable system by increasing the compressor suction temperature through heat exchange in the heat promoting composite circuit device. It is to increase the efficiency of the compressor.

1 is a block diagram showing a cooling and heating system for preventing the compressor overload according to the present invention,

2 is a state diagram showing a thermal acceleration composite circuit device according to the present invention.

Explanation of symbols on the main parts of the drawings

1: expander 2: indoor unit

3: compressor 4: outdoor unit

5: heat promoting composite circuit device 6: auxiliary expander

7: main body 8: liquid separation pipe

9: inlet pipe 10: connection pipe

11: oil hole

SV-2: Compressor Overload Protection Bypass Circuit

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a cooling and heating system for preventing the compressor overload according to the present invention, Figure 2 is a state diagram showing a heat-promoting composite circuit device according to the present invention, an inflator (1) for expanding the refrigerant in a thermal insulation state, An indoor unit (2) comprising an indoor unit (2) having a heat exchanger, a compressor (3) for compressing the refrigerant in an adiabatic state, and an outdoor unit (4) having a heat exchanger, wherein the high temperature and high pressure refrigerant gas compressed by the compressor (3) is used as an indoor unit (2). ) And expands the refrigerant liquid condensed in the indoor unit (2) in the expander (1), forms a circulating cycle which is sucked into the compressor (3) after evaporating in the outdoor unit (4), A heat promoting composite circuit device 5 is configured between the inflator 1 and the indoor unit 2, and a circuit SV-2 having a bypass structure at the inlet of the compressor 3 is connected to the indoor unit 2. A circuit having the bypass structure The auxiliary expander 6 is installed in the SV-2 to change a part of the high temperature and high pressure saturated liquid refrigerant discharged from the indoor unit 2 to the low temperature low pressure through the auxiliary expander 6 and then to the inlet of the compressor 3. It is a structure that can be delivered.

Here, the compressor overload prevention heating and cooling system having the above structure lowers the temperature of the refrigerant flowing into the compressor (3) through the auxiliary expander (6), and lowers the temperature of the refrigerant through the outdoor unit (4). Compression is increased by the overload protection of), which can reduce the discharge temperature of the compressor 3 by about 15 ° C. during the operation of the circuit SV-2.

On the other hand, as shown in FIG. 2, the thermally-promoted composite circuit device 5 has a cylindrical main body 7 formed therein for accumulating liquid refrigerant, and the inside of the main body 7. A spiral liquid separation pipe 8 for heat-exchanging the liquid refrigerant discharged from the indoor unit (condenser) 2 is installed, and the low temperature low pressure through the outdoor unit (evaporator) 4 in the center of the upper side of the main body 7. The inlet pipe 9 is installed to allow the saturated liquid to flow into the main body 7, and the refrigerant gas generated by evaporation of the refrigerant liquid accumulated in the lower part of the main body 7 is introduced into the compressor 3. The connection pipe 10 is installed vertically in the center of the lower part of the main body 7 so that an appropriate amount of oil can be returned to the compressor 3 together with suction gas at a predetermined position of the connection pipe 10. Oil holes 11 are formed.

That is, the thermal acceleration composite circuit device 5 including the liquid separation having the above structure has a contact area to facilitate heat exchange between the high temperature and high pressure refrigerant discharged from the indoor unit (condenser) 2 inside the main body 7. The low temperature and low pressure saturated liquid flowing into the main body 7 through the inlet pipe 9 through the outdoor unit (evaporator) 4 is passed through the spiral liquid separation pipe 8 which is widened. The refrigerant having a high temperature and high pressure from (2) is accumulated in the lower part of the main body 7 while being in contact with the liquid separation pipe 8 passing therethrough, and the accumulated refrigerant liquid is in contact with the liquid separation pipe 8 while being in contact with the liquid separation pipe 8. Evaporated through the high temperature and high pressure saturated liquid passing through (8), the evaporated refrigerant gas is introduced into the compressor (3) through a connecting pipe (10) installed vertically in the body (7).

Then, the oil is returned to the compressor 3 together with the suction gas through the oil hole 11 formed in the connecting pipe 10.

Therefore, in the cooling apparatus using the compressor overheating air conditioning system, the refrigerant in the low pressure gas state is first compressed in the compressor 3 and then transferred to the indoor unit (condenser) 2 in a high temperature and high pressure steam state, where heat The refrigerant is condensed into the liquid phase by releasing the heat, and the refrigerant thus condensed is heat-exchanged while passing through the heat-promoting complex circuit device 5 and expanded under reduced pressure in the expander 1 to be supplied to the outdoor unit (evaporator) 4. The refrigerant is evaporated by absorbing heat from the outside in the outdoor unit (evaporator) 4 and then returned to the compressor 3 again.

In addition, the heating apparatus using the air conditioning system for preventing the compressor overload, first, the refrigerant discharged from the indoor unit (2) is transferred to the heat promoting composite circuit device (5), the pipe for liquid separation of the heat promoting composite circuit device (5) The refrigerant having passed through (8) is introduced into the expander (1) while being heat-exchanged, and a portion of the high temperature and high pressure saturated liquid refrigerant flowing into the expander (1) is supplied to the auxiliary expander (6) of the bypass circuit (SV-2). After the operation is changed to low temperature and low pressure, the refrigerant discharged from the auxiliary expander 6 is transferred to the inlet of the compressor 3, thereby lowering the temperature of the refrigerant flowing into the compressor 3.

Therefore, the bypass circuit SV-2 and the heat-promoting combined circuit device 5 of the cooling and heating system can be practically used by securing a large amount of free space in the design of the outdoor unit 4 piping, and for effective liquid separation. The energy saving effect is very large because a conventional heat pipe or other auxiliary heat source is not used, and the refrigerant flow into the compressor 3 can be completely blocked by utilizing the high temperature refrigerant passing through the heat promoting composite circuit device 5. It is possible to reduce the temperature of the refrigerant flowing into the outdoor unit (evaporator) 4 and to suppress the generation of fresh gas to increase the efficiency of the system.

As described above, according to the air conditioning system for preventing the compressor overload according to the present invention, by reducing the temperature of the refrigerant through the outdoor unit (evaporator) to increase the compression through the prevention of the overload of the compressor, the fresh gas flowing into the outdoor unit (evaporator) It is possible to increase the work of the outdoor unit by suppressing, and it is possible to reduce manufacturing costs by integrating the existing liquid separator and oil separator into the heat promoting complex circuit device, and to provide a compressor through heat exchange in the heat promoting complex circuit device. Increasing the suction temperature has the effect of increasing the efficiency of the compressor and stable system operation.

Claims (2)

The compressor (3) includes an expander (1) for expanding the refrigerant in an adiabatic state, an indoor unit (2) having a heat exchanger, a compressor (3) for compressing the refrigerant in an adiabatic state, and an outdoor unit (4) having a heat exchanger. Condensed in the indoor unit (2), the refrigerant liquid condensed in the indoor unit (2) is expanded in the expander (1), evaporated in the outdoor unit (4), and then the compressor ( In the heating and cooling system configured to form a circulation cycle that is sucked into 3), A thermal accelerator composite circuit device 5 is formed between the inflator 1 and the indoor unit 2, and a circuit SV-2 having a bypass structure at the inlet of the compressor 3 is connected to the indoor unit 2. The auxiliary expander 6 is installed in the circuit SV-2 having the bypass structure, so that a part of the high temperature and high pressure saturated liquid refrigerant discharged from the indoor unit 2 is stored at a low temperature through the auxiliary expander 6. Cooling and heating system for preventing the compressor overload, characterized in that it can be transferred to the inlet of the compressor (3) after changing to low pressure. 2. The heat promoting composite circuit device (5) according to claim 1, wherein a cylindrical main body (7) is formed in the lower portion of the heat promoting composite circuit device (5) to accumulate liquid refrigerant, and the indoor unit (condenser) is formed inside the main body (7). A spiral liquid separation pipe 8 is provided for heat-exchanging the liquid refrigerant discharged from (2), and the saturated liquid of low temperature and low pressure passing through the outdoor unit (evaporator) 4 in the center of the upper portion of the main body 7 is provided. An inlet pipe 9 is installed to be introduced into the main body 7, and the main body so that the refrigerant gas generated by evaporation of the refrigerant liquid accumulated under the main body 7 can be introduced into the compressor 3. 7) an oil hole in which the connecting pipe 10 is vertically installed at the center of the lower part, and the oil can return the proper amount of oil to the compressor 3 together with the suction gas at a predetermined position of the connecting pipe 10 ( 11) Compressor overload prevention cooling and heating, characterized in that formed System.