KR20140090792A - Alternation heat exchanger type hot gas defrosting heat-pump - Google Patents

Abstract

The present invention relates to a heat exchanger alternation-type hot-gas defrosting heat pump with a new structure, wherein the heat pump installed to enable heat exchangers to be alternately operated is capable of continuously supplying heating while defrosting. According to the present invention, the heat exchanger alternation-type hot-gas defrosting heat pump comprises a compressor (31), a load side (an indoor side) heat exchanger (32), an expansion valve (33), and heat source side (outdoor side) heat exchangers (34, 35) which are mutually connected by a circulation line (20) installed to circulate a heating medium, and includes a four-way valve (36) installed on the circulation line (20), and switching the flow of the heating medium according to cooling (or cold water) and the heating (or hot water), wherein the heat source side (the outdoor side) heat exchangers (34, 35) are installed as a first heat source side (an outdoor side) heat exchanger (34) and a second heat source side (an outdoor side) heat exchanger (35) positioned at the front and the rear end of the load side (the indoor side) heat exchanger (32) respectively against the flow direction of the heating medium; one of the heat source side (the outdoor side) heat exchangers (34, 35) allows the heating medium to exchange heat in order to continuously supply the heating (or the hot water) by the load side (the indoor side) heat exchanger (32) when the other of the heat source side (the outdoor side) heat exchangers (34, 35) defrosts by hot gas supplied from the compressor (31); and the circulation line (20) has multiple control valves (41 to 48) installed thereon and controlling the flow of the heating medium according to a normal operation or a defrosting operation.

Description

Heat Exchanger Alternating Type Hot Gas Defrosting Heat Pump {Alternation heat exchanger type hot gas defrosting heat-pump}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger alternating-type hot gas defrost heat pump, and more particularly, to a heat exchanger alternating-type hot gas defrost heat pump which is capable of alternate operation of a heat exchanger, Pump.

Generally, a heat pump is a device (or system) that supplies cold / hot water or cooling / heating by absorbing or releasing heat through a phase change of a refrigerant circulating through a compressor, a condenser, an evaporator and an expansion valve. Referring to the drawings, the following will be described.

1, a compressor 11, a first heat exchanger 12, a second heat exchanger 13, and an expansion valve 14 (not shown), which are interconnected by a circulation line 20 to form a circulation cycle of the refrigerant, And a four-way valve 16 capable of switching the flow of the refrigerant according to cooling (or cold water) and heating (or hot water) is provided in each of the expansion valves 14 and 15, Check valves (17, 18) are provided to change the flow of the refrigerant.

In this configuration, the first heat exchanger (12) and the second heat exchanger (13) operate as a condenser or an evaporator according to a cooling or heating mode, and the expansion valves (14, 15) And the refrigerant is expanded by separate expansion valves (14, 15) so as to be circulated.

Such a conventional heat pump shows a remarkable difference in operating ability due to a seasonal factor (outdoor temperature). Especially when the outdoor temperature is low during heating in winter (or hot water production) The frost is generated in the heat exchanger (12) or the second heat exchanger (13), whereby the heating capacity is rapidly lowered or a separate defrost operation for defrosting is required.

According to the defrosting operation according to the conventional example, hot gas of high temperature and high pressure generated by the compressor 11 is led to the second heat exchanger 13 located on the outdoor side, In this case, in the conventional heat pump, since the heating by the first heat exchanger 12 is temporarily stopped to supply the hot gas to the second heat exchanger 13 side, There is a problem that this becomes impossible.

Also, when the compressor (11) is restarted in the steady state as the defrosting operation is performed in the state where the operation of the compressor (11) is stopped, the conventional heat pump is operated so that the liquid refrigerant condensed from the second heat exchanger There is a fear that the compressor may be burned due to liquid compression as the refrigerant flows into the compressor 11, which may cause a failure or damage of the apparatus.

Korean Unexamined Patent Publication No. 1998-017695 1998. 06. 05.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus capable of alternate operation of exchanges and capable of performing automatic defrosting and continuous heating, The present invention provides a heat exchanger alternating-type hot gas defrost heat pump of a novel structure capable of preventing burn-out of the defrost heat exchanger.

According to an aspect of the present invention, there are provided a compressor (31), a load side (indoor side) heat exchanger (32), an expansion valve (33), a heat source side And a four-way valve 36 provided on the circulation line 20 for switching the flow of the heating medium according to cooling (or cold) and heating (or hot water) ≪ / RTI >

The heat source side (outdoor side) heat exchanger (34, 35) is connected to the first heat source side (outdoor side) heat exchanger (outdoor side) 34) and a second heat source side (outdoor side) heat exchanger (35); When one of the heat source side (outdoor side) heat exchangers 34 and 35 performs the defrosting operation by the hot gas supplied from the compressor 31, it is heated by the load side (indoor side) heat exchanger 32 (Or hot water) is continuously supplied by the other one;

A plurality of control valves (41 to 48) are provided on the circulation line (20) to control the flow of heat medium in accordance with a normal operation or a defrost operation, and a heat exchanger alternating type hot gas defrost heat pump is provided.

According to another aspect of the present invention, each of the heat source side (outdoor side) heat exchangers (34, 35) is provided with a heat source supply line (34, 35) so that heat exchange with at least one heat source side (S) 50) are connected to the heat exchanger. The heat exchanger alternating type hot gas defrost heat pump is provided.

As described above, according to the present invention, the heat source side (outdoor side) heat exchangers (34, 35) are provided at the front and rear ends of the load side (indoor side) heat exchanger (32) (Outdoor side) heat exchangers 34 and 35 can be defrosted alternately at the same time as the heating operation is performed, and the defrosting operation can be performed automatically while the heating efficiency is kept constant.

Further, since the first and second heat source side (outdoor side) heat exchangers (34, 35) are provided, when the compressor (31) temporarily stopped in the defrosting operation is operated normally, (31), and also it is possible to prevent burning of the apparatus due to the liquid compression by the compressor (31).

Further, the present invention is provided so that one of the heat source side (outdoor side) heat exchangers (34, 35) is heat exchanged with the heat source side (S) such as geothermal heat, It is possible to maximize the cooling and heating effect by the heat exchanger 32 on the load side (indoor side) by increasing the cooling and heating efficiency of the heat exchangers (34, 35).

1 shows a heat exchange flow chart showing an example of a conventional heat pump.
2 is a flow diagram of a heat exchange process according to an embodiment of the present invention.
FIG. 3 is a flow chart of another heat exchange flow diagram according to an embodiment of the present invention.
Figure 4 illustrates another heat exchange flow diagram in accordance with an embodiment of the present invention.
Figure 5 is a flow diagram of another heat exchange flow diagram according to one embodiment of the present invention.
Figure 6 illustrates another heat exchange flow diagram in accordance with one embodiment of the present invention.
FIG. 7 illustrates another heat exchange flow diagram according to an embodiment of the present invention.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, description will be made with reference to the accompanying drawings.

2 to 7 show one preferred embodiment of the invention. 2, the present invention includes a compressor 31 and a load side (indoor) heat exchanger 32, which are adapted to perform heat exchange according to a phase change of a heating medium by a circulation line 20 formed by extending a heating medium to circulate, (Or cold water) and heating (or hot water) are connected to the circulation line 20, and the compressor 31 is connected to the heat source side (outdoor side) heat exchanger 34, Way valve 36 for switching the flow of the heating medium supplied from the four-way valve 36 is provided.

In this configuration, the load side (indoor) heat exchanger 32 corresponds to a normal indoor unit to which the cold / hot water line 40 on the load side R is connected so as to supply cooling / heating (or cold / hot water) (Outdoor) heat exchanger (34, 35) emits heat to the outside of the heat medium or absorbs external heat corresponding to a normal outdoor unit, and each heat exchanger (32, 34, 35) It then operates as an evaporator or condenser.

In the present invention, the first heat source side (outdoor side) heat exchanger (34, 35) is constituted by the first heat source side (outdoor side) heat exchanger (34) located at the front and rear ends of the load side (indoor side) heat exchanger (32) And a second heat source side (outdoor side) heat exchanger 35. On the circulation line 20, there are provided a plurality of control valves 41 to 48 for controlling the flow of the heat medium depending on the operation state. The control valves 41 to 48 include a first control valve 41 positioned between the compressor 31 and the first heat source side (outdoor side) heat exchanger 34 and a second control valve 41 located between the compressor 31 and the load side Second and fourth control valves 42 and 44 positioned between the compressor 31 and the heat exchanger 32 and a third control located between the compressor 31 and the second heat source side Fifth and sixth control valves 45 and 46 positioned between the first heat source side (outdoor side) heat exchanger 34 and the load side (indoor side) heat exchanger 32; And seventh and eighth control valves 47 and 48 located between the second heat source side (outdoor side) heat exchanger 35 and the load side (indoor side) heat exchanger 32.

A specific operation state according to this configuration will be described as follows. 2 and 3 are diagrams for explaining the operation of supplying heat continuously by the load side (indoor side) heat exchanger 32 simultaneously with the defrosting operation of the first or second heat source side (outdoor side) heat exchangers 34, 35 2, when the first heat source side (outdoor side) heat exchanger 34 is defrosted, the high-temperature and high-pressure heat medium Hot gas) passes through the first heat source side (outdoor side) heat exchanger 34. At this time, the hot gas is provided to the first heat source side (outdoor side) heat exchanger 34 so that heat exchange And the blowing fan 37 is stopped, whereby the defrosting is performed by the hot gas passing through the first heat source side (outdoor side) heat exchanger 34.

Thereafter, the heat medium having passed through the first heat source side (outdoor side) heat exchanger 34 is heat-exchanged with the load side R while passing through the load side (indoor side) heat exchanger 32, The refrigerant flows into the compressor 31 sequentially through the expansion valve 33 and the second heat source side (outdoor side) heat exchanger 35. At this time, the control valves 41 to 48, The first, third, fifth and eighth control valves 41, 43, 45 and 48 are in the open state and the second, fourth, sixth and seventh control valves 42, 44, 46 and 47 Is in a closed state.

3, when the second heat source side (outdoor side) heat exchanger 35 is defrosted, the hot gas supplied from the compressor 31, as opposed to the above-described FIG. 2, (Outdoor side) heat exchanger 35 through the second heat source side (outdoor side) heat exchanger 35 and then the heating medium that has passed through the second heat source side (outdoor side) heat exchanger 35 flows into the load side Is heat-exchanged to supply heat by the heat exchanger 32 and forms a circulation cycle which flows into the compressor 31 sequentially through the expansion valve 33 and the first heat source side (outdoor side) heat exchanger 34, At this time, the blowing fan 38 provided in the second heat source side (outdoor side) heat exchanger 35 is stopped, and the control valves 41 to 48 are closed by the first, third, 7 control valves 41, 43, 46, 47 are opened and the second, fourth, fifth, eighth control valves 42, 44, 45, 48 are closed.

In this defrosting and heating operation, the heating medium having passed through the first or second heat source side (outdoor side) heat exchanger 34 or 35 preferentially passes through the load side (indoor side) heat exchanger 32, The heating effect can be somewhat lowered compared with the heating operation, but the defrosting and heating can be performed at the same time.

The normal heating operation will be described as follows. As shown in FIGS. 4 and 5, the heating medium is circulated by using only one of the first and second heat source side (outdoor side) heat exchangers 34 and 35 during normal heating operation. The indoor heat exchanger 32 and the expansion valve 33 are led to the first heat source side (outdoor side) heat exchanger 34 and the heat medium is introduced into the compressor 31 side In the case of FIG. 5, the heating medium passing through the load side (indoor side) heat exchanger 32 and the expansion valve 33 is supplied to the second heat source side (outdoor side) heat exchanger 35 So that the heating is supplied.

For this, the control valves 41 to 48 are connected to the first, fourth, and sixth control valves 41 and 44 so as to circulate the heating medium to the first heat source side (outdoor side) heat exchanger 34 , 46, and the second, third, fifth, seventh, eighth control valves 42, 43, 45, 47, 48 are closed, or the second heat source side Third, and eighth control valves 42, 43, and 48 are opened to allow the heat medium to circulate through the heat exchanger 35 and the first, fourth, fifth, sixth, seventh, The control valves 41, 44, 45, 46, and 47 are closed.

In the case of normal cooling operation, as shown in Figs. 6 and 7, any one of the first or second heat source side (outdoor side) heat exchangers 34 and 35 is used similarly to the normal heating operation described above (Outdoor side) heat exchanger 34 as shown in FIG. 6, so that the heat medium is circulated through the heat medium exchanger 32. In this case, And the cooling medium is supplied by the circulation cycle in which the heating medium flows into the compressor 31 through the load side (indoor) heat exchanger 32 and the expansion valve 33. In the case of FIG. 7, Outdoor side) heat exchanger 35 to circulate the heating medium, thereby supplying cooling air.

The control valves 41 to 48 are connected to the first, fourth and sixth control valves 41 and 44 so as to circulate the heat medium to the first heat source side (outdoor side) heat exchanger 34 as shown in FIG. , 46, and the second, third, fifth, seventh, eighth control valves 42, 43, 45, 47, 48 are closed, or the second heat source side Third, and eighth control valves 42, 43, and 48 are opened to allow the heat medium to circulate through the heat exchanger 35 and the first, fourth, fifth, sixth, seventh, The control valves 41, 44, 45, 46, and 47 are closed.

In this normal cooling / heating operation, since each of the heat source side (outdoor side) heat exchangers 34 and 35 selectively uses one of the heat source side heat exchangers 34 and 35, it can be used alternatively when failure or malfunction occurs, It is possible to solve some problems due to abrasion and consumption due to operation.

6 and 7, a heat source connected to the heat source side S is connected to the second heat source side (outdoor side) heat exchanger 35 so as to circulate a heat source such as geothermal heat, In this case, the cooling / heating efficiency of the second heat source side (outdoor side) heat exchanger 35 is increased to maximize the cooling / heating effect by the load side (indoor side) heat exchanger 32 So that it is possible to improve the overall coefficient of performance of the device.

The heat source supply line 50 is selectively connected to the first heat source side (outdoor side) heat exchanger 34 as well as the second heat source side (outdoor side) heat exchanger 35, Side heat exchangers 34 and 35, respectively.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (2)

(Indoor side) heat exchanger 32, an expansion valve 33 and a heat source side (outdoor side) heat exchanger 34, 35 connected to each other by a circulation line 20 provided so as to circulate the heat medium therethrough. And a four-way valve (36) provided on the circulation line (20) and adapted to switch the flow of heat medium depending on cooling (or cold) and heating (or hot water), the heat pump comprising:
The heat source side (outdoor side) heat exchanger (34, 35) is connected to the first heat source side (outdoor side) heat exchanger (outdoor side) 34) and a second heat source side (outdoor side) heat exchanger (35); When one of the heat source side (outdoor side) heat exchangers 34 and 35 performs the defrosting operation by the hot gas supplied from the compressor 31, it is heated by the load side (indoor side) heat exchanger 32 (Or hot water) is continuously supplied by the other one;
Wherein a plurality of control valves (41 to 48) are provided on the circulation line (20) to control the flow of heat medium in accordance with normal operation or defrost operation.
  The heat source supply line (50) according to claim 1, wherein each heat source side (outdoor side) heat exchanger (34, 35) is provided with at least one heat source supply line (50) so that heat exchange with the heat source side (S) Heat exchanger alternating type hot gas defrost heat pump.

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