KR100504923B1 - Fluid mixing apparatus in accumulator for heat pump - Google Patents

Abstract

The present invention relates to a fluid mixing device of an accumulator for a heat pump, comprising: a case forming an accommodating space therein; A connecting tube connected at one end to the case and connected at the other end to the accumulator case such that the case and the accumulator case communicate with each other; On and off valve for opening and closing the connecting pipe; When the outside temperature is below the predetermined temperature and the operation stop time of the compressor exceeds the predetermined time, the refrigerant inside the case flows into the accumulator case so that the layered fluid inside the accumulator case is mixed when the compressor starts up. It characterized in that it comprises a control unit for controlling the on-off valve to be. Thereby, the fluid mixing apparatus of the accumulator for heat pumps which can suppress the generation | occurrence | production of the oil shortage resulting from layer separation of a fluid by mixing the layered fluid in the accumulator case is provided.

Description

Fluid mixing device for accumulator for heat pump {FLUID MIXING APPARATUS IN ACCUMULATOR FOR HEAT PUMP}

The present invention relates to a fluid mixing device of an accumulator for a heat pump, and more particularly, to a heat pump capable of suppressing oil shortage caused by separation of fluids by mixing layered fluids in an accumulator case. It relates to a fluid mixing device of the accumulator.

1 is a configuration diagram of a refrigeration cycle of a conventional heat pump. As shown, the heat pump is connected to a compressor 11 for compressing the refrigerant, a four-way valve 13 disposed on the discharge side of the compressor 11 to switch the flow path of the refrigerant, and a four-way valve 13, respectively. An expansion device which is disposed between the first heat exchanger 15 and the second heat exchanger 17 and the first heat exchanger 15 and the second heat exchanger 17 in which the refrigerant is heat-exchanged therein and expands under reduced pressure. 19).

One side of each of the first heat exchanger 15 and the second heat exchanger 17 is provided with blowing fans 16 and 18 for promoting the flow of air so as to facilitate heat exchange of the refrigerant, and the compressor 11 The accumulator 21 is disposed on the suction side of the pump so as to prevent the liquid refrigerant from flowing in.

2 is a cross-sectional view of the accumulator of FIG. 1. As shown in the figure, the accumulator 21 includes an accumulator case 23 forming an accommodating space therein, and one side of the accumulator case 23 so that refrigerant inside the accumulator case 23 can be sucked into the compressor 11. It is connected to each other and the other side is provided with an outlet pipe 25 is inserted into the accumulator case 23, and the inlet pipe 27 through which the refrigerant flows into the accumulator case 23.

The outlet pipe 25 inserted into the accumulator case 23 is bent in a substantially “U” shape, and the bent lower side has oil so that the oil inside the accumulator case 23 can be returned to the compressor 11. The recovery hole 26 is formed.

On the other hand, when the operation stop time of the compressor 11 passes a predetermined time (for example, the outside air temperature is below zero and the operation stop time of the compressor 11 several hours) while the outside air temperature is low, the accumulator case 23 A layer separation of the fluid is generated in the inside of the) so that the fluid layer 24a containing a large amount of liquid refrigerant having a relatively high specific gravity exists around the oil recovery hole 26 and a fluid containing a lot of oil having a relatively small specific gravity. The layer 24b is positioned at the center, and the fluid layer 24c including a lot of gaseous refrigerant having a small specific gravity is located at the upper region.

However, in such a conventional heat pump accumulator, the means for mixing the separated fluid layers is not provided, and the compressor 11 is restarted in a state where the outside temperature is low and a predetermined time has elapsed after the compressor 11 is stopped. When starting, the fluid layer 24a containing a lot of liquid refrigerant is located around the oil recovery hole 26, and the fluid layer 24b containing a lot of oil is spaced apart from the oil oil recovery hole 26. In addition, the compressor 11 has a problem in that oil is not sucked into the inside, thereby facilitating uneven wear and / or forced deterioration due to oil shortage and deterioration in compression performance.

Accordingly, it is an object of the present invention to provide a fluid mixing device of an accumulator for a heat pump which can suppress the occurrence of oil shortage due to the separation of fluids by mixing the separated fluids in the accumulator case.

The object is, according to the present invention, a case for forming a receiving space of the refrigerant therein; A connecting tube connected at one end to the case and connected at the other end to the accumulator case such that the case and the accumulator case communicate with each other; On and off valve for opening and closing the connecting pipe; When the outside temperature is below the predetermined temperature and the operation stop time of the compressor exceeds the predetermined time, the refrigerant inside the case flows into the accumulator case so that the layered fluid inside the accumulator case is mixed when the compressor starts up. It is achieved by a fluid mixing device of the accumulator for a heat pump, characterized in that it comprises a control unit for controlling the opening and closing valve.

Here, it is preferable to further include a heating means to heat the refrigerant inside the case.

It is effective that the heating means is an electric heater wound outside of the case.

The case is preferably housed inside the accumulator case.

Some areas of the connecting pipe are exposed to the outside of the accumulator case, and the on / off valve is effectively installed in the exposed area of the connecting pipe.

The control unit is effective to control the on-off valve so that the connection pipe is blocked when the operation of the compressor is terminated.

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

3 is a view showing a fluid mixing device of the heat pump accumulator according to an embodiment of the present invention, Figure 4 is a control block diagram of a fluid mixing device of the accumulator for heat pump of FIG. The same and equivalent parts as those described above and shown in the drawings will be described with the same reference numerals for convenience of description. As shown in these figures, the fluid mixing device of the accumulator for the heat pump includes a case 33 disposed on one side of the accumulator case 23 and accommodating a refrigerant therein, and one side communicating with the case 33. The other side is connected to the inside of the accumulator case 23 is inserted into the connection pipe 35 for connecting the case 33 and the accumulator case 23 in communication with each other, the opening and closing valve for opening and closing the connection pipe 35 37 and the refrigerant inside the case 33 when the compressor 11 is restarted when the outside temperature is below the predetermined temperature and the operation stop time of the compressor 11 exceeds the predetermined time. It is comprised including the control part 39 which controls the on-off valve 37 so that it may be injected inside.

The electric heater 36 is wound on the outside of the case 33 so that the refrigerant inside the case 33 can be injected into the accumulator case 23, and the connection pipe 35 is the case 33. The refrigerant inside is inserted into the lower region of the accumulator case 23 so that the refrigerant inside the accumulator case 23 can be injected into the region containing a lot of the lower liquid refrigerant.

On the other hand, the control unit 39 implemented in the form of a microcomputer or the like has an external temperature sensor for detecting the temperature of the outside air in which the timer 41 for counting the operation time and the stop time of the compressor 11 and the accumulator case 23 are disposed. Reference numeral 43 and an on-off valve 37 are electrically connected to each other so that the on-off valve 37 can be controlled based on the output signals of the timer 41 and the outside temperature sensor 43.

With this configuration, upon restarting the compressor 11, the control unit 39 confirms the compressor 11 stop time calculated by the timer 41 and the outside air temperature detected by the outside air temperature sensor 43, When the time and temperature conditions of fluid separation in the accumulator case 23, for example, when the outside temperature is below zero and the stop time of the compressor 11 exceeds 5 hours, the refrigerant inside the case 33 is heated. It is possible to apply power to the electric heater (36).

When power is applied to the electric heater 36, the refrigerant inside the case 33 rises in temperature and pressure, and the control unit 39 controls the opening / closing valve 37 so that the connection pipe 35 is opened. . As the connection pipe 35 is opened, the refrigerant whose temperature and pressure are increased is injected into the accumulator case 23 through the connection pipe 35 and mixed with the refrigerant inside the accumulator case 23 separated from each other. As the refrigerant having a relatively high temperature and pressure is introduced, the liquid refrigerant in the fluid inside the accumulator case 23 is evaporated and flows to the inner upper region of the accumulator case 23. It flows to the bottom of the accumulator case 23.

At this time, when the operation of the compressor 11 is started, the gaseous refrigerant in the upper portion of the accumulator case 23 is discharged through the outlet pipe 25 through the outlet pipe 25 and sucked into the compressor 11. In addition, the oil is discharged through the oil recovery hole 26 is sucked into the compressor (11).

5 is a view showing a fluid mixing device of an accumulator for a heat pump according to another embodiment of the present invention. The same and equivalent parts as those described above and shown in the drawings will be described with the same reference numerals for convenience of description. As illustrated, the fluid mixing device of the accumulator for the heat pump includes a case 53 accommodating the interior of the accumulator case 23 and accommodating a refrigerant therein, and one side is connected to the case 53. The other side is connected to the connection pipe 55 which is inserted into the lower part of the accumulator case 23 via the outside of the accumulator case 23, and is disposed in the area exposed to the outside of the accumulator case 23 of the connection pipe 55 And a control unit 39 for controlling the opening and closing valve 37 to open and close the pipe 55 and the connecting pipe 55 to be opened and closed.

In the inner central region of the accumulator case 23, a case 53 is formed to accommodate a refrigerant accommodating space therein, and an inside of the case 53 is an electric heater in the form of a seed heater to heat the refrigerant therein. 56 is provided.

One side of the case 53 is exposed to the outside of the accumulator case 23, and one end of the connector 55 inserted into the lower region of the accumulator case 23 is connected to one side of the case 53. An open / close valve 37 is provided in the exposed area.

With this configuration, the control unit 39 starts the compressor 11 at the start again, and based on the output signals output by the timer 41 and the outside temperature sensor 43, the outside air temperature is below the predetermined temperature, and the compressor ( When the stop time of 11) has passed a predetermined time, when it is determined that the internal fluid of the accumulator case 23 is separated, the electric heater 56 is supplied with power, and the opening and closing of the connecting pipe 55 is opened. The valve 37 is controlled.

When the connection pipe 55 is opened, the refrigerant flows inside the case 53 at a high temperature and high pressure compared to the interior of the accumulator case 23, thereby eliminating the layer separation of the accumulator case 23, and thus, through the oil recovery hole 26. Oil is smoothly sucked into the compressor 11 to suppress the occurrence of oil shortage.

As described above, according to the present invention, a case for forming a receiving space therein, a connection pipe and one side connected to each other in communication with the case and the other side connected to the interior of the accumulator case, the connection pipe An on / off valve for opening / closing and a control unit for controlling the on / off valve so that the refrigerant inside the case is injected into the accumulator case when the outside temperature is below the predetermined temperature and the compressor stop time exceeds the predetermined time. Provided is a fluid mixing device of an accumulator for a heat pump capable of suppressing the occurrence of oil shortage of the compressor due to the separation of layers by allowing the fluid to be mixed when the separation of fluids occurs.

1 is a configuration diagram of a refrigeration cycle of a conventional heat pump,

2 is a cross-sectional view of the accumulator of FIG.

3 is a view showing a fluid mixing device of an accumulator for a heat pump according to an embodiment of the present invention;

4 is a control block diagram of a fluid mixing device of the accumulator for the heat pump of FIG.

5 is a view showing a fluid mixing device of an accumulator for a heat pump according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

11: compressor 23: accumulator case

25: outlet pipe 26: oil recovery work

27: inlet tube 33: case

35 connector 36 electric heater

37: valve 39: control unit

41: timer 43: outside temperature sensor

Claims (6)

A case forming an accommodating space therein; A connecting tube connected at one end to the case and connected at the other end to the accumulator case such that the case and the accumulator case communicate with each other; On and off valve for opening and closing the connecting pipe; When the outside temperature is below the predetermined temperature and the operation stop time of the compressor exceeds the predetermined time, the refrigerant inside the case flows into the accumulator case so that the layered fluid inside the accumulator case is mixed when the compressor starts up. The fluid mixing device of the accumulator for a heat pump comprising a control unit for controlling the opening and closing valve to be possible. The method of claim 1, The fluid mixing device of the accumulator for a heat pump, characterized in that it further comprises a heating means for heating the refrigerant inside the case. The method of claim 2, The heating means is a fluid mixing device of the accumulator for the heat pump, characterized in that the electric heater wound outside the case. The method of claim 2, The case is a fluid mixing device of the accumulator for the heat pump, characterized in that accommodated inside the accumulator case. The method of claim 4, wherein A portion of the connection pipe is exposed to the outside of the accumulator case, the on-off valve is a fluid mixing device of the accumulator for the heat pump, characterized in that installed in the exposed area of the connection pipe. The method according to any one of claims 1 to 5, The control unit is a fluid mixing device of the accumulator for the heat pump, characterized in that for controlling the on-off valve so that the connection pipe is shut off when the operation of the compressor.