KR20000055694A - Oil separator of air-conditioner - Google Patents

Abstract

PURPOSE: An apparatus for separating oil for an air conditioner is provided to more definitely separate oil from the refrigerant for more smooth circulation of the refrigerant by mounting a capillary in an oil recovery tube and positioning an end part of a discharge tube between a metal filter of an oil separator and a metal plate. CONSTITUTION: In an apparatus for separating oil for an air conditioner including an oil separator(70) mounted on a discharge tube(L1) of a compressor(61) for separating oil, an oil recovery tube(L3) for returning the oil separated by the oil separator to the compressor, and a circulation tube(L2) for circulating refrigerant passing through the oil separator, the oil separator is mounted with metal plates(72,74) formed with a plurality of through holes at a lower part of a metal filter(73), and the discharge tube is penetrating the metal plate with an end part and the end part is positioned between the metal filter and the metal plate.

Description

Oil separator for air conditioner {Oil separator of air-conditioner}

The present invention relates to an oil separation device for an air conditioner, and more particularly, to an oil separation device for an air conditioner to more reliably separate the refrigerant and oil discharged from the compressor to smoothly flow the refrigerant.

1 is a view showing a refrigeration system of a separate air conditioner, the separate air conditioner is divided into a large indoor unit 10 and the outdoor unit 20, the indoor unit 10 is provided with an evaporator 11 which is heat-exchanged with the indoor air, The outdoor unit 20 is provided with a compressor 21 for circulating a refrigerant, an evaporator 22 for exchanging heat with outdoor air, and an expansion valve 23 for expanding the refrigerant.

Of course, the indoor unit 10 and the outdoor unit 20 are interconnected by the refrigerant pipe (L) so that the refrigerant can circulate.

As described above, the air conditioner is provided with a compressor 21 to circulate the refrigerant, and the compressor 21 is used with lubricating oil so that the compression operation of the refrigerant is performed more smoothly.

For this reason, the oil and the refrigerant are mixed with each other during the operation of the compressor 21, and the discharge pipe of the compressor 21 is discharged toward the condenser 22 through the discharge pipe L ₁ of the compressor 21 in this state. An oil separator 25 is installed on the (L ₁ ) side to separate the oil mixed in the refrigerant.

That is, when the oil separator 25 is installed as described above, in the refrigeration cycle, the refrigerant gas discharged from the compressor 21 is separated from the oil in the oil separator 25, and the refrigerant gas flows into the condenser 22. While passing through the expansion valve 23 is changed into a low-temperature low-pressure refrigerant state is introduced into the evaporator 11 of the indoor unit (10). In addition, the refrigerant gas evaporated in the evaporator 11 is circulated while being sucked into the compressor 21 through the suction pipe L ₄ of the refrigerant line L after heat exchange with the indoor air.

2 is a view showing the oil separator of the prior art installed in the refrigeration system as described above.

The oil separator 25 shown in FIG. 2 is provided with a metal filter 28 for separating oil mixed in the refrigerant in the center of the separator 26, and a compressor 21 directly under the metal filter 28. The end of the discharge pipe (L ₁ ) connected to the is located, the circulation pipe (L ₂ ) leading to the condenser 22 is located on the upper side. In addition, an oil return pipe L ₃ connected to a suction pipe L ₄ of the compressor 21 is connected to a bottom of the separator 26, and the metal filter 28 is disposed below the metal filter. The metal plate 27 is installed to prevent sagging.

Of course, a plurality of holes 27a are formed in the metal plate 27 to allow the oil to fall downward while passing through the refrigerant gas as shown in FIG. 3.

In the prior art oil separator 25 configured as described above, when the refrigerant gas mixed with oil is introduced into the separator 26 through the discharge pipe L ₁ from the compressor 21 of FIG. As it is a gaseous state, it passes through the metal plate 27 and the metal filter 28 and flows into the circulation pipe L ₂ , whereas the oil is a liquid state, so that it cannot pass through the metal filter 28 and falls below the separator 26. do.

As such, the oil dropped to the lower side of the separator 26 is introduced into the compressor 21 through the recovery pipe L ₃ and the suction pipe L ₄ to assist the operation of the compressor.

However, air conditioning for an oil separator of the related art described above is compressed and discharged from the discharge pipe (L _1), since the metal plate 27 is installed on the upper side of the discharge pipe (L ₁₎ connected to the compressor (21) As the refrigerant and the oil collide with the metal plate 27, a problem arises in which the refrigerant together with the oil is recovered into the oil recovery pipe L ₃ .

In addition, the above-described oil separator of the prior art has a metal filter 28 by the high-pressure refrigerant discharged from the discharge pipe (L ₁ ) because the inlet portion of the circulation pipe (L ₂ ) is located immediately above the metal filter (28). When pushed upward, the inlet of the circulation pipe (L ₂ ) was blocked by the metal filter 28, resulting in a problem that inhibits the smooth flow of the refrigerant.

The present invention has been made to solve the above problems, to provide an oil separation device for an air conditioner to ensure a smooth flow of the refrigerant while the separation of the refrigerant and the oil discharged from the compressor is surely made.

1 is a configuration of a refrigeration system of a separate type air conditioner installed with a conventional oil separation device;

Figure 2 is an internal configuration showing the oil separation device of the prior art,

3 is a plan view of a metal plate used in the oil separator of the prior art,

4 is a configuration of a refrigeration system of a separate type air conditioner showing the oil separation device according to the present invention;

5 is an internal configuration showing an embodiment of the oil separation device according to the present invention,

Figure 6 is a plan view showing the lower and upper metal plate used in the oil separator in one embodiment of the present invention,

7 is an internal configuration diagram of another embodiment according to the present invention.

<Explanation of symbols for main parts of drawing>

50: indoor unit 51: evaporator

60: outdoor unit 61: compressor

62 condenser 63 expansion valve

65 capillary 70, 80 oil separator

71, 81: separator 72, 82: lower metal plate

73 and 83: metal filter 74: upper metal plate

L: Refrigerant piping L ₁ : Discharge piping

L ₂ : Circulation Pipe L ₃ : Oil Recovery Pipe

L ₄ : suction piping

In the oil separation device for an air conditioner according to the present invention for realizing the above object, the oil separator is installed in the discharge pipe of the compressor, the oil separated from the oil separator is recovered to the compressor through the oil recovery pipe, the oil separator In the oil separator for air conditioner configured to discharge the refrigerant gas through the circulation pipe to the condenser, the oil separator is provided with a metal plate perforated a plurality of holes in the lower side of the metal filter, the end of the discharge pipe It is possible to be characterized in that the connection through the metal plate is located between the metal filter and the metal plate.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 4 is a block diagram showing a refrigeration system that includes an oil separation device for an air conditioner according to the present invention.

In the split type air conditioner as shown in FIG. 4, the indoor unit 50 and the outdoor unit 60 are connected to each other through the refrigerant pipe L. The indoor unit 50 is provided with an evaporator 51, and the outdoor unit 60 has a compressor. 61, the oil separator 70, the condenser 62, and the expansion valve 63 are provided.

In particular, the oil return pipe (L ₃ ) is connected to the suction pipe (L ₄ ) of the compressor (61) in the oil separator (70) while passing through the oil as a liquid while capillary tube ( 65) is installed.

Next, Figure 5 is a detailed view showing an embodiment of the oil separation device for an air conditioner according to the present invention, the oil separator 70 is a metal plate (top and bottom) of the metal filter 73 for separating the oil mixed in the refrigerant gas ( 72 and 74 are respectively provided.

In addition, the discharge pipe L ₁ connected to the oil separator 70 inside the compressor 61 of FIG. 4 is bent so that its end portion is bent and positioned above the lower metal plate 72. The circulation pipe L ₂ connected to the condenser 62 is provided such that its inlet portion is located above the upper metal plate 74.

This allows the refrigerant gas and the oil introduced into the oil separator 70 through the discharge pipe L ₁ from the compressor 61 to be discharged directly toward the metal filter 73 without passing through the lower metal plate 72. At the same time to prevent the inflow into the pipe (L ₃ ) is to make the separation of oil smoothly.

In addition, the upper metal plate 74 is moved upward of the metal filter 73 so as not to block the circulation pipe L ₂ even when the metal filter 73 is pushed up by the pressure of the refrigerant flowing through the discharge pipe L ₁ . At the same time it separates the oil mixed in the refrigerant gas.

As shown in FIG. 6A, the lower metal plate 72 has a plurality of holes 72a formed so that the oil filtered from the metal filter 73 may fall to the bottom of the separation tube 71. The through hole 72b is also formed so that the end of L ₁ ) can be installed.

In addition, the upper metal plate 74 is formed with a plurality of holes 74a so that the refrigerant gas passing through the metal filter 73 can be discharged as shown in FIG. 6B.

In addition, a capillary tube 65 is installed in the oil recovery pipe L ₃ connected to the inlet side of the compressor 61 in the oil separator 70 to prevent the refrigerant gas from being bypassed.

The operation of the oil separation device configured as described above is performed when the refrigerant mixed with oil in the compressor 61 is discharged between the metal filter 73 and the lower metal plate 72 of the oil separator 70 through the discharge pipe L ₁ . Most of the oil in the state is filtered out of the metal filter 73 and falls to the bottom of the separation tube 71 through the hole 72a of the lower metal plate 72.

And, some of the oil is mixed with the refrigerant gas to pass through the metal filter 73, but hitting the upper metal plate 74, only the refrigerant gas exits the circulation pipe (L ₂ ) and oil falls to the metal filter 73, the lower metal plate It is dropped through the 72 to the bottom of the separator (71).

On the other hand, since the refrigerant gas is a gaseous state, after passing through the metal filter 73, the refrigerant gas moves toward the condenser 62 while exiting the circulation pipe L ₂ through the upper metal plate 74. At this time, the refrigerant gas discharged to the upper side of the lower metal plate 72 is limited to some extent to flow below the separating cylinder 71 by the lower metal plate 72.

Of course, the refrigerant passing through the lower metal plate 72 may flow into the oil recovery pipe L ₃ together with the oil, but only the liquid oil is recovered by the capillary tube 65, and the refrigerant gas, which is a gas, hardly passes. .

7 is a view showing another embodiment of the oil separation apparatus according to the present invention, unlike the upper metal plate is installed in one embodiment of the present invention, the inlet portion of the circulation pipe (L ₂ ') through which the refrigerant gas is discharged metal The inlet portion of the circulation pipe L ₂ is not blocked even when the metal filter 83 is bent by the compressed refrigerant and pushed up by the compressed refrigerant.

Here, the inlet portion of the circulation pipe (L ₂ ) is preferably provided to have a certain distance (T) from the upper surface of the separation cylinder 81 so that the refrigerant gas passing through the metal filter 83 is smoothly discharged.

In addition, a metal plate 82 having a plurality of holes formed therein is installed below the metal filter 83, and the discharge pipe L ₁ ′ is disposed between the metal plate 82 and the metal filter 83. ) Is installed so that the end portion is positioned, the capillary tube (65 ') is installed in the oil return pipe (L ₃ ') connected from the bottom of the separation container (81).

Therefore, when the refrigerant gas mixed with oil is discharged from the compressor through the discharge pipe (L ₁ ′), the oil filtered while hitting the metal filter 83 falls to the bottom of the separator 81 through the metal plate 82, and the refrigerant gas After passing through the metal filter 83, is introduced into the circulation pipe (L ₂ ') from the upper side of the separator 81 to circulate toward the condenser.

On the other hand, the present invention configured and operated as described above is applied to a separate air conditioner, but is not limited thereto, and may be easily applied to a conventional refrigeration system.

In the oil separation device for air conditioners of the present invention as described above, the end portion of the discharge pipe through which the refrigerant mixed with oil is discharged from the compressor is installed between the metal filter and the metal plate, and the capillary tube is installed in the oil recovery pipe, so The oil is more reliably separated, providing the benefit of smoother circulation of the refrigerant.

In addition, the oil separation device of the present invention is configured so that the pipe connected to the condenser is not blocked even when the metal filter moves upward by the pressure of the refrigerant gas discharged from the compressor, thereby improving the refrigerant efficiency by smoothly flowing the refrigerant gas. To contribute to.

Claims (4)

An oil separator is installed in the discharge pipe of the compressor, and the oil separated from the oil separator is recovered to the compressor through an oil recovery pipe, and the refrigerant gas passing through the oil separator is discharged to the condenser through a circulation pipe. In the separation device, The oil separator is provided with a metal plate perforated a plurality of holes in the lower side of the metal filter, the end portion of the discharge pipe is connected to be located between the metal filter and the metal plate through the metal plate, characterized in that the . The method of claim 1, The oil separator is provided with a limiting means for limiting the upward movement of the metal filter on the upper side of the metal filter, the limiting means is an oil separation device for an air conditioner, characterized in that a plurality of holes perforated metal plate. The method of claim 1, The oil separator is located inside the inlet of the circulation pipe, the inlet of the circulation pipe is an oil separation device for air conditioning, characterized in that bent to the opposite side of the metal filter. The method according to any one of claims 1 to 3, The oil separation device for air conditioner, characterized in that the capillary is installed on the oil recovery pipe to block the flow of the refrigerant.