KR100473943B1 - Structure of silencer for expansion means - Google Patents

Abstract

The silencer structure of the expansion device according to the present invention relates to a silencer installed to reduce noise generated in an expansion device provided at an intermediate position between a condenser and an evaporator in an indoor unit of an air conditioner, and the like. In operation, the present invention relates to a device for preventing a rapid increase in refrigerant flow noise while the refrigerant having passed through an evaporator in an indoor unit flows into an expansion device in an ideal flow state, and the silencer structure of the expansion device according to the present invention is expanded. In the silencer consisting of a connecting member formed on both sides and an intermediate member connected to the inlet side or the football side of the device and having a plurality of sound absorbing materials therein and connected to the middle of the connecting member, the outlet side of the intermediate member It is characterized by having a capillary tube.

The silencer structure of the expansion device according to the present invention has the effect that the refrigerant passing through the condenser flows into the expansion device in an ideal flow state to prevent noise from being generated.

Another effect according to the present invention, there is an effect to fundamentally prevent the flow noise of the broadband caused by the rapid increase in the flow rate of the refrigerant at the outlet end of the expansion device.

Description

Structure of silencer for expansion means

The silencer structure of the expansion device according to the present invention relates to a silencer installed to reduce noise generated in an expansion device provided at an intermediate position between a condenser and an evaporator in an indoor unit of an air conditioner, and the like. In operation, the device is designed to prevent a rapid increase in refrigerant flow noise as the refrigerant passing through the evaporator in the indoor unit flows into the expansion device in an ideal flow state, and is connected to the inlet side or the football side of the expansion device. In the silencer consisting of a connecting member formed on both sides and a plurality of sound-absorbing material is formed inside the intermediate member connected to the middle of the connecting member, provided with a capillary tube on the outlet side of the intermediate member, the refrigerant passing through the condenser Prevents noise from entering the expansion device in an ideal flow state Writing, to a muffler structure of the expansion device to the underlying prevent the flow of the wideband noise generated while the flow rate of the refrigerant increases rapidly from the outlet end of the expansion device.

In general, the air conditioner equipped with a dehumidification function is a heat exchanger serving as a condenser and a heat exchanger serving as an evaporator, respectively, placed in an indoor heat exchanger located in the room, centered on removal of moisture, as shown in FIG. Similarly, the compression unit 10 is compressed with the refrigerant; An outdoor heat exchanger (20) provided with a heat exchanger (21) and a fan (22) to exchange heat between the refrigerant and outdoor air; The first heat exchanger 31, the second heat exchanger 32, and the indoor expansion part 33 and the bidirectional valve 34 positioned between the first and second heat exchangers 31 and 32 are provided. An indoor heat exchanger 30 provided; The expansion unit 40 is positioned between the outdoor heat exchanger 20 and the indoor heat exchanger 30.

In more detail, the compression unit 10 includes a compressor 11 for converting a low temperature low pressure gas refrigerant output from the outdoor heat exchange unit 20 or an indoor heat exchange unit 30 into a high temperature high pressure gas refrigerant; It is provided with a four-way valve 12 for setting the discharge direction of the compressor 11, the four-way valve 12 to switch the suction and discharge piping of the compressor 11 to cool the room The indoor heat exchanger 30 is operated as an evaporator, and when the room is to be heated, the indoor heat exchanger 30 is operated as a condenser.

Of course, the outdoor heat exchanger 20 is operated as a condenser and an evaporator, respectively. However, since the main purpose of the present invention is to use the dehumidifier, it is assumed that the outdoor heat exchanger 20 is operated as a condenser and the indoor heat exchanger 30 is operated as an evaporator.

The outdoor heat exchanger 20 is a means for converting the high temperature and high pressure gas refrigerant generated by the compression unit 10 into a medium temperature and high pressure liquid refrigerant. A condenser 21 and a fan 22 are provided for this purpose.

The expansion portion 40 is a means for converting the medium-temperature high-pressure liquid refrigerant output from the outdoor heat exchanger 20 into a low-temperature low-pressure liquid refrigerant, and consists of a capillary tube 41, in parallel with the first valve 42 ), The first valve 42 determines whether the capillary tube 41 passes. As such, the control of the passage of the capillary tube 41 is not to be performed in the expansion part 40 when the capillary tube 41 is used as a dehumidifier. In this case, the first valve 42 is opened to allow the refrigerant to pass through the first valve. Pass through (42) to prevent expansion.

As such, the refrigerant having a medium temperature and high pressure is introduced into the indoor heat exchanger 30 without undergoing the expansion process. The indoor heat exchanger 30 includes the first heat exchanger 31, the second heat exchanger 32, and the same. Consisting of the indoor expansion unit 33 and the two-way valve 34 in between, the first heat exchanger 31 takes place once more condensation action, the expansion process is performed in the indoor expansion unit 33 of the indoor expansion unit.

By the expansion process, the medium-temperature high-pressure liquid refrigerant is converted into a low-temperature low-pressure liquid refrigerant, and the second heat exchanger 32 absorbs and evaporates the surrounding heat to convert it into a low-temperature low-pressure gas refrigerant, and then the compression unit. Flows into (10). If it operates as a cooler rather than a dehumidifier, an expansion process is performed in the expansion part 40, and the first heat exchanger 31 also operates as an evaporator like the second heat exchanger 32. Of course, at this time, the bidirectional valve 34 of the indoor expansion part should be opened so that the indoor expander 33 does not operate.

Briefly describing the operation of a conventional air conditioner having a dehumidification function having such a configuration, the temperature of the second heat exchanger 32 is lowered due to evaporation of the refrigerant, and condensation of surrounding moisture is caused. Leaking out will dehumidify. Of course, the temperature of the room is also cooled in this process, so that the first heat exchanger 31 is operated as a condenser in order to prevent the temperature from being balanced.

However, when the dehumidification operation is performed by the air conditioner according to the related art, the refrigerant passing through the first heat exchanger 31, that is, the condenser, enters the expansion device in an ideal flow state, and noise is generated, as well as the indoor expander ( In other words, as the flow rate of the refrigerant rapidly increases at the outlet of the expansion device, a large problem occurs in the flow noise of the broadband, causing the user to become a claim.

Accordingly, the present invention has been made to solve the above problems, in order to reduce the noise generated in the expansion device provided in the intermediate position of the condenser and the evaporator in the indoor unit of the air conditioner, etc. on the inlet or outlet side of the expansion device. The purpose of this is to solve the user's complaints by drastically reducing the noise.

The silencer structure of the expansion device according to the present invention, which is connected to the inlet side or the football side of the expansion device, the connection member formed on both sides and a plurality of sound absorbing material is provided inside the intermediate member connected to the middle of the connection member In the silencer made, characterized in that the capillary tube is provided on the outlet side of the intermediate member.

Hereinafter, the silencer structure of the expansion device according to the present invention with reference to the accompanying drawings in more detail.

2 is a view showing the main configuration of the indoor unit equipped with a silencer according to the present invention.

Referring to Figure 2, it can be seen that the silencer according to the present invention is provided on the inlet side or the outlet side of the indoor expansion portion (33).

Hereinafter, the silencer structure of the indoor expansion device of the air conditioner according to the present invention will be described in detail.

3 is a cross-sectional view showing the interior of the silencer according to the present invention.

The silencers 50 and 60 according to the present invention are connected to the inlet side or the football side of the indoor expansion unit 33, and the connection member 51 and the plurality of noise members formed on both sides are provided therein, and the connection member ( It consists of an intermediate member 52 connected to the middle of the 51, the first noise member 53 and the second noise member 54 is provided inside the intermediate member 52, the intermediate member 52 The capillary tube 55 is provided at the exit side of the.

In addition, the first sound absorbing material 53 is formed of a net-like plate material is installed in the radial direction inside the intermediate member 52, the second sound absorbing material 54 has a plurality of holes in the outer wall In the form of a tube, it is possible to be installed in the front or rear of the first sound absorbing material (53), one side of the inner side of the intermediate member 52 in addition to the first, second sound absorbing material (53, 54) of a certain volume The space is further provided, but the space is located at the outlet side of the intermediate member 52, and at the outlet side of the intermediate member 52, a capillary tube 55 is provided to allow the refrigerant passing through the indoor condenser to expand. To be introduced to the portion 40.

Looking at the effect that the noise generated in the indoor expansion unit 33 is reduced by the silencers 50, 60 according to the present invention, the silencer 50 is mounted / connected to the inlet side of the indoor expansion unit 33, The refrigerant flowing into the silencer 50 is a two-phase flow such as bubbles, slugs, annulars, streams or sprays, and the like, and noise is generated by abnormal characteristics such as reduction and destruction of bubbles. With respect to the technique of the present invention, since the silencer 50 according to the present invention is mounted, the two-phase flow as described above passes through the first silencer 53 provided in the silencer 50. The air bubbles are finely cut to make the gas liquid uniform or fine, and the noise of a specific frequency can be controlled while passing through the second sound absorbing material 54, wherein the control of the specific frequency is performed by the second sound absorbing material 54. Diameter of the drilled hole formed on the surface of the second, Various combinations of diameters of the sound absorbing material 54 enable frequency-specific control.

In addition, the refrigerant passing through the second sound absorbing material 54 passes through the capillary tube 55 installed in a predetermined space. If the length of the capillary is 'S', it is possible to control the noise of a specific frequency corresponding to the wavelength calculated by the relationship of S = λ / 4.

The first silencer 53 may be installed at the front end or the rear end of the second silencer 54, and the same silencer 60 as the silencer 50 may be provided at the outlet side of the indoor expansion unit 33. It may be further provided.

At this time, the total length of the connection member, that is, the ratio of the total length of the second sound absorbing material 54 to 'L', that is, 'L1', is preferably about 0.3 <L1 / L <0.7.

In addition, it is preferable that the ratio of the surface area of the tubular second sound absorbing material 54 to the area of the drilling hole is in the range of 10% or more and 60% or less.

In addition, according to the silencer structure of the expansion device according to the present invention as described above, not only can reduce the noise of the frequency of the entire region as compared to the conventional technology, it is possible to significantly reduce the noise corresponding to a specific frequency.

The silencer structure of the expansion device according to the present invention has the effect that the refrigerant passing through the condenser flows into the expansion device in an ideal flow state to prevent noise from being generated.

Another effect according to the present invention, there is an effect to fundamentally prevent the flow noise of the broadband caused by the rapid increase in the flow rate of the refrigerant at the outlet end of the expansion device.

1 is a schematic view showing a conventional air conditioner.

2 is a view showing the main configuration of an indoor unit equipped with a silencer according to the present invention.

3 is a cross-sectional view showing the interior of the silencer according to the present invention.

<Description of Symbols for Major Parts of Drawings>

10. Compression section 11. Compressor 12. Four-way valve

20. Outdoor heat exchanger 21. Outdoor heat exchanger 22. Outdoor fan

30. Indoor heat exchanger 31. First heat exchanger 32. Second heat exchanger

33. Indoor expansion section 34. Two-way valve 35. Indoor fan

40. Inflated part 50. First silencer 51. Connection tube

52. Intermediate tube 53. Screen 54. Porous member

55. Capillary

Claims (4)

In the silencer consisting of an intermediate member connected to the inlet side or the football side of the expansion device formed on both sides and a plurality of sound absorbing material therein and connected to the middle of the connecting member, the outlet side of the intermediate member Silencer structure of the expansion device, characterized in that provided with a capillary tube. The method of claim 1, Silencer structure of the expansion device, characterized in that the first noise member and the second noise member is provided inside the intermediate member. The method of claim 2, The first sound absorbing material is formed in a net-shaped plate material is installed in the interior of the intermediate member in the radial direction, the second sound absorbing material is a tube shape having a plurality of holes in the outer wall is installed in the front or rear of the first sound absorbing material. Silencer structure of the expansion device, characterized in that. The method of claim 2, Silencer structure of the expansion device, characterized in that it further comprises a predetermined volume of space on the inner side of the intermediate member in addition to the first and second noise materials.