KR970001767B1 - Noise reducing system for refrigeration cycle - Google Patents

Abstract

The noise reducing device of refrigerating cycle is capable of reducing the noises generated by the expansion of the refrigerant by installing a resonant box on the passage of the refrigerant. The noise reducing device includes the resonant box which is installed to be connected to the passage between an expansion member and an evaporator.

Description

Noise reduction device of refrigeration cycle

1 is a schematic diagram showing a conventional refrigeration cycle.

2 is a cross-sectional view showing a connection pipe for reducing noise of a conventional refrigeration cycle.

3 is a schematic view showing a refrigeration cycle of the present invention.

4 is a partial cutaway cross-sectional view showing a noise reduction resonance cylinder of the present invention.

5 is a plan view showing another embodiment of the present invention,

(b) is sectional drawing A-A line of (a).

6 is an acoustic spectrum illustrating the noise canceling principle of the resonance chamber of the present invention.

* Explanation of symbols for main parts of the drawings

3: expansion valve 4: evaporator

10: resonance cylinder 11: refrigerant tube

12: resonance hole 13: recovery hole

The present invention relates to a refrigeration cycle, and more particularly, to a noise reduction device for a refrigeration cycle that can reduce the noise generated by the expansion of the refrigerant by installing a resonance cylinder in the flow path of the refrigerant.

Generally, as shown in FIG. 1, the refrigeration twinkle compresses and discharges a low-temperature, low-pressure gas refrigerant at high temperature and high pressure to discharge heat from the compressor 1 and the refrigerant discharged from the compressor 1 to thereby cool the high temperature and high pressure liquid refrigerant. Condenser (2) condensing into the furnace, an expansion valve (3) which has an adiabatic process in which the liquid refrigerant transferred from the condenser (2) is converted into a gas refrigerant of low temperature and low pressure; It is composed of an evaporator (4) to be a gas refrigerant and expand the gas refrigerant to absorb heat from the outside.

This refrigeration cycle causes the refrigerant passing through the expansion valve 3 to evaporate rapidly, causing a pressure drop due to evaporation loss, and the difference in energy is converted into sound and appears as noise.

In addition, the noise is gradually attenuated as it is transmitted along with the refrigerant in the flow direction of the refrigerant, but is also passed to the evaporator 4 by not having sufficient attenuation and having to flow a long pipeline, which is close to the user. Delivered.

On the other hand, Figure 2 is designed to reduce such noise is connected to the tube 5 is applied to the refrigeration cycle, a plurality of pipes of different inner diameters are connected to each other by welding.

However, such a conventional connection pipe 5 has a problem in that it takes a lot of manufacturing time and cost because of the connection of a plurality of pipes by welding, the space is limited when installed, and the effect is also low in performance.

An object of the present invention is to provide a resonance cylinder having a sealed space covering a certain length of the refrigerant pipe connected to the expansion valve and the evaporator to solve the conventional problems, such that the refrigeration cycle to cancel the noise by resonance To provide a noise reduction device.

Hereinafter, the technical configuration of the present invention with reference to the accompanying drawings in detail.

As shown in FIG. 3, the refrigerating cycle of the present invention is a compressor (1) for compressing and discharging a low-temperature, low-pressure gas refrigerant at high temperature and high pressure; A condenser (2) condensing into the refrigerant, an expansion valve (3) which has an adiabatic process in which the liquid refrigerant transferred from the condenser (2) is converted into a low-temperature low-pressure gas refrigerant, and a low-temperature low pressure It is conventional that the evaporator 4 is configured to allow the gas refrigerant of the gas refrigerant and the expanded gas refrigerant to absorb heat from the outside.

However, the technical feature of the present invention is that the resonance cylinder 10 having a sealed space covering a predetermined length of the flow path between the outlet of the expansion valve 3 and the evaporator 4 is provided.

Here, as shown in Fig. 4, the resonance cylinder 10 is a spherical hermetic container having a predetermined space therein while the refrigerant tube 11 connected to the expansion valve 3 and the evaporator 4 passes through. In the refrigerant pipe 11, a plurality of fine resonance holes 12 are formed.

The present invention configured as described above propagates to the silencer refrigerant tube 11 generated by causing evaporation at the outlet of the expansion valve 3, and inside the resonance tube 10 through a plurality of fine resonance holes 12 in the refrigerant tube 11. As it is radiated to, the sound wave of this noise resonates inside the sealed resonance cylinder 10, and becomes a sound wave having a wavelength in the opposite direction, and returns, while canceling the wavelength of the refrigerant flowing with the noise in the refrigerant pipe 11. Resonance is made in the resonance cylinder 10 of the sealed space.

On the other hand, Figure 5 is another embodiment of the present invention, the refrigerant pipe 11 is formed in a curved pipe, is installed inside the rectangular resonance cylinder (10).

As can be seen from the acoustic spectrum of FIG. 6, the sound wave of the noise is resonated inside the sealed resonance tube 10, and the sound wave of the opposite direction returns to the sound wave having the opposite wavelength, and the noise in the refrigerant pipe 11 is reduced. It has a trade-off with the wavelength of the refrigerant flowing with.

In addition, as shown in FIG. 4, in the present invention, the refrigerating oil introduced into the resonance cylinder 10 through the resonance hole 12 may allow the recovery hole 13 to flow out from the refrigerant pipe 11 in the resonance cylinder 10. It is formed in such a direction that it is possible to prevent the accumulation of the refrigeration oil in the resonance cylinder (10).

Since the recovery hole 13 is formed in the refrigerant pipe 11 in the resonance cylinder 10 as described above, it is possible to prevent the element that inhibits the resonance effect of the resonance cylinder 10 due to accumulation of the refrigeration oil in the resonance cylinder 10. do.

According to the present invention, a plurality of minute resonance holes 12 are formed in the existing refrigerant pipe 11 as described above, and thus the resonance tube 10 is formed thereon, thereby making manufacturing time and cost low, and space for installation. It is possible to obtain a high effect on performance without being constrained.

Claims (3)

A noise reduction device for a refrigeration cycle, characterized in that the resonance cylinder is installed in communication with the flow path between the expansion valve and the evaporator. The noise reduction apparatus of claim 1, wherein the resonance cylinder has a refrigerant container communicating with the expansion valve and the evaporator in an airtight container having a predetermined space therein, and a plurality of resonance holes are formed in the refrigerant tube. The noise reduction apparatus of the refrigeration cycle according to claim 2, wherein a recovery hole for recovering the refrigeration oil is formed in the refrigerant pipe.