KR100487862B1 - Screen holder of accumulator for compressor - Google Patents

Abstract

The present invention relates to a screen holder of an accumulator for a compressor. In particular, by fixing a reinforcing material having a porous structure to the inner surface of the protrusion formed in the screen holder, the vibration and noise of the compressor can be reduced by reducing the pulsation flow during suction. will be.

In order to realize this, in the screen holder formed with a protrusion for adjusting the flow direction of the refrigerant gas so that the refrigerant gas derived from the upper pipe does not flow into the direct compressor, the inner surface of the protrusion is formed by fixing a reinforcement formed of a porous structure.

Description

Screen holder of accumulator for compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a screen holder of a compressor accumulator, and more particularly, to secure vibrations and noise of a compressor by reducing pulsating flow during suction by fixing a reinforcing member formed of a porous structure on an inner surface of a protrusion formed in the screen holder. .

Looking at the configuration of a conventional conventional accumulator for compressor and its peripheral portion as shown in Figures 1 and 3,

First, as shown in (a) of FIG. 1, the airtight portion is composed of a compression mechanism portion, an electric mechanism portion for driving the same, and an oil supply portion for lubricating oil by driving the electric mechanism portion.

The power mechanism is a stator (2) is a magnetic force is generated when the power is applied, a rotor (3) to rotate by the magnetic force of the stator, and a crank shaft (4) installed and rotated on the rotor (3) It consists of.

As shown in (b) of FIG. 1, the compression mechanism portion is located under the electric drive portion, and includes a cylinder 7 for sucking and discharging refrigerant gas into the suction port 12 and the discharge port 13, and the cylinder 7. A cylinder slot 11 formed at the upper side, an upper bearing 5 and a lower bearing 6 assembled to the upper and lower portions of the cylinder 7 to support the crankshaft 4, and a lower end of the crankshaft 4; An eccentric ring 16 fixedly mounted on the eccentric wheel 16 and fixed to the eccentric wheel 16, and a roller 8 which rotates and revolves along the inner circumferential surface of the cylinder 7, And a compression chamber 15 on the high pressure side and a suction chamber 14 on the low pressure side, which are installed in the cylinder 7 and formed along the outer circumferential surface of the roller 8 that rotates and rotates by the vane spring 10. A vane 9 for separating and an accumulator 17 installed to prevent liquid refrigerant from flowing into the cylinder 7, and the Refrigerant gas introduced into the inlet 12 of the cylinder 7 through the L-tube 18 extending into the cumulator 17 starts a suction stroke when the vane 9 is in the top dead center position. The discharge port 13 and the discharge valve (not shown) which are gradually compressed by the rotational motion of the shaft 4 and the roller 8 to discharge the refrigerant gas of high temperature and high pressure are comprised.

As shown in FIG. 2, the accumulator 17 includes an upper cap 19, a lower cap 20, and a body 21 for determining a volume, and is included in the refrigerant gas flowing into the main body. The screen filter 22 is installed to prevent the inflow of foreign substances, and the screen holder 23 having the protrusion 23b for adjusting the flow direction of the refrigerant gas is mounted behind the filter 22 so that the refrigerant gas does not directly flow into the compressor. do.

The refrigerant inlet 23a is provided outside the concentric circle of the L-tube 18 to prevent the liquid refrigerant introduced from the upper pipe 24 directly into the L-tube 18.

The L-tube 18 is fixed by mounting a tube holder 25 supported on the body 21 at the bottom of the screen holder 23 to introduce the refrigerant gas introduced into the compressor, the tube holder 25 ) Prevents the transmission of vibration and noise into the cylinder (7) tube.

In addition, the oil discharged from the cylinder 7 and introduced into the accumulator 17 may be introduced into the cylinder 7 through the L-tube 18 like the refrigerant gas. At the location there is an oil hole 26 for oil inlet.

The accumulator 17 serves as a liquid refrigerant inflow prevention and receiver, and serves as a resonator.

In addition, the refrigerant gas flowing from the upper pipe 24 of the accumulator 17 is introduced through the screen filter 22 to prevent foreign substances from entering.

In this case, as shown in FIG. 3, when the liquid refrigerant flows in, the liquid introduced through the refrigerant inlet 23a formed outside the concentric circle of the L-tube 18 so as not to directly flow into the L-tube 18. The refrigerant falls to the lower portion of the accumulator 17, and only the vaporized refrigerant gas enters the end inlet of the L-tube 18.

The oil remaining under the accumulator 17 flows back into the cylinder 7 through the oil hole 26.

However, the suction chamber of the conventional compressor causes a suction flow of 50/60 kPa, and the pulsation effect increases and the noise also increases as the flow area of the refrigerant gas changes rapidly into the L-tube end inlet of the accumulator. .

The present invention has been invented in view of the above-mentioned problems. In the screen holder having a protrusion for adjusting the flow direction of the refrigerant gas so that the refrigerant gas derived from the upper pipe does not flow into the direct compressor, the inner surface of the protrusion has a porous structure. By fixing the formed reinforcing material, it is to reduce the pulsating flow during suction to reduce the vibration and noise of the compressor.

Compression accumulator of the present invention and the configuration of the peripheral portion thereof, as shown in Figures 4 and 5, the upper cap 103, the lower cap 104, the body 105 to determine the volume of the accumulator 101 ) Is configured in appearance, and the filter 106 for preventing the inflow of foreign substances contained in the refrigerant gas flowing into the main body is mounted, and the protrusion 111 for adjusting the flow direction of the refrigerant gas so that the refrigerant gas does not directly enter the compressor. ) Mounted screen holder 107 behind the filter 106, and concentric circles of the L-tube 102 to prevent the liquid refrigerant flowing from the upper pipe 109 directly enters the L-tube (102) Outside the refrigerant inlet 107a. The L-tube 102 is fixed by mounting a tube holder 108 supported by the body 105 at the bottom of the screen holder 107 to introduce the refrigerant gas introduced into the compressor, the tube holder 108 ) Prevents the transmission of vibration and noise into the cylinder tube.

In addition, the oil discharged from the cylinder and introduced into the accumulator 101 may be introduced into the cylinder through the L-tube 102, such as refrigerant gas, at a predetermined position of the L-tube 102 for oil inflow. The oil hole 110 is configured.

A protrusion 111 is formed at the center of the screen holder 107, and a reinforcement 112 formed of a porous structure is fixed to an inner surface of the protrusion 111.

Referring to FIG. 4 and FIG. 5, the compressor accumulator operating state of the present invention will be described. First, as shown in FIG. 4, the refrigerant gas induced from the upper pipe 109 is directly connected to the accumulator 101. It constitutes a screen holder 107 is formed with a projection 111 to adjust the flow direction of the refrigerant gas so as not to flow.

In addition, the screen holder 107 used for the purpose of preventing the direct inflow of the liquid refrigerant and for the purpose of fixing the filter 106 to prevent the inflow of foreign matters has a refrigerant inlet port having a sufficient flow path area to allow the inflow of the liquid refrigerant. 107a is formed.

As shown in FIG. 5, when the liquid refrigerant is introduced, the liquid refrigerant introduced through the refrigerant inlet 107a formed outside the concentric circle of the L-tube 102 is not directly introduced into the L-tube 102. Only the refrigerant gas which has fallen to the lower part of the accumulator 101 and has evaporated enters the end inlet of the L-tube 102.

At this time, when the refrigerant gas enters the end inlet of the L-tube 102, the flow path area is rapidly changed, so that the refrigerant gas comes into contact with the inner surface of the protrusion 111 of the screen holder 107. Increases.

In order to prevent this, the reinforcing member 112 having a porous structure is fixed to the inner surface of the protrusion 111, and the reinforcing member 112 evenly sprays the pulsating flow of the refrigerant gas to the end inlet of the L-tube 102. Refrigerant gas with reduced pulsation enters.

By fixing the reinforcement formed of a porous structure on the inner surface of the screen holder, the effect of the pressure pulsating flow due to the rapid change in the refrigerant gas flow path area at the end of the L-tube can reduce the vibration and noise of the compressor.

1 is a structure diagram of a conventional accumulator for a compressor

(A) is longitudinal sectional view of compressor.

(B) is a plan view of the compressor.

2 is a cross-sectional view of an accumulator for a conventional compressor.

3 is an enlarged cross-sectional view of portion A of FIG.

4 is a cross-sectional view of the accumulator for the present invention compressor.

5 is an enlarged cross-sectional view of portion B of FIG. 4.

*** Explanation of symbols for the main parts of the drawing ***

101: Accumulator 102: L-tube

103: upper cap 104: lower cap

105: body 106: screen filter

107: screen holder 107a: refrigerant inlet

108: tube holder 109: upper pipe

110: oil hole 111: protrusion

112: reinforcement

Claims (1)

In the screen holder 107 is provided with a projection 111 to adjust the flow direction of the refrigerant gas to prevent the refrigerant gas guided from the upper pipe 109 is not directly introduced into the compressor, Screen holder of the accumulator for compressor, characterized in that the inner surface of the protrusion 111 is fixed to the reinforcing member 112 formed of a porous structure.