KR20010066790A - Apparatus for preventing vacuum compression of scroll compressor - Google Patents

Abstract

PURPOSE: A vacuum compression prevention apparatus for scroll compressor is provided to achieve an in-advance prevention against damage to the hermetic terminal caused due to the vacuum compressor and deterioration of reliability of the compressor. CONSTITUTION: A vacuum compression prevention apparatus comprises a valve housing(110) having a suction pressure area(S1), a discharge pressure area(Sh) and a medium pressure area(Sm) formed between the suction pressure area and the discharge pressure area, wherein three areas are formed to be communicated with each other; a valve member(120) inserted in a slidable manner into the inner periphery of the valve housing, and which moves according to the pressure change of the medium pressure area so as to connect or disconnect the suction pressure area and the discharge pressure area; and an elastic member(130) interposed between the valve housing and the valve body so as to support and reinforce motion of the valve body.

Description

Vacuum Compression Prevention Device of Scroll Compressor {APPARATUS FOR PREVENTING VACUUM COMPRESSION OF SCROLL COMPRESSOR}

The present invention relates to an apparatus for preventing vacuum compression of a scroll compressor, and more particularly, to an apparatus for preventing vacuum compression of a scroll compressor that blocks the vacuum compression of the compressor by using an intermediate pressure.

Generally, a compressor converts mechanical energy into compressive energy of a compressive fluid, which is divided into reciprocating, scrolling, and centrifugal (commonly referred to as turbo) and vane (commonly referred to as rotary). .

Among the scroll compressors, unlike the reciprocating type using the linear motion of the piston, the scroll compressor sucks and discharges the gas by using a rotating body such as a centrifugal type or a vane type. The scroll compressor is divided into a low pressure scroll compressor or a high pressure scroll compressor depending on whether suction gas or discharge gas is filled in the casing.

In the low pressure scroll compressor, as shown in FIG. 1, the upper frame 2 and the lower frame 3 are respectively fixed to upper and lower sides of the inner circumferential surface of the casing 1 filled with oil to an appropriate height, and the upper frame 2 A driving motor 4 consisting of a stator 4A and a rotor 4B is fixedly installed between the lower frame 3 and the lower frame 3, and a driving shaft 5 is formed at the center of the rotor 4B of the driving motor 4. The pivoting frame 6 is press-fitted through the upper frame 2, and the upper frame 2 is formed on the upper surface with a wrap 6a in an involute curve to be eccentrically coupled to the drive shaft 5. A fixed scroll which is rotatably mounted and provided with an involute curve wrap 7a formed on the upper surface of the swing scroll 6 to be engaged with the wrap 6a of the swing scroll 6 to form a plurality of compression chambers ( 7) is fixed to the edge of the upper frame (2), the casing (top) of the fixed scroll (7) 1) A high and low pressure separator 8 partitioning the inside into a discharge pressure region as a high pressure portion and a suction pressure region as a low pressure portion is fixed to an inner circumferential surface of the casing 1.

At one outer periphery of the fixed scroll (7) is formed a suction groove (7b) in communication with the suction pipe (SP) to the inside of the outermost wrap, the center of the fixed scroll (7) is in communication with the discharge pipe (DP) A discharge port 7c is formed, and a check valve assembly 9 for opening and closing the discharge port 7c is provided at the front end surface of the fixed scroll 7.

In the figure, 5a, which is not described, is an oil oil, and 8a is a gas discharge hole.

The conventional scroll compressor configured as described above operates as follows.

That is, while the rotor 4B rotates together with the drive shaft 5 inside the stator 4A by the applied power, the turning scroll 6 is eccentrically rotated by an eccentric distance, and the turning scroll ( 6) is rotated by the distance from the center of the shaft by the Old Daming (unsigned) as the turning radius, and a plurality of compression chambers are formed between the two wraps (6a, 7a) with the fixed scroll (7). This compression chamber is moved to the center by the continuous turning motion of the turning scroll 6 to reduce the volume to further compress and discharge the sucked refrigerant gas.

Looking at this in more detail, the suction gas filled in the suction pressure region of the casing 1 through the suction pipe (SP) through the suction groove (7b) of the fixed scroll (7) opened during the swinging movement of the swinging scroll (6) The suction gas is sucked into the outer compression chamber, and the suction gas is gradually compressed along the compression chamber and discharged through the discharge port 7c to the discharge pressure region, which discharges the gas while the check valve assembly 9 is opened. The gas is discharged to the refrigeration cycle system through the gaseous discharge hole 8a of the low pressure separating plate 8 and the discharge pipe DP.

At this time, the check valve assembly 9 is kept open by the high-pressure discharge gas continuously discharged from the compression chamber during the normal operation of the compressor, but during the abnormal operation of the compressor (over-compression or high vacuum operation) discharge chamber As the pressure of the pressure becomes relatively higher than that of the compression chamber, the check valve assembly 9B blocks the discharge port 7a of the fixed scroll 7 to prevent the reverse flow of the discharge gas.

However, during the overcompression operation caused by other factors during the operation of the compressor or during the pump-down operation in which the service (suction) valve is closed, all refrigerant gas remaining in the suction pressure region is sucked into the compression chamber and discharged to the discharge pressure region. As a result of the discharge, the suction pressure region of the casing 1 as well as the compression chamber gradually become a vacuum state. If such abnormal operation is continued for a long time, the vacuum of the suction pressure region and the compression chamber is accelerated and the hermetic terminal is formed by vacuum compression. ) (Not shown) is damaged, or the tip chamber and the like is damaged by recompression at the compression mechanism portion, resulting in a problem that the reliability of the compressor is lowered.

The present invention has been made in view of the problems of the conventional low-pressure scroll compressor as described above, to provide a vacuum compressor preventing device of the scroll compressor that can prevent the suction pressure region is highly vacuumed during operation of the compressor. have.

1 is a longitudinal sectional view showing an example of a conventional scroll compressor.

Figure 2 is a partial longitudinal cross-sectional view showing an example of the vacuum compression preventing device of the present invention scroll compressor.

3 is an enlarged view showing detail "A" of FIG.

Figures 4a and 4b is a partial longitudinal cross-sectional view for the normal operation in the scroll compressor equipped with a vacuum compression preventing device of the present invention and a degree of freedom for the vacuum compression preventing device.

5A and 5B are partial longitudinal cross-sectional views for abnormal operation (high vacuum operation) in a scroll compressor equipped with the vacuum compression preventing device of the present invention and degrees of freedom for the vacuum compression preventing device.

Figure 6a and 6b is a longitudinal sectional view showing a modification to the vacuum compression preventing device of the scroll compressor of the present invention.

Figure 7a and 7b is a longitudinal sectional view showing another modification of the vacuum compression preventing device of the scroll compressor of the present invention.

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

1: casing 6: turning scroll

6a: lap of turning scroll 10: fixed scroll

11: wrap of fixed scroll 12; Suction groove

13 discharge port 20 cover member

21: gasstove 100: high vacuum prevention means

110: valve housing 111: suction pressure space

111a: suction gas side gas hole 112: intermediate pressure space

112a: intermediate pressure side gas hole 113a: discharge pressure side gas hole

120: valve member 130: elastic member

140: valve catching portion S _l : suction pressure range

S _m : Medium pressure region S _h : Discharge pressure region

Sc: Enclosed Space

In order to achieve the object of the present invention, there is provided a fixed scroll to form a plurality of compression chambers together with the turning scroll and its turning scroll in the casing, so that each compression chamber has a different pressure during turning of the turning scroll. A scroll compressor configured to move a position in a;

A valve housing formed between the suction pressure region and the discharge pressure region of the casing, and the intermediate pressure region in which the compression is performed is formed between the suction pressure region and the discharge pressure region;

A valve member inserted in sliding contact with the inner circumferential surface of the valve housing to communicate or block the suction pressure region and the discharge pressure region while moving in response to a pressure change in the intermediate pressure region according to the operation state of the compressor;

There is provided a vacuum compression preventing device for a scroll compressor comprising an elastic member interposed between the valve housing to support the valve member and reinforcing the movement of the valve member.

Hereinafter, a vacuum compression prevention device of a scroll compressor according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

Figure 2 is a partial longitudinal cross-sectional view showing an example of a scroll compressor with a vacuum compression preventing device of the present invention, Figure 3 is an enlarged view showing the "A" part of FIG.

As shown therein, the low-pressure scroll compressor equipped with the vacuum compression preventing device according to the present invention includes a fixed scroll (10) having a high vacuum preventing means (100) on the upper frame (2) fixed inside the casing (1). ) Is fixed, and a rotating scroll (6) forming a plurality of compression chambers together with the fixed scroll (10) is driven by a rotor (not shown) of a rotor (not shown) of a drive motor (not shown) mounted to the casing (1). 5) is integrated into the upper frame (2), and partitions the inside of the casing (1) into the suction pressure region (S _l ) and discharge pressure region (S _h ) on the upper side of the fixed scroll (10). The high and low pressure separating plate 8 is fixed to the casing 1, and the check valve assembly 9 is installed at the front end surface of the discharge port 13 of the fixed scroll 10 to prevent the backflow of the discharge gas. It is composed.

The high vacuum preventing means 100 is inserted into the valve housing 110 formed in the fixed scroll 10 and the valve housing 110 to slide in the suction pressure region S _l of the casing 1. An elastic force for sliding of the valve member 120 interposed between the valve member 120 and the valve housing 110 and the valve member 120 for communicating or blocking the discharge pressure region S _h with each other. It consists of an elastic member 130 for adding.

The valve housing 110 is formed as a valve flow space in the transverse direction so that the left and right sides thereof are divided into the suction pressure space 111 and the intermediate pressure space 112 by the valve member 120, the suction pressure space ( 111), one side surface, the suction pressure area (S _l) suction apcheuk gas hole (111a) in communication with the casing (1) is formed in the intermediate pressure region of the main surface, the casing 1 of the intermediate-pressure space (112) An intermediate pressure side gas hole 112a is formed in communication with S _m , and a discharge pressure side gas hole 113a in communication with the discharge pressure region S _h of the casing 1 is opened and closed by the valve member on its main surface. It is formed.

C-ring on the inner circumferential surface of the valve housing 110 to prevent the intermediate pressure side gas hole 112a from being blocked by the valve member 130 in the intermediate pressure space S _{m of} the valve housing 110. 140 is inserted or a locking projection (not shown) is formed to protrude.

The suction pressure side gas hole 111a is formed through the outer circumferential surface of the fixed scroll 10, and the intermediate pressure side gas hole 112a is the intermediate pressure in the plurality of compression chambers including the turning scroll 6 and the fixed scroll 10. It is formed through the intermediate pressure chamber forming the area (S _m ), the discharge pressure side gas hole 113a is formed through the back of the fixed scroll (10).

In addition, the main surface of the valve housing 110 may be provided with another suction pressure side gas hole (not shown) which is opened and closed by the valve member 120 together with the discharge pressure side gas hole 113a. The hole (not shown) is preferably formed through the suction pressure chamber forming the suction pressure region S _{| in the} plurality of compression chambers including the swing scroll 6 and the fixed scroll 10.

The valve member 120 is inserted in sliding contact with the inner circumferential surface of the valve housing 110, and an O-ring (not shown) for sealing with the valve housing 110 is inserted into the outer circumferential surface thereof.

The elastic member 130 may be interposed in the suction pressure space 111 of the valve housing 110 by a compression coil spring, or may be further interposed in the intermediate pressure space 112 of the valve housing 110.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the figure, reference numeral 6a denotes a lap of the turning scroll, 8a denotes a gas discharge hole, 9a denotes a check valve, 11 a fixed scroll lap, 12 denotes a suction groove, and 111b denotes another suction pressure side gas hole.

The general operation of the scroll compressor provided with the vacuum compression preventing device of the present invention as described above is similar to the conventional.

That is, while the driving shaft 5 rotates together with the rotor (not shown) of the motor rotated by the applied power, the pivoting scroll 6 is eccentrically rotated by an eccentric distance, but the pivoting scroll 6 is the shaft center. The suction movement is made at a distance as far as the turning radius from the starting point, so that a plurality of compression chambers are formed between the two wraps 6a and 11 with the fixed scroll 10, and the suction pressure region S _{l as} the low pressure portion of the casing 1 is formed. ) And the refrigerant gas filled in the) is sucked and discharged to the discharge port 13 of the fixed scroll (10).

4A and 4B, in the normal operation of the compressor, the refrigerant gas flows into the intermediate pressure space 112 of the valve housing 110 through the intermediate pressure side gas hole 112a and the valve member 130. Since the pressure is applied to the intermediate pressure negative pressure surface of the valve member 120, the pressure force (P _m × A) applied to the intermediate pressure negative pressure surface of the valve member 120 is applied to the elastic force of the elastic member 130 (F _k ) And the valve member 120 discharges the discharge pressure side gas hole (or, together with the other suction pressure side gas hole) 113a in equilibrium with the sum of the pressure loads P ₁ × A of the suction pressure region S ₁ . Will block. As a result, the high pressure gas of the discharge pressure region S _h flowed into the suction pressure space 111 of the valve housing 110 through the discharge pressure side gas hole 113a and then suction pressure through the suction pressure side gas hole 111a. The backflow to the area S ₁ is prevented.

On the other hand, as shown in FIGS. 5A and 5B, when the compressor is overcompressed or pumped down, all the refrigerant gas in the suction pressure region S ₁ including the compression chamber is discharged to the discharge pressure region S _h . The intermediate pressure chamber of the compression chamber as well as the intermediate pressure space 112 of the valve housing 110 are in a vacuum state, and the pressure load (P _m × A) applied to the intermediate pressure negative pressure surface of the valve member 120 It becomes smaller than the combined force of the elastic force (F _k ) of the elastic member 130 and the pressure load (P _l × A) of the suction pressure region (S _l ) applied to the rear surface of the valve member 120 is the ring The discharge pressure side gas hole (or together with the other suction pressure side gas hole) 113a is opened while being pushed to 140 or the locking step (not shown), and at the same time, a part of the discharge gas in the discharge pressure area S _h The inlet pressure side 111 flows into the inlet pressure space 111 of the valve housing 110 through the outlet pressure side gas hole 113a. Through the opening 111 back flow to the suction pressure region (or, indeed suction pressure directly) (S _l) and is released from the vacuum condition of the compressor.

Then, the elastic force of the valve member 120 is a suction pressure zone the suction pressure area (S _l) a pressure load (P _l × A) with the resilient member 130 of the by the refrigerant gas to be introduced into the (S _l) (F _k ), The suction pressure side gas hole 111a and the discharge pressure side gas hole 113a are again blocked while being pushed back into the suction pressure space 111.

On the other hand, if the power is not turned off during the vacuum compression of such a compressor, the drive motor (unsigned) of the compressor is continuously rotated, and the compressor is vacuum compressed again, and the vacuum compression means is performed by the vacuum preventing means 100 described above. The valve member 120 is continuously reciprocated at a predetermined frequency in the valve housing 110 while repeating a series of operations in which the state is released.

If there is a modification to the vacuum compression preventing device of the scroll compressor according to the present invention is as follows.

That is, in the above-described example, the check valve assembly 9 is fixedly installed on the rear surface of the fixed scroll 10 so as to directly open and close the front end surface of the discharge port 13, while the gas discharge hole 8a of the high and low pressure separation plate 8 is installed. ) Is in communication with the discharge pipe DP of the casing 1 as it is.

In the normal operation of the compressor, since the pressure in the intermediate pressure space 112 is greater than the sum of the pressure of the suction pressure space 111 and the elastic force of the elastic member 130, the valve member 120 discharges the gas pressure side of the discharge pressure. Blocking the 113a prevents the discharge gas from flowing back into the suction pressure region S _l through the discharge pressure side gas hole 113a, but the intermediate pressure space 112 is stopped when the compressor is stopped or during vacuum operation. ) Is lower than the sum of the pressure of the suction pressure space 111 and the elastic force of the elastic member 130, so that the valve member 120 does not block the discharge pressure side gas hole 113a. The discharge gas which has passed through the gaseous exit hole 8a of (8) again flows back into the discharge pressure side gas hole 113a through the gaseous exit hole 8a, and may generate a noise.

In consideration of this, the apparatus for preventing vacuum compression of the scroll compressor according to the present modified example, as shown in FIGS. 6A and 6B, the check valve assembly 9 directly opens the gas discharge hole 8a of the high and low pressure separating plate 8. It is fixedly installed at the front end face of the gaseous outlet hole 8a of the high and low pressure separating plate 8 to open and close, and accommodates the discharge port 13 of the fixed scroll 10 and the discharge pressure side gas hole 113a of the valve housing 110. It is made to form a closed space Sc.

7A and 7B, when the high and low pressure separator 8 is formed in an annular shape and coupled to the outer circumference of the fixed scroll 10, the inside of the high and low pressure separator 8 is shown. A separate cover member 20 having a closed space Sc so as to communicate the discharge port 13 and the discharge pressure side gas hole 113a on the rear surface of the fixed scroll 10, and the cover member 20 The check valve assembly 9 may be fastened and fixed to the front end surface of the gaseous outlet 21 to directly open and close the gaseous outlet 21 provided in the gasoline outlet 21.

In the drawings, the same reference numerals are given to the same parts as the above-described example.

The vacuum compression preventing device of the scroll compressor according to the present modification is operated as follows.

First, as shown in FIGS. 6A and 7A, in a normal operation of the compressor, a compressed space is formed of the fixed scroll 10 and the high and low pressure separating plate 8 through the discharge port 13 of the fixed scroll 10. Discharged to the sc and pushes the check valve 9a of the check valve assembly 9, and the check valve is pushed so that the gas-stowing holes 8a and 21 of the high and low pressure separating plate 8 or the cover member 20 are pushed. ) Is opened and discharged to the discharge pressure region S _h of the casing 1. At this time, the pressure in the intermediate pressure space 112 is relatively high pressure compared to the combined force of the elastic force of the elastic member 130 and the pressure of the suction pressure space 111 to close the valve member 120 in the valve housing 110. It is pushed into the suction pressure space 111, and the valve member 120 shuts off the discharge pressure side gas hole 113a so that the compressed gas discharged into the sealed space Sc is discharged to the discharge pressure region as it is.

On the other hand, as shown in FIGS. 6B and 7B, even when the compressor is stopped or in the vacuum compression operation, a small amount of compressed gas is discharged through the discharge port 13 of the fixed scroll 10 to the sealed space Sc. However, the pressure of the compressed gas does not push the check valve 9a of the check valve assembly 9, so that the gas discharge holes 8a and 21 of the high and low pressure separating plate 8 or the cover member 20 are closed. Since it is closed, the compressed gas remains in the closed space Sc. At this time, when the compressor is stopped, the compressed gas in the closed space Sc is stopped as it is, whereas when the compressor is subjected to vacuum compression operation, the pressure in the intermediate pressure space 112 is equal to the elastic force of the elastic member 130. The pressure in the suction pressure space 111 becomes relatively low compared to the combined force, so that the valve member 120 in the valve housing 110 is pushed into the intermediate pressure space 112 and the discharge pressure-side gas hole 113a and the suction pressure region. (S _l ) is in communication with each other, and only the compressed gas remaining in the closed space Sc through the open gas flow path is sucked in the suction pressure region S _l through the discharge pressure side gas hole 113a and the suction pressure side gas hole 111a. As a result, the vacuum compression operation of the compressor is instantaneously released while continuously refluxing. That is, even in the vacuum compression operation of the compressor, the compressed gas having already escaped from the high and low pressure separation plate 8 or the cover member 20 is blocked by the check valve assembly 9 so that the back flow to the valve housing 110 is blocked.

In this way, it is possible to prevent the compression chamber including the suction pressure region of the casing from being in a vacuum state, thereby preventing damage to the hermetic terminal due to vacuum compression, and also to deteriorate components generated during recompression of the compression mechanism. And thereby the reliability of the compressor can be prevented in advance.

In addition, the compressed gas discharged from the discharge port is restricted from excessively flowing back from the discharge pressure region to the suction pressure region when the compressor is stopped or in the vacuum compression operation, thereby minimizing noise due to the reverse flow of the gas.

The vacuum compressor preventing device of the scroll compressor according to the present invention includes a valve housing provided so that the suction pressure region, the intermediate pressure region and the discharge pressure region of the casing are in communication with each other, and the slide housing is slidably inserted into the inner circumferential surface of the valve housing to operate the compressor. According to the pressure change in the intermediate pressure region according to the valve member for communicating or blocking the suction pressure region and the discharge pressure region with each other, interposed between the side of the valve housing and the valve member to support the valve member and the valve By constructing the elastic member to reinforce the sliding motion of the member, it is possible to prevent damage to the hermetic terminal due to the vacuum compression generated when the suction pressure region is vacuumed, and to prevent the component from recompressing the compression mechanism. It is possible to prevent degradation and consequently deterioration of the reliability of the compressor.

In addition, a closed space may be formed in the discharge pressure region of the casing to prevent excessively back flow of the compressed gas into the suction pressure region during the vacuum compression operation of the compressor, thereby minimizing noise caused by the gas backflow.

Claims (12)

In the scroll compressor is provided with a rotating scroll and a fixed scroll for forming a plurality of compression chambers together with the rotating scroll in the casing so that each of the compression chambers have different pressures during the turning of the rotating scroll to move the position continuously. In; A valve housing formed between the suction pressure region and the discharge pressure region of the casing, and the intermediate pressure region in which the compression is performed is formed between the suction pressure region and the discharge pressure region; A valve member inserted in sliding contact with the inner circumferential surface of the valve housing to communicate or block the suction pressure region and the discharge pressure region while moving in response to a pressure change in the intermediate pressure region according to the operation state of the compressor; An apparatus for preventing vacuum compression of a scroll compressor comprising an elastic member interposed between the valve housing and supporting the valve member to reinforce the movement of the valve member. The apparatus of claim 1, wherein the valve housing is divided into a suction pressure space and an intermediate pressure space by a valve member so as to have a valve flow space in a lateral direction. 3. The valve housing according to claim 2, wherein the valve housing has a suction pressure side gas hole communicating with the suction pressure region of the casing in the suction pressure space, and an intermediate pressure side gas hole communicating with the middle pressure region of the casing in the intermediate pressure space. And a discharge pressure side gas hole which is opened and closed by a valve member on the main surface thereof and communicates with the discharge pressure region of the casing. The vacuum compressor preventing device of a scroll compressor according to claim 3, wherein a valve stop is provided in the intermediate pressure space of the valve housing to prevent the intermediate pressure side gas hole from being blocked by the valve member. The vacuum compressor preventing device of a scroll compressor according to claim 4, wherein the valve stopper is a locking member inserted into and fixed to an inner circumferential surface of the valve housing. The vacuum compressor preventing device of a scroll compressor according to claim 4, wherein the valve stopper is a locking jaw protruding from an inner circumferential surface of the valve housing. 4. The vacuum compressor preventing device of claim 3, wherein the main surface of the valve housing further includes another suction pressure side gas hole which is opened and closed by the valve member and communicates with the suction pressure area together with the discharge pressure side gas hole. . 8. The suction gas chamber of claim 7, wherein the suction pressure side gas hole is formed through the suction pressure chamber, the one of which is formed through the outer circumferential surface of the fixed scroll while the other is formed of the suction pressure region in the plurality of compression chambers comprising the swing scroll and the fixed scroll. Vacuum compression preventing device of the scroll compressor, characterized in that the. 4. The vacuum compression preventing device of a scroll compressor according to claim 3, wherein the intermediate pressure side gas hole is formed through the intermediate pressure chamber which forms the intermediate pressure region in the plurality of compression chambers including the turning scroll and the fixed scroll. The apparatus of claim 1, wherein the elastic member is interposed in the suction pressure space of the valve housing. The check valve assembly according to claim 1, further comprising: a check valve assembly for mounting a cover member having a constant internal volume in the discharge pressure region of the casing and opening and closing the gaseous outlet provided in the cover member according to the operation state of the compressor; During normal operation of the compressor, the compressed gas discharged from the compression chamber is induced to be discharged as it is.In the stop of the compressor, the compressed gas discharged from the compression chamber is prevented from flowing back to the valve housing, and the compressor is compressed during the vacuum compression operation. A part of the compressed gas discharged from the seal is trapped in the internal volume so that the compressed gas in the internal volume flows back to the valve housing so that the vacuum compression operation of the compressor is continuously released. Device. The vacuum compressor preventing device of a scroll compressor according to claim 11, wherein the cover member is a high and low pressure separating plate which divides the inside of the casing into a suction pressure region and a discharge pressure region.