KR100343731B1 - Apparatus for preventing vacuum compression of scroll compressor - Google Patents

Abstract

The vacuum compression preventing device of the scroll compressor according to the present invention, the valve housing is provided so that the suction pressure region and the discharge pressure region of the casing is in communication with the fixed scroll to form a plurality of compression chambers with the rotating scroll, and the valve And a valve member inserted into the housing to expand and contract with the temperature of the discharge pressure region and to communicate or block the suction pressure region and the discharge pressure region of the casing with each other. Damage to the hermetic terminal due to the vacuum compression can be prevented in advance, and deterioration of parts due to recompression of the compression mechanism can be prevented in advance.

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 above problems of the conventional low pressure scroll compressor, and an object thereof is to provide a vacuum compressor preventing apparatus for a scroll compressor which can prevent the suction pressure region from being highly vacuumed during operation of the compressor. .

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 a scroll compressor with a vacuum compression prevention device of the present invention.

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

4 is a cross-sectional view taken along the line “I-I” of FIG. 3.

Figure 5a is a partial longitudinal cross-sectional view of the normal operation in the scroll compressor equipped with a vacuum compression prevention device of the present invention.

Figure 5b is a partial longitudinal cross-sectional view of the abnormal operation (high vacuum operation) in the scroll compressor with vacuum compression prevention device of the present invention.

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

10: upper frame 11: gas flow path

20: fixed scroll 22: suction groove

23: discharge port 100: high vacuum prevention means

110: valve housing 111a: suction gas side gas hole

113a: gas hole for discharge pressure side 120: valve member

121: expansion and contraction part 122: opening and closing part

122a: gas flow path S _l : suction pressure range

S _h : discharge pressure range

In order to achieve the object of the present invention, the valve housing is provided so that the suction pressure region and the discharge pressure region of the casing is in communication with the fixed scroll to form a plurality of compression chambers with the turning scroll,

There is provided a vacuum compressor preventing device of a scroll compressor including a valve member inserted into the valve housing to expand and contract according to the temperature of the discharge pressure region and to communicate or block the suction pressure region and the discharge pressure region of the casing.

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 a detail "A" of Figure 2, Figure 4 is "I-I" of FIG. Line cross section.

As shown therein, the scroll compressor including the vacuum compression preventing device according to the present invention includes an upper frame 10 which divides the inside of the casing 1 into a suction pressure region S _l and a discharge pressure region S _h . Is fixed, the fixed scroll 20 is provided with a high vacuum prevention means 100 is fixed to the upper frame 10, the rotating scroll 6 to form a plurality of compression chambers with the fixed scroll 20 is The rotor (not shown) of the drive motor (4) mounted on the casing (1) is integrated into the drive shaft (5) and mounted on the upper frame (10), the discharge port 23 of the fixed scroll (20) ) Is provided with a check valve assembly (9) for preventing the reverse flow of the discharge gas.

The upper frame 10 is fixed to the outer circumferential surface of the upper peripheral surface of the casing (1) is pressed and connected to the suction pipe (SP) which is installed in communication with the suction pressure region (S ₁ ) of the casing 10 on one side The gas flow passage 11 is formed to communicate with the suction groove 22 of the scroll 20.

The high vacuum preventing means 100 is a valve housing 110 which is provided in the longitudinal direction so that the suction pressure region (S _l ) and the discharge pressure region (S _h ) in communication with the fixed scroll 20, and the valve housing 110 It is the internal insert that includes a predetermined discharge pressure space as new by the temperature of the discharge pressure region (S _h) the suction pressure area (S _l) and the discharge pressure region (S _h) a valve member for communicating or blocking (120 )

The valve housing 110 has a suction pressure side gas hole 111a communicating with the suction groove 23 of the fixed scroll 20 on its bottom surface, and a discharge pressure region (in the present embodiment of the fixed scroll). the discharge gas apcheuk hole (112a) in communication with the discharge port) (S _h) is formed.

The valve member 120 has a stretchable portion 121 having an upper portion thereof positioned in the discharge pressure space of the valve housing 110 and exposed to the discharge pressure region S _h , and a lower portion thereof having the suction pressure side gas hole. The opening part 122 is slidably inserted into the inner circumferential surface of the 111a, but the gas flow path groove 122a is formed on the outer circumferential surface thereof. The upper and lower widths of the gas channel grooves 122a are larger than the thickness of the suction pressure side gas holes 111a.

The stretching part 121 is formed of a metal bellows filled with a working gas that is expanded or compressed according to the temperature of the discharge pressure region S _h , or a shape memory alloy that is elongated at a specific temperature although not shown in the drawing. do.

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

The scroll compressor equipped with the vacuum compression preventing device according to the present invention as described above is operated as follows.

That is, while the drive shaft 5 rotates together with the rotor (not shown) of the motor 4 that is rotated by the applied power source, the pivoting scroll 6 is eccentrically rotated by an eccentric distance, but the pivoting scroll 6 Is a pivoting movement at a distance as far as the turning radius from the center of the shaft to form a plurality of compression chambers of narrow volume while continuously moving between the two wraps (6a, 21) with the fixed scroll (20), In the process, the refrigerant gas sucked into the casing 1 through the suction pipe DP flows into the suction groove of the fixed scroll 20 along the gas flow passage 11 of the upper frame 10. It is sucked into the outer compression chamber and gradually moves to the inner compression chamber to be compressed and discharged to the discharge port 23 of the fixed scroll 20.

Here, a part of the compressed gas discharged into the discharge pressure region (S _h ) through the discharge port 23 flows into the discharge pressure space of the valve housing 110 through the discharge pressure side gas hole 112a, and the valve member While in contact with the expansion and contraction unit 121 of 120, the working gas of the expansion and contraction unit 121 is expanded or compressed.

At this time, as shown in Figure 5a, during the normal operation of the compressor, the temperature of the compressed gas introduced into the discharge pressure space of the valve housing 110 is less than a predetermined temperature, so that the operating gas filled in the expansion unit 121 is compressed In this case, the expansion and contraction part 121 of the valve member 120 is maintained in a contracted state, and thus the opening and closing part 122 blocks the suction pressure side gas hole 111a.

On the other hand, as shown in Figure 5b, when the over-compression or the pump down of the compressor, the temperature of the compressed gas introduced into the discharge pressure space of the valve housing 110 is a predetermined temperature or more because the expansion unit 121 Is expanded while the working gas therein is expanded, and the opening and closing portion 122 also descends by a predetermined amount along the suction pressure side gas hole 111a, and the suction compression gas hole is formed in the gas flow path 122a of the opening and closing portion 122. 111a is positioned to guide the refrigerant gas in the discharge pressure space toward the suction groove 23 of the fixed scroll 20. In this process, the pressure in the suction pressure region S _l is recovered momentarily and the vacuum state of the compressor is released for a while.

Afterwards, the compressor performs vacuum compression again but repeats a series of processes in which the vacuum state is released through the above-described process.

On the other hand, if the power is not turned off during the vacuum compression of such a compressor, the drive motor 4 of the compressor is continuously rotated, and the compressor is vacuum compressed again, and the vacuum preventing means 100 performs the vacuum compression. While repeating a series of operations to release the valve member 120 is a continuous reciprocating motion at a predetermined frequency in the valve housing 110.

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.

The apparatus for preventing vacuum compression of a scroll compressor according to the present invention includes a valve housing provided so that an intake pressure region and a discharge pressure region of a casing communicate with a fixed scroll forming a plurality of compression chambers together with a turning scroll, and the inside of the valve housing. And a valve member inserted into and stretched according to the temperature of the discharge pressure region to communicate or block the suction pressure region and the discharge pressure region of the casing with each other, whereby the vacuum pressure generated while the suction pressure region is evacuated. It is possible to prevent the breakage of the hermetic terminal due to this, and to prevent the deterioration of the parts due to the recompression of the compression mechanism and the deterioration of the reliability of the compressor.

Claims (3)

A valve housing provided so that the suction pressure region and the discharge pressure region of the casing communicate with the fixed scroll which forms a plurality of compression chambers together with the turning scroll; And a valve member inserted into the valve housing to expand and contract according to the temperature of the discharge pressure region to communicate or block the suction pressure region and the discharge pressure region of the casing with each other. 2. The valve housing of claim 1, wherein the valve housing has a suction pressure side gas hole communicating with the suction pressure region at one side thereof, and a discharge pressure side gas hole communicating with the discharge pressure region at the other side thereof. The valve member has a gas flow path formed on its outer circumferential surface such that one end thereof is exposed to the discharge pressure region and the other end thereof is slidably inserted into the suction pressure side gas hole, and the discharge pressure region and the suction pressure region communicate with each other at any moment. A vacuum compressor preventing device for scroll compressors. According to claim 2, wherein the valve member is made of an expansion and contraction portion that is formed integrally with the expansion and contraction portion and the expansion and contraction portion thereof in accordance with the temperature of the discharge pressure region, it is made of a sliding portion inserted into the suction gas side gas hole, The expansion unit is a vacuum compression preventing device of a scroll compressor, characterized in that the gas is filled in the bellows or is formed of a shape memory alloy.