KR100255942B1 - Check valve of a scroll compressor - Google Patents

Abstract

PURPOSE: A check valve for scroll compressor is provided to prevent the crankshaft from reversely rotating due to the high temperature high pressure refrigerant flowing reversely from the discharge chamber toward the discharge opening formed at the top plate of the scroll compressor. CONSTITUTION: A scroll compressor comprises a top plate(20) mounted on the top of the main body so as to section the interior of the main body into a suction chamber and a discharge chamber, and which has a discharge opening(42) formed at the center of the top plate; a fixed scroll mounted beneath the top plate; a swirling scroll installed to face the fixed scroll and which compresses the refrigerant gas into high temperature high pressure state; and a check valve(90) disposed onto the discharge opening and which opens/closes in accordance with the pressure of the compressed refrigerant. The check valve includes an elastic support unit for preventing the refrigerant from flowing reversely from the discharge chamber through the discharge opening upon scroll compressor shutdown. The elastic support unit includes a casing(93), an elastic member(94) disposed within a casing(93) and a shut-off plate(95) for shutting the discharge opening formed at the top plate.

Description

Check Valve of Scroll Compressor

The present invention relates to a scroll compressor, and more particularly, the crankshaft is reversely rotated by the high temperature and high pressure refrigerant flowing back from the discharge chamber to the discharge port when the scroll compressor is stopped while driving, and noise is generated accordingly. It relates to a scroll compressor to prevent.

In general, scroll compressors are being used as compressors in room air conditioners or automotive air conditioners due to high efficiency, low noise, compactness, and light weight. Such a scroll compressor is used to compress gaseous gas by rotating a pair of opposed scrolls.

1 is a longitudinal sectional view showing an internal configuration of a general scroll compressor.

As shown in the drawing, above the sealed container-shaped main body 10, the suction pipe 11 and the discharge pipe 12 communicating with the inside and the outside thereof to suck and discharge the refrigerant are spaced apart by a predetermined distance. . The suction pipe 11 and the discharge pipe 12 are installed in communication with the indoor unit (or evaporator) and the outdoor unit (or condenser) side of the refrigeration cycle (not shown) and the refrigerant tube.

The top plate 20 and the sub plate 30 are installed above and below the inside of the main body 10.

The top plate 20 has an open center and its outer circumferential surface is integrally formed above the inner circumferential surface of the main body 10, and divides the inside of the main body 10 into the suction chamber 13 and the discharge chamber 14.

The sub plate 30 has a sub-frame 31 in which the protrusion 32 formed on the outer circumferential surface is integrally attached to the lower side of the inner circumferential surface of the main body 10, as shown in a) of FIG. The sub bearing 33 is fixedly installed by the 34.

In addition, the top plate 20 has a discharge port 42 penetratingly formed in the center thereof, and a check valve 44 having three triangular teeth 45 is formed radially above the discharge port 42 as shown in FIG. Is placed. A fixed scroll 40 having an involute blade 41 is fixed to a lower side of the discharge port 42 so that the compression chamber 43 is formed, and the rotating scroll 50 is rotatable thereunder. Is fitted.

The turning scroll 50 is provided with an involute blade 51 on the upper side to correspond to the fixed scroll 40 and to be coupled thereto.

In addition, the turning scroll 50, the lower side edge side is supported in the circumferential direction and the upper surface of the edge of the frame 60, the old ham disposed between the lower side of the turning scroll 50 and the upper side of the frame 60 By the ring 70, the center is installed so as to rotate only by repetition without rotating while maintaining only the state coinciding with the center of the fixed scroll 40.

On the other hand, a motor 80 that is a driving source of the turning scroll 50 is installed below the turning scroll 50.

The motor 80 has a stator 81 fixed to the lower inner circumferential surface of the main body 10, a rotor 82 installed inside the stator 81, and an upper end portion of the motor 80 with the bush 84 placed therein. The lower portion of the pivoting scroll 50 is decimated, and the lower end is constituted by a crank shaft 83 is decimated by the sub-bearing 33 and the rotor 82 is press-fitted.

That is, when power is applied to the motor 80, the crankshaft 63 in which the rotor 82 is press-fitted rotates and rotates the turning scroll 50 provided at the upper end thereof.

At this time, the old ham ring 70 disposed between the lower side of the turning scroll 50 and the upper side of the frame 60, the rotational force of the turning scroll 50 to be rotated by the rotational force of the crank shaft 63 is inhibited In the state, just as shown in Figure 3 a) to d), while maintaining only its shape to form a small round circle and idle.

Therefore, the low-temperature low-pressure gas gas sucked through the suction pipe 11 after the heat exchange in the indoor unit (or the evaporator), which is not shown, is fixed scroll 40 and the turning scroll as shown by the single arrow of FIG. After flowing through the inlet of the flow path formed by the involute blades 41 and 51 provided in the 50, as shown in b) to d) of FIG. 3, the turning scroll 40 turns and It is compressed at high temperature and high pressure in the compression chamber 43 while gradually reducing the sealed area.

As described above, the refrigerant compressed at a high temperature and high pressure is discharged to the discharge chamber 14 by opening the check valve 44 placed on the upper side through the discharge port 42 formed through the fixed scroll 40. It is discharged to the outdoor unit (or condenser) not shown through the discharge tube 12.

However, the following problems occur in such a general scroll compressor.

That is, when the scroll compressor which has been driven as described above is stopped, the pressure in the discharge chamber 14 acts as a check valve 44 which seals the discharge port 42 side and the upper side thereof so that the check valve 44 There was a problem that the crack and the resulting damage to the trivet 45 formed in the.

More specifically, when the pressure of the discharge chamber 14 having a large volume is acted through the discharge port 42 having a relatively small volume, the check valve 44 closing the discharge port 42 by the pressure is applied. Cracking and subsequent breakage is caused.

Therefore, through the space formed between the check valve 44 damaged by the crack and damage and the inner circumferential surface of the discharge port 42, the high-temperature, high-pressure refrigerant flows back and rotates the crank shaft 83 rotates in one direction, thereby The noise caused is a problem that reduces the reliability of the product.

Therefore, the technical problem to be achieved by the present invention, that is, the object of the present invention is to solve the problems of the conventional check valve of the scroll compressor, the high temperature and high pressure flowing back toward the discharge port in the discharge chamber of the scroll compressor It is to provide a check valve of the scroll compressor to prevent the crankshaft from reverse rotation by the refrigerant of the.

Another object of the present invention is to provide a scroll compressor that prevents a high temperature, high pressure refrigerant from flowing backward through a discharge port, thereby preventing noise.

1 is a cross-sectional view of a typical scroll compressor

Figure 2a is an exploded perspective view showing a sub plate and a sub bearing in a typical scroll compressor

Figure 2 b is a perspective view showing a check valve for closing the discharge port in a typical scroll compressor

3 a) to 3) is a configuration diagram showing the compression operation of a typical scroll compressor

4 is a cross-sectional view of the scroll compressor is installed with a check valve according to the present invention

5 is an exploded perspective view showing a check valve according to the present invention;

Figure 6 is an enlarged cross-sectional view showing an operating state of the check valve according to the present invention

Explanation of symbols on the main parts of the drawings

10; Scroll compressor body 11; suction

12; Discharge tube 13; Suction chamber

14; Discharge chamber 20; Top plate

30; Subplate 33; Sub bearing

40; Fixed scroll 41, 51; Wing

42; Discharge port 43; Compression chamber

44; Check valve 50; Turning scroll

60; Frame 80; motor

81; Stator 82; Rotor

83; Crankshaft 84; bush

90; Check valve 91; Tense means

92; Through 93; Casing

94; Elastic member 95; Blocking plate

In order to achieve this object, the present invention includes a top plate which is installed on the upper side of the main body so as to partition the inside of the main body into the suction chamber and the discharge chamber; A fixed scroll installed at a lower side of the top plate and having a discharge port penetrated therethrough; the fixed scroll facing the fixed scroll and being installed with a crank shaft provided in the motor and idling by the rotational force to compress the sucked refrigerant gas at high temperature and high pressure; Turning scrolls; In the check valve of the scroll compressor which is arranged on the upper side of the discharge port and opened and closed by the pressure of the compressed refrigerant, the check valve is a gripping means for overcoming by the elastic restoring force that the refrigerant pressure in the discharge chamber flows back through the discharge port It provides a check valve of the scroll compressor, characterized in that provided.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving this object will be described in detail.

Figure 4 is a cross-sectional view of a general scroll compressor to which the present invention is applied, Figure 5 is an exploded perspective view showing a check valve is installed in the gripping means according to the invention, Figure 6 is a longitudinal cross-sectional view showing the operating state of FIG. For convenience, the same parts and members are assigned the same member numbers as in the prior art.

In other words, the check valve provided with the gripping means according to the present invention will be described with reference numeral "90".

As shown therein, above the main body 10 of the scroll compressor according to the present invention, the suction pipe 11 and the discharge pipe 12 communicating with the inside and the outside thereof to suck and discharge the refrigerant are spaced apart by a predetermined distance. Is placed. The suction pipe 11 and the discharge pipe 12 are installed in communication with the indoor unit (or evaporator) and the outdoor unit (or condenser) side of the refrigeration cycle (not shown) and the refrigerant tube.

The top plate 20 and the sub plate 30 to which the sub bearing 33 is fixed are installed on the upper and lower sides of the main body 10.

In addition, the discharge port 42 is installed in the center of the top plate 20, the fixed scroll 40 is provided with an involute blade 41 on the lower side so that the compression chamber 43 is formed at the lower side thereof. It is fixed, the rotating scroll 50 is fitted below the rotatably.

The turning scroll 50 is provided with an involute blade 51 on the upper side to correspond to the fixed scroll 40 and to be coupled thereto.

In addition, the turning scroll 50, the lower side edge side is supported in the circumferential direction and the upper surface of the edge of the frame 60, the old ham disposed between the lower side of the turning scroll 50 and the upper side of the frame 60 By the ring 70, the center is installed so as to rotate only by repetition without rotating while maintaining only the state coinciding with the center of the fixed scroll 40.

The motor 80, which is a driving source of the swing scroll 50, is installed below the swing scroll 50.

The motor 80 has a stator 81 fixed to the lower inner circumferential surface of the main body 10, a rotor 82 installed inside the stator 81, and an upper end portion of the motor 80 with the bush 84 placed therein. The lower portion of the pivoting scroll 50, the lower end is composed of a crank shaft 83 is axially bearing the sub-bearing 33, the rotor 82 is press-fitted, these configurations are roughly equivalent to the internal configuration of a general scroll compressor Soy.

However, in the present invention, as shown in Figs. 5 to 6, the check valve 90 is a gripping means 91 to overcome by the elastic restoring force that the refrigerant pressure of the discharge chamber 14 flows back through the discharge port ) Is provided.

The gripping means 91 surrounds the upper side of the discharge port 42 and is provided above the top plate 20.

The gripping means 91 is fixedly installed on the upper side of the top plate 20 and the casing 93 through which the through-hole 92 penetrates the upper side, and the elastic member 94 supported on the inner side of the casing 93. It is installed on the lower side of the elastic member 94 is provided with a blocking plate 95 for sealing the discharge port 42.

Preferably, the blocking plate 95 is preferably provided in the shape of a disc, but similarly to a general check valve, a conventional one provided with trivets on the outer circumferential surface may be used.

However, even if the disk-shaped blocking plate 95 is used or if a check valve with trivets is formed on the outer circumferential surface in the same manner as usual, those outer diameters should be smaller than the inner diameter of the casing 93.

Since the basic operation and function of the scroll compressor to which the present invention as described above is applied are the same as those of the related art, the separate description thereof is omitted.

Only the operation of the check valve provided with the gripping means, which is a feature in the present invention, will be described in detail.

That is, when driving the scroll compressor to which the present invention is applied, as shown by the arrow shown by the solid line of FIG. 6, the refrigerant compressed at high temperature and high pressure is elastic through the discharge port 42 of the elastic member 94 which supports the upper side thereof. After overcoming the restoring force, the barrier plate 95 is pushed upward, and then discharged to the inside of the discharge chamber 14 via the through hole 92 in the same manner as before.

On the other hand, although the driving of the scroll compressor which has been driven is stopped and the internal pressure of the discharge chamber 14 having a large volume acts in the same way as the conventional one toward the discharge port 42 having a smaller volume, the advantage arrow of FIG. As shown in FIG. 2, the blocking plate 95 is lowered by the internal pressure imparted from the discharge chamber 14 and the elastic restoring force of the elastic member 94 held inside the casing 93. The upper side of 42 is closed to prevent backflow of the refrigerant gas.

In addition, at this time, the blocking plate 95 is due to the structure formed in the shape of a disk, the lower side edge side is evenly sealed throughout the upper edge side of the discharge port 42, so that the check valve is damaged as in the prior art Will not be damaged or broken.

Therefore, as in the prior art, when the driven scroll compressor is stopped, the pressure in the discharge chamber acts as a check valve sealing the outlet side and the upper side thereof, causing cracks and damage to the trivets formed in the check valve. As such, the conventional problem in which noise is caused by reversing the crank shaft rotating in one direction by flowing the refrigerant having a high temperature and high pressure through the space formed between the cracked and broken check valve and the inner circumferential surface of the discharge port is solved.

As described above in detail, the present invention prevents the crankshaft from reverse rotation by the high temperature and high pressure refrigerant flowing back to the discharge port side in the discharge chamber of the scroll compressor, and accordingly generates noise due to the reverse rotation of the crankshaft. By preventing this, there are features such as improving the reliability of the product.

Up to now, the preferred embodiment of the check valve provided with the gripping means according to the present invention has been described in detail, but not limited thereto, and various modifications can be used by those skilled in the art.

Claims (1)

A top plate disposed above the inside of the main body so as to partition the inside of the main body into the suction chamber and the discharge chamber; A fixed scroll installed at a lower side of the top plate and having a discharge port penetrated therethrough; A rotating scroll which faces the fixed scroll and is installed correspondingly to the crankshaft provided in the motor and is idling by the rotational force to compress the sucked refrigerant gas at high temperature and high pressure; In the scroll compressor disposed above the discharge port and provided with a check valve opened and closed by the pressure of the compressed refrigerant, The check valve is provided on an upper side of the top plate and surrounds the upper side of the discharge port, and is provided with an elastic restoring force for overcoming the refrigerant pressure of the discharge chamber through the discharge port when the scroll compressor stops driving. Including, The gripping means is a scroll compressor, characterized in that it consists of a casing through which a through-hole penetrated the upper side, an elastic member carried on the inner side of the casing, and a blocking plate provided below the elastic member and sealing the discharge port.

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