KR100531900B1 - Apparatus preventing the exhaust pressure of scroll compressor - Google Patents

Abstract

The present invention relates to an apparatus for preventing a discharge pressure increase of a scroll compressor. The vacuum prevention device is constructed in a structure having a vacuum prevention device so that the low pressure side is not vacuumed by bypassing the high pressure gas during the vacuum operation inside the fixed scroll of the scroll compressor. It is configured to reduce the pressure difference between high and low pressure by operating IP valve in the piston in the high pressure operation. The IP valve is configured to form a distribution groove in the outer diameter of the piston inserted into the piston chamber of the vacuum prevention device, and to form a valve chamber having a conical contact surface inside the piston so that the distribution groove and the inside penetrate the valve. In the seal, a ball for opening and closing a passage and a spring for elastically supporting the ball are inserted so that when the discharge pressure acting on the ball is less than the spring force, it is prevented from being pushed backward, and the discharge pressure acting on the ball is a spring force. If abnormal, the ball is opened so that the discharge gas is bypassed. The present invention reduces the leakage area by integrally forming the IP valve and the vacuum prevention device, and has the advantage of reducing the number of parts to reduce the assembly labor and cost.

Description

The discharge pressure increase prevention device of a scroll compressor {APPARATUS PREVENTING THE EXHAUST PRESSURE OF SCROLL COMPRESSOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for preventing a discharge pressure increase of a scroll compressor. In particular, the scroll compressor utilizes an IP valve for bypassing a high pressure gas to the low pressure side when the discharge pressure increases during operation, and a pressure on the low pressure side during vacuum operation. The present invention relates to an apparatus for preventing a discharge pressure increase of a scroll compressor, by which a vacuum prevention device that bypasses the gas on the high pressure side to the low pressure side to prevent vacuum operation is integrally formed to reduce leakage and the number of parts assembly work.

1 is a longitudinal cross-sectional view of a conventional scroll compressor, as shown in the drawing, a conventional scroll compressor forms a main body and is sealed to the inside of the sealed container (1), the interior of the sealed container (1) is coupled to the upper side An upper frame 2, a lower frame 3 coupled to the lower side of the sealed container 1, and a stator 4 and a rotor installed between the upper frame 2 and the lower frame 3 ( 5) is configured to include.

And the center of the rotor (5) is coupled to the crankshaft (6) to rotate together in accordance with the rotation of the rotor (5), the fixed scroll (7) is fixed to the upper frame (2), A pivoting scroll 8 is engaged with the lower portion of the fixed scroll 7 so as to be pivotable, and a central portion of the lower portion of the pivoting scroll 8 is located at an upper side of the crankshaft 6 at a position away from the center of the crankshaft 6. The core part 6a and the slide bush 9 are again combined.

In addition, the lower wall of the swing scroll 8 is coupled to the old dam ring 10 to prevent the rotation of the swing scroll (8). In addition, a separating plate 11 for separating the airtight container 1 is installed at an upper side of the fixed scroll 7, and a discharge chamber 20 in which a high pressure gas remains at an upper portion thereof, and a low pressure portion 21 at a lower side thereof. , A refrigerant suction pipe 12 is installed below the separator plate 11, and a discharge tube 13 through which the refrigerant gas compressed to the upper side where the separator plate 11 is installed is discharged. . The lower portion of the sealed container 1 is filled with oil 22 supplied to the sliding portion inside the scroll compressor.

In addition, an IPR valve (internal pressure relief valve; internal pressure control valve) 30 is installed at one side of the separator 11 separating the high pressure discharge chamber 20 and the low pressure part 21. Inside the fixed scroll (7), a vacuum preventing device (40) is installed.

Such a scroll compressor is first powered by the stator 4 and the rotor 5 inside the stator 4 rotates by interaction with the stator 4.

As a result, the crankshaft 6 press-fitted to the center of the rotor 5 rotates, and the turning scroll 8 provided on the upper eccentric portion 6a of the crankshaft 6 by the rotation of the crankshaft 6. ) Is rotated eccentrically by the eccentric distance, the turning scroll (8) is a turning movement at a distance away from the center of the axis by the turning radius by the Oldham ring (10). By the turning motion of the turning scroll 8, a compression chamber is formed between the turning scroll 8 and each wrap of the fixed scroll 7, and the compression chamber is subjected to continuous turning motion. By moving to the center by the volume is reduced to further compress the refrigerant gas sucked into the sealed container 1 through the inlet 12 of the sealed container (1).

At this time, the extruded refrigerant is again discharged to the discharge chamber 20 through the discharge port formed in the fixed scroll (7) and the discharge hole formed in the separation plate 11, the compressed refrigerant gas discharged to the discharge chamber 20 It is sent to another device forming a cycle through the discharge pipe 13 provided in the discharge chamber 20.

During operation, the rotating scroll 8 is rotated by the rotational force of the crankshaft 6 while the refrigerant gas is compressed to be discharged through the discharge port in the center of the fixed scroll 7 to discharge the gas into the discharge chamber 20. When the discharge gas does not flow into the pipe normally, the pressure of the discharge gas is rapidly increased, and when the pressure exceeds a predetermined pressure, the IP valve 30 operates to bypass the high pressure gas to the low pressure side. In addition, when the gas is not sucked to the suction side, if the low pressure side proceeds to the vacuum state, the vacuum prevention device is activated to bypass the high pressure gas to the low pressure side to prevent the vacuum operation.

As described above, the conventional scroll compressor has a conventional IP valve and a vacuum preventing device that are separately configured, and must be processed to attach them to each other. Also, as a separate assembly, a large amount of time is lost and costs are increased. There was a problem.

The present invention has been devised to solve the above-mentioned problems and defects, and in the scroll compressor, an IP valve which bypasses the high pressure gas to the low pressure side when the discharge pressure increases during operation, and the low pressure side during the vacuum operation. Preventing the increase in the discharge pressure of the scroll compressor by reducing the leakage and the number of parts assembly by integrally constructing a vacuum prevention device that prevents vacuum operation by bypassing the gas on the high pressure side to the low pressure side using the pressure of. It is to provide.

In order to achieve the above object, the discharge pressure increase preventing device according to the present invention is integrally formed by combining an IP valve with a vacuum preventing device in a scroll compressor composed of a rotating scroll and a fixed scroll. And the IP valve is configured in the piston of the vacuum prevention device.

The discharge pressure increase prevention device of the present invention has an IP valve on the piston inside the vacuum prevention device in a structure having a vacuum prevention device so that the low pressure side is not vacuumed by bypassing the high pressure gas during the vacuum operation inside the fixed scroll. It is designed to reduce high and low pressure difference by operating during high pressure operation.

More specifically, the discharge pressure increase preventing device according to the present invention forms a distribution groove in the outer diameter of the piston inserted into the piston chamber of the conventional vacuum preventing device, and the valve chamber having a conical contact surface inside the piston has a distribution groove and an inside. Is formed to penetrate through the valve chamber, and a ball for opening and closing the passage and a spring for elastically supporting the ball are inserted so that the discharge pressure acting on the ball is prevented from being pushed back when the pressure is less than the spring force. When the discharge pressure is equal to or greater than the spring force, the ball is opened so that the discharge gas is bypassed.

When the present invention is described in detail with reference to the accompanying drawings as follows.

2 and 3 are longitudinal cross-sectional view showing the configuration and operation of the discharge pressure increase prevention device of the scroll compressor according to the present invention, Figure 2 is a longitudinal cross-sectional view showing a state in which the discharge pressure increase prevention device is closed, The longitudinal cross-sectional view which shows the state which opened the discharge pressure increase prevention apparatus is shown.

Hereinafter, a description will be given with reference to Figs. 1 and 2 and 3 showing the structure and operation of the apparatus of the present invention. In addition, in the following description, the same code | symbol is attached | subjected about the same and considerable part as the structure mentioned above, and the detailed description is abbreviate | omitted.

1 and 2 and 3 described above, the scroll compressor employing the present invention includes a hermetically sealed container 1 that forms a main body and an upper portion coupled to an inner upper side of the hermetic container 1. Frame 2, the lower frame 3 coupled to the inner lower side of the hermetic container 1, the stator 4 and the rotor 5 provided between the upper frame 2 and the lower frame 3 It is configured to include).

And the center of the rotor (5) is coupled to the crankshaft (6) to rotate together in accordance with the rotation of the rotor (5), the fixed scroll (7) is fixed to the upper frame (2), A pivoting scroll 8 is engaged with the lower portion of the fixed scroll 7 so as to be pivotable, and a central portion of the lower portion of the pivoting scroll 8 is located at an upper side of the crankshaft 6 at a position away from the center of the crankshaft 6. The core part 6a and the slide bush 9 are again combined.

In addition, the lower wall of the swing scroll 8 is coupled to the old dam ring 10 to prevent the rotation of the swing scroll (8). In addition, a separating plate 11 for separating the airtight container 1 is installed at an upper side of the fixed scroll 7, and a discharge chamber 20 in which a high pressure gas remains at an upper portion thereof, and a low pressure portion 21 at a lower side thereof. , A refrigerant suction pipe 12 is installed below the separator plate 11, and a discharge tube 13 through which the refrigerant gas compressed to the upper side where the separator plate 11 is installed is discharged. . The lower portion of the sealed container 1 is filled with oil 22 supplied to the sliding portion inside the scroll compressor.

In the discharge pressure increase prevention device according to the present invention, the piston chamber 51 is formed inside the fixed scroll 7 of the scroll compressor as described above, and the piston 52 is installed, and the piston 52 is elastically supported inward. In a scroll compressor having a vacuum preventing device (50) provided with a spring (53) via a fastening member (54), the distribution hole (7a) of the fixed scroll (7) in the middle outer diameter portion of the piston (52). A valve groove 56 having an inflow hole 56a, an outflow hole 56b, and a conical contact surface 56c is formed on the outer side of the piston 52 so as to form a distribution groove 55 communicating therewith. The ball chamber 57 is elastically provided in the valve chamber 56 via the spring 58. As shown in FIG.

Such a scroll compressor is first powered by the stator 4 and the rotor 5 inside the stator 4 rotates by interaction with the stator 4.

As a result, the crankshaft 6 press-fitted to the center of the rotor 5 rotates, and the turning scroll 8 provided on the upper eccentric portion 6a of the crankshaft 6 by the rotation of the crankshaft 6. ) Is rotated eccentrically by the eccentric distance, the turning scroll (8) is a turning movement at a distance away from the center of the axis by the turning radius by the Oldham ring (10). By the turning motion of the turning scroll 8, a compression chamber is formed between the turning scroll 8 and each wrap of the fixed scroll 7, and the compression chamber is subjected to continuous turning motion. By moving to the center by the volume is reduced to further compress the refrigerant gas sucked into the sealed container (1) through the inlet (7a) of the sealed container (1).

At this time, the extruded refrigerant is again discharged to the discharge chamber 20 through the discharge port formed in the fixed scroll (7) and the discharge hole formed in the separation plate 11, the compressed refrigerant gas discharged to the discharge chamber 20 It is sent to another device forming a cycle through the discharge pipe 13 provided in the discharge chamber 20.

During operation, the rotating scroll 8 is rotated by the rotational force of the crankshaft 6 while the refrigerant gas is compressed and discharged through the discharge port located at the center of the fixed scroll 7. When the discharge pressure acting on the ball 57 is less than the elasticity of the spring 58, it is prevented from being pushed backward, so that the valve chamber 56 is closed by the ball 57, and the discharge pressure acting on the ball 57. When the spring 58 is no longer elastic, the ball 57 is opened to bypass the discharge gas, thereby preventing the discharge pressure from increasing during the operation of the compressor.

As described above, the discharge pressure increase preventing device of the present invention reduces the leakage part by integrally forming the IP valve and the vacuum preventing device, and can reduce the number of parts and reduce the cost of assembly. There is an advantage to that.

1 is a longitudinal sectional view of a conventional scroll compressor.

2 and 3 are longitudinal cross-sectional view showing the configuration and operation of the discharge pressure increase prevention device of the scroll compressor according to the present invention,

Figure 2 is a longitudinal sectional view showing a state in which the discharge pressure increase prevention device is closed.

3 is a longitudinal sectional view showing a state in which the discharge pressure increase preventing device is opened.

<Description of Symbols for Main Parts of Drawings>

7: Fixed scroll 7a: Distribution hole

50: vacuum preventing device 51: piston chamber

52: piston 53: spring

54: fastening member 55: distribution groove

56: valve chamber 56a: inlet hole

56b: outlet hole 56c: conical contact surface

57: ball 58: spring

Claims (3)

In case of vacuum operation inside the fixed scroll of the scroll compressor, the high pressure gas is bypassed so that the low pressure side does not become a vacuum. Discharge pressure increase prevention device of the scroll compressor, characterized in that configured to reduce the pressure difference of the high and low pressure. According to claim 1, wherein the IP valve is formed in the outer groove of the piston inserted into the piston chamber of the vacuum preventing device, the inside of the piston is formed so that the valve groove having a conical contact surface through the distribution groove and the inside. The valve chamber is inserted with a ball for opening and closing a passage, and a spring for elastically supporting the ball is inserted into the valve chamber, and when the discharge pressure acting on the ball is less than the spring force, it is prevented from being pushed backward, and the discharge acting on the ball. When the pressure is greater than the spring force, the ball is opened to discharge gas discharge pressure prevention device of the scroll compressor, characterized in that configured to bypass the discharge gas. 3. The apparatus of claim 2, wherein the valve chamber of the piston is formed at an outer side of the piston such that an inlet hole, an outlet hole, and a conical contact surface are provided.