KR200215284Y1 - Vane for sealed type rotary compressor - Google Patents

Abstract

The present invention relates to the vane of the hermetic rotary compressor, and the conventional hermetic rotary compressor reduces the volume efficiency due to the wear caused by the friction between the cylinder slot and the vane formed on one side of the cylinder during operation and the compressed gas leaks through the wear part. In this case, HFC or HC refrigerants, which replace HCFC refrigerants, have a higher density than HCFC refrigerants, resulting in more than 1.5 times the effects of leakage caused by cylinder slot wear on the cylinders. There are many problems such as deterioration of the performance bar, the present invention is inserted into the cylinder slot formed on one side of the cylinder is a linear reciprocating motion and is elastically supported by the spring one end is in contact with the rolling piston In the vane of the hermetic rotary compressor to be installed, the vane body of the vane As the concave groove is formed in the center of the side end portion, and both sides of the concave groove are formed on both sides of the vane, when the compressive force is applied to the side of the vane, the vane is elastically deformed to reduce the frictional force between the cylinder slot and the vane. The vane itself reduces the frictional force generated by the vane's own structure to minimize the wear of the cylinder slot, thereby preventing the volume efficiency caused by the leakage of the compressed gas, thereby improving the compressor performance. Will be.

Description

Vane of hermetic rotary compressor {VANE FOR SEALED TYPE ROTARY COMPRESSOR}

The present invention relates to a vane of a hermetic rotary compressor. More specifically, the vane having a linear reciprocating motion inserted into a cylinder slot of a cylinder installed in a hermetic rotary compressor efficiently generates friction force between the vane and the cylinder slot. To reduce it.

In general, a conventional hermetic rotary compressor is a power mechanism composed of a stator 10, a rotor 11, and the like inside an airtight container 9 having a predetermined internal volume, as shown in Figs. And a crank shaft 13, which is press-fitted into the inner diameter of the rotor 11 and has an eccentric portion 12 formed at the lower portion thereof, and an eccentric portion 12 of the crank shaft 13 inserted therein. A cylinder P, which is formed by a space P, is formed and enclosed by the eccentric portion 12 and coupled to the crankshaft 13 by the main bearing 14 and the sub bearing 15 and the bolt 16. A rolling piston 4 which is inserted into the eccentric portion 12 of the crankshaft 13 and rotates and rotates while contacting the inner peripheral surface of the compression space P of the cylinder 1, and a straight line on one side of the cylinder 1. It is movably inserted and sucks the compression space P of the cylinder 1 while slidingly contacting the outer circumferential surface of the rolling piston 4. The compression mechanism part comprised including the vane 5a which isolate | separates into the entrance chamber 17 and the compression chamber 18 is provided.

In addition, a discharge port 19 for discharging the compressed refrigerant gas is formed at one side of the cylinder 1 constituting the compression chamber by the vane 5a, and the discharge port 19 is provided at one side of the main bearing 14. Is formed in communication with the discharge hole 20, the upper portion of the main bearing 14 is coupled to the suction muffler 21 for reducing the discharge pulsation generated during operation.

In addition, a suction port 22 through which refrigerant gas flows into the cylinder 1 is formed in the suction chamber 17 of the cylinder 1, and the suction port 22 is provided at the side of the sealed container 9. It is connected by the accumulator 23 and the refrigerant inlet pipe 24.

In addition, a vane 5a formed to have a predetermined thickness and an area is inserted into the cylinder slot 2 formed at one side of the cylinder 1 so as to be located at the side of the discharge port 19, and the vane 5a is a spring. (3) is elastically supported so that one end of the vane (5a) is installed in contact with the rolling piston (4), the bottom surface in the sealed container (9) is supplied with oil supplied to the sliding parts Filled, the upper part of the sealed container (9) is provided with a discharge pipe 25 for discharging the refrigerant gas compressed in the sealed container (9) to the outside.

Accordingly, when the crankshaft 13 is rotated while the rotor 11 rotates by the current applied by the hermetic rotary compressor, the crankshaft 13 rotates to the eccentric portion 12 of the crankshaft 13. When the rolling piston 4 engaged is in contact with the vanes 5a, the rolling piston 4 is eccentrically rotated in the compression space P of the cylinder 1, and the cylinder 1 is rotated by the eccentric rotation of the rolling piston 4. By changing the volume of the formed compression space (P), the low-temperature and low-pressure refrigerant gas is sucked into the cylinder (1) through the refrigerant inlet tube (24) and the suction port (22) installed in communication with the accumulator (23) Compressed to a state.

At the same time, the compressed high-temperature and high-pressure refrigerant gas is discharged to the outside of the cylinder 1 through the discharge port 19 of the cylinder 1, the discharge hole 20 of the main bearing 14, and the suction muffler, thereby stator ( The cycle of moving to the upper portion of the sealed container 9 between the rotor 10 and the rotor 11 and discharging to the outside of the sealed container 9 through the discharge tube 25 is repeated.

However, in the conventional hermetic rotary compressor, wear occurs due to friction between the cylinder slot 2 and the vane 5a formed at one side of the cylinder 1 during operation, and thus the compressed gas leaks through the wear part, thereby improving volumetric efficiency. This reduces the performance of the compressor, and in particular, HFC-based or HC-based refrigerants, which replace HCFC-based refrigerants, have a higher density than HCFC-based refrigerants. There have been many problems such as the occurrence of more than 1.5 times to reduce the performance of the compressor.

Accordingly, the present invention is to solve the above-mentioned problems, the frictional force between the vane and the cylinder slot is inserted into the cylinder slot of the cylinder installed in the hermetic rotary compressor and the cylinder slot efficiently reduced by the structure of the vane itself It is an object of the present invention to provide a vane of a hermetic rotary compressor that can minimize the wear of the cylinder slot, thereby preventing the volume efficiency due to the leakage of compressed gas to be reduced, thereby improving the performance of the compressor.

1 is a longitudinal sectional view showing a conventional hermetic rotary compressor.

2 is a cross-sectional view of FIG. 1

3 is a plan view schematically showing a state in which a conventional vane is installed

4 is a perspective view showing a conventional vane

5 is a plan view schematically showing a state in which the present invention is installed

6 is a perspective view showing the present invention

7 is a plan view showing the operating state of the subject innovation

Explanation of symbols on the main parts of the drawings

One; Cylinder 2; Cylinder slot

3; Spring 4; Rolling piston

5; Vane 6; Cut body

7; Recessed groove 8; Elastic piece

In order to achieve the above object, the present invention is a hermetic rotary compressor which is inserted into a cylinder slot formed on one side of a cylinder and linearly reciprocates and is elastically supported by a spring so that one end thereof is in contact with a rolling piston. In the vane, the groove is formed in the center of the other end of the vane body of the vane, and when the compressive force acts on the side of the vane on both sides of the recess groove, the vane is elastically deformed to create a friction force between the cylinder slot and the vane It is achieved by providing a vane of a hermetic rotary compressor, characterized in that the elastic piece for reducing is formed integrally.

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

5 is a plan view schematically showing a state in which the present invention is installed, FIG. 6 is a perspective view showing the present invention, and FIG. 7 is a plan view showing an operating state of the present invention, and the same reference numerals are assigned to the same parts as the prior art. This invention will be described.

The present invention is inserted into the cylinder slot (2) formed on one side of the cylinder (1) installed in the hermetic rotary compressor to perform a linear reciprocating motion and is elastically supported by the spring (3) one end of the rolling piston (4) Indentation groove 7 is formed in the center of the other end of the vane body 6 of the vane 5 installed in contact with the state, and compressive force ( When the F) acts, the vanes 5 elastically deform so that the elastic pieces 8 for reducing the frictional force between the cylinder slots 2 and the vanes 5 are integrally formed.

5 to 7, the present invention configured as described above, is inserted into the cylinder slot (2) formed on one side of the cylinder (1) installed in the hermetic rotary compressor to perform a linear reciprocating spring (3) And a recess 7 is formed in the center of the other end of the vane body 6 of the vane 5, which is elastically supported by the vane 5 and is installed in contact with the rolling piston 4. Compression space P of the cylinder 1 in a state in which the rolling piston 4 is in contact with the vanes 5 as the compressor is driven while the elastic pieces 8 are integrally formed at both sides of the center. Eccentric rotation at

At this time, when the compressive force (F) is applied to the side of the vane 5 as shown in Figure 5, as shown in the solid line of Figure 7 is a linear reciprocating motion in the inclined state of the vane (5) and The friction force is generated between the vanes 5, and the elastic pieces 8 integrally formed on both sides of the vane body 6 formed at the other end of the vane body 6 of the vanes 5 are elastic at the same time. Since the deformation (R1, R2) can be induced to make a linear reciprocating motion in the normal state as shown in the imaginary line of Figure 7, the friction force between the cylinder slot (2) and the vanes (5) can be reduced to minimize wear It is possible to improve the performance of the compressor by preventing the leakage of gas to prevent the decrease in volume efficiency due to leakage.

On the other hand, the lower end of the recessed groove 7 formed in the other end of the vane body 6 of the vane 5 when the vane 5 is lowered to the bottom dead center to the maximum limit, the cylinder slot 2 of the cylinder 1 This is because the lower end of the concave groove (7) exits the cylinder slot (2), the compressed gas leakage occurs to the lower side of the concave groove (7) because the volume efficiency is reduced, thereby reducing the efficiency.

As described above, the present invention is effectively inserted into the cylinder slot of the cylinder installed in the hermetic rotary compressor to reduce the frictional force between the vane and the cylinder slot to linearly reciprocate by the structure of the vane itself to wear the cylinder slot It is possible to minimize the efficiency of the compressor by preventing the reduction of the volume efficiency caused by the leakage of the compressed gas can be improved, in particular, hermetic rotary compressor applying HFC type or HC type, which is a refrigerant to replace the existing HCFC type refrigerant As the density increases more than HCFC refrigerants, the performance difference due to volumetric efficiency is dominant. Therefore, the reduction of leakage of compressed gas due to the prevention of vane wear improves the volumetric efficiency and improves the efficiency of about 2 ~ 3% compared to the existing compressor. It is a very useful design with many advantages.

Although the above has shown and described a preferred embodiment of the present invention, the present invention is not limited to the above embodiments, it is usually in the technical field to which the subject innovation belongs without departing from the gist of the subject innovation claimed in the claims below. Anyone with knowledge of the world will be able to make various changes.

Claims (1)

In the vane of the hermetic rotary compressor, which is inserted into a cylinder slot formed at one side of the cylinder and linearly reciprocates and is elastically supported by a spring and is installed with one end in contact with a rolling piston, the vane body of the vane. Concave grooves are formed in the center of the other end, and both sides of the concave groove are formed integrally with an elastic piece for reducing the frictional force between the cylinder slot and the vane by causing the vane to elastically deform when a compressive force is applied to the side of the vane. The vane of the hermetic rotary compressor, characterized in that.