KR200165733Y1 - Suspension spring fixing device of a compressor - Google Patents

Abstract

The present invention relates to a suspension gas spring to attenuate the vibration generated during operation of the compressor, and relates to a suspension structure of the suspension gas spring of the compressor to simplify the fixing operation of the suspension gas spring and reduce the manufacturing cost.

The present invention is fixed between the cylinder block and the snubber welded to the lower container is fixed in the suspension gas spring to absorb the vibration transmitted through the cylinder block,

It characterized in that the groove formed on the bottom surface of the cylinder block is inserted into the upper end portion of the current gas spring.

In the present invention configured as described above, the suspension gas spring is fixed by inserting the suspension gas spring into the snubber when the suspension gas spring is installed, and then fixing the suspension gas spring by mounting the cylinder block in a state where the groove of the suspension gas and the cylinder block are aligned. In order to eliminate the work of manufacturing a separate fixing means integrally with the cylinder block.

Description

Suspension spring structure of compressor

The present invention relates to a compressor, and more particularly, the suspension of the compressor to simplify the fixing structure of the suspension gas spring to reduce the vibration generated during the reciprocating motion of the piston, and to reduce the manufacturing cost by reducing the material It relates to a spring fixing structure.

As shown in FIG. 1, a general hermetic compressor includes an electric mechanism part 5 including a stator 3 and a rotor 4 in upper and lower containers 1 and 2, and the rotor 4. By the rotational operation of the crankshaft 6 press-fitted fixed in the center of the refrigerant may be divided into a compression mechanism (7) for sucking and compressing.

The compression mechanism (7) is coupled to the cylinder block (9) formed integrally with the cylinder (8) forming the suction space of the refrigerant, and the lower end of the crank shaft (6) to perform a linear reciprocating motion inside the cylinder (8). A piston 10, a cylinder head 11 which is fixed to the end of the cylinder 8, and is interposed between the cylinder 8 and the cylinder head 11 so that the refrigerant is introduced into the cylinder 8. The valve device 12 etc. which suck in and discharge a compressed refrigerant are included.

In addition, a muffler 13 having a predetermined shape is erected and fixed to the upper part of the cylinder head 11 so as to be in close contact with the stator 3, and the muffler 13 has a suction pipe installed through the lower container 2. (14) is fixed.

The general hermetic compressor as described above includes a suction process in which refrigerant sucked through the suction pipe 14 passes through the muffler 13 and passes through the cylinder head 11 and the valve device 12 and then flows into the cylinder 8. In addition, the compression process in which the suction refrigerant is compressed by the linear reciprocating motion of the piston 10 according to the rotation of the crankshaft 6, and the refrigerant compressed in the cylinder 8 is again performed by the valve device 12 and the cylinder head. Through 11, the discharging process discharged to the outside along the discharging path is repeated.

Reference numeral 20 in the figure shows a current gas spring.

Meanwhile, since the piston 10 linearly reciprocates at a high speed to perform suction, compression, and discharge operations of the refrigerant, severe vibration is generated, and the vibration is transmitted to the peripheral device or the outside through the cylinder block 9. In the case of the compressor inoperable or severe noise is generated, the reliability of the product and makes the user feel uncomfortable.

In order to solve such a problem, as shown in FIG. 2, the compressor is provided with a suspension gas spring 20 as a vibration damping means, and the fixing method of the suspension gas spring 20 is as follows.

A boss 9a is formed to protrude from the corner of the bottom of the cylinder block 9, and a nonmetallic snubber 30 is welded to the bottom of the compressor lower container 2 at a position corresponding to the boss 9a. Combination is to insert the current gas spring 20 between the boss (9a) and snubber (30).

In the action of the suspension gas spring 20, when the power is applied to the compressor, the piston 10 is a linear reciprocating motion, at this time, a severe vibration occurs in the cylinder block 9 by the movement of the piston 10 do.

This vibration is transmitted to the current gas spring 20 through the boss 9a.

The current gas spring 20 is absorbed and attenuated by the vibration transmitted by its elasticity while being supported by the snubber 30, which is a nonmetal.

However, according to the conventional compressor as described above, the boss (9a) formed in the cylinder block (9) for the installation of the current gas spring 20 is formed integrally with the cylinder block (9) through the die processing, the boss There was a problem that cracks occurred at the connection part of (9a).

In addition, there is a problem that the casting for the molding of the boss (9a) is required, the cost accordingly increases.

The present invention has been made to solve the above problems, in fixing the suspension gas spring provided in the cylinder block to absorb the vibration generated during the operation of the piston, from the outside in a separate fixing means for fixing the suspension gas spring The purpose is to improve the durability of the product by preventing damage even if an impact is applied.

In addition, another object of the present invention is to provide a fixed structure of the current gas spring of the compressor to reduce the cost by reducing the amount of casting required in the mold manufacturing of the cylinder block.

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

Figure 2 is an enlarged cross-sectional view of the portion A of Figure 1 showing a conventional suspension spring spring fixed structure.

3 is a cross-sectional view showing an embodiment according to the present invention.

<Description of the code | symbol about the principal part of drawing>

9: cylinder block 9b: groove

20: current gas spring 30: snubber

31: support jaw

The present invention for achieving the above object is fixed between the cylinder block and the snubber welded to the lower container is fixed to the suspension gas spring to absorb the vibration transmitted through the cylinder block,

It characterized in that the groove formed on the bottom surface of the cylinder block is inserted into the upper end portion of the current gas spring.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the present invention forms a circular groove 9b at the bottom edge of the cylinder block 9, and at the bottom surface of the compressor lower container 2 at a position corresponding to the groove 9b. Non-metallic snubbers 30 are welded to each other, and between the grooves 9b and the snubbers 30, the string gas springs 20 are respectively fixed to each other.

The groove 9b has a predetermined depth so that the upper portion of the suspension gas spring 20 is fitted.

Snubber 30 is made of a cylindrical shape and protrudes the support jaw 31 for supporting the current gas spring 20 on the outer peripheral portion of a predetermined height.

Referring to the operation by the present invention configured as described above are as follows.

First, each of the snubbers 30 is welded to the bottom surface of the compressor lower container 2.

Subsequently, the current gas spring 20 is forcibly pressed into each snubber 30.

In this state, the cylinder block 9 is seated in a state where the groove 9b formed on the bottom surface of the cylinder block 9 and the current gas spring 20 are aligned with each other.

When power is applied to the compressor in the state where the current gas spring 20 is installed as described above, the piston (not shown) inside the cylinder block 9 performs linear reciprocating motion at a high speed. In this case, the cylinder block 9 has a piston The vibration by the movement of the is transmitted.

The vibration transmitted to the cylinder block 9 is transmitted to the suspension gas spring 20, the vibration transmitted to the suspension gas spring 20 is absorbed and dispersed by the elasticity of the suspension gas spring 20.

The snubber 30 supports the suspension gas spring 20 and absorbs and disperses vibrations that are not absorbed by the suspension gas spring 20.

Therefore, in order to fix the suspension gas spring 20 between the cylinder block 9 and the compressor lower container 2 to absorb the vibration generated during the linear reciprocating motion of the piston by the present invention, the suspension gas spring 20 Part of the inside of the cylinder block 9 is inserted and fixed so that the boss formed integrally with the cylinder block for fixing the current gas spring is removed as in the prior art.

In addition, the fixing means for fixing the current gas spring 20 is formed inside the cylinder block 9 without protruding from the outside of the cylinder block as in the prior art, so that damage such as cracks does not occur even if an impact is applied from the outside. .

As described above, the fixing means for fixing the current gas spring is formed inside the cylinder block by the present invention, so that it is not affected by the impact from the outside, thereby improving durability of the product.

In addition, since the casting required to form the conventional boss is reduced, the cost can be reduced as much.

Claims (1)

In fixing the suspension gas spring is installed between the cylinder block and the snubber welded to the compressor lower container, absorbing the vibration transmitted through the cylinder block, Suspension spring suspension structure of the compressor, characterized in that the groove formed on the bottom surface of the cylinder block is inserted into the top portion of the suspension gas spring.