KR20000013429U - Body support structure of hermetic compressor - Google Patents

Abstract

The present invention relates to a main body supporting structure of the hermetic compressor to improve the structure of the support part for supporting the main body in the hermetic compressor to have an excellent buffering effect and to prevent the spring from coming off.

The present invention forms a long head of the stator bolt to form a plurality of uneven grooves on the periphery thereof, the lower side of the stator bolt, the fixing groove to which the head is pressed, and the spring groove to which the upper end of the coil spring is integrally formed plastic It was made by installing the ash structure.

The present invention configured as described above has a structure fixed to the bottom of the stator bolt, and the coil spring is located between the structure and the bottom surface of the lower case, so that the support structure of the main body is firm and there is no fear of leaving during transportation and movement, and the coil spring Also, the flow rate is reduced, and vibration during starting is reduced.

Description

Body support structure of hermetic compressor

The present invention relates to a hermetic compressor installed in a refrigerator or the like to compress and discharge refrigerant gas sucked in.

More specifically, the present invention relates to a main body supporting structure of a hermetic compressor, which is improved in the structure of the support part for supporting the main body of the compressor, which is excellent in the buffering effect of the main body, and suitable for preventing the spring from coming off.

Generally, a compressor is a device that converts mechanical energy into compressive energy of a compressive fluid. The compressor includes a reciprocating compressor, a rotary compressor, and a turbo compressor, and these compressors condense low-pressure refrigerant gas introduced from an evaporator. It will increase the pressure.

1 is a cross-sectional view showing a general hermetic compressor, the hermetic compressor is built in the upper and lower case (10, 20) sealed by welding.

The compressor main body has a frame 30 that acts as a skeleton, a drive unit (or motor unit 40) installed at the lower portion of the frame to rotate the shaft 60, which is a transmission medium, and a linear movement of the shaft rotational motion. It consists of a mechanical unit 50 for compressing and discharging the refrigerant gas sucked by the conversion.

The frame 30 supports the entire driving part and the mechanical part, and is supported by the side stopper 70 and the coil spring 80 which are cushioning and noise preventing means, respectively, on the upper and lower case 10 and 20.

The drive unit 40 is composed of a stator 90 supported by the frame and serving as a stator, and a rotor 100 for rotating the shaft 60.

The mechanical part 50 is connected between the cylinder 110 fixed to the upper end of the frame, the piston 120 inserted into the cylinder, and the crank part 61 of the piston and the shaft 60 to rotate the shaft It consists of a piston rod 130 that converts to a linear motion.

In this compressor, the shaft 60 rotated by the driving unit 40 reciprocates the piston rod 130 of the mechanical unit 50 through the crank unit 61, and the piston rod is a piston 120 in the cylinder 110. ), The refrigerant gas in the cylinder is compressed and discharged by linearly reciprocating, and the refrigerant gas circulates through the refrigerating device to extract heat from the object to be cooled to achieve a desired refrigeration purpose.

In addition, the suction and discharge of the refrigerant gas is made by the suction and discharge valves provided in the valve plate 140, the refrigerant gas is sucked and discharged is guided by the suction or discharge muffler.

During the operation, the coil spring 80 is coalesced between the stator bolt 150 for fastening the driving unit 40 to the frame 30 and the supporter 160 seated on the bottom surface of the lower case 20. To support the body.

The conventional support structure has a washer shape having a larger outer diameter than the head portion 151 of the stator bolt 150 which is penetrated to the frame 30 through the stator 90 of the driving unit 40 as shown in FIG. 2. The frame 152 is integrally formed, and the supporter 160 is seated on the lower case 20 directly below, and the coil spring 80 is installed between the frame and the supporter to support the main body.

By the way, since the structure of the structure and the support structure of the main body and the coil spring 80 is weak, flow occurs, so that the main body is frequently separated from the coil spring when the finished product is transported or attached to the refrigerator. Due to the flexibility of the spring there was a problem that severe vibration occurs during the start of the compressor.

The present invention has been made in order to solve this problem, the technical problem is to improve the structure of the support portion is excellent in the buffer effect, to prevent the departure of the body and the coil spring.

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

Figure 2 is an enlarged front view of the main portion of the conventional structure

Figure 3 is an enlarged cross-sectional view of the main part of the present invention

※ Explanation of code for main part of drawing

10: upper case 20: lower case

30 frame 40 drive unit

50: mechanical part 60: shaft

70: side stopper 80: coil spring

90: stator 100: rotor

150: stator bolt 151: head

152: rim 153: uneven groove

170: structure 171: fixing groove

172: Spring Groove

In order to achieve the above object, the present invention forms a long head portion of the stator bolt to form a plurality of uneven grooves at its periphery, and a fixing groove into which the head is press-fitted to the lower side of the stator bolt, and the upper end of the coil spring is fitted. It is made by installing a structure of plastic material formed with a spring groove integrally.

The present invention configured as described above has a structure fixed to the bottom of the stator bolt, and the coil spring is located between the structure and the bottom surface of the lower case, so that the support structure of the main body is firm and there is no fear of leaving during transportation and movement, and the coil spring Also, the flow rate is reduced, and vibration during starting is reduced.

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

Figure 3 shows an assembly cross-sectional view of the present invention.

As shown in the present invention in the installation of the coil spring 80 between the stator bolt 150 and the lower case 20 is fastened to the frame 30 through the stator 90 of the compressor,

The head 151 of the stator bolt 150 is formed long to form a plurality of uneven grooves 153 integrally at its periphery, and the fixing groove 171 and the coil spring in which the head is press-fitted to the lower side of the stator bolt. The upper end of the 80 is fitted with a spring 170 172 is formed integrally formed structure 170.

The uneven groove 153 formed in the head 151 of the stator bolt 150 is formed in the axial direction.

The structure 170 is formed of a plastic material integrally formed with a fixing groove 171 into which the head 153 is press-fitted on the upper end thereof, and a spring groove 172 into which the upper end of the coil spring 80 is inserted. It is formed integrally.

Therefore, the structure 170 is positioned between the stator bolt 150 and the lower case 20.

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

First, during assembly, the head 151 of the stator bolt 150 is press-fitted into the fixing groove 171 of the prestick structure 170.

Then, the upper end of the coil spring 80 is inserted into the spring groove 172 of the structure 170, and the lower end of the spring is seated on the bottom surface of the lower case 20.

In the present invention assembled as described above, the plastic structure 170 is firmly fixed to the stator bolt 150, and the upper end of the coil spring is inserted into the lower end of the structure.

Therefore, the flow of the coil spring 80 is small, and the mounting state of the coil spring and the stator bolt 150 is firm, so that the main body and the coil spring are not separated even when the finished product is transported or attached to the refrigerator and moved. Since the flow of the spring is small, vibration does not occur at the start of the compressor.

As described above, the present invention forms a long head portion of the stator bolt that fastens the driving unit of the hermetic compressor to form a plurality of uneven grooves on the periphery thereof, and the lower side of the stator bolt of the fixed groove and the coil spring It is to install the structure of the plastic material formed integrally with the spring groove to which the top is fitted.

As such, the present invention has a structure fixed to the bottom of the stator bolt, the coil spring is located between the structure and the bottom surface of the lower case, so that the support structure of the main body is firm and there is no fear of leaving during transportation and movement. Reduced flow has the effect of reducing the vibration at the start.

Therefore, the vibration of the compressor and the resulting noise reduction effect is great, and the separation of the main body and the spring is prevented to contribute to the improvement of the reliability of the product.

Claims (2)

In installing the coil spring 80 between the stator bolt 150 and the lower case 20 which are penetrated to the frame 30 through the stator 90 of the hermetic compressor, The head 151 of the stator bolt 150 is formed long to form a plurality of uneven grooves 153 integrally at its periphery, and the fixing groove 171 and the coil spring in which the head is press-fitted to the lower side of the stator bolt. The main body supporting structure of the hermetic compressor, characterized in that by installing the structure 170 is formed integrally with the spring groove 172 is fitted to the top of the 80. The main body supporting structure of the hermetic compressor of claim 1, wherein the uneven groove (153) of the stator bolt (150) is formed in an axial direction.