KR19980064889U - Hermetic reciprocating compressor - Google Patents

Abstract

The present invention relates to a hermetic reciprocating compressor, and in particular, a fixing groove 28 is formed on both sides of the stator 21 of the electric motor constituting a conventional hermetic reciprocating compressor, and a lower case (corresponding to the fixing groove 28) 11) to the inner surface of the fixing fixture (29) to protrude so that the fixing groove 28 and the fixture (29) can be limited to the left and right flow of the electric motor can be limited to the electric motor generated during the movement of the refrigerating device and It prevents the damage of parts caused by the flow of right and left of the compression mechanism.

Description

Hermetic reciprocating compressor

The present invention relates to a hermetic reciprocating compressor, in particular, by limiting the left and right flow of the electric motor and the compression mechanism built in the case damage of parts due to the left and right flow of the electric motor and the compression mechanism generated during the movement of the refrigeration unit equipped with the compressor It relates to a hermetic reciprocating compressor that can prevent the.

In general, a compressor is a device that raises the pressure and temperature to a saturation pressure corresponding to the condensation temperature so that the low-temperature and low-pressure refrigerant gas evaporated in the evaporator can be easily condensed and liquefied in the condenser. These compressors include a reciprocating compressor that compresses a refrigerant using a reciprocating motion of a piston, a rotary compressor that rotates a compressor in a cylinder and compresses the refrigerant, and converts velocity energy into pressure energy using a centrifugal force of an impeller to compress the refrigerant. Turbo compressors;

Such a compressor is mounted on a refrigerating device to perform a refrigerating operation together with a condenser, an expansion valve, and an evaporator, that is, a function of taking heat around the evaporator by using latent heat of evaporation of the refrigerant. In other words, when the compressor compresses the refrigerant and raises the pressure and temperature of the refrigerant to the saturation pressure, the condenser absorbs the heat of the high-temperature / high-pressure refrigerant using water or air to condense and liquefy the refrigerant. The refrigerant condensed and liquefied thus has a low temperature and pressure due to the throttling action of the expansion valve, and the refrigerant absorbs heat from the object to be cooled while the evaporator evaporates to perform a freezing action.

3 is a plan view showing a general hermetic reciprocating compressor operating as described above, and FIG. 4 is a side sectional view of the hermetic reciprocating compressor shown in FIG. 3 taken along line A-A.

As shown in the figure, the electric motor and the compressor mechanism constituting the compressor 10 are hermetically housed in the case consisting of the upper case 20 and the lower case 11, the electric motor and the compressor mechanism is dustproof And it is supported by a compression spring or a leaf spring for soundproofing, and the frame 24 for coupling the electric motor and the compression mechanism is supported by a support (25) fixed to the inner wall of the case.

On the other hand, the compression mechanism built in the case (20, 11) is composed of a cylinder 13 fixed to the upper portion of the frame 24, and a piston 14 for reciprocating the inside of the cylinder 13, the cylinder The suction and discharge valve assembly 15 for supplying the refrigerant sucked through the suction muffler 12 into the cylinder 13 and supplying the refrigerant compressed in the cylinder 13 to the discharge muffler 16 is provided. It is installed.

The suction and discharge valve assembly 15 is composed of a flapper or lead type thin plate structure which is generally elastic for miniaturization, and the flapper or lead type suction and discharge valve assembly 15 is a piston. It is passively opened and closed by the pressure difference generated by the reciprocating motion of (14) to suck or discharge the refrigerant into / from the cylinder (13).

That is, when the piston 14 moves backward, the low temperature and low pressure refrigerant is sucked into the cylinder 13 from the external evaporator through the suction pipe 18 and the suction muffler 12, and when the piston 14 moves forward, the high temperature High-pressure refrigerant is discharged from the inside of the cylinder 13 to the condenser through the discharge muffler 16 and the discharge pipe 19. In this case, the suction muffler 12 and the discharge muffler 16 charge the refrigerant therein to reduce noise due to pulsation of pressure generated during suction and discharge of the refrigerant.

On the other hand, the electric motor is composed of a stator 21 is fixed to the lower portion of the frame 24, and the rotor 22 rotates with a predetermined gap with the stator 21, the rotor has a frame The rotating shaft 23 is rotatably supported by the 24 and rotates together with the rotor.

In addition, an eccentric shaft 17 is formed at the end of the rotating shaft 23 to protrude upward of the frame 24, and the eccentric shaft 17 is coupled to the piston 14 through the connecting rod 27 and the bearing. have. Therefore, the piston 14 reciprocates by the amount of rotation of the eccentric shaft 17 to compress the refrigerant.

In addition, the lubricant is stored in the lower portion of the case 11 for smooth operation of the compression mechanism and the electric motor, the lubricant is the upper portion along the lubricating oil supply groove 26 formed on the rotating shaft 23 when the rotating shaft 23 rotates. It is sucked into and supplied to each lubrication part.

However, the conventional hermetic reciprocating compressor configured as described above restricts the up and down flow of the electric motor and the compression mechanism through the fixing piece and the upper case installed at the lower part of the frame when the refrigerating device is moved, but the left and right flow is not limited. Therefore, there is a problem that damage to parts may occur due to the left and right flow of the electric motor and the compression mechanism generated during the movement of the refrigeration device.

The present invention is designed to solve the above problems, by restricting the left and right flow of the electric motor and the compression mechanism to be sealed inside the case to the left and right flow of the electric motor and the compression mechanism generated during the movement of the refrigerating device. It is an object of the present invention to provide a hermetic reciprocating compressor which prevents breakage of components which may occur due to contact with the case.

In order to achieve the above object, the present invention, in the conventional hermetic reciprocating compressor, to form the fixing grooves on both sides of the electric motor stator, and to fix the fixture to the inner surface of the lower case corresponding to the fixing groove After that, it is characterized in that the fixing groove and the fixture to be fitted to prevent the left and right flow of the electric motor and the compression mechanism.

1 is a plan view showing a hermetic reciprocating compressor according to the present invention,

2 is a side cross-sectional view of the hermetic reciprocating compressor shown in FIG. 1;

3 is a plan view showing a general hermetic reciprocating compressor,

4 is a side cross-sectional view taken along line A-A of the hermetic reciprocating compressor shown in FIG.

Explanation of symbols for main parts of the drawings

10 compressor 11 lower case

12: suction muffler 13: cylinder

14 piston 15 suction and discharge valve assembly

16 discharge muffler 17 eccentric shaft

18: suction pipe 19: discharge pipe

20: upper case 21: stator

22: rotor 23: rotation axis

24 frame 25 support

26: lubricant supply groove 27: connecting rod

28: fixing groove 29: fixture

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

1 and 2 are views showing a hermetic reciprocating compressor according to the present invention, Figure 1 is a plan view showing a coupling state of the fixing groove is formed on the inner wall of the lower case and the fixing groove formed in the stator of the electric motor, Figure 2 Is a side cross-sectional view of the hermetic reciprocating compressor shown in FIG.

As shown in the figure, fixing grooves 28 are formed on both sides of the stator 21 of the electric motor constituting the conventional hermetic reciprocating compressor. In addition, the inner wall of the lower case 11 corresponding to the fixing groove 28 formed in the stator 21 has a fixture 29 corresponding to the size and shape of the fixing groove 28 so as to be engaged with the fixing groove 28. Is equipped.

In this embodiment, the two sides of the stator 21 are cut out to form a c-shaped fixing groove 28, and the fasteners 29 protruding in the c-shape to correspond to the fixing groove 28 also in the inner wall of the lower case 11. ) Was mounted.

Accordingly, when the electric motor is mounted on the compressor case, the c-shaped fixture 29 which is mounted to protrude to the inner wall of the lower case 11 is engaged with the c-shaped fixing groove 28 formed on both sides of the stator 21. It restricts the flow of motor left and right. In addition, the vertical flow of the electric motor is limited by the support 25 and the upper case 20 for supporting the frame 24 as in the prior art.

When moving the refrigerating device equipped with the compressor configured as described above is limited by the support 25 and the upper case 20 for supporting the frame 24 in the vertical flow of the electric motor and the compression mechanism, As the flow of the electric motor and the compression mechanism is restricted by the fixing groove 28 formed in the stator 21 and the fixture 29 mounted in the lower case 11, the flow of the electric motor and the compression mechanism is reduced. Damage of parts can be prevented.

As described above, according to the present invention, fixing grooves are formed on both side surfaces of the stator of the electric motor embedded in the case of the hermetic reciprocating compressor, and the fixing groove is mounted on the inner wall of the lower case corresponding to the fixing groove to engage the fixing groove. It is possible to prevent the damage of parts due to the left and right flow of the electric motor and the compression mechanism generated during the movement of the refrigeration unit.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention should be defined only by the scope of the attached utility model registration request.

Claims (1)

In a conventional hermetic reciprocating compressor, fixing grooves 28 are formed on both sides of the electric motor stator 21, and the fixture 29 protrudes on the inner surface of the lower case 11 corresponding to the fixing groove 28. After fixing the fixed groove 28 and the fastener 29 is mounted so as to engage the sealed reciprocating compressor, characterized in that to prevent the left and right flow of the electric motor.