KR20020044318A - Vibroisolating device of compressor - Google Patents

Abstract

PURPOSE: A device for isolating vibration of compressor is provided to efficiently and simultaneously reduce vertical vibration and horizontal vibration generated during driving of a compressor. CONSTITUTION: The device(40) includes a body(41); and a plurality of beads(46). The body has a penetrating hole(42) formed on a center thereof in axial direction for a mounting bolt(60) to penetrate and a plurality of grooves(43,44,45) concavely formed on a periphery thereof. The beads are protrusively formed in the grooves. The beads have upper ends connected with tops of the grooves and lower ends connected with bottoms of the grooves.

Description

Vibroisolating device of compressor

The present invention relates to a compressor assembly mounted on an air conditioner and the like, and more particularly, to a compressor assembly having a vibration isolator that elastically supports a compressor from a base plate to reduce operating noise.

In general, a compressor assembly is a device that compresses a refrigerant at high temperature and high pressure in a refrigeration cycle such as an air conditioner in which a compression, condensation, expansion, and evaporation process is performed continuously using a refrigerant as a medium.

The conventional compressor assembly having such a function includes a sealed container in which a drive motor and a compression device are built, and an accumulator for guiding vaporized refrigerant into the sealed container. The accumulator, which consists of a cylindrical casing, communicates with the hermetic container through the refrigerant guide tube, and is installed on the outside of the hermetic container through the holder.

In addition, in order to stably install a rotary compressor equipped with an accumulator, a pedestal is provided under the sealed container. The edge portion of the pedestal is formed with a coupler to which the anti-vibration rubber is fitted. Anti-vibration rubber has through-holes to allow bolts to pass through the center. Therefore, after assembling the dust-proof rubber to each coupling of the pedestal and bolted to the outdoor base plate, such as an air conditioner, the rotary compressor is fixed apart from the base plate.

Accordingly, when power is applied to the rotary compressor assembly, the drive motor and the compression device built in the sealed container operate to compress the refrigerant to suction high temperature and high pressure and discharge the refrigerant into a refrigeration cycle.

At this time, the vibration generated during operation of the drive motor and the compression device is reduced by the anti-vibration rubber, which is made by its own elastic force.

However, since the conventional anti-vibration rubber is manufactured considering only the vertical direction, that is, longitudinal vibration, there is a limit to effectively reducing the rotation vibration and noise generated during the driving of the rotary compressor. That is, the vibration damping rate of the conventional anti-vibration rubber is relatively low while the vibration transfer rate for the vertical motion is low. Accordingly, the vibration caused by the rotational movement becomes a problem, and the set vibration of the air conditioner is increased, and the vibration is transmitted to the outside through the refrigerant pipe, which may cause abnormal noise.

The present invention is to solve this problem, an object of the present invention to improve the structure of the vibration isolator to provide a vibration isolator of the compressor that can effectively reduce the longitudinal vibration and lateral vibration generated at the same time when driving the compressor. .

1 is a perspective view showing a compressor according to the present invention.

Figure 2 is a perspective view showing an extract of the vibration isolator assembly structure according to the present invention.

3 is a cross-sectional view taken along the line III-III of FIG. 2, showing the assembled state of the dustproof apparatus.

FIG. 4 is a cross-sectional view taken along line IV-IV of FIG. 3, showing a combined state of the vibration isolator.

5 is a perspective view showing a dustproof apparatus according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10. Rotating voltage accumulator

30. Support 32. Support hole

40. Dustproof device 41. Body

42..Through hole 43,44,45 ..

46,47..bead 60..mounting bolt

The present invention for achieving this object is;

A compressor assembly provided in a hermetic container of a compressor and bolted to an installation bottom, and a dustproof device disposed to damp vibration between the support and the installation bottom.

The vibration isolator is characterized in that it has a through hole is formed in the axial direction on the center so that the bolt penetrates, the body is provided with a concave groove along the outer circumference, and a plurality of beads provided to protrude in the groove.

In addition, the plurality of beads is characterized in that the upper end is connected to the ceiling in the groove and the lower end is connected to the bottom in the groove.

In addition, the upper portion of the body is provided with a coupling groove is inserted into the support hole formed in the pedestal, the bead is characterized in that the bead is formed spaced apart from the neighboring neighbor in the coupling groove.

In addition, the periphery of the support hole is characterized in that the recessed slot is provided so that the bead is inserted when the body is coupled.

In addition, the groove is made of a multi-stage along the longitudinal direction on the outer periphery of the body,

The bead is characterized in that made in a groove located in the middle portion of the body.

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

As shown in FIG. 1, the rotary compressor assembly to which the present invention is applied includes a rotary compressor 10 having an accumulator 20, a pedestal 30 for holding the rotary compressor 10 to prevent vibration transmission, and dustproofing. Apparatus 40 is provided.

The rotary compressor (10) has a cylindrical shape and includes a sealed container (11) having a refrigerant guide tube (13) and a discharge tube (12) for guiding refrigerant suction and discharge, and the accumulator (20) is a sealed container (11). ) It is attached to the side. The upper part of the sealed container 11 is provided with a discharge tube 12 extending upwards and a terminal 14 for receiving external power. The sealed container 11 generates power by receiving external power. A drive motor (not shown) and a compression device (not shown) that is operated by receiving power thereof are provided.

The accumulator 20 includes a cylindrical casing 21 and is erectly installed on the outside of the sealed container 11 through the holder 22. Therefore, the refrigerant not vaporized in the evaporator (not shown) of the refrigerating cycle is completely vaporized into the accumulator 20, and then flows into the sealed container 11 of the rotary compressor 10 through the refrigerant guide tube 13. Will enter.

On the other hand, the pedestal 30 is for holding and fixing the rotary compressor 10 spaced apart from the base plate 50 (hereinafter referred to as installation bottom surface) such as an air conditioner. The pedestal 30 has a substantially triangular plate shape in the present embodiment, and the lower portion of the sealed container 11 is fixed on the center by welding means. In addition, near each vertex 31 of the pedestal 30, a support hole 32 having a predetermined diameter is provided for installation of the vibration isolator 40, respectively.

In addition, the vibration isolator 40 is located between the pedestal 30 and the installation bottom surface 50 to reduce the vibration generated when the rotary compressor 10 is driven, the detailed structure thereof will be described with reference to FIGS. Is as follows.

First, the vibration isolator 40 is in the form of a band along the outer periphery of the body 41 in order to more effectively reduce the longitudinal vibration of the body 41 and the rotary compressor 10 through which the mounting bolt 60 is coupled through. A plurality of grooves 43, 44 and 45 formed therein, and a plurality of grooves protruded inside the groove 43, are provided with beads 46 for more efficiently reducing the lateral vibration of the rotary compressor.

The body 41 forms the body of the dustproof device 40, and is injection molded with rubber having a predetermined elastic force. In addition, the through-hole 42 is formed in the center of the body 41 in the longitudinal direction so that the mounting bolt 50 penetrates.

The grooves 43, 44 and 45 are formed in multiple stages on the outer circumference of the body 41, so that the body 41 can be stretched in the longitudinal direction, that is, the vertical direction (arrow A in Fig. 3). That is, the plurality of grooves 43, 44, 45 are recessed in a band shape on the outer circumference of the body 41, so that the body 41 can be stretched by a predetermined width in the vertical direction. Therefore, the longitudinal vibration (arrow A direction) generated when driving the rotary compressor is to be reduced while the body 41 is stretched in the vertical direction. These grooves 43, 44, 45 should be configured in the proper number of stages so that the degree of expansion of the body 41 is ideally formed, in this embodiment formed of three stages.

On the other hand, the uppermost position of the grooves 43, 44, 45 of the multi-stage to perform the function of the coupling groove 43 is fitted into the support hole 32 of the pedestal 30, there is a rotary compressor (10) ) A bead 46 is provided to more efficiently reduce the lateral vibration (arrow B direction in FIG. 3) generated during driving.

The bead 46 is formed so that the upper end 46a and the lower end 46b connect the ceiling 43a and the bottom 43b in the coupling groove 43, and a plurality of beads 46 are provided to maintain a predetermined distance from the neighboring ones. In this embodiment, the coupling groove 43 is formed to maintain a 90 degree interval. By the plurality of beads 46, the degree of torsion of the body 41, ie, the transverse direction (arrow B direction), is significantly reduced compared to the prior art, which is preferably configured integrally with the body 41. . As a result, even when transverse vibration is transmitted from the rotary compressor 10, the body 41 is slightly twisted as compared with the related art, thereby reducing it.

In addition, when the bead 46 is provided in the coupling groove 43 to be fitted to the support hole 32 of the pedestal 30 of the groove 43, 44, 45 of the multi-stage, the peripheral portion of the support hole 32 Slot 33 must be formed. That is, the slot 33 is provided around the support hole 32 so that the bead 46 can be inserted in the process of fitting the body 41 to the support hole 32, the slot 33 is bead 46 and It is made of a corresponding shape and they are combined by the uneven coupling method.

Next, the assembly process of the rotary compressor through the vibration isolator configured as described above will be described.

First, after assembling the upper end of the body 41 of the vibration isolator 40 into each of the support holes 32 of the pedestal 30, the through-hole 42 through the mounting bolt 60 pre-assembled to the installation bottom surface (50) Penetrate through). At this time, the bead 46 provided in the coupling groove 43 is located in the slot 33 provided around the support hole 32, as described above, is assembled in a kind of uneven coupling method.

Then, when the nut 61 is tightened to the distal end of the mounting bolt 60, the sealed container 11 is fixed to be spaced apart from the installation bottom surface 50 by the vibration isolator 40, thereby completing the assembly of the rotary compressor 10. do.

Next will be described the operation and effect of the rotary compressor assembly according to the invention configured as described above.

First, as the power is applied and the driving motor (not shown) in the sealed container 11 is driven, the refrigerant having evaporated on the evaporator (not shown) side is sealed through the refrigerant guide tube 13 through the accumulator 20. It flows into the container 11, is continuously compressed to high temperature and high pressure, and is supplied to the refrigeration cycle through the discharge pipe 12 again. At this time, the accumulator 20 prevents the refrigerant in the unsaturated state from directly flowing into the sealed container 11. That is, the refrigerant which has completed the evaporation in the evaporator is guided to the accumulator 20 through the inlet 22, and the liquid refrigerant which has not been vaporized is vaporized inside the casing 21 while being sealed through the refrigerant guide tube 13. Exit to side (11).

Since the rotary compressor 10 that performs this function is spaced apart from the bottom surface 50 through the vibration isolator 40 having elastic force, vibration generated during driving is not transmitted to the outside.

In particular, the rotary compressor 10 generates longitudinal vibrations in which the vibration direction is vertical and lateral vibrations when the driving motor (not shown) is driven, and these are reduced through the body 41 formed of rubber material. .

That is, the longitudinal vibration transmitted from the rotary compressor 10 through the pedestal 30 is removed while the body 41 is stretched in the vertical direction (arrow A in FIG. 3). In addition, transverse vibration is transmitted along with longitudinal vibration. Even when the transverse vibration is transmitted, the upper end of the body 41 is assembled in a concave-convex coupling method through the plurality of beads 46 and the slot 33 as described above. Compared to the prior art, the degree of torsion of the body 41 is greatly reduced, thereby effectively reducing it.

As a result, the overall vibration and noise generated when the rotary compressor 10 is driven are not transmitted to the outside while being reduced through the vibration isolator 40 according to the present invention.

On the other hand, this technical idea has been described in the embodiment as a plurality of beads formed in the coupling groove is coupled to the support hole of the pedestal, but not limited to this, as shown in Figure 5, the body forming the dustproof device 40 ( Even if a plurality of beads 47 are formed in the groove 45 located at the middle portion among the multi-stage grooves 43, 44 and 45 formed on the outer periphery of 41, the desired purpose of the present invention can be achieved. to be.

As described in detail above, according to the vibration isolator of the compressor according to the present invention, a plurality of beads are configured on the outer periphery of the body made of rubber material to limit the degree of twisting, longitudinal vibration and transverse generated when driving the compressor Even when vibrations are transmitted to the body side at the same time, the body reduces them simultaneously without twisting. Accordingly, the noise generated by the compressor is not transmitted to the outside, and as a result, the overall noise of the product equipped with the compressor is reduced, thereby improving the product reliability.

Claims (5)

A compressor assembly provided in a hermetic container of a compressor and bolted to an installation bottom, and a dustproof device disposed to damp vibration between the support and the installation bottom. The dustproof device, A body having a through hole formed in an axial direction on the center thereof so as to penetrate the bolt, and having a concave groove formed along an outer circumference thereof; And a plurality of beads provided to protrude into the grooves. The method of claim 1, The plurality of beads is a dustproof device of the compressor, characterized in that the upper end is connected to the ceiling in the groove and the lower end is connected to the bottom in the groove. The method of claim 1, The upper portion of the body is provided with a coupling groove to be fitted into the support hole formed in the pedestal, The bead isolating apparatus of the compressor, characterized in that formed in the coupling groove spaced apart from the predetermined interval. The method of claim 3, wherein The dustproof device of the compressor, characterized in that the periphery of the support hole is provided with a concave recessed slot so that the bead is inserted when the body is coupled. The method of claim 1, The groove is made of multiple stages along the longitudinal direction on the outer periphery of the body, The bead isolating apparatus of the compressor, characterized in that made in the groove located in the middle portion of the body.