CN218913086U - Damping support for compressor - Google Patents

Abstract

The utility model discloses a damping support for a compressor, which belongs to the technical field of damping, and comprises a compressor body and a damping mechanism, wherein the damping mechanism comprises: the damping device comprises a supporting frame, a buffering component and a damping component; the compressor body is fixed on the supporting frame through the locating frame and the bolts, and the supporting frame can be driven to vibrate at the inner side of the supporting frame when the compressor body vibrates; the vibration of the support frame can be effectively buffered and absorbed through the buffer component, the stability of the support frame and the compressor body on the support frame is further maintained, the vibration amplitude can be effectively reduced through the damping component, and the stability of the compressor body is conveniently maintained.

Description

Damping support for compressor

Technical Field

The utility model belongs to the technical field of shock absorption, and particularly relates to a shock absorption support for a compressor.

Background

The compressor is driven fluid machinery for lifting low-pressure gas into high-pressure gas, is a heart of a refrigerating system, sucks low-temperature low-pressure refrigerant gas from an air suction pipe, drives a piston to compress the low-temperature low-pressure refrigerant gas through motor operation, and then discharges high-temperature high-pressure refrigerant gas to an exhaust pipe to provide power for refrigerating circulation; when the compressor is used, vibration of the compressor needs to be absorbed, and when the existing compressor is used, vibration of the compressor can be generated, and the vibration of the compressor can be offset.

The damping support of the existing compressor is inconvenient to keep the stability of the compressor during working in the damping process of the compressor, and the compressor is inclined easily in the supporting process of the compressor, so that the working effect of the compressor is affected.

To avoid the above technical problems, it is necessary to provide a shock mount for a compressor to overcome the drawbacks of the prior art.

Disclosure of Invention

The present utility model is directed to a shock mount for a compressor, which solves the above-mentioned problems of the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a shock mount for a compressor comprising a compressor body and a shock absorbing mechanism, the shock absorbing mechanism comprising:

the support frame is connected with the compressor body and used for supporting the compressor body, a support frame is arranged on the outer side of the support frame, the support frame is positioned on the inner side of the support frame, and a positioning frame and a bolt are arranged between the support frame and the compressor body and used for fixing the compressor on the support frame;

a buffer assembly is arranged between the bottom side of the support frame and is used for absorbing vibration generated when the compressor body works; and a damping component is further arranged between the outer side of the support frame and the inner wall of the support frame and used for reducing the vibration amplitude of the support frame on the inner side of the support frame.

As a further technical scheme of the utility model: the cushioning assembly includes:

the fixed block is fixedly arranged at the bottom end of the inner side of the supporting frame, a limiting groove is formed in the fixed frame, a supporting block is arranged at the inner side of the limiting groove, a first elastic piece is arranged between the supporting block and the limiting groove, and a supporting rod is arranged between the supporting block and the supporting frame;

an auxiliary assembly is arranged between the fixed block and the bottom side of the support frame and used for supporting the support frame and buffering vibration of the support frame.

As a further technical scheme of the utility model: the auxiliary assembly includes:

the fixed frame is fixedly arranged at the top end of the fixed block, a positioning rod is fixedly arranged at the inner side of the fixed frame, a movable cylinder is adjusted at the outer side of the positioning rod, second elastic pieces are arranged at two ends of the movable cylinder and are sleeved at the outer side of the positioning rod, and the second elastic pieces are used for adjusting the position of the movable cylinder on the positioning rod; the movable cylinder is fixedly provided with a first hinging seat, the bottom side of the support frame is fixedly provided with a second hinging seat, and a connecting rod is arranged between the first hinging seat and the second hinging seat.

As a further technical scheme of the utility model: the cushioning assembly includes:

the locating plate is fixedly arranged on the outer wall of the support frame and the inner wall of the support frame, the buffer cushion is arranged on the locating plate, the buffer cushion is made of rubber, the cross section of the buffer cushion is semicircular, and the buffer cushion is provided with a plurality of buffer cushions and is uniformly distributed on the locating plate.

As a further technical scheme of the utility model: the shape of the limiting groove and the supporting block is hemispherical, and a plurality of first elastic pieces are uniformly distributed between the inner wall of the limiting groove and the outer wall of the supporting frame.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model provides a damping support for a compressor, wherein a compressor body is fixed on a support frame through a positioning frame and a bolt, and the support frame can be driven to vibrate at the inner side of a support frame when the compressor body vibrates; the vibration of the support frame can be effectively buffered and absorbed through the buffer component, the stability of the support frame and the compressor body on the support frame is further maintained, the vibration amplitude can be effectively reduced through the damping component, and the stability of the compressor body is conveniently maintained.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

FIG. 2 is a schematic view of a buffer assembly according to the present utility model.

Fig. 3 is an enlarged schematic view of the structure of fig. 1 a according to the present utility model.

Fig. 4 is an enlarged schematic view of the structure of fig. 1B according to the present utility model.

In the accompanying drawings: 1-compressor body, 2-support frame, 3-braced frame, 4-locating rack, 5-bolt, 6-buffer module, 61-fixed block, 62-spacing groove, 63-braced block, 64-bracing piece, 65-first elastic piece, 66-auxiliary component, 661-fixed frame, 662-locating lever, 663-movable tube, 664-second elastic piece, 665-first articulated seat, 666-connecting rod, 667-second articulated seat, 7-damping component, 71-locating plate, 72-blotter.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

As shown in fig. 1 to 4, in an embodiment provided by the present utility model, a shock mount for a compressor includes a compressor body 1 and a shock absorbing mechanism including:

the support frame 2 is connected with the compressor body 1 and used for supporting the compressor body 1, a support frame 3 is arranged on the outer side of the support frame 2, the support frame 2 is positioned on the inner side of the support frame 3, and a positioning frame 4 and a bolt 5 are arranged between the support frame 2 and the compressor body 1 and used for fixing the compressor on the support frame 2;

a buffer component 6 is arranged between the bottom side of the support frame 2 and the support frame 3 and is used for absorbing vibration generated when the compressor body 1 works; and a damping component 7 is further arranged between the outer side of the support frame 2 and the inner wall of the support frame 3 and used for reducing the vibration amplitude of the support frame 2 at the inner side of the support frame 3.

In this embodiment, the compressor body 1 is fixed on the support frame 2 through the positioning frame 4 and the bolt 5, and when the compressor body 1 vibrates, the support frame 2 can be driven to vibrate inside the support frame 3; the vibration of the support frame 2 can be effectively buffered and absorbed through the buffer component 6, the stability of the support frame 2 and the compressor body 1 on the support frame 3 is further maintained, the vibration amplitude can be effectively reduced through the damping component 7, and the stability of the compressor body 1 is conveniently maintained; the section of the inner side of the supporting frame 3 is convex, so that the supporting frame 2 can vibrate at the inner side of the supporting frame 3, and damping operation can be conveniently performed.

In one embodiment of the present utility model, referring to fig. 1 and 2, the buffer assembly 6 includes:

the fixed block 61 is fixedly arranged at the bottom end of the inner side of the supporting frame 3, a limiting groove 62 is formed in the fixed frame 661, a supporting block 63 is arranged on the inner side of the limiting groove 62, a first elastic piece 65 is arranged between the supporting block 63 and the limiting groove 62, and a supporting rod 64 is arranged between the supporting block 63 and the supporting frame 2;

an auxiliary assembly 66 is installed between the fixed block 61 and the bottom side of the support frame 2, and is used for supporting the support frame 2 and buffering the vibration of the support frame 2.

The auxiliary assembly 66 includes:

the fixed frame 661 is fixedly arranged at the top end of the fixed block 61, a positioning rod 662 is fixedly arranged at the inner side of the fixed frame 661, a movable cylinder 663 is adjusted at the outer side of the positioning rod 662, second elastic pieces 664 are arranged at two ends of the movable cylinder 663, and the second elastic pieces 664 are sleeved at the outer side of the positioning rod 662 and are used for adjusting the position of the movable cylinder 663 on the positioning rod 662; the movable cylinder 663 is fixedly provided with a first hinge seat 665, the bottom side of the support frame 2 is fixedly provided with a second hinge seat 667, and a connecting rod 666 is arranged between the first hinge seat 665 and the second hinge seat 667.

In this embodiment, the buffer assemblies 6 are provided with a plurality of first elastic members 65 uniformly distributed between the bottom side of the support frame 2 and the support frame 3, so as to support the support frame 2 conveniently, and keep the support frame 2 stable, and the shapes of the limiting grooves 62 and the support blocks 63 are hemispherical, and a plurality of first elastic members 65 are uniformly distributed between the inner walls of the limiting grooves 62 and the outer walls of the support frame 3; the first elastic member 65 is a spring in this embodiment, so as to support the supporting block 63, absorb the vibration of the supporting frame 2 in multiple directions, and keep the supporting frame 2 stable; two groups of auxiliary assemblies 66 are arranged on each fixed block 61, and the two groups of auxiliary assemblies 66 are symmetrically distributed on the fixed blocks 61, so that the support frame 2 is conveniently supported, the support frame 2 is kept in a horizontal shape, and the compressor body 1 is conveniently operated; the second elastic member 664 is a spring in this embodiment, the moving cylinder 663 may slide on the positioning rod 662, and the position of the moving cylinder 663 may be adjusted by the second elastic member 664, so as to conveniently absorb the vibration of the support frame 2, and keep the stability of the support frame 2, and rolling bearings are installed between the two ends of the connecting rod 666 and the first hinge seat 665 and the second hinge seat 667, so that the use is convenient.

In one embodiment of the present utility model, referring to fig. 1 and 4, the damping assembly 7 includes:

the locating plate 71, fixed mounting is in on support frame 2 outer wall and the supporting frame 3 inner wall, install blotter 72 on the locating plate 71, the material of blotter 72 is rubber, and the cross-sectional shape of blotter 72 is semicircle ring-shaped, the blotter 72 is equipped with a plurality ofly and evenly distributed on the locating plate 71.

In this embodiment, evenly distributed has a plurality of blotters 72 on the locating plate 71, the locating plate 71 is all installed on support frame 2 outer wall and carriage 3 inner wall, the blotter 72 contact on two sets of locating plates 71, the cross sectional shape of blotter 72 is the semicircle annular, and the material is rubber, can effectively increase the frictional force between support frame 2 and the carriage 3 inner wall, can effectively reduce the vibrations range of support frame 2 in carriage 3 inboard, effectively improves the shock attenuation effect.

The working principle of the utility model is as follows:

in the utility model, the compressor body 1 is fixed on the support frame 2 through the positioning frame 4 and the bolt 5, then the compressor is started, the compressor body 1 drives the support frame 2 to vibrate, the bottom side of the support frame 2 can compress and stretch the first elastic piece 65 through the support block 63 and the support block 63, the vibration is buffered through the first elastic piece 65, the moving cylinder 663 slides on the positioning rod 662 through the first hinging seat 665, the connecting rod 666 and the second hinging seat 667, and the buffer is performed through the second elastic piece 664, so that the stability of the support frame 2 is realized, the buffer amplitude of the support frame 2 is reduced through the buffer pad 72, the stability of the support frame 2 is further improved, and the shock absorption effect is improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (5)

1. A shock mount for a compressor, comprising a compressor body and a shock absorbing mechanism, wherein the shock absorbing mechanism comprises:

the support frame is connected with the compressor body and used for supporting the compressor body, a support frame is arranged on the outer side of the support frame, the support frame is positioned on the inner side of the support frame, and a positioning frame and a bolt are arranged between the support frame and the compressor body and used for fixing the compressor on the support frame;

a buffer assembly is arranged between the bottom side of the support frame and is used for absorbing vibration generated when the compressor body works; and a damping component is further arranged between the outer side of the support frame and the inner wall of the support frame and used for reducing the vibration amplitude of the support frame on the inner side of the support frame.

2. The shock mount for a compressor of claim 1, wherein the shock absorber assembly comprises:

the fixed block is fixedly arranged at the bottom end of the inner side of the supporting frame, a limiting groove is formed in the fixed block, a supporting block is arranged on the inner side of the limiting groove, a first elastic piece is arranged between the supporting block and the limiting groove, and a supporting rod is arranged between the supporting block and the supporting frame;

an auxiliary assembly is arranged between the fixed block and the bottom side of the support frame and used for supporting the support frame and buffering vibration of the support frame.

3. The shock mount for a compressor of claim 2, wherein the auxiliary assembly comprises:

the fixed frame is fixedly arranged at the top end of the fixed block, a positioning rod is fixedly arranged at the inner side of the fixed frame, a movable cylinder is adjusted at the outer side of the positioning rod, second elastic pieces are arranged at two ends of the movable cylinder and are sleeved at the outer side of the positioning rod, and the second elastic pieces are used for adjusting the position of the movable cylinder on the positioning rod; the movable cylinder is fixedly provided with a first hinging seat, the bottom side of the support frame is fixedly provided with a second hinging seat, and a connecting rod is arranged between the first hinging seat and the second hinging seat.

4. The shock mount for a compressor of claim 1, wherein the shock absorber assembly comprises:

the locating plate is fixedly arranged on the outer wall of the support frame and the inner wall of the support frame, the buffer cushion is arranged on the locating plate, the buffer cushion is made of rubber, the cross section of the buffer cushion is semicircular, and the buffer cushion is provided with a plurality of buffer cushions and is uniformly distributed on the locating plate.

5. The shock mount for a compressor of claim 2, wherein the limiting groove and the supporting block are hemispherical in shape, and a plurality of first elastic members are uniformly distributed between the inner wall of the limiting groove and the outer wall of the supporting frame.

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