CN219197579U - Damping type supporting mechanism for compressor and compression equipment - Google Patents

Abstract

The utility model relates to the technical field of compressor damping, in particular to a damping supporting mechanism for a compressor and compression equipment, wherein the damping supporting mechanism for the compressor comprises a supporting component, a damping component and a fixing component; the fixing assembly comprises a fixing plate, and a fixing stud is arranged on the fixing plate; the support assembly is used for supporting the compressor and comprises a support plate, and a through hole used for penetrating through the fixing stud is formed in the support plate; the damping component is arranged on the fixed stud in a penetrating way and is arranged between the fixed plate and the supporting plate. The damping type supporting mechanism integrates the supporting component, the damping component and the fixing component into a whole through the fixed stud, and is detachably assembled, namely, the damping type supporting mechanism not only can integrate the supporting component, the damping component and the air path component, but also is convenient to detach and assemble, and improves the applicability and the practicability of the compressor.

Description

Damping type supporting mechanism for compressor and compression equipment

Technical Field

The utility model relates to the technical field of compressor damping, in particular to a damping type supporting mechanism for a compressor and compression equipment.

Background

The compressor is widely used in every field of industrial production as a general machine for converting electric energy into compressed air energy with a certain pressure, and is used for controlling instruments, controlling valves, driving gas tools, driving cylinders, purging, oxygen production and the like.

The mechanical characteristics of the compressor in the use process can enable the compressor to generate periodic shaking, noise is large, and the use experience of a user is affected. In order to ensure the stability and reliability of the compressor during use, a damping structure is generally installed in a matched manner, for example, the elasticity of a damping spring is used for absorbing vibration and partial noise, so that the purposes of damping and noise reduction are achieved. The structure and the position of the supporting part, the damping part and the air path part of the existing compressor are relatively independent. And the compressor shock attenuation connecting portion adopts circular hole more, and not only the position is comparatively fixed and is difficult to adjust as required when its installation, is difficult for dismantling, change, maintenance and the installation of compressor part, and reliability, suitability and practicality are restricted.

Disclosure of Invention

The utility model aims to provide a damping type supporting mechanism for a compressor, which not only can integrate supporting components, damping components and air path components, but also is convenient to disassemble and assemble.

In addition, the utility model also provides compression equipment comprising the vibration type supporting component.

The utility model is realized by the following technical scheme:

a damping type supporting mechanism for a compressor comprises a supporting component, a damping component and a fixing component;

the fixing assembly comprises a fixing plate, and a fixing stud is arranged on the fixing plate;

the support assembly is used for supporting the compressor and comprises a support plate, and a through hole used for penetrating through the fixing stud is formed in the support plate;

the damping component is arranged on the fixed stud in a penetrating way and is arranged between the fixed plate and the supporting plate.

The damping type supporting mechanism integrates the supporting component, the damping component and the fixing component into a whole through the fixed stud, and is detachably assembled, namely, the damping type supporting mechanism not only can integrate the supporting component, the damping component and the air path component, but also is convenient to detach and assemble, and improves the applicability and the practicability of the compressor.

Further, be provided with spacing pad in the through-hole, damping module, spacing pad are passed in proper order at fixed double-screw bolt top, set up the screw in the spacing pad, the screw is used for spacing the upward displacement of fixed double-screw bolt, spacing pad can adopt the rubber pad, for annular structure for spacing to supporting component, avoid at vibrations in-process, supporting component drops in fixed double-screw bolt, and the rubber pad has elasticity, has certain cushioning effect, when spacing to supporting component, can avoid the rigidity spacing, do benefit to the restoring effect of protection supporting component and improvement damping module.

Further, the damping component comprises a damping spring and a rubber sleeve;

the two ends of the damping spring are respectively sleeved on the two rubber sleeves, the rubber sleeves are boss structures with central through holes, the damping spring is convenient to sleeve, the rubber sleeves have certain elasticity, the damping spring has a damping effect, and the damping spring and the rubber sleeves can be conveniently assembled.

Further, a first fixing hole is formed in the supporting plate and is used for being detachably connected with the compressor.

Further, a mounting assembly is arranged on the fixed plate, and the fixed plate is connected with the ground or the fixed equipment through the mounting assembly;

the mounting assembly comprises a first mounting hinge, a pin and a second mounting hinge, wherein the first mounting hinge is fixed on the fixed plate, the second mounting hinge is connected with the first mounting hinge through the pin, mounting holes are formed in the second mounting hinge, and fixing nuts are arranged at two ends of the pin.

Further, a first air passage through hole is formed in the fixing plate; the air channel assembly is also included;

the air passage component comprises an air passage pipeline and an air passage seat; the two air channel pipelines are arranged, two ends of one air channel pipeline are respectively connected with the air supply end of the air channel seat and the air inlet of the compressor, and two ends of the other air channel pipeline are respectively connected with the air outlet end of the air channel seat and the air outlet of the compressor; the gas circuit seat is provided with a second gas circuit through hole for communicating the gas circuit pipeline and the first gas circuit through hole, and the gas circuit seat is arranged on the fixed plate.

Further, a second fixing hole is formed in the air passage seat, and the air passage seat is connected with the fixing plate through cooperation of the second fixing hole and the fastener.

Further, two ends of the air passage pipeline are respectively provided with a first air pipe joint and a second air pipe joint, and the first air pipe joint and the second air pipe joint are respectively used for being detachably connected with the compressor and the air passage seat.

Further, a first through groove is formed in the fixing plate, and the fixing stud is arranged outside the first through groove; the support plate is provided with a second through groove, and the through hole is arranged outside the second through groove.

Through set up first logical groove and second logical groove respectively on the fixed plate and in the backup pad, do benefit to the weight that lightens fixed plate and backup pad.

The compression equipment comprises the damping type supporting mechanism and further comprises a compressor, wherein the compressor is arranged on a supporting plate of the supporting component.

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

1. the utility model integrates the compressor body, the supporting component, the damping component, the fixing component and the air circuit component into a whole, thereby improving the applicability and practicability of the compressor.

2. According to the utility model, the two ends of the damping spring are respectively sleeved on the rubber sleeve, so that the primary buffer of the compressor and the supporting component is realized, the secondary buffer of the supporting component and the damping spring is realized, and the tertiary buffer of the damping spring and the fixing component is realized, so that the bearing capacity and the impact resistance of the compressor are improved.

3. After the fixed stud sequentially passes through the rubber sleeve of the shock absorption component, the shock absorption spring and the first circular through hole of the supporting component, the top end of the fixed stud passes through a rubber pad, the rubber pad is locked on the stud by using a screw (the limit pad is arranged in the through hole, and then the top position of the fixed stud is respectively provided with a fixing screw for preventing the stud from jumping out when the compressor reciprocates), so that when the compressor periodically shakes, the compressor body, the supporting component and the shock absorption component reciprocate on the fixed stud to generate the shock absorption and noise reduction effects of the compressor, and the reliability of the compressor is improved.

4. The mounting hinges are arranged on two sides of the fixing assembly and are integrally designed with the fixing assembly, and the axes (pins) of the hinges can be pulled out, so that the mounting hinges are easy to detach, the quick replacement and fixation of the compressor are realized, and the mounting and maintenance cost is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model. In the drawings:

FIG. 1 is a schematic view of the overall structure of a compression apparatus of the present utility model;

fig. 2 is an exploded view of the compression apparatus of the present utility model.

In the drawings, the reference numerals and corresponding part names:

1-compressor, 2-support assembly, 3-shock-absorbing assembly; 4-fixing components and 5-air path components;

21-a first fixing hole, 22-a fixing through hole;

31-damping springs, 32-rubber sleeves;

41-fixing studs, 411-limiting pads, 412-screws, 42-first mounting hinges, 421-pins, 422-second mounting hinges, 423-fixing nuts, 43-first air passage through holes;

51-gas circuit pipeline, 52-first gas pipe joint, 53-second fixed orifices, 54-second gas pipe joint, 55-gas circuit seat, 56-second gas circuit through-hole.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present utility model, the present utility model will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present utility model and the descriptions thereof are for illustrating the present utility model only and are not to be construed as limiting the present utility model.

Example 1:

as shown in fig. 1 and 2, a damping support mechanism for a compressor comprises a support assembly 2, a damping assembly 3 and a fixing assembly 4;

the fixing assembly 4 comprises a fixing plate, and a fixing stud 41 is arranged on the fixing plate;

the support assembly 2 is used for supporting the compressor 1, and the support assembly 2 comprises a support plate, wherein a through hole 22 for passing through a fixing stud 41 is arranged on the support plate; one specific way of fixing the compressor 1 is by the support plate: be provided with first fixed orifices 21 in the backup pad, first fixed orifices 21 are used for passing through screw connection with compressor 1, and the number and the position of first fixed orifices 21 set up according to the mounting hole number and the position of compressor 1, and if first fixed orifices 21 set up to four, and are located the both sides of fixed plate respectively, use four screws to pass through first fixed orifices 21 to fix compressor 1 on supporting component 2.

The shock absorbing assembly 3 is arranged on the fixing stud 41 in a penetrating way and is arranged between the fixing plate and the supporting plate.

The supporting component 2, the damping component 3 and the fixing component 4 of the damping supporting mechanism of the embodiment form the supporting mechanism, wherein the damping component 3 plays a role in damping, the fixing component 4 is used for supporting and fixing the supporting component 2 and the damping component 3, and can be used for being installed on the ground or other fixing equipment, the supporting component 2 is used for being connected with a compressor, and the supporting component 2, the damping component 3 and the fixing component 4 of the damping supporting mechanism improve the applicability and the practicability of the compressor.

In this embodiment, the fixing plate is further provided with a first air passage hole 43; the device also comprises a gas circuit assembly 5; the air circuit assembly 5 is used for supplying air to the compressor 1.

The air circuit assembly 5 comprises an air circuit pipeline 51 and an air circuit seat 55; the air channel pipe 51 is provided with two air channel pipes, two ends of one air channel pipe 51 are respectively connected with an air supply end of the air channel seat 55 and an air inlet of the compressor 1, two ends of the other air channel pipe 51 are respectively connected with an air outlet end of the air channel seat 55 and an air outlet of the compressor 1 (the compressor 1 is provided with an air inlet port and an air outlet port corresponding to the air inlet port and the air outlet port on the air channel seat 55. One port of the air channel seat 55 is an air inlet end and is used for supplying air to the compressor 1, the other port is an air outlet end and is used for discharging compressed air produced by the compressor 1 to the air supply end), the air channel seat 55 is provided with a second air channel through hole 56 used for communicating the air channel pipe 51 with the first air channel through hole 43, the air channel seat 55 is mounted on a fixed plate, and particularly, the air channel seat 55 is provided with a second fixed hole 53, and the air channel seat 55 is connected with the fixed plate through the cooperation of the second fixed hole 53 and a fastener.

In a preferred embodiment, the two ends of the air channel 51 are respectively provided with a first air pipe joint 52 and a second air pipe joint 54, and the first air pipe joint 52 and the second air pipe joint 54 are respectively used for being detachably connected with the compressor 1 and the air channel seat 55, and can be in threaded connection.

In a preferred case, in order to ensure the stability of the shock-absorbing support mechanism, a limiting pad 411 is disposed in the through hole 22, a screw 412 is disposed in the limiting pad 411, the screw 412 is used for limiting the upward displacement of the fixing stud 41, the top of the fixing stud 41 sequentially passes through the shock-absorbing component 3 and the limiting pad 411, specifically, the top of the fixing stud 41 passes through the shock-absorbing component 3 and then is disposed in the limiting pad 411, the limiting pad 411 is locked on the fixing stud 41 by the screw 412, and the limiting pad 411 may be a rubber pad.

In a preferred case, the damper assembly 3 comprises a damper spring 31 and a rubber sleeve 32; the two ends of the damping spring 31 are respectively sleeved on two rubber sleeves 32, and the rubber sleeves 32 are boss-shaped with a through hole in the center.

In a preferred case, the mounting assembly is provided on the mounting plate, by means of which the mounting plate is connected to the ground or to the mounting device;

the installation component includes first installation hinge 42, pin 421 and second installation hinge 422, first installation hinge 42 is fixed on the fixed plate, second installation hinge 422 passes through pin 421 and is connected with first installation hinge 42, be provided with the mounting hole on the second installation hinge 422, the both ends of pin 421 are provided with fixation nut 423, and wherein, first installation hinge 42 and second installation hinge 422 are all overlapped on pin 421, can realize the regulation of first installation hinge 42 and second installation hinge 422 relative position through rotating pin 421, can realize that the mounting hole on the second installation hinge 422 is applicable to different installation angles.

In a preferred case, the fixing plate is provided with a first through groove, and the fixing stud 41 is arranged outside the first through groove; the supporting plate is provided with a second through groove, the through hole 22 is arranged outside the second through groove, and the weight of the supporting component 2 and the weight of the fixing component 4 can be reduced by the first through groove and the second through groove, and meanwhile, when the fixing plate and the supporting plate are metal plates, the possibility of static electricity of the metal plates is reduced.

Illustratively:

the fixed plate and the backup pad are square metal sheet, cut the center of forming the square groove at fixed plate and backup pad, fixed double-screw bolt 41 is provided with 4, 4 fixed double-screw bolts 41 set up respectively in the outside at four angles of fixed plate on the fixed plate, and both ends on the fixed plate all are provided with the installation component, correspondingly, be provided with through-hole 22 in the outside at four angles of backup pad top groove, through-hole 22 passes damper 3 in proper order, behind the through-hole 22, pass spacing pad 411, then fix spacing pad 411 through screw 412, the outside at four angles of backup pad top groove still is provided with 4 first fixed orifices 21, use four screws to fix compressor 1 on supporting component 2 through first fixed orifices 21.

Example 2:

a compression apparatus comprising a shock absorbing support mechanism as in embodiment 1, further comprising a compressor 1, said compressor 1 being mounted on a support plate of a support assembly 2.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the utility model, and is not meant to limit the scope of the utility model, but to limit the utility model to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

It should be noted that the structures, proportions, sizes, etc. shown in the drawings attached to the present specification are for understanding and reading only by those skilled in the art, and are not intended to limit the scope of the utility model, so that any structural modifications, proportional changes, or size adjustments should fall within the scope of the utility model without affecting the efficacy and achievement of the present utility model. Also, the terms such as "upper", "lower", "left", "right", "middle", and the like are used herein for descriptive purposes only and are not intended to limit the scope of the utility model for which the utility model may be practiced or for which the relative relationships may be altered or modified without materially altering the technical context.

Claims (10)

1. A damping support mechanism for a compressor, characterized by comprising a support assembly (2), a damping assembly (3) and a fixing assembly (4);

the fixing assembly (4) comprises a fixing plate, and a fixing stud (41) is arranged on the fixing plate;

the support assembly (2) is used for supporting the compressor (1), and the support assembly (2) comprises a support plate, wherein a through hole (22) for penetrating through the fixing stud (41) is formed in the support plate;

the damping component (3) is arranged on the fixed stud (41) in a penetrating way and is arranged between the fixed plate and the supporting plate.

2. The damping support mechanism for the compressor according to claim 1, wherein a limiting pad (411) is arranged in the through hole (22), the top of the fixing stud (41) sequentially passes through the damping component (3) and the limiting pad (411), a screw (412) is arranged in the limiting pad (411), and the screw (412) is used for limiting the upward displacement of the fixing stud (41).

3. A shock-absorbing support mechanism for a compressor according to claim 1, characterized in that the shock-absorbing assembly (3) comprises a shock-absorbing spring (31) and a rubber sleeve (32);

two ends of the damping spring (31) are respectively sleeved on the two rubber sleeves (32).

4. A shock absorbing support mechanism for a compressor according to claim 1, wherein the support plate is provided with a first fixing hole (21), the first fixing hole (21) being adapted to be detachably connected to the compressor (1).

5. The shock absorbing support mechanism for a compressor as claimed in claim 1, wherein the fixing plate is provided with a mounting assembly through which the fixing plate is coupled to the ground or a fixing device;

the mounting assembly comprises a first mounting hinge (42), a pin (421) and a second mounting hinge (422), wherein the first mounting hinge (42) is fixed on the fixed plate, the second mounting hinge (422) is connected with the first mounting hinge (42) through the pin (421), mounting holes are formed in the second mounting hinge (422), and fixing nuts (423) are arranged at two ends of the pin (421).

6. A shock absorbing support mechanism for a compressor according to claim 1, wherein the fixed plate is provided with a first air passage hole (43); the device also comprises a gas circuit assembly (5);

the air passage assembly (5) comprises an air passage pipeline (51) and an air passage seat (55); the two air channel pipelines (51) are arranged, two ends of one air channel pipeline (51) are respectively connected with the air supply end of the air channel seat (55) and the air inlet of the compressor (1), two ends of the other air channel pipeline (51) are respectively connected with the air outlet end of the air channel seat (55) and the air outlet of the compressor (1),

the air passage seat (55) is provided with a second air passage through hole (56) for communicating the air passage pipeline (51) and the first air passage through hole (43), and the air passage seat (55) is arranged on the fixed plate.

7. The damping support mechanism for a compressor according to claim 6, wherein the air passage seat (55) is provided with a second fixing hole (53), and the air passage seat (55) is connected with the fixing plate through the cooperation of the second fixing hole (53) and a fastener.

8. The shock-absorbing support mechanism for a compressor according to claim 6, wherein a first air pipe joint (52) and a second air pipe joint (54) are respectively arranged at two ends of the air passage pipe (51), and the first air pipe joint (52) and the second air pipe joint (54) are respectively used for being detachably connected with the compressor (1) and the air passage seat (55).

9. A shock absorbing support mechanism for a compressor according to any one of claims 1 to 8, wherein the fixing plate is provided with a first through slot, and the fixing stud (41) is arranged outside the first through slot; the support plate is provided with a second through groove, and the through hole (22) is arranged outside the second through groove.

10. Compression apparatus comprising a shock absorbing support mechanism according to any one of claims 1-9, and further comprising a compressor (1), said compressor (1) being mounted on a support plate of a support assembly (2).

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