CN206972820U - Electromechanical equipment damping device - Google Patents

Abstract

A kind of electromechanical equipment damping device is the utility model is related to, including：Buffer pedestal；The shell structure being fixed on buffering pedestal, the inside of shell structure has damping space；First shock-damping structure, it is fixed on the bottom plate in shell structure；Second shock-damping structure, it is fixed in the side wall in shell structure；And the structure of container for fixed electromechanical equipment, structure of container is placed in the damping space of shell structure and the bottom of structure of container is fixedly connected with the first shock-damping structure, and the outer wall of structure of container is fixedly connected with the second shock-damping structure.The utility model is when needing to carry out shock-absorbing protecting to electromechanical equipment; electromechanical equipment is placed in structure of container; so as to which the first shock-damping structure plays vertical cushioning effect to electromechanical equipment; second shock-damping structure plays horizontal cushioning effect to electromechanical equipment; shock-absorbing protecting is carried out to electromechanical equipment using multidirectional damping modes; the stability of electromechanical equipment is improved, prevents electromechanical equipment from tilting.

Description

Electromechanical equipment damping device

Technical field

Technical field of the electromechanical equipment is the utility model is related to, espespecially a kind of electromechanical equipment damping device.

Background technology

Electromechanical equipment typically refers to apply machinery, the equipment of electronic technology, and usually said plant equipment is machine The important component of electric equipment.Usually, electromechanical equipment requirement does damping processing when installing fixed, prevent electromechanical equipment by Act on and shake to external force, to ensure the normal work of electromechanical equipment, improve the service life of electromechanical equipment.

The device for being presently used for damping is not quite similar, and existing damping device has the defects of different situations.Electromechanics is set The standby course of work be it is complicated and changeable, thus electromechanical equipment in the course of the work stress and the direction shaken is also various dimensions , still, in general damping device only accounts for unidirectional cushioning effect, and unidirectional damping there will naturally be very big lack Fall into, do not ensure that the normal work of electromechanical equipment.

Utility model content

The defects of the purpose of this utility model is to overcome prior art, there is provided a kind of electromechanical equipment damping device, solve Damping device only accounts for the problem of unidirectional cushioning effect in the prior art.

Realizing the technical scheme of above-mentioned purpose is：

The utility model provides a kind of electromechanical equipment damping device, including：

Buffer pedestal；

The shell structure being fixed on the buffering pedestal, the inside of the shell structure has damping space；

First shock-damping structure, it is fixed on the bottom plate in the shell structure；

Second shock-damping structure, it is fixed in the side wall in the shell structure；And

For the structure of container of fixed electromechanical equipment, the structure of container be placed in the damping space of the shell structure and The bottom of the structure of container is fixedly connected with first shock-damping structure, the outer wall of the structure of container and second damping Structure is fixedly connected.

The beneficial effect of the utility model electromechanical equipment damping device：

The utility model electromechanical equipment damping device by the way that structure of container is placed in the damping space of the shell structure, And the bottom of the structure of container is fixed on first shock-damping structure, the lateral wall of the structure of container is connected to institute The second shock-damping structure is stated, so when needing to carry out shock-absorbing protecting to electromechanical equipment, electromechanical equipment is placed in structure of container, So as to which the first shock-damping structure can play vertical cushioning effect to electromechanical equipment, the second shock-damping structure can play horizontal stroke to electromechanical equipment To cushioning effect, using multidirectional damping modes to electromechanical equipment carry out shock-absorbing protecting, the steady of electromechanical equipment can be improved It is qualitative, prevent electromechanical equipment from tilting.

The utility model electromechanical equipment damping device further improvement is that, the bottom plate of the shell structure is provided with relative At least one pair of neck set, the bottom of first shock-damping structure are arranged in the corresponding neck, first damping The top of structure is fixedly connected by fixed plate with the structure of container.

The utility model electromechanical equipment damping device further improvement is that, the bottom of the structure of container, which is fixed with, to be subtracted Bottom plate is shaken, the damping bottom plate is fixed in the fixed plate.

The utility model electromechanical equipment damping device further improvement is that, described the is corresponded in the shell structure Retractable removable cover is offered at two shock-damping structures, the removable cover is articulated with the shell structure, the work by rotating shaft Dynamic lid is fixedly connected with second shock-damping structure.

The utility model electromechanical equipment damping device further improvement is that, be sticked on the internal face of the structure of container There is abrasionproof layer of silica gel.

The utility model electromechanical equipment damping device further improvement is that, the bottom plate of the structure of container is provided with for solid The fixed fastener of the fixed electromechanical equipment.

The utility model electromechanical equipment damping device further improvement is that, be fixed with the top of the shell structure Fixed lid, the bottom of the fixed cover are installed with a pair of locating parts for the fixed electromechanical equipment.

The utility model electromechanical equipment damping device further improvement is that, the locating part includes：

It is fixedly arranged on the support ring of the bottom of the fixed cover；

It is sheathed on the stay guy of the support ring；And

For the retaining collar on the fixation electromechanical equipment top, the retaining collar is connected to the fixation by universal joint Drag-line.

The utility model electromechanical equipment damping device further improvement is that, it is described buffering pedestal include：

Fixed bottom plate, top are provided with the fixing groove for placing the shell structure, are fixed with fixed bottom plate for spacing solid The fix bar of the fixed shell structure；

Located at the support frame of the fixed bottom base plate；And

Rubber feet located at support frame as described above bottom.

The utility model electromechanical equipment damping device further improvement is that, first shock-damping structure and described second Shock-damping structure is spring.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model electromechanical equipment damping device.

Fig. 2 is the shell structure of the utility model electromechanical equipment damping device and the top view of structure of container.

Fig. 3 is the structural representation of the structure of container of the utility model electromechanical equipment damping device.

Fig. 4 is the structural representation of the fixed cover of the utility model electromechanical equipment damping device.

Embodiment

The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings.

Refering to Fig. 1, it is shown that the structural representation of the utility model electromechanical equipment damping device.As shown in figure 1, this practicality New mechanical and electrical equipment damping device includes：Buffer pedestal 10, shell structure 20, structure of container 30, the first shock-damping structure 40 and Second shock-damping structure 50, wherein shell structure 20 are fixed on buffering pedestal 10, and the inside of shell structure 20 has damping space；The One shock-damping structure 40 is fixed on the bottom plate in shell structure 20；The side wall that second shock-damping structure 50 is fixed in shell structure 20 On；Structure of container 30 is used to fix electromechanical equipment, and the bottom of structure of container 30 is fixedly connected with the first shock-damping structure 40, container knot The outer wall of structure 30 is fixedly connected with the second shock-damping structure 50.The utility model electromechanical equipment damping device is being needed to electromechanical equipment When carrying out shock-absorbing protecting, electromechanical equipment is placed in structure of container, erected so as to which the first shock-damping structure can rise to electromechanical equipment To cushioning effect, the second shock-damping structure can play horizontal cushioning effect to electromechanical equipment, using multidirectional damping modes Shock-absorbing protecting is carried out to electromechanical equipment, the stability of electromechanical equipment can be improved, prevent electromechanical equipment from tilting.

Refering to Fig. 2, it is shown that the shell structure of the utility model electromechanical equipment damping device and the top view of structure of container. With reference to shown in Fig. 1 and Fig. 2, shell structure 20 is that bottom plate is provided with least one pair of neck 21 being oppositely arranged, the first shock-damping structure 40 Bottom be arranged in corresponding in neck 21, the top of the first shock-damping structure 40 passes through fixed plate 41 and the bottom of structure of container 30 It is fixedly connected.

The bottom of structure of container 30 is fixed with damping bottom plate 31, and damping bottom plate 31 is fixed in fixed plate 41.Damping bottom plate 31 have certain cushioning effect, so as to which the bottom of structure of container 30 and the first shock-damping structure 40 be linked together, and then will Structure of container 30 and shell structure 20 are articulated and connected by the first shock-damping structure 40, so pass through the first shock-damping structure 40 Cushioning effect ensures the stability of shell structure 20.In the present embodiment, neck 21 has two pairs, the first corresponding damping knot Structure 40 has two pairs, and the first shock-damping structure 40 is made of spring, has certain cushioning effect.

Correspond to reference to shown in Fig. 1 and Fig. 2, in shell structure 20 at second shock-damping structure 50 and offer retractable activity Lid 22, it is convenient and swift so as to dismount the second shock-damping structure of damping 50 by opening removable cover 22.Removable cover 22 passes through rotating shaft 23 Shell structure 20 is articulated with, so as to which removable cover 22 is rotated into carry out folding around rotating shaft 23, the second shock-damping structure 50 is entered Row dismounting operation.It is fixedly connected between removable cover 22 and the second shock-damping structure 50.

In the present embodiment, the second shock-damping structure 50 is spring, has certain elasticity and cushioning effect.Removable cover 22 divides It is set to two layers, every layer there are four, and is uniformly and symmetrically distributed, corresponding, and the second shock-damping structure 50 is divided into two layers, and every layer has four It is individual, and be uniformly and symmetrically distributed, so as to ensure it is to adopt elastic connection between the surrounding of structure of container 30 and shell structure 20, tool There is certain cushioning buffer effect, discharge one by the compression and stretching of the second shock-damping structure 50 during vibrations are hit Part shaking force, there is cushioning effect, so as to ensure that structure of container 30 has certain stability.In the present embodiment, housing Structure 20 is barrel shape structure, but the structure of shell structure 20 is not limited thereto.

Refering to Fig. 3, it is shown that the structural representation of the structure of container of the utility model electromechanical equipment damping device.With reference to figure Shown in 1 to Fig. 3, the internal face of structure of container 30, which is sticked, abrasionproof layer of silica gel 33, can not only prevent the abrasion of electromechanical equipment, together When also act as certain cushioning effect.The bottom plate of structure of container 30 is provided with the fixed fastener 32 for fixed electromechanical equipment bottom.Gu Determine fastener 32 to be adapted with electromechanical equipment bottom, and card sets connection mutually, so as to which electromechanical equipment is fixed on appearance by fixed fastener 32 In device structure 30.

In the present embodiment, structure of container 30 is barrel shape structure, but the structure of structure of container 30 is not limited thereto.Container Structure 30 and shell structure 20 are arranged concentrically.

The top of shell structure 20 is fixed with fixed cover 24, and the bottom of fixed cover 24 is installed with for fixed electromechanical equipment top A pair of locating parts 60.Locating part 60 includes：Support ring 61, stay guy 62 and retaining collar 63, wherein support ring 61 are solid Located at the bottom of fixed cover 24；Stay guy 62 is sheathed on support ring 61, in the present embodiment, support is sheathed on using sliding block 64 Ring 61, sliding block 64 can be moved in support ring 61, and stay guy 62 is fixedly connected with fixed sliding block 64, so as to which sliding block 64 is supporting Drive stay guy 62 to move when being moved on ring 61, so as to being rotatably connected between stay guy 62 and support ring 61, prevent by Act on and wear to external force.The bottom of stay guy 62 is connected with universal joint 65, and retaining collar 63 is connected to universal joint 65, so as to Retaining collar 63 can rotate around stay guy 62 to all directions.Retaining collar 63 is used for the top for fixing electromechanical equipment.

So in use, electromechanical equipment is placed in structure of container 30, the bottom of electromechanical equipment is passed through into card It is located on fixed fastener 32, the top of electromechanical equipment is carried out by retaining collar 63 spacing, and covers fixed cover 24.If When running into vibrations, the stay guy 62 of fixed fastener 32 and the lower section of fixed cover 32 ensures the stabilization of electromechanical equipment, while container knot Second shock-damping structure 50 of the surrounding of structure 30 and the first shock-damping structure 40 of the lower section of structure of container 30 play damping work to structure of container 30 With.

As shown in figure 1, buffering pedestal 10 includes：Fixed bottom plate 11, support frame 12 and rubber feet 13, wherein fixed bottom The top of plate 11 is provided with the fixing groove for placing shell structure 20, and the end for fixing fixing groove on bottom plate 11 is fixed with for spacing solid The fix bar 111 of fixed shell structure 20；When in use, shell structure 20 is placed in fixing groove, and on fixed bottom plate 11 Fixation is plugged using fix bar 111, fix bar 111 is resisted against the lateral wall of shell structure 20.In the present embodiment, fix bar 111 are externally connected to fixing clasp 112, and the section of fixing clasp 112 is semicircle, and fix bar 111 and fixing clasp 112 Inner surface be connected.Fixing clasp 112 strengthens the fastness and stability of the fixed shell structure 20 of fix bar 111.Simultaneously Fix bar 111 is easy to be dismounted shell structure 20 from fixed bottom plate 11 with fixing clasp 112.Support frame 12 is located at fixation The bottom of bottom plate 11；Rubber feet 13 is located at the bottom of support frame 12.Rubber feet 13 is with certain cushioning effect and necessarily Cushioning effect.

The utility model electromechanical equipment damping device has the beneficial effect that：

Structure of container by being placed in the damping space of shell structure and inciting somebody to action by the utility model electromechanical equipment damping device The bottom of structure of container is fixed on the first shock-damping structure, the lateral wall of structure of container is connected into the second shock-damping structure, so When needing to carry out shock-absorbing protecting to electromechanical equipment, electromechanical equipment is placed in structure of container, so as to which the first shock-damping structure can To play vertical cushioning effect to electromechanical equipment, the second shock-damping structure can play horizontal cushioning effect to electromechanical equipment, use Multidirectional damping modes carry out shock-absorbing protecting to electromechanical equipment, can improve the stability of electromechanical equipment, prevent electromechanical equipment Tilt.The utility model electromechanical equipment damping device is fixed the bottom of electromechanical equipment using the fixed fastener in structure of container Firmly, the top of electromechanical equipment is fixed using the retaining collar of the locating part of fixed cover, so as to which electromechanical equipment be firmly secured at In structure of container, the side wall of structure of container, which is sticked, abrasionproof layer of silica gel, can not only reduce the abrasion of electromechanical equipment, while to electromechanics Equipment plays certain cushioning effect.Second shock-damping structure is arranged with two layers, four every layer, is matched with the first vertical shock-damping structure Close, the cushioning effect of various dimensions can be played, improve the stability of electromechanical equipment.

The utility model is described in detail above in association with accompanying drawing embodiment, those skilled in the art can root Many variations example is made to the utility model according to described above.Thus, some details in embodiment should not be formed to this practicality New restriction, the utility model will be used as the scope of protection of the utility model using the scope that appended claims define.

Claims (10)

1. A kind of 1. electromechanical equipment damping device, it is characterised in that including：

   Buffer pedestal；

   The shell structure being fixed on the buffering pedestal, the inside of the shell structure has damping space；

   First shock-damping structure, it is fixed on the bottom plate in the shell structure；

   Second shock-damping structure, it is fixed in the side wall in the shell structure；And

   For the structure of container of fixed electromechanical equipment, the structure of container is placed in the damping space of the shell structure and described The bottom of structure of container is fixedly connected with first shock-damping structure, the outer wall of the structure of container and second shock-damping structure It is fixedly connected.
2. 2. electromechanical equipment damping device as claimed in claim 1, it is characterised in that the bottom plate of the shell structure is provided with relative At least one pair of neck set, the bottom of first shock-damping structure are arranged in the corresponding neck, first damping The top of structure is fixedly connected by fixed plate with the structure of container.
3. 3. electromechanical equipment damping device as claimed in claim 2, it is characterised in that the bottom of the structure of container, which is fixed with, to be subtracted Bottom plate is shaken, the damping bottom plate is fixed in the fixed plate.
4. 4. electromechanical equipment damping device as claimed in claim 1, it is characterised in that correspond to described the in the shell structure Retractable removable cover is offered at two shock-damping structures, the removable cover is articulated with the shell structure, the work by rotating shaft Dynamic lid is fixedly connected with second shock-damping structure.
5. 5. electromechanical equipment damping device as claimed in claim 1, it is characterised in that be sticked on the internal face of the structure of container There is abrasionproof layer of silica gel.
6. 6. electromechanical equipment damping device as claimed in claim 1, it is characterised in that the bottom plate of the structure of container is provided with for solid The fixed fastener of the fixed electromechanical equipment.
7. 7. electromechanical equipment damping device as claimed in claim 1, it is characterised in that be fixed with the top of the shell structure Fixed lid, the bottom of the fixed cover are installed with a pair of locating parts for the fixed electromechanical equipment.
8. 8. electromechanical equipment damping device as claimed in claim 7, it is characterised in that the locating part includes：

   It is fixedly arranged on the support ring of the bottom of the fixed cover；

   It is sheathed on the stay guy of the support ring；And

   For the retaining collar on the fixation electromechanical equipment top, the retaining collar is connected to the fixed drawing by universal joint Rope.
9. 9. electromechanical equipment damping device as claimed in claim 1, it is characterised in that the buffering pedestal includes：

   Fixed bottom plate, top are provided with the fixing groove for placing the shell structure, are fixed with fixed bottom plate for spacing fixed institute State the fix bar of shell structure；

   Located at the support frame of the fixed bottom base plate；And

   Rubber feet located at support frame as described above bottom.
10. 10. electromechanical equipment damping device as claimed in claim 1, it is characterised in that first shock-damping structure and described Two shock-damping structures are spring.