CN218958355U - Sliding type damping connecting device - Google Patents

Abstract

The utility model provides a sliding type damping connecting device which comprises a distribution box, a connecting plate and a base, wherein the connecting plate and the base are arranged at the bottom of the distribution box, a plurality of first through holes are formed in the surface of the distribution box, a plurality of first screw holes are formed in the surface of the connecting plate, connecting bolts for fixing the distribution box are connected with the inner wall of the first screw holes in a threaded mode, a buffer plate is welded on the side surface of the connecting plate, a connecting mechanism is arranged on the surface of the top end of the distribution box, and a guide mechanism is fixedly connected to the surface of the buffer plate. The utility model has reasonable structure, the buffer substrate moves upwards on the surface of the buffer column through the external connecting plate and the buffer plate, meanwhile, the buffer substrate moves downwards on the surface of the buffer rod in a linkage way, the buffer spring is compressed, and when the buffer spring is compressed, the force acts on the buffer rod through the fixed substrate, and at the moment, the damper is applied with force through the buffer rod, so that the damping effect is achieved through the damper.

Description

Sliding type damping connecting device

Technical Field

The utility model relates to the technical field of power engineering, in particular to a sliding type damping connecting device.

Background

Electric power engineering, i.e. engineering related to the production, transportation and distribution of electric energy, also includes in a broad sense engineering that uses electricity as power and energy in various fields, while it is understood that the power transmission and transformation industry extends engineering, in which the distribution box is an important device used in electric power engineering;

in the prior art, application number: CN202021764694.3, chinese patent of utility model, disclosed a sliding shock attenuation connecting device for electric power engineering, including base and block terminal, the inboard sliding connection of base has the backup pad, the backup pad runs through the base, backup pad bottom end face fixedly connected with connecting block, the inboard rotation of backup pad right-hand member face is connected with first bevel gear, first bevel gear left end face fixedly connected with first screw shaft, first screw shaft left end face fixedly connected with fixed axle, in the utility model, through connecting block, dwang, first slider and the spring that set up, when the block terminal runs into the vibrations condition, the backup pad can slide, the backup pad passes through the connecting block and drives the dwang rotation, the dwang rotates and drives first slider and slide the spring and compress, thereby when the block terminal runs into the vibrations when using, can carry out sliding type buffering shock attenuation to the block terminal, do not influence the use of block terminal for electric power engineering.

Although the above technical scheme solves the problem that the damping device can only be connected with the distribution box for the electric power engineering with the corresponding size for use, and the application range of the device is reduced, when the distribution box is subjected to strong wind, the distribution box is easy to shake, the spring is of an elastic structure, and can rebound (except slight shake) when being stressed, and the damping effect cannot be achieved.

Disclosure of Invention

Accordingly, it is desirable to provide a sliding shock absorbing connection device, which solves or alleviates the technical problems of the prior art, and at least provides a beneficial choice.

The technical scheme of the embodiment of the utility model is realized as follows: the sliding type damping connecting device comprises a distribution box, a connecting plate and a base, wherein the connecting plate and the base are arranged at the bottom of the distribution box, a plurality of first through holes are formed in the surface of the distribution box, a plurality of first screw holes are formed in the surface of the connecting plate, and connecting bolts for fixing the distribution box are connected with the inner wall threads of the first screw holes;

the side surface of the connecting plate is welded with a buffer plate, the surface of the top end of the distribution box is provided with a connecting mechanism, the surface of the buffer plate is fixedly connected with a guide mechanism, the surface of the guide mechanism is fixedly connected with a connecting substrate, the surface of the connecting substrate is provided with a sleeve joint, the inner wall of the sleeve joint is movably connected with a buffer rod, the surface of the buffer rod is fixedly connected with a fixed substrate, and the surface of the fixed substrate is fixedly connected with a plurality of buffer springs;

the surface fixedly connected with of base connects the base block, the surface fixedly connected with of connecting the base block has a plurality of attenuator, the output of attenuator and the one end looks fixed connection of buffer rod, the surface fixedly connected with of base a plurality of buffer mechanism.

Preferably: the connecting mechanism comprises a second screw hole formed in the top end of the distribution box, an L-shaped substrate arranged in the top end of the distribution box, a second through hole formed in the surface of the L-shaped substrate, a first fixing bolt connected with the inner wall of the second screw thread in a threaded manner, a third through hole formed in the side surface of the L-shaped substrate, a third screw hole formed in one end of the surface of the buffer plate and a second fixing bolt connected with the inner wall of the third screw hole in a threaded manner.

Preferably: the guide mechanism comprises a buffer substrate fixedly connected to the surface of the buffer plate, a plurality of through holes formed in the end face of the buffer substrate and a plurality of buffer columns movably connected to the inner wall of the through holes, wherein one end of each buffer column is fixedly connected with the connecting base block.

Preferably: the damping mechanism comprises a damping cylinder fixedly connected to the surface of the base, a damping spring arranged in the damping cylinder and a damping column fixedly connected to one end of the damping spring, wherein one end of the damping column is fixedly connected with the connecting plate.

Preferably: the damping mechanism further comprises a limiting chute arranged on the inner wall of the damping cylinder and an arc-shaped limiting slide block which is slidably connected with the inner wall of the limiting chute, and the surface of the damping column is fixedly connected with the arc-shaped limiting slide block.

Preferably: an oxide layer is formed on the surface of the distribution box.

Preferably: the outer screw hole has been seted up to the one end on buffer rod surface, buffer rod surface threaded connection has the nut, buffer spring's the other end and the bottom surface of connecting the base plate are fixed connection mutually.

Preferably: and a gasket is arranged on the connecting surface of the distribution box and the connecting plate.

Preferably: the inner walls of the through hole and the sleeve joint are coated with lubricating grease.

Preferably: the four sides of the surface of the base are provided with mounting openings.

By adopting the technical scheme, the embodiment of the utility model has the following advantages:

the utility model has reasonable structure, the buffer substrate moves upwards on the surface of the buffer column through the external connecting plate and the buffer plate, meanwhile, the buffer substrate moves downwards on the surface of the buffer rod in a linkage way, the buffer spring is compressed, and when the buffer spring is compressed, the force acts on the buffer rod through the fixed substrate, and at the moment, the damper is applied with force through the buffer rod, so that the damping effect is achieved through the damper.

The foregoing summary is for the purpose of the specification only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present utility model will become apparent by reference to the drawings and the following detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the technical descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a first perspective view of the present utility model;

FIG. 2 is a second perspective view of the present utility model;

FIG. 3 is a three-dimensional block diagram of the present utility model;

fig. 4 is a cross-sectional view of the damper cylinder according to the present utility model.

Reference numerals: 1. a distribution box; 2. a connecting plate; 3. a base; 4. a shock absorbing cylinder; 5. a shock-absorbing column; 6. a connecting bolt; 7. a gasket; 8. an L-shaped substrate; 9. a first fixing bolt; 10. a buffer plate; 11. a buffer substrate; 12. a buffer column; 13. a connection substrate; 14. a buffer rod; 15. fixing the substrate; 16. a buffer spring; 17. a nut; 18. a damper; 19. a connection base block; 20. a second fixing bolt; 21. arc-shaped limit sliding blocks; 22. and a damping spring.

Detailed Description

Hereinafter, only certain exemplary embodiments are briefly described. As will be recognized by those of skill in the pertinent art, the described embodiments may be modified in various different ways without departing from the spirit or scope of the present utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive.

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-4, the embodiment of the utility model provides a sliding shock absorption connecting device, which comprises a distribution box 1, a connecting plate 2 and a base 3, wherein the connecting plate 2 and the base 3 are arranged at the bottom of the distribution box 1, a plurality of first through holes are formed in the surface of the distribution box 1, a plurality of first screw holes are formed in the surface of the connecting plate 2, and connecting bolts 6 for fixing the distribution box 1 are connected with the inner wall of the first screw holes in a threaded manner;

the side surface of the connecting plate 2 is welded with a buffer plate 10, the surface of the top end of the distribution box 1 is provided with a connecting mechanism, the surface of the buffer plate 10 is fixedly connected with a correcting mechanism, the surface of the correcting mechanism is fixedly connected with a connecting substrate 13, the surface of the connecting substrate 13 is provided with a sleeve interface, the inner wall of the sleeve interface is movably connected with a buffer rod 14, the surface of the buffer rod 14 is fixedly connected with a fixed substrate 15, the surface of the fixed substrate 15 is fixedly connected with a plurality of buffer springs 16, and lubricating grease is coated on the inner walls of the through openings and the sleeve interface;

the surface of the base 3 is fixedly connected with a connecting base block 19, the surface of the connecting base block 19 is fixedly connected with a plurality of dampers 18, the output end of each damper 18 is fixedly connected with one end of a buffer rod 14, the surface of the base 3 is fixedly connected with a plurality of buffer mechanisms, each guide mechanism comprises a buffer substrate 11 fixedly connected to the surface of a buffer plate 10, a plurality of through holes formed in the end face of the buffer substrate 11 and a plurality of buffer 95 columns 12 movably connected to the inner wall of the through hole, and one end of each buffer column 12 is fixedly connected with the connecting base block 19;

when the distribution box 1 is subjected to external environmental influence, the main body of the distribution box enables the buffer substrate 11 to move upwards on the surface of the buffer post 12 through the external connecting plate 2 and the buffer plate 10, meanwhile, the distribution box is linked with the connecting substrate 13 to move downwards on the surface of the buffer rod 14, the buffer spring 16 is compressed, and when the buffer spring 16 is compressed

In this case, a force is applied to the buffer rod 14 via the fixed substrate 15, and the damper 18100 is applied to the buffer rod 14, thereby achieving a damping effect by the damper 18.

In this embodiment, specific: the connecting mechanism comprises a plurality of screw holes II formed at the top end of the distribution box 1, an L-shaped substrate 8 arranged at the top end of the distribution box 1, a plurality of through holes II formed on the surface of the L-shaped substrate 8, a first fixing bolt 9 in threaded connection with the inner wall of the screw holes II, a plurality of third through holes formed on the side surface of the L-shaped substrate 8, a plurality of third screw holes formed at one end of the surface of the buffer plate 10 and a plurality of second fixing bolts 20 in threaded connection with the inner wall of the third screw holes, wherein the connecting surface of the distribution box 1 and the connecting plate 2 is provided with a gasket 7, the gasket 7 is attached to the surface of the connecting plate 2, holes are formed in the surface of the gasket 7, the distribution box 1 is fixedly connected with the first screw holes through the first through holes, the distribution box 1 is fixedly connected with the connecting plate 2 through the first fixing bolts 9 and the second screw holes through the second fixing bolts, the L-shaped substrate 8 is fixedly connected at the top end of the distribution box 1, and finally the distribution box is fixedly connected with the upper surface through the fixing bolts 9 through the fixing bolts

The second thread passes through the third through hole and is in threaded connection with the three phases of the screw holes, so that the L-shaped base plate 8 is fixed on the surface 110 of the buffer plate 10.

In this embodiment, specific: the buffer mechanism comprises a shock absorption cylinder 4 fixedly connected to the surface of the base 3, a shock absorption spring 22 arranged in the shock absorption cylinder 4, and a shock absorption column 5 fixedly connected to one end of the shock absorption spring 22, wherein one end of the shock absorption column 5 is fixedly connected with the connecting plate 2, and the buffer mechanism further comprises a limit arranged on the inner wall of the shock absorption cylinder 4

The damping device comprises a position chute and an arc-shaped limiting slide block 21 which is connected to the inner wall of the limiting chute in a sliding manner, wherein the surface of a damping column 5 is fixedly connected with the arc-shaped 115 limiting slide block 21;

when the distribution box 1 is subjected to external influence and shakes, the connecting plate 2 can squeeze the shock absorption column 5, so that the shock absorption column 5 slides in the limiting sliding groove through the arc-shaped limiting sliding block 21, and the shock absorption spring 22 is compressed.

In this embodiment, specific: the surface of block terminal 1 is formed with the oxide layer, protects block terminal 1 through the oxide layer, and outer screw has been seted up to the one end on buffer rod 14 surface, and buffer rod 14 surface threaded connection has nut 17, and buffer spring 16's the other end and the bottom surface of connecting base plate 13 are fixed connection mutually, through nut 17 threaded connection at the surface of buffer rod 14, avoid connecting base plate 13 to break away from buffer rod 14.

In this embodiment, specific: the four sides on the surface of the base 3 are provided with mounting openings, and the base 3 is fixed on the ground through the mounting openings and expansion bolts.

The utility model works when in work: s1, a gasket 7 is attached to the surface of a connecting plate 2, holes are formed in the surface of the gasket 7, the gasket is fixedly connected with a first screw hole through a first through hole by four connecting bolts 6, the distribution box 1 is fixed on the connecting plate 2, a second through hole is formed in the first through fixing bolts 9 and is in threaded connection with a second screw hole, the L-shaped substrate 8 is fixed on the top end of the distribution box 1, and finally the gasket is in threaded connection with a third screw hole through a third through hole by fixing threads, so that the L-shaped substrate 8 is fixed on the surface of a buffer plate 10;

s2, when the distribution box 1 is subjected to external environment influence, the main body of the distribution box is in high wind, the buffer substrate 11 moves upwards on the surface of the buffer column 12 through the external connecting plate 2 and the buffer plate 10, meanwhile, the buffer substrate 13 moves downwards on the surface of the buffer rod 14 in a linked manner, the buffer spring 16 is compressed, and when the buffer spring 16 is compressed, force is applied to the buffer rod 14 through the fixed substrate 15, at the moment, the damper 18 is applied with force through the buffer rod 14, and the damping effect is achieved through the damper 18;

s3, in combination, the connecting plate 2 can squeeze the shock absorption column 5, so that the shock absorption column 5 slides in the limiting sliding groove through the arc-shaped limiting sliding block 21, and the shock absorption spring 22 is compressed.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that various changes and substitutions are possible within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a slidingtype shock attenuation connecting device, includes block terminal (1), establishes connecting plate (2) and base (3) in block terminal (1) bottom, its characterized in that: the surface of the distribution box (1) is provided with a plurality of first through holes, the surface of the connecting plate (2) is provided with a plurality of first screw holes, and the inner wall of each first screw hole is in threaded connection with a connecting bolt (6) for fixing the distribution box (1);

the side surface welding of connecting plate (2) has buffer board (10), the surface at block terminal (1) top is equipped with coupling mechanism, the fixed surface of buffer board (10) is connected with and leads positive mechanism, the fixed surface of leading positive mechanism is connected with connection base plate (13), the interface has been seted up on the surface of connection base plate (13), the inner wall swing joint of interface has buffer rod (14), the fixed surface of buffer rod (14) is connected with fixed base plate (15), the fixed surface of fixed base plate (15) is connected with a plurality of buffer spring (16);

the surface fixing of base (3) is connected with connecting base block (19), the surface fixing of connecting base block (19) is connected with a plurality of attenuator (18), the output of attenuator (18) is fixedly connected with one end of buffer rod (14), the surface fixing of base (3) is connected with a plurality of buffer mechanism.

2. A sliding shock absorbing attachment as defined in claim 1, wherein: the connecting mechanism comprises a second screw hole formed in the top end of the distribution box (1), an L-shaped substrate (8) formed in the top end of the distribution box (1), a second through hole formed in the surface of the L-shaped substrate (8), a first fixing bolt (9) in threaded connection with the inner wall of the second screw hole, a third through hole formed in the side surface of the L-shaped substrate (8), a third screw hole formed in one end of the surface of the buffer plate (10) and a second fixing bolt (20) in threaded connection with the inner wall of the third screw hole.

3. A sliding shock absorbing attachment as defined in claim 1, wherein: the guide mechanism comprises a buffer substrate (11) fixedly connected to the surface of the buffer plate (10), a plurality of through holes formed in the end face of the buffer substrate (11) and a plurality of buffer columns (12) movably connected to the inner wall of the through holes, and one ends of the buffer columns (12) are fixedly connected with the connecting base blocks (19).

4. A sliding shock absorbing attachment as defined in claim 1, wherein: the damping mechanism comprises a damping cylinder (4) fixedly connected to the surface of the base (3), a damping spring (22) arranged inside the damping cylinder (4) and a damping column (5) fixedly connected to one end of the damping spring (22), and one end of the damping column (5) is fixedly connected with the connecting plate (2).

5. The sliding shock absorbing attachment of claim 4, wherein: the damping mechanism further comprises a limiting chute arranged on the inner wall of the damping cylinder (4) and an arc-shaped limiting slide block (21) which is slidably connected with the inner wall of the limiting chute, and the surface of the damping column (5) is fixedly connected with the arc-shaped limiting slide block (21).

6. A sliding shock absorbing attachment as defined in claim 1, wherein: an oxide layer is formed on the surface of the distribution box (1).

7. A sliding shock absorbing attachment as defined in claim 1, wherein: an outer screw hole is formed in one end of the surface of the buffer rod (14), a nut (17) is connected to the outer surface of the buffer rod (14) in a threaded mode, and the other end of the buffer spring (16) is fixedly connected with the bottom face of the connecting substrate (13).

8. A sliding shock absorbing attachment as defined in claim 1, wherein: the connection surface of the distribution box (1) and the connection plate (2) is provided with a gasket (7).

9. A sliding shock absorbing attachment as defined in claim 3, wherein: the inner walls of the through hole and the sleeve joint are coated with lubricating grease.

10. A sliding shock absorbing attachment as defined in claim 1, wherein: the four sides of the surface of the base (3) are provided with mounting openings.

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