CN218992196U - Damping device for mechanical equipment - Google Patents

Abstract

The utility model relates to a damping device for mechanical equipment, wherein a first buffer cavity (11) is arranged on a base (1). The lower end of the first buffer piece (2) is inserted into the first buffer cavity (11), and the second buffer cavity (21) is arranged on the first buffer piece (2). The lower end of the second buffer piece (3) is inserted into the second buffer cavity (21), and a threaded hole (31) is formed in the second buffer piece (3). The first spring (12) is arranged in the first buffer cavity (11), one end of the first spring is fixedly connected with the bottom of the first buffer cavity (11), and the other end of the first spring is fixedly connected with the bottom of the first buffer piece (2). The second spring (22) is arranged in the second buffer cavity (21), one end of the second spring is fixedly connected with the bottom of the second buffer cavity (21), and the other end of the second spring is fixedly connected with the bottom of the second buffer piece (3). The lower end of the threaded column (4) is inserted into the threaded hole (31). The mounting plate (5) is horizontally arranged at the top of the threaded column (4). The device has good damping effect and is suitable for mechanical equipment with different volumes and weights.

Description

Damping device for mechanical equipment

Technical Field

The utility model relates to a damping device of mechanical equipment, in particular to a structure of the damping device of the mechanical equipment.

Background

In industrial production, various mechanical devices such as a vibrating screen, a crusher, a motor and the like are used, larger vibration can be generated when the devices run, if the devices run for a long time in a vibrating mode, components inside the devices are easy to loosen and damage, the vibration not only affects the running stability of the devices and reduces the service life, but also damages the ground, in order to shock the devices, a shock pad is usually arranged at the bottom of the devices, but the shock absorbing effect of the method is general, and the protection effect on the devices and the bottom surface is limited.

According to the electromechanical device damping device provided in the patent CN202120858038.8, the electromechanical device can be buffered through the first buffer mechanism and the second buffer mechanism, a good damping effect can be obtained, the propelling mechanism is arranged, the position of the electromechanical device can be adjusted when the electromechanical device to be buffered is different in size, the electromechanical device damping device is further suitable for electromechanical devices of different sizes, meanwhile, the electromechanical device is well fixed, the stability of the electromechanical device is further guaranteed, and the fault rate is reduced. However, in the practical use process, one damping device is only suitable for damping the vibration of equipment within a certain volume range, but cannot be simultaneously suitable for equipment with larger volume range, in addition, the damping effect of the damping device is obvious for some small-size electromechanical equipment, but for the equipment with larger volume, the damping effect is too heavy and decreases with the increase of the volume and the weight of the equipment.

The utility model provides a damping device for mechanical equipment, which aims at solving the problems of small application range, large volume and heavy weight and poor damping effect of the conventional damping device for mechanical equipment.

Disclosure of Invention

In order to solve the above problems, the utility model provides a damping device for mechanical equipment, which comprises a base 1, a first buffer member 2, a second buffer member 3, a threaded column 4 and a mounting plate 5, wherein a first buffer chamber 11 with an upward opening is arranged on the base 1, and a first spring 12 is arranged in the first buffer chamber 11. The lower extreme of first bolster 2 inserts in the first cushion chamber 11, be provided with the ascending second cushion chamber 21 of opening on the first bolster 2, be provided with second spring 22 in the second cushion chamber 21, the second bolster 3 lower extreme inserts in the second cushion chamber 21, be provided with on the second bolster 3 with screw thread post 4 matched opening ascending screw hole 31, first spring 12 is located the below of first bolster 2, one end and the bottom fixed connection in first cushion chamber 11, the other end and the bottom fixed connection in first bolster 2, second spring 22 is located the below of second bolster 3, one end and the bottom fixed connection in second cushion chamber 21, the other end and the bottom fixed connection in second bolster 3. The lower end of the threaded column 4 is inserted into the threaded hole 31, and the mounting plate 5 is horizontally arranged at the top of the threaded column 4.

This mechanical equipment damping device is through setting up base 1, first bolster 2, second bolster 3, screw thread post 4 and mounting panel 5, set up first cushion chamber 11 on the base 1, set up first spring 12 in the first cushion chamber 11, insert first bolster 2 in first cushion chamber 11 with first spring 12 fixed connection, can cushion first bolster 2 through first spring 12, set up second cushion chamber 21 on first bolster 2, set up the first spring in the second cushion chamber, insert second cushion chamber 21 in with second spring 22 fixed connection, can cushion second bolster 3 through second spring 22, through the combined action of two-stage spring, make damping device reach better shock attenuation effect.

Set up screw hole 31 on second bolster 3, insert screw thread post 4 in screw hole 31, set up mounting panel 5 at screw thread post 4 top and be used for being connected with mechanical equipment, can adjust the degree of depth of inserting in screw hole 31 through rotating screw thread post 4 to adjust the height of mounting panel 5, when using a plurality of mechanical equipment damping device cooperation, can adjust the height of mounting panel 5 of each damping device according to the difference to the height of mechanical equipment supporting point, thereby make each damping device all fix better with mechanical equipment, reach better shock attenuation effect.

The damping device of the mechanical equipment can be singly used, can be matched with a plurality of damping devices for use, is applicable to mechanical equipment with different volumes and weights, and has the advantages of simple structure and wide application range. The damping device can solve the problems of small application range, large volume and heavy weight and poor damping effect of the conventional damping device of mechanical equipment.

Preferably, the buffer device further comprises a first limiting plate 13, the first buffer cavity 11 is cylindrical, the first limiting plate 13 is fixedly arranged at the top of the base 1, and a first limiting hole matched with the first buffer piece 2 is formed in the first limiting plate 13. The first buffer member 2 is cylindrical, the lower end of the first buffer member 2 passes through the first limiting hole and is inserted into the first buffer cavity 11, the bottom of the first buffer member 2 is provided with a buffer plate 25 matched with the first buffer cavity 11, and the diameter of the first buffer member 2 is smaller than that of the first buffer cavity 11.

Through setting up first limiting plate 13 on base 1, set up the first spacing hole that matches with first buffer 2 on first limiting plate 13, set up buffer 25 that matches with first buffer 11 in first buffer 2 bottom, and set up the diameter of first buffer 2 and be less than the diameter of first buffer 11, can carry out spacingly to first limiting plate through first spacing hole buffer 25, make first limiting plate can only slide in vertical direction along first spacing chamber, can fix a position first buffer 2 through the cooperation of first limiting plate 13 and buffer 25, prevent that first buffer 2 from deviating from in the first buffer 11.

Preferably, a guide groove 23 extending vertically is arranged on the inner side wall of the first buffer member 2, a guide block 32 matched with the guide groove 23 is arranged on the outer side wall of the second buffer member 3 corresponding to the guide groove 23, and the guide block 32 is arranged in the guide groove 23 in a sliding manner.

Through set up guide way 23 on the second buffer tank inner wall, set up guide block 32 on the second buffer 3 lateral wall, through the cooperation of guide way 23 and guide block 32, can carry out spacing to second buffer 3, make second buffer 3 only can follow the second buffer tank and slide from top to bottom.

Preferably, the second buffer cavity 21 is cylindrical, the second limiting plate 24 is fixedly arranged at the top of the first buffer piece 2, a second limiting hole matched with the second buffer piece 3 is formed in the second limiting plate 24, the second buffer piece 3 is cylindrical, and the lower end of the second buffer piece 3 penetrates through the second limiting hole and is inserted into the second buffer cavity 21. The diameter of the second buffer 3 is equal to the diameter of the second buffer chamber 21.

Through setting up second limiting plate 24 at the top of first bolster 2, be provided with the second spacing hole that matches with second bolster 3 on second limiting plate 24, can fix a position second bolster 3 through the cooperation of second limiting plate 24 and guide block 32, prevent that second bolster 3 from deviating from in the second cushion chamber 21.

Preferably, the base 1 is cylindrical, the bottom of which is provided with a circular bottom plate 14, the diameter of the bottom plate 14 being larger than the diameter of the base 1. By arranging the bottom plate 14 at the bottom of the base 1 and arranging the diameter of the bottom plate 14 larger than that of the base 1, the stability of the damping device of the mechanical equipment can be ensured, and the device is prevented from toppling over.

Preferably, the screw thread post 4 is sleeved with the locking nut 41. The lock nut 41 is used for adjusting the lock nut 41 after the height of the mounting plate 5 is adjusted through the threaded column 4, so that the lock nut 41 is in pressing and abutting connection with the third limiting plate 33 at the top of the second buffer member 3, and the threaded column 4 is fastened, and the threaded column 4 is prevented from rotating.

Preferably, the first buffer chamber 11 is filled with a silica gel 15. The first buffer member 2 can be buffered by filling the first buffer chamber 11 with the silica gel 15 material, thereby protecting the first spring 12.

Preferably, the bottom surface of the mounting plate 5 is provided with reinforcing ribs 51. By providing the reinforcing ribs 51 on the bottom surface of the mounting plate 5, the strength of the mounting plate 5 can be increased.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a damping device of mechanical equipment;

FIG. 2 is a schematic side view of a damping device for a mechanical device;

FIG. 3 is a schematic longitudinal cross-sectional view of a damping device of the mechanical apparatus;

FIG. 4 is a schematic view of the cross-sectional structure at A-A in FIG. 3.

In the figure, 1, a base, 11, a first buffer cavity, 12, a first spring, 13, a first limiting plate, 14, a bottom plate, 15, silica gel, 2, a first buffer piece, 21, a second buffer cavity, 22, a second spring, 23, a guide groove, 24, a second limiting plate, 25, a buffer plate, 3, a second buffer piece, 31, a threaded hole, 32, a guide block, 33, a third limiting plate, 4, a threaded column, 41, a locking nut, 5, a mounting plate and 51, a reinforcing rib.

Detailed Description

Reference will now be made in detail to the preferred embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein reference numerals refer to the components and techniques of the present utility model so that the advantages and features of the present utility model may be more readily understood in the proper environment for practice. The following description is a specific embodiment of the present utility model.

As shown in fig. 1, the damping device for the mechanical equipment is composed of a base 1, a first buffer member 2, a second buffer member 3, a threaded column 4 and a mounting plate 5 which are sequentially connected.

The base 1 is cylindrical, the bottom is provided with the bottom plate 14, the bottom plate 14 is circular, the diameter of the bottom plate 14 is larger than the diameter of the base 1, and the stability of the damping device of the mechanical equipment and the toppling prevention device can be ensured by arranging the bottom plate 14 at the bottom of the base 1 and arranging the diameter of the bottom plate 14 to be larger than the diameter of the base 1.

The mounting plate 5 is the plectane, and the level sets up in screw thread post 4 top, is provided with a plurality of mounting holes on the mounting plate 5, conveniently fixes with mechanical equipment.

As shown in fig. 1 and 2, a lock nut 41 is disposed on the threaded post 4, and the lock nut 41 is used for adjusting the lock nut 41 after the height of the mounting plate 5 is adjusted by the threaded post 4, so that the lock nut 41 is pressed against the third limiting plate 33 on the top of the second buffer member 3, thereby fastening the threaded post 4 and preventing the threaded post 4 from rotating.

The bottom surface of mounting panel 5 is provided with strengthening rib 51, and strengthening rib 51 one end and the bottom surface fixed connection of mounting panel 5, the upper end fixed connection of the other end and screw post 4 sets up strengthening rib 51 on the bottom surface of mounting panel 5, can increase the intensity of mounting panel 5.

As shown in fig. 3, a first buffer cavity 11 with an upward opening is arranged on a base 1, the first buffer cavity 11 is cylindrical, a first limiting plate 13 is arranged at the top of the base 1, the first limiting plate 13 is positioned at the opening of the upper end of the first buffer cavity 11, a circular first limiting hole matched with a first buffer piece 2 is arranged on the first limiting plate 13, and the axis of the first limiting hole is collinear with the axis of the first buffer cavity 11.

The first limiting plate 13 is provided with a first circular limiting hole matched with the first buffer piece 2, the shape of the first limiting hole is the same as the cross section of the first buffer piece 2, namely, the first limiting hole is circular, the diameter of the first limiting hole is the same as the diameter of the first buffer piece 2, the outer side wall of the first buffer piece 2 is attached to the inner side wall of the first limiting hole, and the first buffer piece 2 can slide up and down in the first limiting hole.

The first buffer member 2 is cylindrical, the diameter is smaller than the diameter of the first buffer chamber 11, the lower end penetrates through the first limiting hole and is inserted into the first buffer chamber 11, a buffer plate 25 matched with the first buffer chamber 11 is arranged at the bottom, and the first buffer member 2 is provided with a second buffer chamber 21 with an upward opening.

The bottom of the first buffer member 2 is provided with a buffer plate 25 matched with the first buffer cavity 11, the shape of the cross section of the buffer plate 25 is the same as that of the cross section of the first buffer cavity 11, namely, the cross section of the buffer plate 25 is circular, and the diameter of the cross section of the buffer plate 25 is the same as that of the cross section of the first buffer cavity 11, so that the outer side wall of the buffer plate 25 is attached to the inner side wall of the first buffer cavity 11, and the buffer plate 25 can slide up and down in the first buffer cavity 11.

The first spring 12 is disposed in the first buffer cavity 11 and located below the first buffer member 2, one end of the first spring is fixedly connected with the bottom of the first buffer cavity 11, and the other end of the first spring is fixedly connected with the bottom of the first buffer member 2. Through setting up first spring 12 in first buffer chamber 11, make first spring 12 one end and the bottom fixed connection of first buffer chamber 11, the bottom fixed connection of the other end and first bolster 2, when first bolster 2 vibrates, can cushion first bolster 2.

The first buffer chamber 11 is filled with the silica gel 15, and the first buffer member 2 can be buffered by filling the silica gel 15 material in the first buffer chamber 11, so as to protect the first spring 12.

Through setting up first limiting plate 13 on base 1, set up the first spacing hole that matches with first buffer 2 on first limiting plate 13, set up buffer 25 that matches with first buffer 11 in first buffer 2 bottom, and set up the diameter of first buffer 2 and be less than the diameter of first buffer 11, can carry out spacingly to first limiting plate through first spacing hole buffer 25, make first limiting plate can only slide in vertical direction along first spacing chamber, can fix a position first buffer 2 through the cooperation of first limiting plate 13 and buffer 25, prevent that first buffer 2 from deviating from in the first buffer 11.

The top of first bolster 2 is provided with second limiting plate 24, and second limiting plate 24 is located the upper end opening part of second cushion chamber 21, is provided with the circular second spacing hole that matches with second bolster 3 on the second limiting plate 24.

The second limiting plate 24 is provided with a circular second limiting hole matched with the second buffer member 3, the shape of the second limiting hole is the same as the cross section of the second buffer member 3, the diameters of the second limiting hole and the second buffer member 3 are the same, the outer side wall of the second buffer member 3 is attached to the inner side wall of the second limiting hole, and the second buffer member 3 can slide up and down in the second limiting hole.

As shown in fig. 3 and 4, the second buffer chamber 21 has a cylindrical shape, and a guide groove 23 extending vertically is provided on an inner sidewall of the second buffer chamber 21. The guide grooves 23 are provided in two, and the two guide grooves 23 are oppositely arranged on the inner side wall of the second buffer cavity 21.

The second buffer member 3 is cylindrical, the lower end of the second buffer member 3 passes through the second limiting hole and is inserted into the second buffer cavity 21, an upward opening threaded hole 31 matched with the threaded column 4 is formed in the second buffer member 3, and the diameter of the second buffer member 3 is equal to the diameter of the second buffer cavity 21. A guide block 32 matched with the guide groove 23 is arranged on the outer side wall of the second buffer member 3 at a position corresponding to the guide groove 23, and the guide block 32 is arranged in the guide groove 23 in a sliding manner.

The second buffer member 3 is provided with a threaded hole 31 with an upward opening, which is matched with the threaded column 4, the diameter of the threaded hole 31 is the same as that of the threaded column 4, the internal thread on the threaded hole 31 is the same as the thread type and the thread pitch of the external thread on the threaded column 4, and the threaded columns 4 can be mutually matched to be fixed in the threaded hole 31.

The outer side wall of the second buffer member 3 is provided with a guide block 32 matched with the guide groove 23 at a position corresponding to the guide groove 23, wherein the position corresponding to the guide groove 23 is a position of the outer side wall of the second buffer member 3 opposite to the guide groove 23 when the second buffer member 3 is inserted into the second buffer groove. The guide block 32 matching the guide groove 23 means that the cross section of the guide block 32 is the same as the shape and size of the cross section of the guide groove 23, so that the guide block 32 can be disposed in the guide groove 23 to slide up and down along the guide groove 23. The guide blocks 32 are two, and the two guide blocks 32 are respectively arranged in the two guide grooves 23 in a sliding manner.

Through set up guide way 23 on the second buffer tank inner wall, set up guide block 32 on the 3 lateral walls of second bolster, through the cooperation of guide way 23 and guide block 32, can carry out spacing to second bolster 3, make second bolster 3 only can slide from top to bottom along the second bolster, through set up second limiting plate 24 at the top of first bolster 2, can prevent through the cooperation of second limiting plate 24 and guide block 32 that second bolster 3 from deviating from in the second cushion chamber 21.

The second spring 22 is arranged in the second buffer cavity 21 and is positioned below the second buffer piece 3, one end of the second spring is fixedly connected with the bottom of the second buffer cavity 21, and the other end of the second spring is fixedly connected with the bottom of the second buffer piece 3. By arranging the second spring 22 in the second buffer chamber 21, one end of the second spring 22 is fixedly connected with the bottom of the second buffer chamber 21, and the other end of the second spring is fixedly connected with the bottom of the second buffer member 3, so that the second buffer member 3 can be buffered when the second buffer member 3 vibrates.

The lower end of the threaded column 4 is inserted into the threaded hole 31, and the mounting plate 5 is horizontally arranged at the top of the threaded column 4. An upwardly open threaded hole 31 is provided in the second buffer 3, a threaded post 4 is provided, the threaded post 4 is inserted into the threaded hole 31, and the depth of the threaded post 4 inserted into the threaded hole 31 can be adjusted by rotating the threaded hole 31, thereby adjusting the height of the mounting plate 5. When the installation site of the mechanical equipment is uneven or the supporting points of the mechanical equipment are not on the same plane, the height of the mounting plate 5 can be adjusted, so that all the damping devices can be matched for use, and the damping device is suitable for supporting various different mechanical equipment.

When damping mechanical equipment, select this damping device of suitable quantity to use according to mechanical equipment's size and weight, for example if mechanical equipment volume and weight are great can select this damping device of eight, ten or more, if mechanical equipment volume and weight are less, can select three, four this damping device to use.

When the vibration damping device is used, according to the size of the base 1 of the mechanical equipment, a proper number of vibration damping devices are uniformly arranged on a site where the mechanical equipment is required to be installed, the height positions of the mounting plates 5 on the vibration damping devices are adjusted, the mounting plates 5 of the vibration damping devices can be contacted with the bottom plate 14 of the mechanical equipment, then the mechanical equipment is hoisted to the vibration damping devices, and the mounting plates 5 of the vibration damping devices are fixed with the mechanical equipment.

This mechanical equipment damping device is through setting up base 1, first bolster 2, second bolster 3, screw thread post 4 and mounting panel 5, set up first cushion chamber 11 on the base 1, set up first spring 12 in the first cushion chamber 11, insert first bolster 2 in first cushion chamber 11 with first spring 12 fixed connection, can cushion first bolster 2 through first spring 12, set up second cushion chamber 21 on first bolster 2, set up the first spring in the second cushion chamber, insert second cushion chamber 21 in with second spring 22 fixed connection, can cushion second bolster 3 through second spring 22, through the combined action of two-stage spring, make damping device reach better shock attenuation effect.

Set up screw hole 31 on second bolster 3, insert screw thread post 4 in screw hole 31, set up mounting panel 5 at screw thread post 4 top and be used for being connected with mechanical equipment, can adjust the degree of depth of inserting in screw hole 31 through rotating screw thread post 4 to adjust the height of mounting panel 5, when using a plurality of mechanical equipment damping device cooperation, can adjust the height of mounting panel 5 of each damping device according to the difference to the height of mechanical equipment supporting point, thereby make each damping device all fix better with mechanical equipment, reach better shock attenuation effect.

The damping device of the mechanical equipment can be singly used, can be matched with a plurality of damping devices for use, is applicable to mechanical equipment with different volumes and weights, and has the advantages of simple structure and wide application range. The damping device can solve the problems of small application range, large volume and heavy weight and poor damping effect of the conventional damping device of mechanical equipment.

Through setting up first limiting plate 13 on base 1, set up the first spacing hole that matches with first buffer 2 on first limiting plate 13, set up buffer 25 that matches with first buffer 11 in first buffer 2 bottom, and set up the diameter of first buffer 2 and be less than the diameter of first buffer 11, can carry out spacingly to first limiting plate through first spacing hole buffer 25, make first limiting plate can only slide in vertical direction along first spacing chamber, can fix a position first buffer 2 through the cooperation of first limiting plate 13 and buffer 25, prevent that first buffer 2 from deviating from in the first buffer 11.

Through set up guide way 23 on the second buffer tank inner wall, set up guide block 32 on the second buffer 3 lateral wall, through the cooperation of guide way 23 and guide block 32, can carry out spacing to second buffer 3, make second buffer 3 only can follow the second buffer tank and slide from top to bottom.

Through setting up second limiting plate 24 at the top of first bolster 2, be provided with the second spacing hole that matches with second bolster 3 on second limiting plate 24, can fix a position second bolster 3 through the cooperation of second limiting plate 24 and guide block 32, prevent that second bolster 3 from deviating from in the second cushion chamber 21.

It should be noted that the above-mentioned embodiments illustrate rather than limit the utility model, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim.

Claims (8)

1. The damping device of the mechanical equipment is characterized by comprising a base (1), a first buffer piece (2), a second buffer piece (3), a threaded column (4) and a mounting plate (5),

a first buffer cavity (11) with an upward opening is arranged on the base (1), and a first spring (12) is arranged in the first buffer cavity (11);

the lower end of the first buffer piece (2) is inserted into the first buffer cavity (11), a second buffer cavity (21) with an upward opening is arranged on the first buffer piece (2), and a second spring (22) is arranged in the second buffer cavity (21);

the lower end of the second buffer piece (3) is inserted into the second buffer cavity (21), and the second buffer piece (3) is provided with a threaded hole (31) with an upward opening matched with the threaded column (4);

the first spring (12) is positioned below the first buffer piece (2), one end of the first spring is fixedly connected with the bottom of the first buffer cavity (11), and the other end of the first spring is fixedly connected with the bottom of the first buffer piece (2);

the second spring (22) is positioned below the second buffer piece (3), one end of the second spring is fixedly connected with the bottom of the second buffer cavity (21), and the other end of the second spring is fixedly connected with the bottom of the second buffer piece (3);

the lower end of the threaded column (4) is inserted into the threaded hole (31);

the mounting plate (5) is horizontally arranged at the top of the threaded column (4).

2. The mechanical device damping device according to claim 1, further comprising a first limiting plate (13),

the first buffer cavity (11) is cylindrical;

the first limiting plate (13) is fixedly arranged at the top of the base (1), and a first limiting hole matched with the first buffer piece (2) is formed in the first limiting plate (13);

the first buffer piece (2) is cylindrical, the lower end of the first buffer piece passes through the first limiting hole and is inserted into the first buffer cavity (11), and a buffer plate (25) matched with the first buffer cavity (11) is arranged at the bottom of the first buffer piece;

the diameter of the first buffer (2) is smaller than the diameter of the first buffer cavity (11).

3. The mechanical equipment damping device according to claim 2, characterized in that the inner side wall of the first buffer member (2) is provided with a vertically extending guide groove (23),

and a guide block (32) matched with the guide groove (23) is arranged on the outer side wall of the second buffer piece (3) at a position corresponding to the guide groove (23), and the guide block (32) is slidably arranged in the guide groove (23).

4. A shock absorbing device for a mechanical apparatus according to claim 3, further comprising a second limiting plate (24),

the second buffer cavity (21) is cylindrical;

the second limiting plate (24) is fixedly arranged at the top of the first buffer piece (2), and a second limiting hole matched with the second buffer piece (3) is formed in the second limiting plate (24);

the second buffer piece (3) is cylindrical, and the lower end of the second buffer piece passes through the second limiting hole and is inserted into the second buffer cavity (21);

the diameter of the second buffer (3) is equal to the diameter of the second buffer cavity (21).

5. The mechanical device damping device according to claim 4, characterized in that the base (1) is cylindrical, the bottom is provided with a circular bottom plate (14), the diameter of the bottom plate (14) is larger than the diameter of the base (1).

6. The mechanical device damping device according to claim 5, further comprising a lock nut (41),

the locking nut (41) is sleeved on the threaded column (4).

7. The mechanical device damping device according to claim 6, characterized in that the first buffer chamber (11) is filled with a silicone gel (15).

8. The mechanical equipment damping device according to any one of claims 1 to 7, characterized in that a reinforcing rib (51) is provided on the bottom surface of the mounting plate (5).

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