CN115789176A - Multidimensional damping device - Google Patents

Abstract

The invention discloses a multidimensional vibration isolation and reduction device, and relates to the technical field of multidimensional vibration isolation and reduction devices; the damping device comprises a top plate and a bottom plate, wherein four vertical damping assemblies are arranged between the top plate and the bottom plate, the four vertical damping assemblies are respectively fixedly arranged at four corners of the upper surface of the bottom plate, a vertical damping effect is realized by arranging the four vertical damping assemblies which are vertically arranged, and horizontal damping can be realized by distributing the four horizontal damping assemblies between the top plate and the bottom plate in a conical shape, so that a three-dimensional damping effect is realized; adjusting screw makes the cross piece drive the arm-tie displacement, makes the second free bearing slide along convex spout, then enables the interval control of roof and bottom plate, can realize the damping change when the slide cartridge slides along the piston rod to and change the pressure size that the piston dish extruded the ripple section of thick bamboo, make the resilience intensity change of every spring simultaneously, then conveniently change absorbing damping intensity.

Description

Multidimensional damping device

Technical Field

The invention relates to the technical field of multidimensional damping devices, in particular to a multidimensional damping device.

Background

When large-scale lathe bed and equipment device etc. process the part, can be because of exogenic action produces vibrations, need add damping device to equipment itself usually in order to eliminate the internal stress, an equipment damage for eliminating vibrations and causing, life-span reduction phenomenon, although vertical shock attenuation effect has been realized to present bumper shock absorber or shock pad, but, still can be disturbed by the vibrations of horizontal direction, be difficult to realize multidimension and separate the shock attenuation effect, and the same damping device of different equipment usages, because of damping device's shock attenuation intensity is unified relatively, when leading to different equipment processing shock attenuation effects, the effect is unsatisfactory, be difficult to realize the regulation of shock attenuation damping intensity, to the above-mentioned problem, the inventor provides a multidimension and separates damping device and is used for solving above-mentioned problem.

Disclosure of Invention

The shock absorber or the shock pad aims to solve the problems that although the vertical shock absorption effect is realized by the existing shock absorber or the shock pad, the shock absorber or the shock pad is still interfered by the vibration in the horizontal direction, the multi-dimensional shock absorption effect is difficult to realize, different equipment uses the same shock absorption device, and the shock absorption intensity of the shock absorption device is relatively uniform, so that the effect is not ideal when the shock absorption effect is processed by different equipment, and the adjustment of the shock absorption damping intensity is difficult to realize; the invention aims to provide a multidimensional vibration isolation and reduction device.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides a multidimension separates damping device, includes roof and bottom plate, install four vertical damper between roof and the bottom plate, and four vertical damper fixes the four corners department of locating the bottom plate upper surface respectively, roof threaded connection has intensity adjusting part, bottom plate upper surface slidable mounting has four horizontal damper, horizontal damper and intensity adjusting part sliding connection, install intensity adjusting power component on the intensity adjusting part, intensity adjusting power component is connected with the transmission of horizontal damper, can realize vertical, horizontal direction's three-dimensional shock attenuation effect that separates through installing four vertical damper and four horizontal damper between roof and the bottom plate to through intensity adjusting power component transmission intensity adjusting part, make horizontal damper and vertical damper's shock-proof strength carry out quick regulation.

Preferably, the top plate upper surface is fixedly provided with four studs, four studs are respectively arranged at four corners of the top plate upper surface, mounting grooves are formed in the surfaces of two sides of the top plate, first bolts are arranged in the mounting grooves in a threaded mode, the first bolts are connected with the strength adjusting assembly in a threaded mode, the top plate upper surface is connected with a supported structure through the four studs, and the strength adjusting assembly is mounted at the bottom surface of the top plate through the first bolts.

Preferably, the strength adjusting assembly comprises a rectangular block, the rectangular block is in threaded connection with a first bolt, a cross sliding groove is formed in the rectangular block, a cross block is arranged in the cross sliding groove in a sliding mode, four pulling plates are connected in the cross block in a rotating mode, the bottom ends of the pulling plates are respectively connected with one horizontal damping assembly in a rotating mode, the bottom surface of the rectangular block is fixedly connected with the strength adjusting power assembly, the rectangular block is fixedly installed at the bottom end of the top plate through the first bolt, the cross block can slide in the cross sliding groove, and included angles of the four pulling plates are changed; the cross block is provided with four rotary grooves which are distributed in a rectangular shape, the inner walls of the rotary grooves are rotatably connected with pull plates, and the upper ends of the pull plates can rotate in the rotary grooves; the horizontal damping assembly comprises a convex block, the convex block is connected with the bottom surface of a rectangular block in a sliding manner, a first hinged support is fixedly arranged on the bottom surface of the convex block, the first hinged support is connected with the bottom end of a pulling plate in a rotating manner, a sliding barrel is connected with the first hinged support in a rotating manner, a piston rod is arranged in the sliding barrel in a sliding manner, a second hinged support is connected with the bottom end of the piston rod in a rotating manner, a second spring is sleeved on the outer surface of the piston rod, two ends of the second spring are respectively fixedly connected with the top end of the piston rod and the end face of the sliding barrel, when the included angle of the pulling plate is changed, the first hinged support can slide along the bottom surface of the rectangular block through the convex block, the sliding barrel can slide along the piston rod, the second spring is deformed, the distance between the top plate and the bottom plate is adjusted, and the damping change of the sliding barrel when the sliding along the piston rod can be realized through the deformation of the second spring, so that the damping strength of the damping can be changed; a second sliding rod is connected in the second hinged support in a sliding mode and fixedly connected with the bottom plate, a third spring is sleeved on the outer surface of the second sliding rod, the second hinged support slides along the second sliding rod, the third spring is deformed, and the second hinged support has a buffering effect when sliding; four convex chutes are formed in the upper surface of the bottom plate, the second hinge seats are slidably connected in the convex chutes, the inner walls of the convex chutes are fixedly connected with the second sliding rods, a plurality of screw holes are formed in four corners of the bottom plate, the screw holes are connected with the vertical damping assemblies in a threaded mode, and the second hinge seats slide along the convex chutes formed in the bottom plate, so that the horizontal damping effect of the supporting structure connected with the top plate is achieved through the four horizontal damping assemblies.

Preferably, the vertical damping assembly comprises a rectangular plate, the rectangular plate is provided with four second bolts through threads, the bottom ends of the second bolts are connected in screw holes through threads, a sealing cover is fixedly arranged on the upper surface of the rectangular plate, a piston disc is connected in the sealing cover in a sliding manner, guide rods are fixedly arranged on the upper surface of the piston disc, a corrugated cylinder is fixedly arranged on the bottom surface of the piston disc, the bottom end of the corrugated cylinder is fixedly arranged at the inner bottom surface of the sealing cover, an air faucet is fixedly sleeved on the corrugated cylinder, the corrugated cylinder is fixedly sleeved with the sealing cover, a rubber clamping seat is fixedly arranged at the upper end of the sealing cover, a rubber conical seat is clamped on the outer surface of the rubber clamping seat, the upper surface of the rubber conical seat is attached to the bottom surface of a top plate, the upper end of each guide rod movably penetrates through the rubber clamping seat and is fixedly connected with the rubber conical seat, a gas is blown into the corrugated cylinder through the air faucet by a gas pressure pump, so that the air pressure in the corrugated cylinder is increased, and when the top plate is loaded, the top plate presses and holds the rubber conical seat to displace the rubber conical seat, so that the guide rods push the piston disc to slide along the sealing cover and press the corrugated cylinder to deform, thereby achieving a damping effect through the rubber conical seat and the corrugated cylinder; the outer surface of the bottom end of the corrugated cylinder is fixedly provided with a plurality of corner blocks, the corner blocks are in threaded connection with the inner bottom surface of the sealing cover, the inner wall of the sealing cover is provided with a plurality of guide grooves, first slide bars are fixedly arranged in the guide grooves, first springs are sleeved on the outer surfaces of the first slide bars, the first slide bars are in sliding connection with the piston disc, the corrugated cylinder is fixedly installed on the inner bottom surface of the sealing cover, and therefore the piston disc slides along the first slide bars and is buffered through the first springs, and then the corrugated cylinder is extruded to achieve a stable damping effect; the power component is adjusted to intensity is including the screw rod, screw rod threaded connection has the connecting plate, the four corners department of connecting plate all fixes being equipped with the L shaped plate, the upper end of L shaped plate and the bottom surface fixed connection of rectangular block, the upper end and the cross piece of screw rod rotate to be connected, and adjusting screw makes the cross piece slide along the cross spout, realizes then that the contained angle of arm-tie changes.

Compared with the prior art, the invention has the beneficial effects that:

1. the vertical damping effect is realized by installing four vertical damping assemblies which are vertically installed, and the horizontal damping can be realized by distributing the four horizontal damping assemblies between the top plate and the bottom plate in a conical shape, so that the three-dimensional damping effect is realized;

2. adjusting screw makes the cross piece drive the arm-tie displacement, makes the second free bearing slide along the convex spout, enables the interval adjustment of roof and bottom plate then, can realize the damping change when the sliding barrel slides along the piston rod to and change the pressure size that the piston dish extrudeed the ripple section of thick bamboo, make the answer intensity change of every spring simultaneously, conveniently change absorbing damping intensity then.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is an overall schematic view of the present invention.

Fig. 2 is a schematic view of the connection of the top and bottom plates of the structure of the present invention.

FIG. 3 is a schematic view of a structural backing plate of the present invention.

Fig. 4 is a schematic view of the structural strength adjustment assembly of the present invention.

Figure 5 is a schematic view of a structural vertical shock assembly of the present invention.

FIG. 6 is an enlarged schematic view of the point A in the structure of FIG. 5.

In the figure: 1. a top plate; 11. mounting grooves; 12. a stud; 13. a first bolt; 2. a base plate; 21. a screw hole; 22. a convex chute; 3. a vertical shock absorbing assembly; 31. a rectangular plate; 32. a second bolt; 33. a sealing cover; 331. a guide groove; 332. a first slide bar; 333. a first spring; 34. an air tap; 35. a bellows; 351. a corner block; 36. a rubber clamping seat; 37. a rubber conical seat; 38. a guide bar; 39. a piston disc; 4. a horizontal shock absorbing member; 41. a convex block; 42. a first hinge base; 43. a slide cylinder; 44. a piston rod; 45. a second spring; 46. a second hinge base; 47. a second slide bar; 48. a third spring; 5. a strength adjustment power assembly; 51. a screw; 52. a connecting plate; 53. an L-shaped plate; 6. a strength adjustment assembly; 61. a rectangular block; 611. a cross-shaped chute; 62. a cross block; 621. rotating the groove; 63. and (5) pulling the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1-6, the invention provides a multidimensional isolation and damping device, which comprises a top plate 1 and a bottom plate 2, wherein four vertical damping assemblies 3 are arranged between the top plate 1 and the bottom plate 2, the four vertical damping assemblies 3 are respectively and fixedly arranged at four corners of the upper surface of the bottom plate 2, the top plate 1 is in threaded connection with a strength adjusting assembly 6, four horizontal damping assemblies 4 are slidably arranged on the upper surface of the bottom plate 2, the horizontal damping assemblies 4 are slidably connected with the strength adjusting assembly 6, a strength adjusting power assembly 5 is arranged on the strength adjusting assembly 6, and the strength adjusting power assembly 5 is in transmission connection with the horizontal damping assemblies 4.

Through adopting above-mentioned technical scheme, can realize vertical, the three-dimensional shock attenuation effect that separates of horizontal direction through four vertical damper 3 of installation and four horizontal damper 4 between roof 1 and the bottom plate 2 to through 5 transmission strength adjusting part 6 of intensity regulation power component, make horizontal damper 4 and vertical damper 3's shock resistance intensity carry out quick regulation.

Fixed surface installs four double-screw bolts 12 on roof 1, four the four corners department of roof 1 upper surface is located respectively to double-screw bolt 12, mounting groove 11 has all been seted up on the both sides surface of roof 1, 11 internal threads in mounting groove are provided with first bolt 13, first bolt 13 and 6 threaded connection of intensity adjusting part.

Through adopting above-mentioned technical scheme, top plate 1 upper surface is realized through four double-screw bolts 12 with by bearing structure's being connected, and first bolt 13 is installed intensity adjustment subassembly 6 in the bottom surface department of top plate 1.

The strength adjusting assembly 6 comprises a rectangular block 61, the rectangular block 61 is in threaded connection with the first bolt 13, a cross sliding groove 611 is formed in the rectangular block 61, a cross block 62 is arranged in the cross sliding groove 611 in a sliding mode, four pull plates 63 are connected in the cross block 62 in a rotating mode, the bottom ends of the pull plates 63 are respectively connected with one horizontal damping assembly 4 in a rotating mode, and the bottom surface of the rectangular block 61 is fixedly connected with the strength adjusting power assembly 5.

By adopting the above technical scheme, the rectangular block 61 is fixedly installed at the bottom end of the top plate 1 through the first bolt 13, the cross block 62 can slide in the cross sliding groove 611, and the included angles of the four pulling plates 63 are changed.

Four rotating grooves 621 are formed in the cross block 62, the four rotating grooves 621 are distributed in a rectangular shape, and the inner walls of the rotating grooves 621 are rotatably connected with the pulling plate 63.

By adopting the above technical solution, the upper end of the pulling plate 63 can rotate in the rotating groove 621.

Horizontal damper 4 is including convex block 41, convex block 41 and rectangular block 61 bottom surface sliding connection, the fixed first free bearing 42 that is equipped with in convex block 41 bottom surface, first free bearing 42 rotates with arm-tie 63 bottom and is connected, first free bearing 42 rotates and is connected with slide cartridge 43, it is equipped with piston rod 44 to slide in slide cartridge 43, piston rod 44 bottom rotates and is connected with second free bearing 46, second free bearing 46 and bottom plate 2 sliding connection, the surface cover of piston rod 44 is equipped with second spring 45, the both ends of second spring 45 respectively with the top of piston rod 44 and slide cartridge 43 terminal surface fixed connection.

Through adopting above-mentioned technical scheme, when the contained angle of arm-tie 63 changes, enable first free bearing 42 to pass through convex block 41 and slide along rectangular block 61 bottom surface, make smooth section of thick bamboo 43 slide along piston rod 44 then to make second spring 45 deformation, make the interval of roof 1 and bottom plate 2 adjust then, through the deformation of second spring 45, can realize the damping change of smooth section of thick bamboo 43 when sliding along piston rod 44, change absorbing damping intensity then.

The second hinge seat 46 is connected with a second sliding rod 47 in a sliding manner, the second sliding rod 47 is fixedly connected with the bottom plate 2, and a third spring 48 is sleeved on the outer surface of the second sliding rod 47.

By adopting the above technical solution, the second hinge base 46 slides along the second slide rod 47, and the third spring 48 is deformed, so that the second hinge base 46 has a buffering effect when sliding.

Four convex chutes 22 are formed in the upper surface of the bottom plate 2, the convex chutes 22 are slidably connected with the second hinge bases 46, the inner walls of the convex chutes 22 are fixedly connected with the second sliding rods 47, a plurality of screw holes 21 are formed in four corners of the bottom plate 2, and the screw holes 21 are in threaded connection with the vertical shock absorption assemblies 3.

By adopting the above technical scheme, the second hinged support 46 slides along the convex sliding groove 22 formed on the bottom plate 2, so that the horizontal damping effect of the supporting structure connected with the top plate 1 is realized through the four horizontal damping components 4.

Vertical damper 3 is including rectangular plate 31, the screw thread is provided with four second bolts 32 on rectangular plate 31, second bolt 32 bottom threaded connection is in screw 21, rectangular plate 31 upper surface is fixed and is equipped with sealed cowling 33, sliding connection has piston disc 39 in the sealed cowling 33, the last fixed surface of piston disc 39 is equipped with guide arm 38, the fixed ripple section of thick bamboo 35 that is equipped with in bottom surface of piston disc 39, ripple section of thick bamboo 35 bottom mounting locates bottom surface department in the sealed cowling 33, the fixed air cock 34 that has cup jointed on the ripple section of thick bamboo 35, ripple section of thick bamboo 35 and sealed cowling 33 fixed cup joint, the fixed rubber cassette 36 that is equipped with of sealed cowling 33 upper end department, rubber cone 37 is installed to rubber cassette 36 surface joint, the top surface laminating of rubber cone 37 connects roof 1 bottom surface, the upper end activity of guide arm 38 runs through rubber cassette 36 to fixed connection rubber cone 37.

Through adopting above-mentioned technical scheme, use the pneumatic pump to bulge into gas in air cock 34 to bellows 35, make the atmospheric pressure in the bellows 35 increase, when roof 1 load, roof 1 presses and holds the displacement of rubber taper seat 37, makes guide arm 38 promote piston disc 39 and slides along sealed cowling 33 to extrude bellows 35 deformation, thereby realize the shock attenuation effect through rubber taper seat 37 and bellows 35.

The outer surface of the bottom end of the corrugated cylinder 35 is fixedly provided with a plurality of corner blocks 351, the corner blocks 351 are in threaded connection with the inner bottom surface of the sealing cover 33, the inner wall of the sealing cover 33 is provided with a plurality of guide grooves 331, a first sliding rod 332 is fixedly arranged in the guide grooves 331, a first spring 333 is sleeved on the outer surface of the first sliding rod 332, and the first sliding rod 332 is in sliding connection with the piston disc 39.

By adopting the above technical scheme, the bellows 35 is fixedly installed at the inner bottom surface of the sealing cover 33, so that the piston disc 39 slides along the first sliding rod 332, is buffered by the first spring 333, and then extrudes the bellows 35 to realize a stable damping effect.

The strength adjusting power assembly 5 comprises a screw 51, the screw 51 is in threaded connection with a connecting plate 52, L-shaped plates 53 are fixedly arranged at four corners of the connecting plate 52, the upper ends of the L-shaped plates 53 are fixedly connected with the bottom surface of a rectangular block 61, and the upper ends of the screw 51 are rotatably connected with a cross block 62.

By adopting the above technical scheme, the screw 51 is adjusted to enable the cross block 62 to slide along the cross sliding groove 611, and then the change of the included angle of the pulling plate 63 is realized.

The working principle is as follows: four vertical shock absorption components 3 and four horizontal shock absorption components 4 are arranged at the bottom end of a supported structure to realize the vertical and horizontal three-dimensional shock absorption effect, the bottom end of the supported structure is fixedly connected with a top plate 1 through a stud 12, the bottom end of a bottom plate 2 is fixedly arranged, a rectangular block 61 is fixedly arranged at the bottom end of the top plate 1 through a first bolt 13, when the supported structure is acted by external force, a sliding cylinder 43 slides along a piston rod 44 and a second spring 45 is deformed, the sliding cylinder 43 slides along the piston rod 44 due to the damping property of an air cavity in the sliding cylinder 43, the shock absorption effect can be realized by matching the deformation of the second spring 45, and the four horizontal shock absorption components 4 are distributed between the top plate 1 and the bottom plate 2 in a conical shape, so that the horizontal shock absorption effect is realized, and air is blown into a corrugated cylinder 35 through an air nozzle 34 by using an air pressure pump, make the atmospheric pressure in the bellows 35 increase, roof 1 presses and holds the displacement of rubber taper seat 37, make guide arm 38 promote piston disc 39 and slide along the sealed cowling 33, and make bellows 35 and first spring 333 deformation, thereby realize the shock attenuation effect through rubber taper seat 37 and bellows 35, and four vertical shock attenuation subassemblies 3 distribute in the four corners department of bottom plate 2, and vertical installation, thereby realize vertical shock attenuation effect, and according to the different cargos, accessible adjusting screw 51, make cross 62 slide along cross spout 611, make the contained angle of four arm-tie 63 change, and make first free bearing 42 slide along rectangular block 61 bottom surface through convex block 41, and second free bearing 46 then slides along convex spout 22, then make the interval regulation of roof 1 and bottom plate 2, then conveniently change absorbing damping intensity.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A multidimension separates damping device, includes roof (1) and bottom plate (2), its characterized in that: install four vertical damper (3) between roof (1) and bottom plate (2), and four vertical damper (3) are fixed respectively and are located the four corners department of bottom plate (2) upper surface, roof (1) threaded connection has intensity adjusting part (6), surface slidable mounting has four horizontal damper (4) on bottom plate (2), horizontal damper (4) and intensity adjusting part (6) sliding connection, install intensity adjusting power subassembly (5) on intensity adjusting part (6), intensity adjusting power subassembly (5) are connected with horizontal damper (4) transmission.

2. The multidimensional vibration isolation and reduction device as claimed in claim 1, wherein four studs (12) are fixedly mounted on the upper surface of the top plate (1), the four studs (12) are respectively arranged at four corners of the upper surface of the top plate (1), mounting grooves (11) are respectively formed in two side surfaces of the top plate (1), first bolts (13) are arranged in the mounting grooves (11) in a threaded manner, and the first bolts (13) are in threaded connection with the strength adjustment assembly (6).

3. The multidimensional vibration isolation and reduction device as recited in claim 2, wherein the strength adjustment assembly (6) comprises a rectangular block (61), the rectangular block (61) is in threaded connection with the first bolt (13), a cross sliding groove (611) is formed in the rectangular block (61), a cross block (62) is arranged in the cross sliding groove (611) in a sliding manner, four pull plates (63) are rotationally connected to the cross block (62), the bottom ends of the pull plates (63) are rotationally connected with one horizontal vibration reduction assembly (4) respectively, and the bottom surface of the rectangular block (61) is fixedly connected with the strength adjustment power assembly (5).

4. A multi-dimensional shock-absorbing device as claimed in claim 3, wherein said cross block (62) is provided with four slots (621), said four slots (621) are distributed in a rectangular shape, and the inner wall of said slot (621) is rotatably connected to the pulling plate (63).

5. The multidimensional damping device as claimed in claim 3, wherein the horizontal damping assembly (4) comprises a convex block (41), the convex block (41) is slidably connected with the bottom surface of a rectangular block (61), a first hinged support (42) is fixedly arranged on the bottom surface of the convex block (41), the first hinged support (42) is rotatably connected with the bottom end of a pulling plate (63), the first hinged support (42) is rotatably connected with a sliding barrel (43), a piston rod (44) is slidably arranged in the sliding barrel (43), the bottom end of the piston rod (44) is rotatably connected with a second hinged support (46), the second hinged support (46) is slidably connected with the bottom plate (2), a second spring (45) is sleeved on the outer surface of the piston rod (44), and two ends of the second spring (45) are respectively fixedly connected with the top end of the piston rod (44) and the end surface of the sliding barrel (43).

6. A multi-dimensional shock-absorbing and isolating device as claimed in claim 5, wherein a second sliding rod (47) is slidably connected to the second hinge base (46), the second sliding rod (47) is fixedly connected to the base plate (2), and a third spring (48) is sleeved on the outer surface of the second sliding rod (47).

7. The multidimensional vibration isolation and reduction device as claimed in claim 6, wherein the upper surface of the bottom plate (2) is provided with four convex sliding grooves (22), the convex sliding grooves (22) are connected with the second hinged support (46) in a sliding manner, the inner walls of the convex sliding grooves (22) are fixedly connected with the second sliding rod (47), the four corners of the bottom plate (2) are provided with a plurality of screw holes (21), and the screw holes (21) are in threaded connection with the vertical vibration reduction assembly (3).

8. The multidimensional damping device as claimed in claim 6, wherein the vertical damping component (3) comprises a rectangular plate (31), the rectangular plate (31) is provided with four second bolts (32) in a threaded manner, the bottom ends of the second bolts (32) are connected in screw holes (21) in a threaded manner, a sealing cover (33) is fixedly arranged on the upper surface of the rectangular plate (31), a piston disc (39) is connected in the sealing cover (33) in a sliding manner, a guide rod (38) is fixedly arranged on the upper surface of the piston disc (39), a corrugated cylinder (35) is fixedly arranged on the bottom surface of the piston disc (39), the bottom end of the corrugated cylinder (35) is fixedly arranged on the inner bottom surface of the sealing cover (33), an air tap (34) is fixedly connected on the corrugated cylinder (35), the corrugated cylinder (35) is fixedly sleeved with the sealing cover (33), a rubber clamping seat (36) is fixedly arranged at the upper end of the sealing cover (33), a rubber conical seat (37) is mounted on the outer surface of the rubber clamping seat (36), the upper surface of the rubber conical seat (37) is fixedly connected with a movable top plate (1), and penetrates through the rubber clamping seat (36).

9. The multidimensional vibration isolation and absorption device as claimed in claim 8, wherein a plurality of corner blocks (351) are fixedly arranged on the outer surface of the bottom end of the corrugated cylinder (35), the corner blocks (351) are in threaded connection with the inner bottom surface of the sealing cover (33), a plurality of guide grooves (331) are formed in the inner wall of the sealing cover (33), a first sliding rod (332) is fixedly arranged in each guide groove (331), a first spring (333) is sleeved on the outer surface of the first sliding rod (332), and the first sliding rod (332) is in sliding connection with the piston disc (39).

10. A multi-dimensional isolation and shock absorption device as claimed in claim 3, wherein the strength adjustment power assembly (5) comprises a screw (51), the screw (51) is connected with a connecting plate (52) in a threaded manner, the four corners of the connecting plate (52) are respectively and fixedly provided with an L-shaped plate (53), the upper end of each L-shaped plate (53) is fixedly connected with the bottom surface of the rectangular block (61), and the upper end of the screw (51) is rotatably connected with the cross block (62).

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