CN216080326U - Shock absorber and shock absorbing system - Google Patents

Abstract

The disclosure relates to the technical field of shock absorption, in particular to a shock absorber and a shock absorption system. The shock absorber includes damper, and damper includes fixing base, elastic ball and press part, is equipped with the storage tank in the fixing base, and the elastic ball sets up in the storage tank, and the press part is movably set up on the fixing base to be used for bearing the shock attenuation object, move towards the elastic ball under the pressure of shock attenuation object, with elastic ball extrusion deformation. Based on this, can effectively cushion.

Description

Shock absorber and shock absorbing system

Technical Field

The disclosure relates to the technical field of shock absorption, in particular to a shock absorber and a shock absorption system.

Background

Mechanical equipment such as an air conditioner outdoor unit can vibrate during operation, so that the noise problem is caused, structural parts are easily damaged, and the shock absorption is needed.

Disclosure of Invention

The present disclosure is directed to a shock absorber to achieve a shock absorbing effect.

In order to achieve the above object, the present disclosure provides a shock absorber including:

the damping assembly comprises a fixing seat, an elastic ball and a pressing piece, wherein a containing groove is formed in the fixing seat, the elastic ball is arranged in the containing groove, the pressing piece is movably arranged on the fixing seat and used for bearing a damping object, and the elastic ball is extruded and deformed by moving towards the elastic ball under the pressure of the damping object.

In some embodiments, the resilient ball is made of silicone or rubber material.

In some embodiments, at least two elastic balls are arranged in the accommodating groove, the at least two elastic balls are arranged in the accommodating groove side by side along the moving direction of the pressing part, and the pressing part is contacted with the elastic ball closest to the pressing part in the accommodating groove; and/or at least two accommodating grooves are formed in the fixing seat, the at least two accommodating grooves are arranged at intervals, each accommodating groove is internally provided with an elastic ball, the pressing part comprises a pressing seat and at least two pressing columns, and the at least two pressing columns are arranged at one end, close to the elastic balls, of the pressing seat and correspond to the at least two accommodating grooves one to one.

In some embodiments, the at least two receiving grooves are arranged on the same circumference.

In some embodiments, the fixing seat is provided with a vent hole, and the vent hole is communicated with the accommodating groove and the external environment.

In some embodiments, the shock absorber includes a mounting seat, a pressing plate and a connecting piece, the shock absorbing assembly is disposed on the mounting seat, the pressing plate is connected to the mounting seat through the connecting piece and is located on a side of the pressing piece away from the mounting seat, and a space is provided between the pressing plate and the pressing piece for inserting a shock absorbing object and applying pressure to the pressing piece.

In some embodiments, the shock absorber includes two limiting plates, and the two limiting plates are disposed on the surface of the pressing plate facing the mounting seat and located on two opposite sides of the pressing member for limiting the shock absorbing object.

In some embodiments, the limiting plate is an L-shaped plate.

In some embodiments, the pressing plate is movably disposed on the connecting member to be close to or far from the pressing member.

In some embodiments, the connector is threaded and the pressure plate is removably received on the connector and secured by the fastener.

In some embodiments, the shock absorber includes an anti-slip seat disposed on a side surface of the mounting seat away from the pressure plate.

The present disclosure additionally provides a damping system, which includes a damping object and the damper of the embodiments of the present disclosure, where the damper is disposed on the damping object to damp the damping object.

In some embodiments, the vibration-damping object includes an air conditioner frame for supporting an air conditioner outdoor unit, and the vibration damper is disposed on the air conditioner frame.

In some embodiments, the shock absorbing system includes at least two shock absorbers disposed at different corners of the air conditioner frame.

In some embodiments, the vibration-damping object further includes an air conditioner external unit mounted on the air conditioner frame.

Based on this bumper shock absorber that provides, when the shock attenuation object pressed on the holding part, the holding part can extrude the elastic ball, made the elastic ball produce elastic deformation, and when vibrations take place in the shock attenuation object working process, the elastic ball of deformation can with the inner wall movable contact of storage tank, effectively reduces the vibration range of shock attenuation object, reaches the shock attenuation effect.

Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

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

FIG. 1 is a schematic structural diagram of a shock absorbing system according to an embodiment of the present disclosure.

FIG. 2 is a schematic structural diagram of a shock absorber according to an embodiment of the present disclosure.

Figure 3 illustrates the internal structure of a shock absorbing assembly in an embodiment of the present disclosure.

FIG. 4 is a schematic structural diagram of the shock absorber in the embodiment of the present disclosure, with the shock absorbing assembly omitted.

Description of reference numerals:

100. a shock absorbing system; 101. a shock absorber; 102. a shock absorbing object; 103. an air conditioner rack; 104. a frame body; 105. a protruding section;

1. a shock absorbing assembly; 11. a fixed seat; 12. an elastic ball; 13. pressing a base; 14. supporting columns; 15. a sliding sleeve; 16. a containing groove; 17. a chute; 18. a vent hole; 19. a bearing surface; 10. a pressing member; 1a, a first seat body; 1b, a second seat body;

2. a mounting seat; 21. mounting holes;

3. a connecting member; 31. a screw; 32. a fastener;

4. pressing a plate;

5. a limiting plate;

6. and (4) an anti-slip seat.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without any inventive step, are intended to be within the scope of the present disclosure.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

In the description of the present disclosure, it should be understood that the terms "first", "second", etc. are used to define the components, and are used only for convenience of distinguishing the corresponding components, and if not otherwise stated, the terms have no special meaning, and thus, should not be construed as limiting the scope of the present disclosure.

In addition, technical features involved in different embodiments of the present disclosure described below may be combined with each other as long as they do not conflict with each other.

Figures 1-4 illustrate exemplary shock absorbing systems and shock absorbers of the present disclosure.

Referring to fig. 1, in an embodiment of the present disclosure, a shock absorbing system 100 includes a shock absorbing object 102 and a shock absorber 101. The damper 101 is provided on the damper object 102, and damps the damper object 102.

The damping object 102 may be various mechanical devices requiring damping. As an example, referring to fig. 1, the shock-absorbing object 102 includes an air-conditioning frame 103. The air conditioner bracket 103 is a bracket for supporting an air conditioner outdoor unit (not shown in the drawings). When in use, the air conditioner external unit is mounted on the air conditioner frame 103, supported by the air conditioner frame 103, and applies pressure to the air conditioner frame 103. In the working process, the air conditioner external unit vibrates to drive the air conditioner frame 103 to vibrate, so that large noise can be generated, the connection is easy to loose, and even parts are damaged, so that the shock absorption is needed.

As one structural form of the air-conditioning rack 103, as shown in fig. 1, the air-conditioning rack 103 includes four rack bodies 104, and the four rack bodies 104 are connected in a substantially rectangular shape such that the air-conditioning rack 103 has four corners. In the four shelves 104, the two shelves 104 extending in the transverse direction are not connected to the ends of the two shelves 104 extending in the longitudinal direction, but are connected to a portion between the ends of the two shelves 104 extending in the longitudinal direction, so that each of the shelves 104 extending in the longitudinal direction is outwardly protruded with respect to the two shelves 104 extending in the transverse direction, so that the air-conditioning shelf 103 has a length of the protruded section 105 at each of the four corners.

In order to effectively reduce vibration generated during the operation of the outdoor unit of the air conditioner, referring to fig. 1, in some embodiments, a damper 101 is provided on an air conditioner frame 103. The damper 101 is provided at a corner of the air-conditioning frame 103, and supports the air-conditioning frame 103. As an example, as shown in fig. 1, the shock absorbing system 100 includes at least two shock absorbers 101, and the at least two shock absorbers 101 are disposed at different corners of the air-conditioning frame 103 to further improve the shock absorbing effect. For example, as shown in fig. 1, in some embodiments, the damping system 100 includes four dampers 101, the four dampers 101 are respectively disposed at four corners of the air conditioner frame 103, and in this case, each corner of the air conditioner frame 103 is supported by one damper 101, so that not only the damping effect is better, but also the stability of the air conditioner frame 103 is better.

The structure of the shock absorber 101 will be explained with emphasis on fig. 2 to 4.

Referring to fig. 2-3, a shock absorber 101 provided by the embodiments of the present disclosure includes a shock absorbing assembly 1. The shock-absorbing assembly 1 comprises a fixed seat 11, an elastic ball 12 and a pressing piece 10. The fixing seat 11 is provided with a receiving groove 16. The elastic ball 12 is disposed in the accommodating groove 16. The pressing element 10 is movably disposed on the fixing base 11 and is used for bearing the damping object 102 so as to move toward the elastic ball 12 under the pressure of the damping object 102, so as to press and deform the elastic ball 12.

When the shock absorption object 102 vibrates in the working process, the deformed elastic ball 12 can be in movable contact with the inner wall of the accommodating groove 16, vibration energy is consumed, vibration is reduced, a shock absorption effect is achieved, noise is effectively reduced, and the risk of structural component damage caused by vibration is reduced.

Wherein the elastic ball 12 is a spheroid made of an elastic material. By way of example, the resilient ball 12 is made of silicone or rubber material, for example neoprene or other denser rubber material. The materials have good elasticity, high toughness and high stability, and can realize good damping effect.

In addition, the number of the elastic balls 12 is not limited. In order to achieve a better shock-absorbing effect, the number of the elastic balls is more than one, but may be two or more.

For example, referring to fig. 3, in some embodiments, more than one elastic ball 12 is disposed in the receiving groove 16, but at least two elastic balls 12 are disposed in the receiving groove 16 side by side along the moving direction of the pressing member 10, and the pressing member 10 is in contact with the elastic ball 12 closest to the pressing member 10 in the receiving groove 16. Based on this, because be equipped with more than one elastic ball 12 in every containing groove 16, consequently, more vibration energy can be dissipated in the shock attenuation process, realizes better shock attenuation effect. As an example, the receiving groove 16 is a cylindrical groove so as to receive the plurality of elastic balls 12 and make full contact with the deformed elastic balls 12, thereby achieving a better damping effect.

For another example, referring to fig. 3, in some embodiments, more than one receiving groove 16 is formed in the fixing seat 11, but at least two receiving grooves 16 are formed, the at least two receiving grooves 16 are arranged at intervals, each receiving groove 16 is provided with an elastic ball 12, at this time, the pressing member 10 includes a pressing seat 13 and at least two pressing columns 14, the at least two pressing columns 14 are disposed at one end of the pressing seat 13 close to the elastic ball 12, and are in one-to-one correspondence with the at least two receiving grooves 16. Based on this, in the shock absorption process, each support column 14 can extrude the elastic ball 12 in each accommodating groove 16, so that more shock energy can be dissipated, and a better shock absorption effect is realized. Wherein, all receiving grooves 16 can be arranged on same circumference, for example, can evenly be arranged on same circumference to carry out even shock attenuation in the different positions of corresponding circumference, obtain more even effectual shock attenuation effect.

Referring to fig. 2 and 3, in some embodiments, the fixing base 11 is provided with a vent 18, and the vent 18 communicates the accommodating groove 16 with the external environment. Thus, when the pressing member 10 moves toward the elastic ball 12 under the action of the damping object 102, the air in the accommodating groove 16 can flow to the external environment through the vent hole 18, so as to be released, and reduce the pressure inside the accommodating groove 16, thereby preventing the excessive pressure in the accommodating groove 16 from affecting the smooth movement of the pressing member 10. The position of the vent hole 18 is not limited, and for example, the vent hole may be disposed on a surface of the fixing base 11 close to the pressing member 10 or a surface of the fixing base far from the pressing member 10, as long as the accommodating groove 16 can communicate with the external environment.

As a further improvement of the previous embodiments, referring to fig. 1-4, the shock absorber 101 comprises a mounting base 2, a pressure plate 4 and a connecting member 3. The damping component 1 is arranged on the mounting seat 2, and the pressing plate 4 is connected with the mounting seat 2 through the connecting piece 3 and is positioned on one side of the pressing piece 10 far away from the mounting seat 2. A space is provided between the pressing plate 4 and the pressing member 10 for inserting the damping object 102 and applying pressure to the pressing member 10.

Based on the above arrangement, the shock absorbing assembly 1 can be supported by the mounting base 2, so as to enhance the structural stability of the shock absorber 101 and the shock absorbing system 100, and the pressing plate 4 and the pressing element 10 can play a certain limiting role in the shock absorbing object 102, so as to prevent the shock absorbing object 102 from being separated from the pressing element 10 during the shock absorbing process, which is beneficial for the shock absorber 101 to absorb shock more reliably.

And, referring to fig. 1-2, in some embodiments, the shock absorber 101 includes not only the mounting seat 2, the pressing plate 4 and the connecting member 3, but also two limiting plates 5, wherein the two limiting plates 5 are disposed on the surface of the pressing plate 4 facing the mounting seat 2 and located on opposite sides of the pressing member 10 for limiting the shock absorbing object 102. Therefore, the pressing plate 4 can limit the damping object 102, and the two limiting plates 5 can limit the damping object 102 to prevent the damping object 102 from deviating, so that the damping object 102 can be more reliably prevented from being disengaged from the abutting part 10, the damping object 102 can more reliably transmit vibration to the damper 101, and the damper 101 can more sufficiently achieve a damping effect.

Here, as shown in fig. 2, the position limiting plate 5 is an L-shaped plate, so that the position limiting plate 5 can be engaged with the pressing plate 4 to more reliably limit the damping object 102.

In addition, to enhance the flexibility of use of the shock absorber 101, referring to fig. 1-4, in some embodiments, the pressure plate 4 is movably disposed on the connecting member 3 to be closer to or farther from the pressing member 10. Therefore, the size of the gap between the pressing plate 4 and the pressing piece 10 is adjustable, and the shock-absorbing objects 102 of different specifications can be conveniently inserted, so that the same shock absorber 101 can be suitable for the shock-absorbing objects 102 of different specifications, the application range of the shock absorber 101 is expanded, and the use flexibility of the shock absorber 101 is enhanced.

As an implementation for realizing the movable arrangement of the pressure plate 4 on the connecting member 3, referring to fig. 1-4, in some embodiments, the connecting member 3 is provided with threads, and the pressure plate 4 is movably sleeved on the connecting member 3 and locked by a fastening member 32 such as a nut. Specifically, as shown in fig. 1-4, the connector 3 includes a threaded rod 31. Two screws 31 are disposed on the mounting base 2 and located at opposite sides of the shock-absorbing assembly 1. The pressing plate 4 is sleeved on the two screw rods 31 and locked by the two fasteners 32. Therefore, the size of the gap between the pressing plate 4 and the pressing part 10 can be changed by only moving the pressing plate 4 along the screw rods 31, adjusting the different height positions of the pressing plate 4 on the two screw rods 31 and locking the pressing plate 4 by the two fasteners 32, so that the shock absorber 101 is suitable for shock absorbing objects of different specifications, and is simple and convenient.

In addition, referring to fig. 2-4, in some embodiments, the shock absorber 101 includes not only the mounting seat 2, the pressing plate 4 and the connecting member 3, but also the anti-slip seat 6, and the anti-slip seat 6 is disposed on a side surface of the mounting seat 2 away from the pressing plate 4 for preventing slip. Based on this, can effectively prevent skidding, improve support stability.

The embodiments shown in fig. 1-4 will be further described below.

For convenience of description, "front, rear, upper, lower, left, right" is defined as "front, rear, upper, lower, left, right" of fig. 1-4.

As shown in fig. 1, in this embodiment, a damper 101 is installed at a corner of an air conditioner frame 103 for damping an air conditioner outdoor unit. And, as shown in fig. 2 to 4, the shock absorber 101 includes a shock absorbing assembly 1, a mounting seat 2, two screws 31, two fastening members 32, a pressing plate 4, two limiting plates 5, and two anti-slip seats 6.

As shown in fig. 4, the mount 2 is substantially rectangular, and the mount 2 is provided with a mount hole 21. The mounting hole 21 is a circular through hole that penetrates the mounting base 2 in the thickness direction of the mounting base 2 and is located at the center of the mounting base 2. The mounting hole 21 is used for mounting the shock-absorbing assembly 1.

The shock-absorbing assembly 1 is disposed at the mounting hole 21 and above the mounting seat 2. As shown in fig. 2 to 4, in this embodiment, the shock absorbing assembly 1 includes a fixed seat 11, a pressing member 10 and a sliding sleeve 15. The pressing member 10 includes a pressing base 13 and a plurality of pressing columns 14.

The fixing base 11 is cylindrical and made of rubber material, and the lower portion of the fixing base is clamped in the mounting hole 21 to achieve connection with the mounting base 2. A plurality of accommodating grooves 16 are uniformly distributed along the same circumference in the fixing seat 11, and two elastic balls 12 are arranged in each accommodating groove 16, so that a plurality of elastic balls 12 are arranged in the fixing seat 11. The elastic ball 12 is a sphere made of a relatively tough silicone material. Meanwhile, the top surface and the bottom surface of the fixing seat 11 are provided with a plurality of vent holes 18, the vent holes 18 on the same surface are uniformly distributed on the same circumference, and each vent hole 18 communicates the accommodating groove 16 with the external environment, so that the gas in the accommodating groove 16 is discharged, the internal pressure is reduced, and the pressing part 10 is convenient to move downwards. In addition, a sliding groove 17 is further formed in the fixed seat 11, and the sliding groove 17 is located above the accommodating groove 16 and penetrates through the top surface of the fixed seat 11 to achieve sliding connection between the fixed seat 11 and the pressing seat 13.

The pressing base 13 is made of rubber material, and the lower portion thereof is inserted into the sliding groove 17 and is slidably connected with the sliding groove 17 through the sliding sleeve 15, so that the pressing base 13 can be lifted up and down in the sliding groove 17 away from or close to the elastic ball 12. Specifically, as shown in fig. 2, in this embodiment, the pressing base 13 includes a first base body 1a and a second base body 1 b. The first seat body 1a is cylindrical, and a sliding sleeve 15 is sleeved outside the first seat body and inserted into the sliding groove 17 to be slidably connected with the sliding groove 17. The second seat body 1b is connected to the top end of the first seat body 1a, and is substantially in a truncated cone shape, and the cross section of the second seat body gradually decreases along the direction from bottom to top, so as to facilitate the installation of the limiting plate 5. The top surface of the second seat 1b forms a bearing surface 19 for contacting with the air conditioner frame 103, so as to bear the air conditioner frame 103 and an air conditioner outdoor unit. Since the bearing surface 19 is a plane, it can be sufficiently contacted with the lower surface of the air conditioner frame 103, and thus, it is possible to stably bear the air conditioner frame 103 and the air conditioner outdoor unit.

The plurality of support posts 14 are connected to the bottom surface of the pressing base 13, are uniformly distributed along the same circumference, are inserted into the accommodating grooves 16 in a one-to-one correspondence with the accommodating grooves 16, and are in contact with the elastic ball 12 positioned at the top of the accommodating grooves 16, so as to press the elastic ball 12 to deform the elastic ball 12 when pressed. The abutment 14 is cylindrical so as to be in full contact with the elastic ball 12, thereby achieving effective compression of the elastic ball 12.

The two screws 31 are connected to the upper surface of the mounting base 2 and symmetrically arranged at the left and right sides of the damping component 1 for mounting the pressing plate 4.

The pressing plate 4 is slidably sleeved on the two screws 31, is located above the pressing base 13, specifically above the bearing surface 19, and forms a gap for inserting the air conditioner frame 103 with the bearing surface 19. The height position of the pressure plate 4 on the two screws 31 can be flexibly adjusted to meet the installation requirements of air-conditioning frames 103 with different specifications. When the pressure plate 4 is adjusted to a proper position, the pressure plate 4 can be stably kept at the corresponding position only by locking the pressure plate 4 by using the two fasteners 32.

Two limiting plates 5 are the L template, and the two all is connected in the lower surface of clamp plate 4 to arrange in damper assembly 1's the left and right sides symmetrically, be used for with clamp plate 4 together, carry on spacingly to air conditioner frame 103, prevent that air conditioner frame 103 from taking place the skew in direction about or about in the up-and-down direction.

Two antiskid seat 6 are the rectangular block of being made by rubber materials, and the two fixed connection is in the lower surface of mount pad 2 to be located 2 length direction's of mount pad both ends, play anti-skidding effect.

When the damper 101 of this embodiment is in use, only need to overlap four dampers 101 respectively in four corners of air conditioner frame 103, make four sections 105 that stretch out of air conditioner frame 103 insert respectively the clamp plate 4 of the bumper 101 that corresponds, press in the space between seat 13 and two limiting plates 5, make the lower surface that stretches out the section 105 contact with the bearing surface 19 who presses seat 13, install the outer machine of air conditioner to air conditioner frame 103 again, and adjust the high position of clamp plate 4 on screw rod 31, make clamp plate 4 be in suitable position, then lock clamp plate 4, can accomplish the equipment of bumper 101 with the outer machine of air conditioner frame 103 and air conditioner.

In the assembling process, as the air conditioner outdoor unit gradually sinks, the air conditioner frame 103 gradually presses the pressing base 13, so that the abutting column 14 gradually moves downwards, all the elastic balls 12 in the accommodating groove 16 are gradually extruded, all the elastic balls 12 in the accommodating groove 16 are elastically deformed until all the elastic balls 12 are jointly supported below the abutting piece 10, and a constant peak value is reached, so that a relatively stable state is achieved.

After the installation, when treating the outer machine of follow-up air conditioner and starting, the vibrations of the outer machine of air conditioner pass to air conditioner frame 103 for the pressure seat 13 of laminating mutually can drive and support post 14 and continue to move down, carries out further extrusion to elastic ball 12, because at the vibrations in-process, the elastic ball 12 of deformation can be through the inner wall movable contact with storage tank 16, dissipation vibrations energy, consequently, can effectively reduce vibration amplitude, noise abatement.

Therefore, the shock absorber 101 of the embodiment can achieve a good shock effect, can be conveniently suitable for air conditioner frames 103 of different specifications, and is high in use flexibility.

The above description is only exemplary of the present disclosure and is not intended to limit the present disclosure, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure.

Claims (15)

1. A shock absorber (101), comprising:

the damping assembly (1) comprises a fixed seat (11), an elastic ball (12) and a pressing piece (10), wherein a containing groove (16) is formed in the fixed seat (11), the elastic ball (12) is arranged in the containing groove (16), and the pressing piece (10) is movably arranged on the fixed seat (11) and used for bearing a damping object (102) so as to move towards the elastic ball (12) under the pressure of the damping object (102) to extrude and deform the elastic ball (12).

2. The shock absorber (101) of claim 1, wherein the resilient ball (12) is made of silicone or a rubber material.

3. The shock absorber (101) according to claim 1, wherein at least two said elastic balls (12) are provided in said receiving groove (16), said at least two elastic balls (12) are arranged side by side in said receiving groove (16) along the moving direction of said pressing member (10), said pressing member (10) is in contact with the elastic ball (12) closest to said pressing member (10) in said receiving groove (16); and/or at least two accommodating grooves (16) are arranged in the fixing seat (11), the at least two accommodating grooves (16) are arranged at intervals, each accommodating groove (16) is internally provided with the elastic ball (12), the pressing piece (10) comprises a pressing seat (13) and at least two pressing columns (14), and the at least two pressing columns (14) are arranged at one end, close to the elastic ball (12), of the pressing seat (13) and correspond to the at least two accommodating grooves (16) one to one.

4. The shock absorber (101) of claim 3, wherein the at least two receiving grooves (16) are arranged on the same circumference.

5. The shock absorber (101) as claimed in claim 1, wherein the fixing seat (11) is provided with a vent hole (18), and the vent hole (18) communicates the receiving groove (16) with the external environment.

6. The shock absorber (101) as claimed in any one of claims 1 to 5, wherein the shock absorber (101) comprises a mounting seat (2), a pressing plate (4) and a connecting member (3), the shock absorbing assembly (1) is disposed on the mounting seat (2), the pressing plate (4) is connected with the mounting seat (2) through the connecting member (3) and is located on one side of the pressing member (10) far away from the mounting seat (2), and a space is provided between the pressing plate (4) and the pressing member (10) for the shock absorbing object (102) to insert and apply pressure to the pressing member (10).

7. The shock absorber (101) as claimed in claim 6, wherein the shock absorber (101) comprises two limiting plates (5), the two limiting plates (5) are disposed on the surface of the pressing plate (4) facing the mounting seat (2) and located on opposite sides of the pressing piece (10) for limiting the shock absorbing object (102).

8. The shock absorber (101) of claim 7, wherein the limiting plate (5) is an L-shaped plate.

9. The shock absorber (101) of claim 6, wherein the pressure plate (4) is movably arranged on the connecting member (3) to approach or move away from the pressing member (10).

10. The shock absorber (101) of claim 9, wherein the connecting member (3) is provided with a thread, and the pressure plate (4) is movably sleeved on the connecting member (3) and locked by a fastening member (32).

11. The shock absorber (101) according to claim 6, wherein the shock absorber (101) comprises an anti-slip seat (6), and the anti-slip seat (6) is arranged on one side surface of the mounting seat (2) far away from the pressure plate (4).

12. A shock absorbing system (100) comprising a shock absorbing object (102), characterized by further comprising a shock absorber (101) according to any one of claims 1-11, said shock absorber (101) being arranged on said shock absorbing object (102) for absorbing shock of said shock absorbing object (102).

13. The damping system (100) according to claim 12, wherein the damping object (102) comprises an air conditioner rack (103), the air conditioner rack (103) is used for supporting an outdoor unit of an air conditioner, and the damper (101) is disposed on the air conditioner rack (103).

14. The shock absorbing system (100) of claim 13, wherein said shock absorbing system (100) comprises at least two said shock absorbers (101), said at least two shock absorbers (101) being provided at different corners of said air-conditioner frame (103).

15. The damping system (100) of claim 13, wherein the damping object (102) further comprises an air conditioner outdoor unit mounted on the air conditioner rack (103).

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