A vibration damping pad mounting structure

By using a toothed sleeve and toothed block fit and a spring return design, the problem of complex operation of existing vibration damping pad installation structures is solved, enabling rapid installation and disassembly, and improving the stability and vibration damping performance of the equipment.

CN224433220UActive Publication Date: 2026-06-30GUANGXI XINSANDA RUBBER TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGXI XINSANDA RUBBER TECH CO LTD
Filing Date
2025-09-12
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing vibration damping pad installation structure is complicated to operate during assembly and disassembly, especially in confined spaces where bolt pre-installation is difficult and replacement is cumbersome when damaged, affecting assembly efficiency and equipment stability.

Method used

It adopts a structure design that combines toothed sleeves and toothed blocks, and can be quickly installed and disassembled through a pull handle. It also uses a spring to assist in reset, and combines a double buffer structure of airbag layer and silicone layer to improve the vibration reduction effect.

Benefits of technology

It enables rapid installation and removal of vibration damping pads, improves assembly efficiency, facilitates the replacement of damaged parts, enhances the stability and reliability of equipment, and reduces vibration transmission.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a vibration damping pad installation structure, including a vibration damping pad body, a connecting seat fixedly connected to one end of the vibration damping pad body, an installation seat inserted into one end of the connecting seat, a first moving groove opened inside the connecting seat, a first moving rod slidably arranged inside the first moving groove, a toothed sleeve fixedly connected to the outer wall of the installation seat, a placement groove provided on one side of the first moving rod, a toothed block placed in the placement groove, the toothed block being fixedly connected to the first moving rod, an auxiliary pad fixedly connected to the outer end of the first moving rod passing through the first moving groove, and a pull handle fixedly connected to the outer end of the auxiliary pad, the pull handle being arc-shaped.
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Description

Technical Field

[0001] This utility model belongs to the field of vibration damping pad installation technology, and specifically relates to a vibration damping pad installation structure. Background Technology

[0002] In the operation of equipment in various fields today, vibration damping pads are key components that play an indispensable role in reducing vibration and noise generated during equipment operation, improving equipment stability, and extending equipment service life. However, the existing vibration damping pad installation structure is extremely complicated in the assembly process. During installation, bolts need to be inserted into the sheath first, and then the sheath is placed into the vibration damping pad body. When the operating space is small, the pre-installation of bolts is extremely difficult, resulting in low assembly efficiency. Furthermore, when the mounting base of the vibration damping pad is damaged, the disassembly and replacement process is also cumbersome, often requiring a lot of time and effort. Utility Model Content

[0003] In view of the problems mentioned above in the background art, the purpose of this utility model is to provide a vibration damping pad installation structure.

[0004] To achieve the above technical objectives, the technical solution adopted by this utility model is as follows:

[0005] A vibration damping pad mounting structure includes a vibration damping pad body. One end of the vibration damping pad body is fixedly connected to a connecting seat, and one end of the connecting seat is inserted with a mounting seat. A first moving groove is formed inside the connecting seat, and a first moving rod is slidably arranged inside the first moving groove. A toothed sleeve is fixedly connected to the outer wall of the mounting seat. A placement groove is provided on one side of the first moving rod, and a toothed block is placed in the placement groove. The toothed block is fixedly connected to the first moving rod. An auxiliary pad is fixedly connected to the outer end of the first moving rod through the first moving groove, and a pull handle is fixedly connected to the outer end of the auxiliary pad. The pull handle is arc-shaped.

[0006] Furthermore, a second movable groove is provided above the connecting seat, and a second movable rod is slidably disposed inside the second movable groove. The outer side of the second movable rod is fixedly mounted on the auxiliary pad. This structural design serves to assist in guiding the movement.

[0007] Furthermore, a spring is wound around the outer wall of the second moving rod, with one end of the spring fixedly connected to the second moving rod and the other end fixedly connected to the second moving groove. This structural design enables automatic reset.

[0008] Furthermore, the toothed block and the toothed sleeve fit together, and the toothed blocks and the toothed sleeve have matching teeth. This structural design provides a fixing effect.

[0009] Furthermore, the vibration damping pad is fixedly installed at the top of the damping pad body, an airbag layer is provided inside the damping pad, a silicone layer is installed on the upper side of the airbag layer, and an anti-wear cover is installed on the top exterior of the damping pad. This structural design can achieve a good vibration damping effect.

[0010] The beneficial effects of this utility model are as follows: This utility model achieves rapid installation by utilizing the cooperation of the toothed sleeve and the toothed block. The toothed block can also be retracted into the placement slot by pulling the handle, easily inserting the toothed sleeve on top of the mounting base into the connecting seat. Then, pushing the handle in the opposite direction completes the installation, greatly improving the efficiency of installation and disassembly, facilitating timely replacement of damaged mounting bases. By incorporating a spring, the auxiliary pad is compressed and deformed when the handle moves outward. When the pulling force on the handle is released, the spring automatically rebounds, pushing the second moving rod to reset, enhancing ease of use. Furthermore, the toothed block and toothed sleeve fit together closely with their teeth engaged, resulting in more even force distribution during operation. Simultaneously, the interlocking teeth precisely limit their relative displacement, effectively preventing unnecessary shaking or offset, further improving the stability and reliability of the equipment operation. Attached Figure Description

[0011] This utility model can be further illustrated by the non-limiting embodiments given in the accompanying drawings;

[0012] Figure 1 This is a schematic diagram of the axial structure of a vibration damping pad mounting structure according to an embodiment of the present invention;

[0013] Figure 2 This is a schematic cross-sectional view of the connecting seat of a vibration damping pad mounting structure according to an embodiment of the present invention;

[0014] Figure 3 This is an enlarged structural diagram of point A of a vibration damping pad installation structure according to an embodiment of the present invention;

[0015] Figure 4 This is an exploded structural diagram of a vibration damping pad installation structure according to an embodiment of the present invention;

[0016] The symbols for the main components are explained below:

[0017] Vibration damping pad body 1, connecting seat 2, mounting seat 3, first moving groove 4, first moving rod 5, placement groove 6, toothed block 7, toothed sleeve 8, auxiliary pad 9, second moving groove 10, second moving rod 11, spring 12, pull handle 13, vibration damping pad 14, airbag layer 15, silicone layer 16, anti-wear cover 17. Detailed Implementation

[0018] To enable those skilled in the art to better understand this utility model, the technical solution of this utility model will be further described below in conjunction with the accompanying drawings and embodiments.

[0019] Example 1, such as Figure 1 and Figure 2 As shown, a vibration damping pad installation structure is provided. One end of the vibration damping pad body 1 is fixedly connected to a connecting seat 2, and one end of the connecting seat 2 is inserted with an installation seat 3. A first moving groove 4 is provided inside the connecting seat 2, and a first moving rod 5 is slidably arranged inside the first moving groove 4. A toothed sleeve 8 is fixedly connected to the outer wall of the installation seat 3. A placement groove 6 is provided on one side of the first moving rod 5, and a toothed block 7 is placed in the placement groove 6. The toothed block 7 is fixedly connected to the first moving rod 5. An auxiliary pad 9 is fixedly connected to the outer end of the first moving rod 5 through the first moving groove 4. A pull handle 13 is fixedly connected to the outer end of the auxiliary pad 9. The pull handle 13 is arc-shaped.

[0020] In this embodiment, during use, the operator holds the mounting base 3 and rotates it into the connecting base 2. The toothed sleeve 8 on the outer wall of the mounting base 3 will slide upward along the toothed block 7. Alternatively, the operator can pull the handles 13 on both sides, causing the handles 13 to drive the first moving rod 5 to slide outward along the first moving groove 4, causing the first moving rod 5 to drive the toothed block 7 back into the placement groove 6. Then, the toothed sleeve 8 on the top of the mounting base 3 is inserted into the connecting base 2. Then, the handles 13 are pushed in the opposite direction, causing the handles 13 to push the auxiliary pad 9. The auxiliary pad 9 pushes the first moving rod 5, and the first moving rod 5 pushes the toothed block 7 to insert into the toothed sleeve 8. Finally, the vibration damping pad body 1 is aligned and connected to the bottom connection part of the equipment.

[0021] When disassembly or adjustment is required later, simply pull the handle 13 again to separate the toothed block 7 from the toothed sleeve 8, and the mounting base 3 can be easily removed from the connecting base 2, making it easy to replace the damaged mounting base 3.

[0022] Example 2, as Figure 3 As shown, this embodiment adds the following structure based on embodiment 1: a second moving groove 10 is provided above the connecting seat 2, a second moving rod 11 is slidably arranged inside the second moving groove 10, and the outer side of the second moving rod 11 is fixedly installed on the auxiliary pad 9.

[0023] In this embodiment, during use, when the auxiliary pad 9 is moved outward by the pull handle 13, the auxiliary pad 9 drives the second moving rod 11, causing the second moving rod 11 to slide in the second moving groove 10 to achieve the effect of assisting and guiding the movement.

[0024] Example 3, as Figure 3 As shown, this embodiment adds the following structure based on embodiment 1: a spring 12 is wound around the outer wall of the second moving rod 11, one end of the spring 12 is fixedly connected to the second moving rod 11, and the other end of the spring 12 is fixedly connected to the second moving groove 10.

[0025] In this embodiment, during use, when the auxiliary pad 9 is moved outward by the pull handle 13, the auxiliary pad 9 drives the second moving rod 11, causing the second moving rod 11 to slide in the second moving groove 10, and at the same time, it squeezes the spring 12. The spring 12 is compressed and deformed by the force. When the pulling force on the pull handle 13 is released, the spring 12 rebounds and automatically pushes the second moving rod 11 to perform the reset work.

[0026] Example 4, as Figure 3 As shown, this embodiment adds the following structure to the embodiment 1: the tooth block 7 and the tooth sleeve 8 fit together, and the tooth pattern of the tooth block 7 and the tooth sleeve 8 matches.

[0027] In this embodiment, the toothed block 7 and the toothed sleeve 8 work together to make the force on both more even, and the interlocking of the tooth patterns restricts their relative displacement, avoiding unnecessary shaking or deviation.

[0028] Example 5, as Figure 4 As shown, this embodiment adds the following structure based on embodiment 1: a vibration damping pad 14 is fixedly installed at the top of the vibration damping pad body 1, an airbag layer 15 is provided inside the vibration damping pad 14, a silicone layer 16 is installed on the upper side of the airbag layer 15, and an anti-wear cover 17 is installed on the top exterior of the vibration damping pad 14.

[0029] In this embodiment, a vibration damping pad 14 is fixedly installed at the top of the vibration damping pad body 1. The vibration damping pad 14 has an airbag layer inside. The airbag layer itself has good elasticity and deformation capacity. When subjected to external impact or vibration, it can effectively absorb and buffer the impact force through its own compression and rebound, greatly reducing the transmission of vibration. The silicone layer on the upper side of the airbag layer is soft and elastic, which can further enhance the buffering effect. Together with the airbag layer, it forms a double buffer structure, which improves the overall vibration damping performance. At the same time, the wear cover can directly resist external friction, scratches and other effects, preventing direct damage to the silicone layer and other components at the top of the vibration damping pad.

[0030] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit the scope of this utility model. Any person skilled in the art can modify or alter the above embodiments without departing from the spirit and scope of this utility model. Therefore, all equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.

Claims

1. A vibration-damping-pad mounting structure comprising a vibration-damping-pad body (1), characterized by: The vibration damping pad body (1) is fixedly connected to a connecting seat (2) at one end, and a mounting seat (3) is inserted into one end of the connecting seat (2). A first moving groove (4) is opened inside the connecting seat (2), and a first moving rod (5) is slidably arranged inside the first moving groove (4). A toothed sleeve (8) is fixedly connected to the outer wall of the mounting seat (3). A placement groove (6) is provided on one side of the first moving rod (5). A toothed block (7) is placed in the placement groove (6). The toothed block (7) is fixedly connected to the first moving rod (5). An auxiliary pad (9) is fixedly connected to the outer end of the first moving rod (5) through the first moving groove (4). A pull handle (13) is fixedly connected to the outer end of the auxiliary pad (9). The pull handle (13) is arc-shaped.

2. The mounting structure for a vibration damping pad according to claim 1, characterized by: A second moving groove (10) is provided above the connecting seat (2), and a second moving rod (11) is slidably provided inside the second moving groove (10). The outer side of the second moving rod (11) is fixedly installed on the auxiliary pad (9).

3. The mounting structure for a vibration damping pad according to claim 2, characterized by: A spring (12) is wound around the outer wall of the second moving rod (11). One end of the spring (12) is fixedly connected to the second moving rod (11), and the other end of the spring (12) is fixedly connected to the second moving groove (10).

4. The vibration damping pad installation structure according to claim 3, characterized in that: The tooth block (7) and the tooth sleeve (8) fit together, and the tooth pattern of the tooth block (7) and the tooth sleeve (8) are matched.

5. The vibration damping pad mounting structure according to claim 4, characterized in that: The vibration damping pad body (1) is fixedly installed with a vibration damping pad (14) at the top. An airbag layer (15) is provided inside the vibration damping pad (14). A silicone layer (16) is installed on the upper side of the airbag layer (15). An anti-wear cover (17) is installed on the top outside of the vibration damping pad (14).