CN216430386U - Damping device for heat conduction pipe machining - Google Patents

Abstract

The utility model discloses a damping device for machining a heat conduction pipe, which comprises a main body and a buffering device, wherein the buffering device is arranged in the main body. The utility model belongs to the technical field of shock absorption for machining heat conduction pipes, and particularly relates to a shock absorption device for machining a heat conduction pipe; in the use, unload the power through the impact force that buffer caused to vibrations and eliminate, effectively solved current damping device and can only cushion the shock attenuation simply, and then can't unload the power to the impact force that vibrations caused and eliminate, lead to the problem that shock attenuation is inefficient.

Description

Damping device for heat conduction pipe machining

Technical Field

The utility model belongs to the technical field of shock absorption for machining heat conduction pipes, and particularly relates to a shock absorption device for machining a heat conduction pipe.

Background

Machining means the process that changes the overall dimension or the performance of work piece through a mechanical equipment, can divide into cutting process and pressure machining according to the difference in the processing mode, no matter what type of machining all can produce great vibrations in the course of the work, great vibrations lead to the surrounding environment noise very big, and then require very high to the damping device in the machining process, but current damping device can only cushion the shock attenuation simply, and then can't unload the power to the impact force that vibrations caused and eliminate, lead to the shock attenuation inefficiency.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides the damping device for processing the heat conduction pipe, which eliminates the impact force caused by vibration through the damping device, and effectively solves the problem that the existing damping device can only simply buffer and damp, and further can not eliminate the impact force caused by vibration, so that the damping efficiency is low.

The technical scheme adopted by the utility model is as follows: the utility model relates to a damping device for machining a heat conduction pipe, which comprises a main body and a buffering device, wherein the buffering device is arranged in the main body; the main body comprises a box body, an action plate, a first supporting column, a first side column, a first buffering air bag, a second supporting column, a second buffering air bag, a third supporting column, a first buffering hole, a second buffering hole, a fourth spring and a fifth spring, the box body is arranged on the main body, the second supporting column is arranged at the bottom end of the inner wall of the box body, the first buffering air bag is arranged on the second supporting column, the first side column is arranged on the first buffering air bag, the action plate is arranged on the first side column, the third supporting column is arranged at the bottom end of the inner wall of the box body, the second buffering air bag is arranged on the third supporting column, the first supporting column is arranged on the second buffering air bag, the upper end of the first supporting column is arranged at the lower end of the action plate, the first buffering hole is arranged at the upper end of the box body, the second buffering hole is arranged at the upper end of the box body, one end of the fourth spring is arranged on the inner wall of the first buffering hole, the other end of the fourth spring is arranged on the side wall of the first side column, one end of the fifth spring is arranged on the inner wall of the second buffer hole, and the other end of the fifth spring is arranged on the side wall of the first supporting column.

Furthermore, the buffer device comprises a first spring, a second spring, a third spring, a first sliding groove, a first pulley, a first telescopic pipe, a second telescopic pipe, a first hinge and a second hinge, wherein the first sliding groove is formed in one side of the inner wall of the box body, one end of the first pulley is slidably arranged in the first sliding groove, the other end of the first pulley is arranged on the first hinge, one end of the first spring is arranged on the upper end of the inner wall of the box body, the other end of the first spring is arranged on the first hinge, one end of the first telescopic pipe is arranged on the first hinge, one end of the second spring is arranged on the other end of the first telescopic pipe, one end of the inner wall of the second telescopic pipe is arranged on the other end of the second spring, one end of the second hinge is arranged on one end of the outer wall of the second telescopic pipe, and the other end of the second hinge is arranged on the side wall of the first side column.

Further, the first buffer air bag is made of rubber.

Further, the second buffer air bag is made of rubber.

The utility model with the structure has the following beneficial effects: the scheme is that a damping device for processing a heat pipe is characterized in that a first side column is stressed to act on a first buffer air bag, the first buffer air bag performs buffer damping, a first support column is stressed to act on a second buffer air bag, the second buffer air bag performs buffer damping, a first side column is stressed to act on a fourth spring, the fourth spring performs buffer damping, the first side column is stressed to act on a second hinge, the second hinge is stressed to act on a second telescopic pipe, the second telescopic pipe is stressed to act on a second spring, the second spring performs buffer damping, the second spring is stressed to act on a first telescopic pipe, the first telescopic pipe is stressed to act on a first hinge, the first hinge is stressed to act on a first spring, the first spring performs buffer damping, the first support column is stressed to act on a fifth spring, the fifth spring performs buffer damping, and the first support column is stressed to act on a third spring, and the third spring is used for buffering and damping. The equipment has reasonable design, simple structure and strong practicability.

Drawings

FIG. 1 is a front sectional view of a shock absorber for heat pipe processing according to the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

fig. 3 is a partially enlarged view of a portion B in fig. 1.

The device comprises a main body 1, a main body 2, a buffer device 3, a box body 4, an action plate 5, a first support column 6, a first side column 7, a first buffer air bag 8, a second support column 9, a second buffer air bag 10, a third support column 11, a first buffer hole 12, a second buffer hole 13, a fourth spring 14, a fifth spring 15, a first spring 16, a second spring 17, a third spring 18, a first sliding groove 19, a first pulley 20, a first telescopic pipe 21, a second telescopic pipe 22, a first hinge 23 and a second hinge.

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-3, the shock absorbing device for processing a heat pipe of the present invention comprises a main body 1 and a buffer device 2, wherein the buffer device 2 is disposed in the main body 1; the main body 1 comprises a box body 3, an action plate 4, a first support column 5, a first side column 6, a first buffer air bag 7, a second support column 8, a second buffer air bag 9, a third support column 10, a first buffer hole 11, a second buffer hole 12, a fourth spring 13 and a fifth spring 14, the box body 3 is arranged on the main body 1, the second support column 8 is arranged at the bottom end of the inner wall of the box body 3, the first buffer air bag 7 is arranged on the second support column 8, the first side column 6 is arranged on the first buffer air bag 7, the action plate 4 is arranged on the first side column 6, the third support column 10 is arranged at the bottom end of the inner wall of the box body 3, the second buffer air bag 9 is arranged on the third support column 10, the first support column 5 is arranged on the second buffer air bag 9, the upper end of the first support column 5 is arranged at the lower end of the action plate 4, and the first buffer hole 11 is arranged at the upper end of the box body 3, second buffer hole 12 is located the upper end of box 3, the one end of fourth spring 13 is located on the inner wall of first buffer hole 11, the other end of fourth spring 13 is located on the lateral wall of first side post 6, the one end of fifth spring 14 is located on the inner wall of second buffer hole 12, the other end of fifth spring 14 is located on the lateral wall of first support column 5.

The buffer device 2 comprises a first spring 15, a second spring 16, a third spring 17, a first sliding chute 18, a first pulley 19, a first telescopic pipe 20, a second telescopic pipe 21, a first hinge 22 and a second hinge 23, the first sliding groove 18 is arranged on one side of the inner wall of the box body 3, one end of the first pulley 19 is arranged in the first sliding groove 18 in a sliding way, the first hinge 22 is arranged at the other end of the first pulley 19, one end of the first spring 15 is arranged at the upper end of the inner wall of the box body 3, the other end of the first spring 15 is arranged on a first hinge 22, one end of the first telescopic pipe 20 is arranged on the first hinge 22, one end of the second spring 16 is arranged at the other end of the first telescopic pipe 20, one end of the inner wall of the second telescopic pipe 21 is arranged at the other end of the second spring 16, one end of the second hinge 23 is arranged at one end of the outer wall of the second extension tube 21, and the other end of the second hinge 23 is arranged on the side wall of the first side column 6.

The first cushion airbag 7 is made of rubber.

The second buffer air bag 9 is made of rubber.

When the telescopic shock absorber is used, a user firstly applies force to the first side column 6 to act on the first buffer air bag 7, the first buffer air bag 7 performs buffer shock absorption, the first support column 5 applies force to the second buffer air bag 9, the second buffer air bag 9 performs buffer shock absorption, the side surface of the first side column 6 applies force to act on the fourth spring 13, the fourth spring 13 performs buffer shock absorption, the side surface of the first side column 6 applies force to act on the second hinge 23, the second hinge 23 applies force to act on the second telescopic tube 21, the second telescopic tube 21 applies force to act on the second spring 16, the second spring 16 performs buffer shock absorption, the second spring 16 applies force to act on the first telescopic tube 20, the first telescopic tube 20 applies force to act on the first hinge 22, the first hinge 22 applies force to act on the first spring 15, the first spring 15 performs buffer shock absorption, the side surface of the first support column 5 applies force to act on the fifth spring 14, and the fifth spring 14 performs buffer shock absorption, the lateral surface of the first supporting column 5 is stressed to act on the third spring 17, the third spring 17 performs buffering and shock absorption, the whole working process is realized, and the step is repeated when the novel damping support is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (4)

1. The utility model provides a damping device is used in heat pipe processing which characterized in that: the damping device is arranged in the main body; the main body comprises a box body, an action plate, a first supporting column, a first side column, a first buffering air bag, a second supporting column, a second buffering air bag, a third supporting column, a first buffering hole, a second buffering hole, a fourth spring and a fifth spring, the box body is arranged on the main body, the second supporting column is arranged at the bottom end of the inner wall of the box body, the first buffering air bag is arranged on the second supporting column, the first side column is arranged on the first buffering air bag, the action plate is arranged on the first side column, the third supporting column is arranged at the bottom end of the inner wall of the box body, the second buffering air bag is arranged on the third supporting column, the first supporting column is arranged on the second buffering air bag, the upper end of the first supporting column is arranged at the lower end of the action plate, the first buffering hole is arranged at the upper end of the box body, the second buffering hole is arranged at the upper end of the box body, one end of the fourth spring is arranged on the inner wall of the first buffering hole, the other end of the fourth spring is arranged on the side wall of the first side column, one end of the fifth spring is arranged on the inner wall of the second buffer hole, and the other end of the fifth spring is arranged on the side wall of the first supporting column.

2. The vibration damper for heat pipe processing according to claim 1, wherein: the buffer device comprises a first spring, a second spring, a third spring, a first sliding groove, a first pulley, a first telescopic pipe, a second telescopic pipe, a first hinge and a second hinge, wherein the first sliding groove is formed in one side of the inner wall of the box body, one end of the first pulley is slidably arranged in the first sliding groove, the other end of the first pulley is arranged on the first hinge, one end of the first spring is arranged on the upper end of the inner wall of the box body, the other end of the first spring is arranged on the first hinge, one end of the first telescopic pipe is arranged on the first hinge, one end of the second spring is arranged on the other end of the first telescopic pipe, one end of the inner wall of the second telescopic pipe is arranged on the other end of the second spring, one end of the second hinge is arranged on one end of the outer wall of the second telescopic pipe, and the other end of the second hinge is arranged on the side wall of the first side column.

3. The vibration damper for heat pipe processing according to claim 2, wherein: the first buffer air bag is made of rubber.

4. The vibration damper for heat pipe processing according to claim 3, wherein: the second buffer air bag is made of rubber.

Images