CN115355281A - Damping piece and electronic equipment - Google Patents

Abstract

The invention discloses a shock-absorbing part and electronic equipment, wherein the shock-absorbing part comprises a soft base body and a soft stud, the soft base body comprises a first base body part and a second base body part which are connected, the soft stud is connected to the first base body part, the first base body part is provided with a first fastener matching hole, and the second base body part is provided with a stud matching hole and a second fastener matching hole; when the first base body part and the second base body part are bent relatively to realize pre-buckling matching, the soft nail column correspondingly penetrates into the nail column matching hole to realize clamping, and the first fastener matching hole and the second fastener matching hole are opposite in the axial direction. In the product assembling process, the damping piece can be directly buckled on the edge of a mechanism needing damping to realize bending self-buckling, so that damping assembly is realized.

Description

Damping piece and electronic equipment

Technical Field

The invention relates to the technical field of damping structures, in particular to a damping piece and electronic equipment.

Background

Most of the existing shockproof structures adopt an I-shaped silica gel column, which is clamped into a plate-shaped structure, and then the plate-shaped structure is matched with a screw hole column through a screw, so that the plate-shaped structure and the screw hole column are fixed. However, in the structure, the edge of the plate-shaped structure needs to be provided with the clamping groove for clamping the i-shaped silica gel column, and the design generally easily causes the plate-shaped structure to be separated from the silica gel column during vibration, so that the clamping grooves with opposite notches and corresponding i-shaped silica gel columns need to be arranged on other edges of the plate-shaped structure to be assembled, so that the plate-shaped structure is reversely propped in multiple different directions, the structure is complex, and the shockproof effect is general. The other type is that silica gel pads are respectively arranged on two opposite sides of the plate-shaped structure to be matched with fasteners for fixing, but the structure is complex to assemble.

The above background disclosure is only for the purpose of assisting understanding of the concept and technical solution of the present invention and does not necessarily belong to the prior art of the present patent application, and should not be used for evaluating the novelty and inventive step of the present application in the case that there is no clear evidence that the above content is disclosed at the filing date of the present patent application.

Disclosure of Invention

In order to solve the technical problems, the invention provides a damping piece and electronic equipment.

In order to achieve the purpose, the invention adopts the following technical scheme:

in a first aspect, the invention discloses a shock-absorbing member, which comprises a soft base body and a soft stud, wherein the soft base body comprises a first base body part and a second base body part which are connected with each other, the soft stud is connected to the first base body part, the first base body part is provided with a first fastener matching hole, and the second base body part is provided with a stud matching hole and a second fastener matching hole; when the first base body part and the second base body part are relatively bent to realize pre-buckling matching, the soft nail column correspondingly penetrates into the nail column matching hole to realize clamping, and the first fastener matching hole is opposite to the second fastener matching hole in the axial direction.

The first base body portion and the second base body portion are bent relatively to achieve the pre-buckling fit, and the bending may be understood as bending only the first base body portion to achieve the pre-buckling fit (at this time, the first base body portion may be bent toward the second base body portion to achieve the pre-buckling fit), or bending only the second base body portion to achieve the pre-buckling fit (at this time, the second base body portion may be bent toward the first base body portion to achieve the pre-buckling fit), or bending both the first base body portion and the second base body portion to achieve the pre-buckling fit (at this time, the first base body portion and the second base body portion may be bent toward each other at the same time to achieve the pre-buckling fit).

Further, the radial dimension of the soft nail column is greater than or equal to that of the nail column matching hole, and when the first base body part and the second base body part are bent relatively to realize pre-buckling matching, the outer side wall of the soft nail column is abutted against the hole wall of the nail column matching hole; or the soft nail column is provided with a limit button on the peripheral side, a space is arranged between the limit button and the first base body part to form a button position space, and the second base body part is clamped in the button position space when the first base body part and the second base body part are relatively bent to realize pre-button matching.

Furthermore, when the soft nail post is provided with a limit buckle, the sum of the maximum radial sizes of the limit buckle and the soft rubber nail is larger than the radial size of the nail post matching hole on the height of the limit buckle arranged on the soft rubber nail.

Furthermore, the two opposite sides of the soft base body are respectively provided with a first cushion block and a second cushion block, wherein the first cushion block is arranged on the first base body portion, connected with one side of the soft nail column, and correspondingly arranged at the edge of the first fastener matching hole, and the second cushion block is arranged on the second base body portion, and correspondingly arranged at the edge of the second fastener matching hole.

Further, the soft stud, the first base body portion, and the second base body portion are of an integrally molded structure.

In a second aspect, the invention further discloses an electronic device, which comprises a first mechanism to be shockproof, a second mechanism to be shockproof, a fastener and the damping piece of the first aspect, wherein an installation part is arranged at the side edge of the first mechanism to be shockproof, a first through hole and a second through hole are formed in the installation part, the first base body part and the second base body part are bent oppositely, and the soft nail column penetrates into the first through hole and the nail column matching hole; the fastener penetrates through the second fastener matching hole, the second through hole and the first fastener matching hole and is fixedly connected with the second mechanism to be prevented from vibration, so that the damping piece is fixedly connected between the first mechanism to be prevented from vibration and the second mechanism to be prevented from vibration.

Further, the mounting portion is of a groove-shaped structure, the first through hole and the second through hole are formed in the bottom of the groove-shaped structure, and when the shock absorbing member is mounted at the groove-shaped structure and the first base body portion and the second base body portion are bent relatively to achieve pre-buckling fit, the outer side wall of at least one side of the second base body portion is abutted to the side wall of at least one side of the groove-shaped structure.

Further, within the second through hole, a radial dimension of the second through hole is greater than a radial dimension of the fastener.

Further, the radial dimension of the first through hole and the radial dimension of the stud mating hole are respectively smaller than or equal to the radial dimension of the soft stud, and the radial dimensions of the first fastener mating hole and the second fastener mating hole are respectively smaller than or equal to the radial dimension of the fastener.

Further, a fastener fixing post is arranged on the second mechanism to be shockproof, a fastener fixing hole is arranged on the fastener fixing post, and when the first base body portion and the second base body portion are bent relative to the mounting portion to achieve pre-buckling matching, the fastener fixing hole is communicated with the second through hole, the first fastener matching hole and the second fastener matching hole at the same time.

Compared with the prior art, the invention has the beneficial effects that: the invention discloses a damping piece, wherein a soft base body can be bent by itself to realize pre-buckling matching, a soft nail column and a corresponding nail column matching hole are arranged on the soft base body, and a first fastener matching hole and a second fastener matching hole are also formed, so that the damping piece can be directly buckled at the edge of the side edge of a mechanism to be damped in the product assembling process, wherein the damping piece is made of soft materials, has elasticity and can pass through the mechanism to be damped to realize bending self-buckling and can be connected and fixed on another mechanism to be damped to be connected along with the mechanism to be damped, and further damping assembly is realized. According to the electronic equipment disclosed by the invention, when the damping piece is assembled, the damping piece can be directly buckled on the first mechanism to be damped, the buckling mode is simple, the buckled damping piece can stably move along with the first mechanism to be damped and cannot fall off in the assembling and moving process of the first mechanism to be damped, so that the assembling convenience can be greatly improved, and the assembling efficiency is improved.

In a further scheme, the invention also has the following beneficial effects:

(1) Through the radial dimension who sets up soft nail post and the radial dimension of nail post mating holes, perhaps set up spacing knot in soft nail post week side, further guarantee buckle relatively in order to realize the cooperation of detaining in advance at first base body portion and second base body portion, soft nail post can tightly direct card in the nail post mating holes and make soft base member keep the state of buckling, avoid soft base member to resume to the expansion state when the cooperation of detaining in advance to further improve the assembly convenience.

(2) The both sides that back on the body are equipped with the first cushion that corresponds with first fastener mating holes and the second cushion that corresponds with second fastener mating holes respectively on soft base member, can strengthen the shock attenuation effect and prevent not hard up of fastener when the cooperation is connected the fastener.

(3) The mounting part arranged at the side edge of the first mechanism to be damped is of a groove-shaped structure, and the side wall of at least one side of the groove-shaped structure is abutted with the outer side wall of at least one side of the second base body part, so that the damping part can be prevented from shifting or rotating at the mounting part.

(4) The radial dimension of the first through hole and the radial dimension of the nail column matching hole are respectively smaller than or equal to the radial dimension of the soft nail column, so that the soft nail column can be kept still after penetrating into the first through hole and the nail column matching hole; and by combining the radial dimensions of the first fastener matching hole and the second fastener matching hole which are respectively smaller than or equal to the radial dimensions of the fasteners, the fasteners are tightly clamped between the first fastener matching hole and the second fastener matching hole, the shaking of the fasteners is reduced, the rigid collision between the fasteners and the second through hole is further reduced, namely the rigid collision between the fasteners and the first mechanism to be shockproof is reduced, the vibration transmitted from the second mechanism to be shockproof to the first mechanism to be shockproof through the fasteners is further reduced, and the shock absorption effect is improved.

Drawings

FIG. 1 is a schematic view showing a shock absorbing member according to a preferred embodiment of the present invention in a deployed state;

FIG. 2 is a top plan view of the shock absorbing member disclosed in the preferred embodiment of the present invention;

FIG. 3 is a schematic structural view of a shock-absorbing member disclosed in a preferred embodiment of the present invention in a bent state;

FIG. 4 is a schematic view of an assembled structure of the electronic device disclosed in the preferred embodiment of the present invention;

FIG. 5 is a schematic structural view of the first mechanism to be protected from shock in FIG. 4;

FIG. 6 is an enlarged schematic view at A in FIG. 5;

FIG. 7 is a schematic view of the shock absorbing member fixedly connected between the first mechanism to be damped and the second mechanism to be damped by a fastener according to the preferred embodiment of the present invention;

fig. 8 is an enlarged schematic view at B in fig. 7.

Detailed Description

The embodiments of the present invention will be described in detail below. It should be emphasized that the following description is merely exemplary in nature and is not intended to limit the scope of the invention or its application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element. In addition, the connection may be for either a fixed function or a circuit/signal communication function.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the embodiments of the present invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be in any way limiting of the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

As shown in fig. 1 and 2, a preferred embodiment of the present invention discloses a cushion 100, which comprises a soft base 10 and a soft stud 20, wherein the soft base 10 comprises a first base 11 and a second base 12 which are connected, the soft stud 20 is connected to the first base 11, the first base 11 is provided with a first fastener matching hole 111, and the second base 12 is provided with a second fastener matching hole 121 and a stud matching hole 122. As shown in fig. 3, when the second base portion 12 is bent toward the first base portion 11 (here, the first base portion 11 may be bent toward the second base portion 12, or the first base portion 11 and the second base portion 12 are bent toward each other at the same time, the same applies below) to achieve the pre-fastening engagement, the soft stud 20 correspondingly penetrates into the stud engaging hole 122 to achieve the fastening engagement, and the first fastener engaging hole 111 and the second fastener engaging hole 121 are axially opposite to each other.

In this embodiment, the first base portion 11 and the second base portion 12 are in planar contact and are integrally formed into the soft base 10, the soft base 10 and the soft studs 20 can be made of silicon rubber or rubber, and the soft studs 20 are disposed perpendicular to the surface of the soft base 10 and are integrally formed with the soft base 10.

In some embodiments, the radial dimension of the soft stud 20 is greater than or equal to the radial dimension of the stud mating hole 122, and when the second base portion 12 is bent toward the first base portion 11 to achieve the pre-fastening fit, the outer side wall of the soft stud 20 abuts against the hole wall of the stud mating hole 122. Or in other embodiments, the soft stud 20 is provided with a position-limiting buckle 21 on the peripheral side, a space is formed between the position-limiting buckle 21 and the first base body 11 to form a buckling space 30, and when the second base body 12 is bent towards the first base body 11 to achieve pre-buckling engagement, the second base body 12 is clamped in the buckling space 30. Further, at the height at which the soft rubber nail 20 is provided with the stopper 21, the sum of the maximum radial dimensions of the stopper 21 and the soft rubber nail 20 is larger than the radial dimension of the nail post fitting hole 122. With both arrangements, when the second base body 12 is bent toward the first base body 11 to achieve the pre-engagement, the soft stud 20 can be directly engaged with the stud engagement hole 122 to keep the soft base body 10 in the bent state (i.e., the bent state of the soft base body 10 shown in fig. 3), and the second base body 12 can be prevented from rebounding to a state in which it is in plane contact with the first base body 11 (i.e., the unfolded state of the soft base body 10 shown in fig. 1) during the pre-engagement.

The two opposite sides of the soft base body 10 are respectively provided with a first cushion block 13 and a second cushion block 14, wherein the first cushion block 13 is disposed on the first base body portion 11 and connected to one side of the soft stud 20 and is correspondingly disposed at the edge of the first fastener matching hole 111, and the second cushion block 14 is disposed on the second base body portion 12 and is correspondingly disposed at the edge of the second fastener matching hole 121. Wherein first cushion 13 and second cushion 14 adopt the line of flower type structure respectively, through follow-up cooperation fastener, can strengthen the shock attenuation effect and prevent not hard up of fastener.

The shock absorbing member 100 disclosed in the preferred embodiment of the present invention can be bent by itself, and is provided with a soft stud 20 and a corresponding stud mating hole 122, and further provided with a first fastener mating hole 111 and a second fastener mating hole 121, so that in the product assembly process, the shock absorbing member 100 can be directly fastened to the side edge of a mechanism to be damped (such as an optical machine, a heat sink, a sound box, etc. in a projector), wherein the shock absorbing member 100 has elasticity and can be bent and fastened by itself by passing through the mechanism to be damped, and can be placed on a threaded post of a housing along with the mechanism to be damped, and finally the shock absorbing member 100, the mechanism to be damped and the threaded post are screwed by screws, thereby achieving shock absorbing assembly.

As shown in fig. 4 to 8, a preferred embodiment of the present invention discloses an electronic device, which includes a first mechanism 200 to be shockproof, a second mechanism 300 to be shockproof, a fastener 400 and a shock absorbing element 100, wherein a mounting portion 210 is disposed at a side of the first mechanism 200 to be shockproof, a first through hole 211 and a second through hole 212 are opened at the mounting portion 210, the shock absorbing element 100 is mounted at the mounting portion 210, such that a soft stud 20 penetrates into the first through hole 211, and when the second base portion 12 bends toward the first base portion 11 to achieve pre-fastening, the first through hole 211 penetrates through the stud mating hole 122, such that the first through hole 211 and the stud mating hole 122 simultaneously penetrate through the soft stud 20, and the second through hole 212 penetrates through the first fastener mating hole 111 and the second fastener mating hole 121, such that the fastener 400 sequentially penetrates through the second fastener mating hole 121, the second through hole 212 and the first fastener mating hole 111 to fixedly connect the shock absorbing element 100 between the first mechanism 200 to be shockproof and the second mechanism 300 to be shockproof. Wherein the fastener 400 may be a screw, bolt, etc.

In the electronic device, the first base body part 11 and the second base body part 12 are relatively bent, and the soft peg 20 penetrates into the first through hole 211 and the peg matching hole 122; the fastener 400 passes through the second fastener fitting hole 121, the second through hole 212 and the first fastener fitting hole 111 and is fixedly connected with the second mechanism-to-be-take-up 300, so as to fixedly connect the shock absorbing member 100 between the first mechanism-to-be-take-up 200 and the second mechanism-to-take-up 300. The electronic device can be a projector, a computer, a sound box and other common devices which need to perform shockproof treatment on internal components.

The mounting portion 210 has a groove-shaped structure, the first through hole 211 and the second through hole 212 are opened at the bottom of the groove-shaped structure, and when the damper 100 is mounted on the groove-shaped structure and the second base portion 12 is bent toward the first base portion 11 to achieve the pre-engagement, at least one side of the outer sidewall of the second base portion 12 abuts against at least one side of the side wall of the groove-shaped structure. In a specific embodiment, the groove-like structure can be made to block the second base portion 12 in the X direction and/or the Y direction, and the shock absorbing member 100 can be further prevented from shifting and rotating in all directions.

In this specific embodiment, as shown in fig. 2, two limit buckles 21 are disposed on two opposite sides of the soft nail pillar 20 in the X direction, and the two limit buckles 21 are disposed at intervals on the peripheral side of the soft nail pillar 20. Referring to fig. 6, the width of the first through hole 211 in the X direction is smaller than the width in the Y direction, the width of the first through hole 211 in the Y direction is equivalent to the radial width of the stopper 21, and the width of the first through hole in the X direction is equivalent to the width of the body of the soft stud 20. Through the setting, can pass first through-hole 211 with soft nail post 20 with the gesture that stop buckle 21 arranged along the Y direction with soft nail post 20 earlier, turn back 90 again afterwards, make two stop buckles 21 arrange along the X direction, stop buckle 21 just can be supported at the Z direction by first through-hole 211 this moment, at the in-process of following artifical nail post mating holes 122 card income stop buckle 21 like this, stop buckle 21 is difficult for falling out first through-hole 211, thereby can help improving the installation effectiveness.

The radial dimension of the first through hole 211 and the radial dimension of the nail column matching hole 122 are respectively less than or equal to the radial dimension of the soft nail column 20, so that the peripheral side wall of the soft nail column 20 is simultaneously abutted against the hole walls of the first through hole 211 and the nail column matching hole 122 in all directions. In addition, the radial dimensions of the first and second fastener mating holes 111 and 121 are respectively less than or equal to the radial dimension of the fastener 400, so that the fastener 400 abuts against the hole walls of the first and second fastener mating holes 111 and 121 simultaneously in all directions. Further, in the second through hole 212, the radial dimension of the second through hole 212 is larger than that of the fastener 400, and preferably, the radial dimension of the second through hole 212 is larger than that of the fastener 400 by 1mm to 2mm. Through the arrangement, the position of the soft nail post 20 can be kept still after the soft nail post passes through the first through hole 211 and the nail post matching hole 122, and the combined fastener 400 is tightly abutted to the first fastener matching hole 111 and the second fastener matching hole 121 respectively, so that the shaking of the fastener 400 is reduced, and the rigid collision between the fastener 400 and the second through hole 212 is further reduced. Specifically, when the shock absorbing member 100 is mounted at the mounting portion 210, the shock absorbing member 100 can make the relative position between the fastening member 400 and the first mechanism to be shockproof 200 more stable, and after the first mechanism to be shockproof 200 and the second mechanism to be shockproof 300 are affected by shock for a long time, the fastening member 400 is not likely to contact with the hole wall of the second through hole 212, so that the shock transmitted from the second mechanism to be shockproof 300 to the first mechanism to be shockproof 200 through the fastening member 400 can be further reduced, and the shock absorbing effect can be improved.

The second mechanism 300 to be shockproof is provided with a fastener fixing post 310, wherein the fastener fixing post 310 is provided with a fastener fixing hole 311, and when the first base portion 11 is bent at the mounting portion 210 to achieve pre-buckling engagement, the fastener fixing hole 311 is simultaneously communicated with the second through hole 212, the first fastener engaging hole 111 and the second fastener engaging hole 121.

The step of installing and connecting the shock absorbing member 100 between the first mechanism to be dampened 200 and the second mechanism to be dampened 300 in this embodiment includes: the soft stud 20 of the shock absorbing member 100 penetrates through the first through hole 211 at the mounting part 210 of the first mechanism 200 to be shock absorbed, and then the second base body 12 is bent towards the mounting part 210, so that the stud mating hole 122 is buckled into the soft stud 20 and is clamped by the limit buckle 21 at the side edge of the stud 20, and cannot be popped out, thereby realizing the self-buckling of the shock absorbing member 100 at the side edge of the first mechanism 200 to be shock absorbed, at the moment, the first base body 11 and the second base body 12 of the soft base body 10 clamp the side edge of the first mechanism 200 to be shock absorbed, so as to realize pre-fixing, so that the soft base body 10 cannot rebound, and facilitate the subsequent assembly operation. Finally, the fastening member 400 is sequentially inserted through the second fastening member matching hole 121, the second through hole 212 and the first fastening member matching hole 111, and then screwed into the fastening member fixing hole 311 of the fastening member fixing post 310 on the second mechanism 300 to be shockproof, so that the first mechanism 200 to be shockproof is fixed on the second mechanism 300 to be shockproof, and the damping member 100 is arranged between the first mechanism 200 to be shockproof and the second mechanism 300 to be shockproof, thereby achieving a damping effect.

In the above embodiment, the first mechanism to be shockproof 200 is an optical engine, a heat sink, a sound box, etc., and the second mechanism to be shockproof 300 is a housing, a casing, etc.

In the electronic apparatus disclosed in the preferred embodiment of the present invention, the mounting portion 210 is disposed at the side of the first mechanism 200 to be shockproof, the mounting portion 210 is opened with the first through hole 211 and the second through hole 212, the first through hole 211 is used for passing through the soft stud 20 on the soft base 10, and the second through hole 212 is communicated with the first fastener matching hole 111 and the second fastener matching hole 121, and is used for passing through the matching fastener 400. By connecting the shock absorbing member 100 between the first mechanism to be protected from shock 200 and the second mechanism to be protected from shock 300, the vibration from the second mechanism to be protected from shock 300 is not easily transmitted to the first mechanism to be protected from shock 200 directly through the fastener 400, but is dissipated while passing through the shock absorbing member 100, thereby achieving a shock absorbing effect. And when the assembly, this damper 100 can directly be detained on first mechanism 200 that waits to take precautions against earthquakes, and the buckle mode is simple, and the damper 100 that the buckle is good can firmly follow the first mechanism 200 that waits to take precautions against earthquakes and remove, can not drop at the first mechanism 200 that waits to take precautions against earthquakes assembly removal in-process to can greatly improve the assembly convenience, improve assembly efficiency.

The background section of the present invention may contain background information related to the problem or environment of the present invention rather than the description of the prior art by others. Accordingly, the inclusion in the background section is not an admission of prior art by the applicant.

The foregoing is a more detailed description of the invention in connection with specific/preferred embodiments and is not intended to limit the practice of the invention to those descriptions. It will be apparent to those skilled in the art that various substitutions and modifications can be made to the described embodiments without departing from the spirit of the invention, and these substitutions and modifications should be considered to fall within the scope of the invention. In the description herein, references to the description of the term "one embodiment," "some embodiments," "preferred embodiments," "an example," "a specific example," or "some examples" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent. Although embodiments of the present invention and its advantages have been described in detail, it should be understood that various changes, substitutions and alterations can be made herein without departing from the scope of the invention as defined by the appended claims.

Claims (10)

1. A shock absorber is characterized by comprising a soft base body and a soft stud, wherein the soft base body comprises a first base body part and a second base body part which are connected, the soft stud is connected to the first base body part, the first base body part is provided with a first fastener matching hole, and the second base body part is provided with a stud matching hole and a second fastener matching hole;

when the first base body part and the second base body part are relatively bent to realize pre-buckling matching, the soft nail column correspondingly penetrates into the nail column matching hole to realize clamping, and the first fastener matching hole is opposite to the second fastener matching hole in the axial direction.

2. The shock absorbing member according to claim 1, wherein the radial dimension of the soft stud is greater than or equal to the radial dimension of the stud mating hole, and when the first base body portion and the second base body portion are relatively bent to achieve pre-fastening mating, the outer side wall of the soft stud abuts against the wall of the stud mating hole; or alternatively

The soft nail post is equipped with spacing knot in week side, just spacing knot with there is the interval in order to form to detain the position space between the first base body portion with when buckling relatively in order to realize the pre-buckling cooperation of second base body portion, the card of second base body portion is established in detaining the position space.

3. The shock absorbing member according to claim 2, wherein when the soft stud is provided with the stopper, the sum of the maximum radial dimensions of the stopper and the soft rubber nail is larger than the radial dimension of the stud fitting hole at the height of the soft rubber nail provided with the stopper.

4. The cushion member according to claim 1, wherein a first pad and a second pad are respectively disposed on opposite sides of the soft base, wherein the first pad is disposed on one side of the first base connected to the soft stud and corresponding to an edge of the first fastener mating hole, and the second pad is disposed on the second base and corresponding to an edge of the second fastener mating hole.

5. The cushion according to any one of claims 1 to 4, wherein the soft stud, the first base portion and the second base portion are of an integrally molded structure.

6. An electronic device, comprising a first mechanism to be shockproof, a second mechanism to be shockproof, a fastener and the damping member of claim 1, wherein a mounting part is arranged at a side edge of the first mechanism to be shockproof, a first through hole and a second through hole are arranged at the mounting part, the first base part and the second base part are bent relatively, and the soft stud is inserted into the first through hole and the stud matching hole; the fastener penetrates through the second fastener matching hole, the second through hole and the first fastener matching hole and is fixedly connected with the second mechanism to be prevented from vibration, so that the damping piece is fixedly connected between the first mechanism to be prevented from vibration and the second mechanism to be prevented from vibration.

7. The electronic device according to claim 6, wherein the mounting portion has a groove-shaped structure, the first through hole and the second through hole are opened at a bottom of the groove-shaped structure, and when the damper is mounted at the groove-shaped structure and the first base portion and the second base portion are bent relatively to realize the pre-fastening engagement, an outer sidewall of at least one side of the second base portion abuts against a sidewall of at least one side of the groove-shaped structure.

8. The electronic device of claim 6, wherein a radial dimension of the second through hole is greater than a radial dimension of the fastener within the second through hole.

9. The electronic device of claim 6, wherein a radial dimension of the first through hole and a radial dimension of the stud mating hole are respectively smaller than or equal to a radial dimension of the soft stud, and a radial dimension of the first fastener mating hole and a radial dimension of the second fastener mating hole are respectively smaller than or equal to a radial dimension of the fastener.

10. The electronic device according to claim 6, wherein a fastener fixing post is provided on the second mechanism to be protected from shock, wherein a fastener fixing hole is provided on the fastener fixing post, and the fastener fixing hole simultaneously penetrates through the second through hole, the first fastener fitting hole and the second fastener fitting hole when the first base portion and the second base portion are bent relative to the mounting portion to achieve pre-engagement.

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