CN113060418A

CN113060418A - Fixing structure of electronic equipment

Info

Publication number: CN113060418A
Application number: CN202110286403.7A
Authority: CN
Inventors: 林祖成
Original assignee: Lenovo Beijing Information Technology Ltd
Current assignee: Lenovo Beijing Information Technology Ltd
Priority date: 2021-03-17
Filing date: 2021-03-17
Publication date: 2021-07-02

Abstract

The application discloses electronic equipment's fixed knot constructs includes: the structure body is provided with an accommodating space capable of accommodating the electronic equipment; a balancing weight; the elastic piece is elastically connected with the balancing weight and the structural body, so that the balancing weight can move relative to the structural body to apply damping force to the structural body, wherein the moving range of the balancing weight is independent of the accommodating space. In the structure, the balancing weight can apply damping force to the structure body by moving relative to the structure body, and in the process of jolting and transporting of the electronic equipment, the damping force can be offset by the gravity of the structure body and the electronic equipment inside the structure body to a certain extent so as to play a damping effect on the fixed structure and the electronic equipment.

Description

Fixing structure of electronic equipment

Technical Field

The present disclosure relates to electronic devices, and particularly to a fixing structure for an electronic device.

Background

At present, electronic equipment such as a complete machine cabinet server and the like inevitably jolts in the transportation process, which may damage the internal structure of the electronic equipment, and the existing vibration damping mode is generally to arrange a wooden pallet at the bottom of the electronic equipment, but the vibration damping effect is not ideal.

Disclosure of Invention

In view of this, the present application provides a fixing structure of an electronic device, which can improve a vibration reduction effect on the electronic device during transportation.

In order to achieve the above purpose, the present application provides the following technical solutions:

a fixing structure of an electronic device, comprising:

the structure body is provided with an accommodating space capable of accommodating the electronic equipment;

a balancing weight;

the elastic piece is elastically connected with the balancing weight and the structural body, so that the balancing weight can move relative to the structural body to apply damping force to the structural body, wherein the moving range of the balancing weight is independent of the accommodating space.

Preferably, in the fixing structure of the electronic device, the weight block is detachably disposed on the structure body.

Preferably, in the fixing structure of the electronic device, the weight block is suspended in the structure body through connection of the elastic member, and the moving range is determined according to a connection mode of the elastic member and an elastic variation range.

Preferably, in the fixing structure of the electronic device, the electronic device and the weight block are disposed on the structure body at an interval.

Preferably, in the fixing structure of the electronic device, the structure body is provided with a protection structure, and the counterweight block is arranged in the protection structure.

Preferably, in the fixing structure of the electronic device, the elastic member is elastically deformed in a vertical direction, so that the weight block applies a damping force to the structural body in the vertical direction.

Preferably, in the fixing structure of the electronic device, the weight block is a polygonal plate-shaped member, each corner of the weight block is connected with the elastic member, so that all the elastic members are used for realizing the suspension of the weight block on the structure body by tightening the weight block, and the elastic members connected with different corners are arranged in a mutually inclined manner in pairs, so that the weight block can move in multiple directions to apply damping force to the structure body in the multiple directions.

Preferably, in the fixing structure of the electronic device, the weight block and the structure body are both provided with through holes, and two ends of the elastic member are respectively connected with the weight block and the structure body through the through holes so as to realize elastic connection between the weight block and the structure body.

Preferably, in the fixing structure of the electronic device, the plurality of weight blocks are respectively disposed at symmetrical positions of the structure body through the elastic members.

Preferably, the fixing structure of the electronic device further includes a supporting member disposed at a bottom of the structural body to support the structural body and to buffer a vibration force.

The application provides an electronic equipment's fixed knot constructs, its major structure is the structure body, the structure body has and is used for holding, installation electronic equipment's accommodation space, and there is the balancing weight through elastic component swing joint on the structure body, this balancing weight can exert damping force to the structure body through taking place to remove for the structure body, in the in-process of the transportation of jolting at electronic equipment, damping force can offset with the gravity of the electronic equipment of structure body and inside to a certain extent, in order to play the damping effect to fixed knot structure and electronic equipment, for the mode that uses the pallet buffering among the prior art, can further improve the damping effect to fixed knot structure and electronic equipment.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a fixing structure of an electronic device according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of another angle of the fixing structure of the electronic device;

fig. 3 is a schematic structural view of the vibration damping structure detached from the structural body.

In fig. 1-3:

1-structural body, 2-balancing weight, 3-elastic piece, 4-supporting piece and 5-through hole.

Detailed Description

The application provides an electronic equipment's fixed knot constructs, it can promote the damping effect to electronic equipment in the transportation.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

As shown in fig. 1 to fig. 3, an embodiment of the present application provides a fixing structure of an electronic device, a main portion of the fixing structure is a structure body 1 having an accommodating space, a specific structure of the structure body 1 may be a frame, a box, and the like, the electronic device can be accommodated and installed in the accommodating space, for example, the electronic device may be a server, the fixing structure is a cabinet (the structure body 1 is a cabinet body of the cabinet), and the server and the cabinet structure together form a whole cabinet server; in addition, the main components of the fixed structure further include a weight block 2 and an elastic member 3, wherein the weight block 2 is a component having a certain weight, and is connected to the structural body 1 through the elastic member 3 (preferably, connected to a half height of the structural body 1), and the elastic member 3 elastically deforms by its own gravity, the elastic member 3 connecting the weight block 2 and the structural body 1 enables the weight block 2 to move relative to the structural body 1 through elastic deformation, and the weight block 2 applies a damping force to the structural body 1 by its own gravity during movement, for example, when the fixed structure and the electronic device therein are transported, if the structural body 1 and the electronic device bump, the structural body 1 and the electronic device will move up or down due to bumping, and the weight block 2 connected to the structural body 1 through the elastic member 3 will cause a corresponding movement delay of the weight block 2 due to the effect of inertia, that is, the weight block 2 will not move synchronously with the structural body 1 and the electronic device, for example, at the initial stage of the moving process, the structural body 1 and the electronic device will start to move upwards due to the bumping, and the weight block 2 will still be in the original position, because the weight block 2 has a certain gravity, the elastic member 3 will be stretched to generate an elastic force, the elastic force acts on the structural body 1 to generate at least a downward component (or the direction of the elastic force is downward), so the elastic force exerted by the elastic member 3 on the structural body 1 (the elastic force can also be regarded as the downward pulling force exerted by the weight block 2 on the structural body 1) is the damping force for preventing the structural body 1 and the electronic device from moving upwards, and when the structural body 1 and the electronic device start to move downwards after moving to the maximum height, because of the moving hysteresis of the weight block 2, the weight block 2 will still be in the moving, at this time, the counterweight block 2 applies upward pulling force to the structural body 1 through the elastic member 3 to prevent the structural body 1 and the electronic device from moving downwards, and the upward pulling force is also damping force applied to the structural body 1 and the electronic device, so that vibration reduction of the bumpy structural body 1 and the electronic device is realized. In addition, when the weight block 2 is arranged on the structure body 1, the moving range of the weight block 2 is independent of the accommodating space, that is, the weight block 2 cannot enter the accommodating space (or be located outside the accommodating space when being static) in the whole moving process, so as to avoid the damage of the electronic equipment due to collision.

The fixed knot of above-mentioned structure connects balancing weight 2 through using elastic component 3 on structure body 1 to hysteresis through balancing weight 2 removes and exerts damping force in order to offset structure body 1 and electronic equipment's gravity to structure body 1 and the electronic equipment of setting in structure body 1, thereby realizes the damping to fixed knot structure and electronic equipment, this kind of damping mode, only set up the buffering damping mode of pallet in the bottom for among the prior art, can show the damping effect that improves electronic equipment. In addition, the weight of the balancing weight 2 can be flexibly adjusted according to different types, volumes or fixed structures of weight and electronic equipment (the adjusting mode can be that the weight of the same balancing weight 2 is changed, or a plurality of balancing weights 2 with different weights are prepared for replacement), so that targeted balancing weight is realized, and the vibration reduction effect on the fixed structures and the electronic equipment is further improved.

In addition, for the damping structure that constitutes by balancing weight 2 and elastic component 3 that this application provided, the mode that uses the pallet to carry out the damping among the prior art still has following shortcoming: the dismounting operation of the pallet is more complicated; the pallet can not be recycled; the pallet has a small damping effect on the top end of the cabinet, and has insufficient transportation protection effect on top end electronic equipment.

In this application, preferred balancing weight 2 detachable sets up on structure body 1. Make balancing weight 2 and structure body 1 can dismantle and be connected because as the part that reaches the damping effect, balancing weight 2 only plays a role in fixed knot constructs and electronic equipment's transportation, and set up electronic equipment to operational environment and during normal work, electronic equipment need not to remove or the in-process of moving in the small circle can not produce the jolt that needs the damping, consequently balancing weight 2 will become idle part after electronic equipment normal work, no longer play a role. Therefore, in order to save cost and realize the recycling of the balancing weight 2, it is preferable that the balancing weight 2 can be detached from the structure body 1, so that the detached balancing weight 2 can be remounted to other fixed structures to be transported for the next transportation. Specifically, the disassembling manner between the weight block 2 and the structural body 1 can be selected in various ways, for example, the weight block 2 and the elastic member 3 can be disassembled, or the elastic member 3 and the structural body 1 can be disassembled, and the like.

In this application, preferably balancing weight 2 suspends in structure body 1 through the connection of elastic component 3, and balancing weight 2's moving range is confirmed according to the connected mode and the elasticity range of change of elastic component 3, and this elastic component 3 preferred is the coil spring that can stretch out and draw back. Make balancing weight 2 suspension on structure body 1, because the suspended mode of setting can make balancing weight 2 can take place to remove along a plurality of directions, thereby can both realize the damping to the multiple mode of jolting of fixed knot structure and electronic equipment, for example when fixed knot structure and electronic equipment take place to jolt from top to bottom, balancing weight 2 can reciprocate (along vertical direction removal) and realize the damping, when fixed knot structure and electronic equipment take place to pitch or about jolt, balancing weight 2 can move around or move about (along the horizontal direction removal) and realize the damping, just so can make balancing weight 2 more abundant, comprehensive satisfy the damping requirement of fixed knot structure and electronic equipment. In addition, balancing weight 2 also can set up on body 1 through other modes, for example, make balancing weight 2 and body 1's vertical lateral wall sliding connection, and minimize the coefficient of friction between the two, elastic component 3 sets up in parallel with vertical lateral wall, thereby make balancing weight 2 only can move in vertical direction and only play the damping effect in vertical direction, or, make balancing weight 2 and body 1's horizontal roof sliding connection, and minimize the coefficient of friction between the two, elastic component 3 sets up in parallel with horizontal roof, thereby make balancing weight 2 only can move in the horizontal direction and only play the damping effect in the horizontal direction. Simultaneously, the suspended arrangement mode can also reduce collision and friction probability between the balancing weight 2 and the structural body 1, so that the vibration reduction effect can be further improved.

The moving range of the counterweight block 2 is determined according to the connection mode and the elastic variation range of the elastic member 3, and specifically: as for the connection mode of the elastic members 3 (connected with the counterweight block 2), when the counterweight block 2 is in a suspended state, as shown in fig. 1 and fig. 2, because the plurality of elastic members 3 are connected with the counterweight block 2 in a plurality of mutually inclined directions, when the counterweight block 2 moves in a certain direction (for example, upward), there are situations that some elastic members 3 apply a pulling force to the counterweight block 2, and other elastic members 3 apply a pushing force to the counterweight block 2, and the magnitudes of the pulling force and the pushing force are related to the inclined angle of each elastic member 3, and meanwhile, the inclined elastic members 3 also apply an acting force to the counterweight block 2 in other directions (for example, left and right directions), so that the amplitude and the moving direction of the counterweight block 2 can be changed by changing the arrangement number, the arrangement angle, and the like of the elastic members 3, thereby changing the moving range of the counterweight block 2; in addition, by changing the elastic variation range of the elastic member 3, for example, by changing the elastic coefficient and the maximum deformation amount of the elastic member 3, the magnitude of the elastic force applied to the weight block 2 by the elastic member 3 can be changed, and the amplitude of the weight block 2 can also be changed, so that changing the elastic variation range of the elastic member 3 also affects the movement range of the weight block 2, and therefore the movement range of the weight block 2 is determined by comprehensively considering the connection mode and the elastic variation range of the elastic member 3.

Further, elastic deformation takes place for elastic component 3 in the vertical direction preferably in this application to make balancing weight 2 exert damping force to structure body 1 in the vertical direction, it is specific, on suspension balancing weight 2's basis, the elastic component 3 that makes the slope set up is less with the contained angle of vertical direction, directly makes elastic component 3 set up along vertical direction even, so just so can make the component of elastic component 3's elasticity mainly be along vertical direction's power, all be vertical direction's power even. Therefore, the counterweight block 2 is further preferably moved mainly in the vertical direction to apply damping force to the structure body 1 in the vertical direction, most of jolts in the transportation process are jolts in the vertical direction, and the probability that electronic equipment is damaged due to jolts in the vertical direction (namely the gravity direction) is high, so that the damping force is applied to the structure body 1 through the counterweight block 2 in the vertical direction, vibration reduction of the fixed structure and the electronic equipment can be realized in a targeted mode according to actual conditions, and the vibration reduction effect of the vibration reduction structure is further improved.

Specifically, as shown in fig. 1 and 2, the weight 2 is preferably suspended on the structural body 1 in a manner that: make balancing weight 2 be polygonal platelike piece, and all be connected with elastic component 3 on every angle of balancing weight 2 to make whole elastic component 3 realize the suspension of balancing weight 2 on structure body 1 through taut balancing weight 2 with the cooperation, and set up with two liang of mutual inclinations of elastic component 3 that different angles are connected, make balancing weight 2 can move in a plurality of directions in order to exert damping force to structure body 1 in a plurality of directions. Set up balancing weight 2 through this kind of mode, can make the more stable connection of balancing weight 2 just can be more stable remove on structure body 1 to can also play the damping effect to fixed knot structure and electronic equipment on a plurality of directions. Meanwhile, when the counterweight block 2 is a rectangular plate-shaped structure (i.e. when the counterweight block 2 has four corners), it is also preferable that two elastic members 3 of the four elastic members 3 are located on the top side of the counterweight block 2, i.e. extend from the top side edge of the elastic members 3, and the other two elastic members 3 are located on the bottom side of the counterweight block 2, i.e. extend from the bottom side edge of the elastic members 3, so that the component forces of the four obliquely arranged elastic members 3 are mainly vertical forces, so that the counterweight block 2 mainly applies damping forces to the structure body 1 in the vertical direction as described above, and the horizontal component force of the elastic members 3 is small.

Preferably, the electronic device and the counterweight 2 are arranged on the structural body 1 at intervals. In order to improve the protection and installation effects of the fixing structure on the electronic equipment and avoid the influence on the use effect of the fixing structure caused by additionally arranging a vibration damping structure consisting of the balancing weight 2 and the elastic piece 3, the electronic equipment and the balancing weight 2 are arranged on the structure body 1 at intervals, namely, the two are isolated, so as to avoid the collision between the counterweight block 2 and the electronic equipment when the amplitude of the counterweight block is larger due to larger bumping, the specific isolation mode can be selected in various ways, for example, the vibration damping structure can be arranged outside the accommodating space, the isolation of the internal electronic equipment and the external vibration reduction structure is realized through the cavity wall which encloses the accommodating space, or a special cavity for installing and accommodating the vibration damping structure can be arranged on the structure body 1, the isolation of the electronic equipment and other structures from the vibration damping structure is realized through the cavity, and particularly, the cavity can be a closed box body or an open groove and the like.

In addition, still be provided with protective structure on preferred structure body 1, balancing weight 2 sets up in protective structure, and this protective structure can be foretell cavity. So set up protective structure, be in order to avoid external factors to influence damping structure's normal work, for example, if being comparatively close to that a plurality of fixed knot construct placed in the transportation, there may be other fixed knot structure to certain fixed knot construct on exposed balancing weight 2 form block, the chucking, lead to balancing weight 2 unable normal removal, and set up protective structure after, just can avoid the emergence of this condition, make balancing weight 2 can more reliable carry out work, the result of use of damping structure has been promoted.

As shown in fig. 1-3, through holes 5 are formed in the counterweight block 2 and the structural body 1, and two ends of the elastic member 3 are respectively connected to the counterweight block 2 and the structural body 1 through the through holes 5, so as to achieve elastic connection between the counterweight block 2 and the structural body 1. This kind of mode of connecting balancing weight 2, the structure is comparatively simple, and processing is comparatively convenient, only need set up through-hole 5 on structure body 1 can, do benefit to the setting of damping structure on fixed knot constructs. When the structural body 1 is the frame shown in fig. 1-3, strip-shaped through holes 5 can be formed in two spaced and parallel beams of the structural body 1, each through hole 5 is used for connecting one end of one elastic piece 3, and then the balance weight 2 can be suspended between the two beams by connecting the other ends of all the elastic pieces 3 with the balance weight 2. Furthermore, as mentioned above, it is preferable that the counterweight 2 is detachably disposed on the structural body 1, and when the counterweight is detached, one end of the elastic member 3 is separated from the through hole 5 formed on the cross beam, so that the counterweight 2 and all the elastic members 3 can be detached from the structural body 1; alternatively, other ways can be adopted to realize the detachable installation of the balancing weight 2 and the elastic element 3 on the structure body 1, for example, two clamps are additionally arranged, the elastic parts 3 positioned at one side of the balancing weight 2 (namely, the two elastic parts 3 positioned at the top side of the balancing weight 2) are connected with one clamp, the elastic parts 3 positioned at the other side of the balancing weight 2 (namely, the two elastic parts 3 positioned at the bottom side of the balancing weight 2) are connected with the other clamp, so that the balancing weight 2, the elastic piece 3 and the clamps form a vibration damping structure, then the two clamps are clamped on the structure body 1 to realize the installation of the vibration damping structure on the structure body 1, thus the vibration damping structure can also realize the vibration damping of the fixed structure and the electronic equipment, when the fixing structure and the electronic device are transported to the destination, the jig can be released from the structure body 1 to detach the vibration damping structure from the structure body 1. This kind realizes dismantling the damping structure who is connected with fixed knot through anchor clamps, can avoid changing structure 1's self structure, need not to trompil on structure body 1 promptly for damping structure's use is more convenient, application scope is bigger.

More preferably, as shown in fig. 1-3, the counterweight 2 is provided in plurality and is respectively disposed at symmetrical positions of the structural body 1 through the elastic members 3. That is, it is preferable that a plurality of vibration reduction structures are provided on the structure body 1, so as to achieve vibration reduction of the fixing structure and the electronic device more sufficiently, and a plurality of vibration reduction structures are also preferably provided at symmetrical positions of the structure body 1, for example, at aligned positions of two parallel side walls of the rectangular parallelepiped structure body 1, so that vibration reduction uniformity can be further improved, and vibration reduction effect can be improved.

In addition, as shown in fig. 1 to 3, it is preferable that the vibration damping structure further includes a support member 4 provided at the bottom of the structural body 1 to support the structural body 1 and to absorb the vibration force. In this application, on the basis of setting up the above-mentioned damping structure that constitutes by balancing weight 2 and elastic component 3, in order to further improve the damping effect, still set up support piece 4 in whole fixed knot structure's bottom and be used for supporting the electronic equipment of fixed knot structure and inside setting, this support piece 4 also is the component part of damping structure (but support piece 4 does not have the relation of connection with counterweight, elastic component 3) to make the damping structure can realize the damping to fixed knot structure and electronic equipment through the mode of support piece 4 buffering. Through so setting up, just can make the damping structure in this application can realize the dual damping to fixed knot structure and electronic equipment through offsetting gravity and buffering these two kinds of modes for the damping effect obtains furthest's promotion.

In this specification, the structures of the respective portions are described in a progressive manner, and the structure of each portion is mainly described as being different from the existing structure, and the whole and partial structures of the fixing structure of the electronic device can be obtained by combining the structures of the plurality of portions.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A fixing structure of an electronic device, comprising:

a balancing weight;

2. The fixing structure of the electronic device according to claim 1, wherein the weight member is detachably provided on the structure body.

3. The fixing structure of an electronic device according to claim 1, wherein the weight member is suspended from the structural body by connection of the elastic member, and the moving range is determined according to a connection manner of the elastic member and an elastic variation range.

4. The fixing structure of the electronic device according to claim 3, wherein the electronic device and the weight block are disposed at a distance on the structure body.

5. The fixing structure of the electronic device as claimed in claim 3, wherein the structural body is provided with a protection structure, and the weight block is disposed in the protection structure.

6. The fixing structure of the electronic device according to claim 3, wherein the elastic member is elastically deformed in a vertical direction so that the weight block applies a damping force to the structural body in the vertical direction.

7. The fixing structure of the electronic device as claimed in claim 3, wherein the weight member is a polygonal plate-shaped member, the elastic member is connected to each corner of the weight member, so that all the elastic members are used for suspending the weight member on the structure body by tightening the weight member to cooperate with each other, and the elastic members connected to different corners are arranged to be inclined with respect to each other in pairs, so that the weight member can move in multiple directions to apply damping force to the structure body in the multiple directions.

8. The fixing structure of an electronic device as claimed in claim 1, wherein the weight member and the structural body are both provided with through holes, and both ends of the elastic member are connected to the weight member and the structural body through the through holes respectively to achieve elastic connection between the weight member and the structural body.

9. The fixing structure of an electronic device according to claim 1, wherein the plurality of weight members are disposed at symmetrical positions of the structure body through the elastic members.

10. The fixing structure of the electronic device according to claim 1, further comprising a support member provided at a bottom of the structural body to support the structural body and to buffer a vibration force.