CN214796762U

CN214796762U - Computer hard disk shock mounting

Info

Publication number: CN214796762U
Application number: CN202121391929.3U
Authority: CN
Inventors: 樊华; 胡良君; 魏红伟
Original assignee: Zhangjiajie Institute of Aeronautical Engineering
Current assignee: Zhangjiajie Institute of Aeronautical Engineering
Priority date: 2021-06-22
Filing date: 2021-06-22
Publication date: 2021-11-19
Anticipated expiration: 2031-06-22

Abstract

The utility model relates to a computer hard disk shock mounting technical field specifically is a computer hard disk shock mounting, the device comprises a device main body, the device main part includes the shell, the shell top is installed the access cover through bolted connection, four corners at shell top are equipped with the bolt hole, shell both sides lateral wall is equipped with the heat radiation structure that is used for improving the device heat dispersion, the inside clamping structure who makes things convenient for computer hardware installation and dismantlement that is equipped with of shell, clamping structure includes the grip block, the inside hardware body that is equipped with of clamping structure, the clamping structure outside is equipped with the shock-absorbing structure who is used for improving the device damping performance, shock-absorbing structure includes the shock attenuation board, through setting up shock-absorbing structure, make the device's damping performance by effectual improvement, and then can effectively avoid computer hardware to be damaged.

Description

Computer hard disk shock mounting

Technical Field

The utility model relates to a computer hard disk shock mounting technical field specifically is a computer hard disk shock mounting.

Background

The hard disk of computer is the most main storage equipment of computer, the hard disk is made up of one or more aluminium or glass made disc, these discs are covered with the ferromagnetic material, along with developing, the removable hard disk has also appeared, and more popular, the kind is more and more, most hard disks installed on microcomputer, try hard to avoid its oscillation when the hard disk works, because, the distance between magnetic head and magnetic sheet is very close, if suffer from violent oscillation and can lead to the magnetic head to strike the magnetic sheet, it is possible that the magnetic head will scratch the magnetic sheet, may also lead to the thorough damage of the magnetic head, make the whole hard disk unusable, therefore usually store the hard disk of computer in the anti-vibration device now.

However, the computer hard disk shockproof device in the prior art still has a lot of defects, the computer hard disk usually generates more heat in the working process at present, and due to the arrangement of the box body, the heat dissipation performance of the hard disk is poor, so that the use of the hard disk is influenced; at present, most hard disks are fixed hard disks and are permanently sealed and fixed in a hard disk drive, so that the hard disks of the computer are inconvenient to mount and dismount; and the existing shockproof device has a certain shockproof effect in the use process, but the shockproof effect is poor, and the use requirement can not be met in the use process.

Therefore, it is necessary to design a shock-proof device for a computer hard disk to solve the above problems in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a computer hard disk shock mounting to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a computer hard disk shock mounting, includes the device main part, the device main part includes the shell, and the access cover is installed through bolted connection at the shell top, and four corners at shell top are equipped with the bolt hole, and shell both sides lateral wall is equipped with the heat radiation structure who is used for improving the device heat dispersion, and the inside clamping structure who makes things convenient for computer hardware to install and dismantle that is equipped with of shell, and clamping structure includes the grip block, and the inside hardware body that is equipped with of clamping structure, and the clamping structure outside is equipped with the shock-absorbing structure who is used for improving the device shock attenuation performance, and shock-absorbing structure includes the shock-absorbing plate.

As the utility model discloses preferred scheme, heat radiation structure includes the louvre, the inside radiator fan that is equipped with of louvre, and electric connection between radiator fan and the main power supply.

As the utility model discloses preferred scheme, the dust screen is installed through bolted connection in the position that shell both sides and louvre correspond.

As the utility model discloses preferred scheme, clamping structure includes the grip block, and the grip block symmetry is equipped with two, and the grip block is established into "L" shape, and grip block bottom one side is equipped with first telescopic link, and the first telescopic link outside is equipped with the second spring, and one side that the grip block is close to the shell is equipped with first spring, and one side and the shock attenuation inboard wall connection that the grip block was kept away from to first spring.

As the utility model discloses preferred scheme, shock-absorbing structure includes the shock attenuation board, and the shock attenuation board is equipped with second buffer spring with the adjacent both sides of heat radiation structure, and one side that the shock attenuation board was kept away from to second buffer spring is equipped with the connecting plate, and the inside bottom of shell is equipped with the spout, and the inside one side that is close to the connecting plate of spout is equipped with the second telescopic link, and the second telescopic link outside is equipped with first buffer spring, and one side that the connecting plate was kept away from to the second telescopic link is equipped with the slider, and the movable rod both ends are connected in slider top and fixed block bottom through the connecting axle respectively.

As the utility model discloses preferred scheme, the shock attenuation board bottom is equipped with four fixed blocks, and the shock attenuation board is established into "concave" font.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, through setting up heat radiation structure, when computer hardware in the course of the work, radiator fan begins work, can effectually reduce the heat that produces in the computer hardware course of the work under the combined action of radiator fan and louvre, and the setting of dust screen can effectually avoid radiator fan to bring the dust into the shell inside and adsorb on the computer hardware surface in the course of the work, make the device's heat dispersion effectively reduce the dust simultaneously by effectual improvement inside getting into the shell, and then the effectual normal use and the life who guarantees the device.

2. The utility model discloses in, through setting up clamping structure, when installing computer hardware, open the access cover through the bolt, break off the grip block of both sides simultaneously off with the fingers and thumb to manual place the hardware body between the grip block, thereby can make grip block case hardware body be close to and carry out the centre gripping with the hardware body under the combined action of second spring, first telescopic link and second spring, make that the device can be convenient install and dismantle hardware to the calculation.

3. The utility model discloses in, through setting up shock-absorbing structure, when the device computer hardware takes place to shake in the course of the work, if when the shock attenuation board shakes from top to bottom, the angle that can drive the movable rod changes, thereby can carry out the shock attenuation to computer hardware under second telescopic link and first buffer spring's combined action, when shaking about the shock attenuation board, carry out the shock attenuation to computer hardware under the combined action of second buffer spring and connecting plate, make the device's damping performance by effectual improvement, and then can effectively avoid computer hardware to be damaged.

Drawings

Fig. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a perspective view of the internal structure of the present invention;

fig. 3 is a schematic plan view of the internal structure of the present invention.

In the figure: 1. a device main body; 11. a housing; 12. an access cover; 13. a dust screen; 14. bolt holes; 15. a heat dissipation structure; 151. heat dissipation holes; 152. a heat radiation fan; 16. a clamping structure; 161. a clamping plate; 162. a first spring; 163. a first telescopic rod; 164. a second spring; 17. a hardware body; 18. a shock-absorbing structure; 181. a damper plate; 182. a chute; 183. a second telescopic rod; 184. a first buffer spring; 185. a slider; 186. a connecting shaft; 187. a movable rod; 188. a fixed block; 189. a second buffer spring; 180. a connecting plate.

Detailed Description

The technical solution 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 some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Several embodiments of the invention are given in the accompanying drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Please refer to fig. 1-3, the present invention provides a technical solution:

a computer hard disk shockproof device comprises a device main body 1, the device main body 1 comprises a shell 11, the top of the shell 11 is provided with an access cover 12 through bolt connection, four corners of the top of the shell 11 are provided with bolt holes 14, the side walls of two sides of the shell 11 are provided with heat dissipation structures 15 for improving the heat dissipation performance of the device, the interior of the shell 11 is provided with a clamping structure 16 convenient for computer hardware installation and disassembly, the clamping structure 16 comprises a clamping plate 161, the interior of the clamping structure 16 is provided with a hardware body 17, the outer side of the clamping structure 16 is provided with a damping structure 18 for improving the damping performance of the device, the damping structure 18 comprises a damping plate 181, through the arrangement of the heat dissipation structure 15, the heat dissipation performance of the device is effectively improved, meanwhile, dust entering the interior of the shell 11 can be effectively reduced, the normal use and the service life of the device are effectively guaranteed, through the arrangement of the clamping structure 16, make the device can be convenient to the calculation with hardware installation and dismantlement, through setting up shock-absorbing structure 18 for the shock-absorbing performance of the device is effectively improved, and then can effectively avoid computer hardware to be damaged.

In the embodiment, referring to fig. 1 and fig. 2, the heat dissipation structure 15 includes heat dissipation holes 151, a heat dissipation fan 152 is disposed inside the heat dissipation holes 151, and the heat dissipation fan 152 is electrically connected to the main power supply, dust screens 13 are installed at positions on two sides of the housing 11 corresponding to the heat dissipation holes 151 through bolts, by disposing the heat dissipation structure 15, the heat dissipation performance of the device is effectively improved, and dust entering into the housing 11 is effectively reduced, thereby effectively ensuring the normal use and the service life of the device, when in actual use, the heat dissipation fan 152 starts to work during the working process of the computer hardware, the heat generated during the working process of the computer hardware can be effectively reduced under the combined action of the heat dissipation fan 152 and the heat dissipation holes 151, and the dust screens 13 can effectively prevent the heat dissipation fan 152 from bringing dust into the housing 11 and adsorbing on the surface of the computer hardware during the working process, make the device's heat dispersion by effectual improvement effectively reduce the dust simultaneously and get into inside the shell 11, and then the effectual normal use and the life who guarantees the device.

In an embodiment, referring to fig. 3, the clamping structure 16 includes two clamping plates 161, two clamping plates 161 are symmetrically disposed, the clamping plates 161 are formed in an "L" shape, a first telescopic rod 163 is disposed on one side of the bottom of the clamping plate 161, a second spring 164 is disposed on the outer side of the first telescopic rod 163, a first spring 162 is disposed on one side of the clamping plate 161 close to the housing 11, and one side of the first spring 162 away from the clamping plate 161 is connected to the inner wall of the damping plate 181, by disposing the clamping structure 16, the device can conveniently mount and dismount the hardware, in actual use, when the computer hardware is mounted, the access cover 12 is opened by bolts, the clamping plates 161 on both sides are simultaneously opened, and the hardware body 17 is manually placed between the clamping plates 161, so that the clamping plates 161 can approach to the hardware body 17 and clamp the hardware body 17 under the combined action of the second spring 164, the first telescopic rod 163, and the first spring 162, the device can conveniently install and disassemble hardware for calculation.

In the embodiment, referring to fig. 3, the shock-absorbing structure 18 includes a shock-absorbing plate 181, two sides of the shock-absorbing plate 181 adjacent to the heat-dissipating structure 15 are provided with second buffer springs 189, one side of the second buffer springs 189 away from the shock-absorbing plate 181 is provided with a connecting plate 180, the bottom end of the interior of the housing 11 is provided with a sliding chute 182, one side of the interior of the sliding chute 182 close to the connecting plate 180 is provided with a second telescopic rod 183, the outer side of the second telescopic rod 183 is provided with a first buffer spring 184, one side of the second telescopic rod 183 away from the connecting plate 180 is provided with a sliding block 185, two ends of the movable rod 187 are respectively connected to the top of the sliding block 185 and the bottom of the fixed block 188 through connecting shafts 186, the bottom of the shock-absorbing plate 181 is designed to be "concave", by providing the shock-absorbing structure 18, the shock-absorbing performance of the device is effectively improved, and the computer hardware is effectively prevented from being damaged, when the device in the course of the work computer hardware takes place vibrations, if during vibrations about shock attenuation board 181, the angle that can drive movable rod 187 changes, thereby can carry out the shock attenuation to computer hardware under the combined action of second telescopic link 183 and first buffer spring 184, when vibrations about shock attenuation board 181, carry out the shock attenuation to computer hardware under the combined action of second buffer spring 189 and connecting plate 180, make the device's damping performance by effectual improvement, and then can effectively avoid computer hardware to be damaged.

The working principle is as follows: when the device is used, when computer hardware is installed, the access cover 12 is opened through the bolts, the clamping plates 161 on the two sides are simultaneously opened, and the hardware body 17 is manually placed between the clamping plates 161, so that under the combined action of the second spring 164, the first telescopic rod 163 and the first spring 162, the clamping plates 161 can approach the hardware body 17 and clamp the hardware body 17, when the computer hardware works, the heat dissipation fan 152 starts to work, the heat generated in the working process of the computer hardware can be effectively reduced under the combined action of the heat dissipation fan 152 and the heat dissipation holes 151, the arrangement of the dust screen 13 can effectively prevent the heat dissipation fan 152 from bringing dust into the shell 11 and being adsorbed on the surface of the computer hardware, when the device shakes the computer hardware in the working process, if the shock absorption plate 181 shakes up and down, the angle of the movable rod 187 is changed, so that the computer hardware can be damped under the combined action of the second telescopic rod 183 and the first buffer spring 184, and when the damping plate 181 vibrates left and right, the computer hardware is damped under the combined action of the second buffer spring 189 and the connecting plate 180.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a computer hard disk shock mounting, includes device main part (1), its characterized in that: device main part (1) includes shell (11), access cover (12) are installed through bolted connection at shell (11) top, four corners in shell (11) top are equipped with bolt hole (14), shell (11) both sides lateral wall is equipped with heat radiation structure (15) that are used for improving the device heat dispersion, shell (11) inside is equipped with clamping structure (16) that make things convenient for computer hardware installation and dismantlement, clamping structure (16) include grip block (161), inside hardware body (17) that are equipped with of clamping structure (16), the clamping structure (16) outside is equipped with and is used for improving shock-absorbing structure (18) of the device damping performance, shock-absorbing structure (18) are including shock-absorbing plate (181).

2. The computer hard disk shock mount of claim 1, wherein: the heat dissipation structure (15) comprises heat dissipation holes (151), a heat dissipation fan (152) is arranged inside the heat dissipation holes (151), and the heat dissipation fan (152) is electrically connected with the main power supply.

3. The computer hard disk shock mount of claim 1, wherein: and dust screens (13) are arranged at the positions of the two sides of the shell (11) corresponding to the heat dissipation holes (151) through bolt connection.

4. The computer hard disk shock mount of claim 1, wherein: clamping structure (16) are including grip block (161), grip block (161) symmetry is equipped with two, and grip block (161) is established "L" shape, grip block (161) bottom one side is equipped with first telescopic link (163), first telescopic link (163) outside is equipped with second spring (164), one side that grip block (161) is close to shell (11) is equipped with first spring (162), and one side that grip block (161) were kept away from in first spring (162) and damper plate (181) inner wall connection.

5. The computer hard disk shock mount of claim 1, wherein: shock-absorbing structure (18) are including shock attenuation board (181), shock attenuation board (181) are equipped with second buffer spring (189) with heat radiation structure (15) adjacent both sides, one side that shock attenuation board (181) were kept away from in second buffer spring (189) is equipped with connecting plate (180), the inside bottom of shell (11) is equipped with spout (182), the inside one side that is close to connecting plate (180) of spout (182) is equipped with second telescopic link (183), second telescopic link (183) outside is equipped with first buffer spring (184), one side that connecting plate (180) were kept away from in second telescopic link (183) is equipped with slider (185), connecting in slider (185) top and fixed block (188) bottom is connected through connecting axle (186) respectively in movable rod (187) both ends.

6. The computer hard disk shock mount of claim 1, wherein: four fixing blocks (188) are arranged at the bottom of the damping plate (181), and the damping plate (181) is concave.