CN217181467U - A antidetonation protective structure for computer hard drives - Google Patents

Abstract

The utility model relates to a computer hard disk equipment field specifically is a antidetonation protective structure for computer hard disk, four corners in the outside of hard disk main part all overlap and are equipped with antidetonation cover, four the equal fixed mounting in outside of antidetonation cover has two silica gel strips, department all installs the guard plate in the middle of the upper and lower both sides of hard disk main part, two the equal gomphosis of department installs the heat dissipation fan in the middle of the inside of guard plate, two the heat dissipation window is all installed to the inside both sides of guard plate, two shock pads, wherein two all be connected with first connecting strip between the outside of antidetonation cover, and all be connected with the second connecting strip between the top of two antidetonation covers in addition. A antidetonation protective structure for computer hard disk, can realize better antidetonation protection, stability when effectual improvement computer hard disk uses brings better use prospect.

Description

A antidetonation protective structure for computer hard drives

Technical Field

The utility model relates to a computer hard disk equipment field specifically is an antidetonation protective structure for computer hard disk.

Background

Computers have been widely used, and hard disks are the main components of computers. However, the disk inside the hard disk is easily damaged under the influence of external shock, a large amount of heat and other factors, once the hard disk is damaged, the maintenance cost is quite high, the success rate is low, the probability of completely recovering a large amount of stored data in the hard disk is also low, and the work and study progress is influenced.

The chinese patent discloses a computer hard disk (grant publication number CN204595732U), and this patent technique can accelerate the heat dissipation on each face of the computer hard disk, is favorable to the hard disk to keep long-time normal operating, and the wiring is neat and orderly, is convenient for connect and dismantle, but, the device can not be fine when using carry out antidetonation protection, influences the precision of computer hard disk when using to it is comparatively inconvenient. Accordingly, one skilled in the art provides a shock-resistant protection structure for a computer hard disk to solve the problems set forth in the background art.

Disclosure of Invention

An object of the utility model is to provide an antidetonation protective structure for computer hard disk 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 an antidetonation protective structure for computer hard disk, includes the hard disk main part, four corners in the outside of hard disk main part all overlap and are equipped with antidetonation cover, four the equal fixed mounting in outside of antidetonation cover has two silica gel strips, the guard plate is all installed to the department in the middle of the upper and lower both sides of hard disk main part, two the equal gomphosis in department in the middle of the inside of guard plate installs the heat dissipation fan, two the heat dissipation window is all installed to the inside both sides of guard plate, two the shock pad is all installed to the clamping face of guard plate, wherein two all be connected with first connecting strip between the outside of antidetonation cover, and all be connected with the second connecting strip between the top of two antidetonation covers in addition, and first connecting strip is the same with the structure of second connecting strip, two four sides in the inside of guard plate all are connected with connecting screw.

As a further aspect of the present invention: the inside bilateral symmetry of first connecting strip has seted up and has connected the spout, two the equal sliding connection in inside of connecting the spout has link block, and first connecting strip is through connecting spout and link block sliding connection.

As a further aspect of the present invention: two equal fixed mounting in link block's outer end has the linking arm, and fixed connection between linking arm and the antidetonation cover, two link spring is all installed to the inboard of connecting the spout, and link spring's outer end and link block's external connection.

As a further aspect of the present invention: two limiting sliding blocks are symmetrically installed on two sides of the outer portion of the connecting sliding block, limiting sliding grooves are formed in the positions, corresponding to the limiting sliding blocks, of the inner portion of the first connecting strip, and the connecting sliding blocks are connected with the limiting sliding grooves in a sliding mode through the limiting sliding blocks.

As a further aspect of the present invention: the middle of the inside of the anti-seismic sleeve is fixedly provided with an L-shaped connecting parting bead, and an isolation groove is formed between the inner side of the anti-seismic sleeve and the outside of the connecting parting bead.

As a further aspect of the present invention: the position department that the inside of antidetonation cover is close to the connection parting bead all is provided with two antidetonation boards, the outside bilateral symmetry of antidetonation board is installed and is connected the slide bar, and connects slide bar and connection parting bead sliding connection.

As a further aspect of the present invention: the outside of connecting the slide bar all is equipped with and pushes up the movable spring, and pushes up movable spring setting and is connecting between the inboard of parting bead and antidetonation board, the slipmat is all installed to the clamping face of antidetonation board.

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

1. when using, with four corners of antidetonation cover card in the outside of hard disk main part, hold link block through coupling spring, through link block and the cooperation of being connected the spout, hold the antidetonation cover with the linking arm, vertical tensioning is carried out with the antidetonation cover through first connecting strip, horizontal tensioning is carried out with the antidetonation cover through the second connecting strip, it is fine to fix the antidetonation cover, carry out outside antidetonation through the silica gel strip, move the spring through the top and withstand antidetonation board, cooperate the slipmat to carry out the shock attenuation, realize inside antidetonation, effectual improvement antidetonation cover is to the antidetonation effect of hard disk main part, effect when effectual improvement the device uses, convenient to use personnel use, better for the conventional mode.

2. In order to better dispel the heat with the hard disk main part, carry out the circular telegram to the heat dissipation fan through external power supply, blow through the heat dissipation fan, carry out the effluvium heat through the heat dissipation window, effect when effectual improvement hard disk main part uses, and the user of being convenient for uses, and is better for traditional mode.

Drawings

FIG. 1 is a schematic structural view of an earthquake-resistant protection structure for a computer hard disk;

FIG. 2 is a schematic structural diagram of a first connecting bar in an earthquake-proof protection structure for a computer hard disk;

fig. 3 is a schematic structural diagram of an anti-seismic sleeve in an anti-seismic protective structure for a computer hard disk.

In the figure: 1. a hard disk main body; 2. an anti-seismic sleeve; 3. a silica gel strip; 4. a protection plate; 5. a heat dissipation fan; 6. a heat dissipation window; 7. a shock pad; 8. a first connecting bar; 9. a second connecting strip; 10. connecting a screw rod; 11. connecting the sliding chute; 12. connecting the sliding block; 13. a connecting arm; 14. a connecting spring; 15. a limiting slide block; 16. a limiting chute; 17. connecting the division bars; 18. an isolation trench; 19. a seismic plate; 20. connecting a sliding rod; 21. pushing the spring; 22. a non-slip mat.

Detailed Description

Referring to fig. 1-3, in the embodiment of the present invention, an anti-vibration protection structure for a computer hard disk comprises a hard disk main body 1, four corners of the outer portion of the hard disk main body 1 are all sleeved with anti-vibration sleeves 2, two silica gel strips 3 are fixedly mounted on the outer portions of the four anti-vibration sleeves 2, protection plates 4 are mounted in the middle of the upper and lower sides of the hard disk main body 1, heat dissipation fans 5 are mounted in the middle of the inner portions of the two protection plates 4 in an embedded manner, heat dissipation windows 6 are mounted on the inner sides of the two protection plates 4, two shock absorption pads 7 are mounted on the clamping surfaces of the two protection plates 4, wherein a first connecting strip 8 is connected between the outer parts of two anti-seismic sleeves 2, a second connecting strip 9 is connected between the top parts of the other two anti-seismic sleeves 2, and the first connecting strip 8 and the second connecting strip 9 have the same structure, and the four sides of the inside of the two protection plates 4 are connected with connecting screw rods 10.

In FIGS. 1-2: connecting chute 11 has been seted up to the inside bilateral symmetry of first connecting strip 8, and the equal sliding connection in inside of two connecting chute 11 has coupling block 12, and first connecting strip 8 is through connecting chute 11 and coupling block 12 sliding connection, through coupling block 12 and the cooperation of connecting chute 11, drives the more stable slip of linking arm 13.

In fig. 2: the outer ends of the two connecting sliding blocks 12 are fixedly provided with connecting arms 13, the connecting arms 13 are fixedly connected with the anti-seismic sleeve 2, connecting springs 14 are mounted on the inner sides of the two connecting sliding grooves 11, the outer ends of the connecting springs 14 are connected with the outer portions of the connecting sliding blocks 12, the connecting sliding blocks 12 are pulled through the connecting springs 14, the connecting arms 13 are pulled to the anti-seismic sleeve 2, and the anti-seismic sleeve 2 is vertically tensioned through the first connecting strips 8.

In FIGS. 1-2: limiting slide blocks 15 are symmetrically installed on two outer sides of the two connecting slide blocks 12, limiting slide grooves 16 are formed in positions, corresponding to the limiting slide blocks 15, of the first connecting strip 8, the connecting slide blocks 12 are connected with the limiting slide grooves 16 in a sliding mode through the limiting slide blocks 15, and the connecting slide blocks 12 are driven to slide more stably through the matching of the limiting slide blocks 15 and the limiting slide grooves 16.

In fig. 1 and 3: the middle of the inside of the anti-seismic sleeve 2 is fixedly provided with an L-shaped connecting parting bead 17, an isolation groove 18 is arranged between the inner side of the anti-seismic sleeve 2 and the outside of the connecting parting bead 17, and the connection sliding rod 20 can move in enough space through the isolation groove 18.

In fig. 1 and 3: the position department that is close to connecting parting bead 17 in the inside of antidetonation cover 2 all is provided with two antidetonation boards 19, and the outside both sides symmetry of antidetonation board 19 is installed and is connected slide bar 20, and connects slide bar 20 and be connected parting bead 17 sliding connection, through the cooperation of connecting slide bar 20 and being connected parting bead 17, drives the more stable slip of antidetonation board 19.

In fig. 3: the outside of connecting slide bar 20 all is equipped with and pushes up movable spring 21, and pushes up movable spring 21 and sets up between the inboard of connecting parting bead 17 and antidetonation board 19, and slipmat 22 is all installed to the clamping face of antidetonation board 19, pushes up antidetonation board 19 through pushing up movable spring 21, cooperates slipmat 22 to carry out the shock attenuation, realizes inside antidetonation.

The utility model discloses a theory of operation is: when in use, the anti-seismic sleeve 2 is clamped at four corners outside the hard disk main body 1, the connecting slide block 12 is pulled through the connecting spring 14, the anti-seismic sleeve 2 is pulled through the connecting slide block 12 and the connecting chute 11, the connecting arm 13 is pulled through the connecting chute, the anti-seismic sleeve 2 is vertically tensioned through the first connecting strip 8, the anti-seismic sleeve 2 is transversely tensioned through the second connecting strip 9, the anti-seismic sleeve 2 is well fixed, the external anti-seismic is carried out through the silica gel strip 3, the anti-seismic plate 19 is propped through the jacking spring 21, the shock absorption is carried out through the matching of the anti-slip pad 22, the internal anti-seismic effect is realized, the anti-seismic effect of the anti-seismic sleeve 2 on the hard disk main body 1 is effectively improved, in order to better radiate the heat of the hard disk main body 1, the heat radiation fan 5 is electrified through an external power supply, the air blowing is carried out through the heat radiation fan 5, the heat is radiated through the heat radiation window 6, and the effect when the hard disk main body 1 is effectively improved in use, the use of the user is convenient, and the use is relatively practical.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. An anti-seismic protection structure for a computer hard disk comprises a hard disk main body (1) and is characterized in that anti-seismic sleeves (2) are sleeved at four corners outside the hard disk main body (1), two silica gel strips (3) are fixedly mounted at the outside of the four anti-seismic sleeves (2), protective plates (4) are mounted at the middle positions of the upper side and the lower side of the hard disk main body (1), heat dissipation fans (5) are mounted at the middle positions inside the two protective plates (4) in an embedded mode, heat dissipation windows (6) are mounted at two sides inside the two protective plates (4), two shock absorption pads (7) are mounted on clamping surfaces of the two protective plates (4), a first connecting strip (8) is connected between the outside of the two anti-seismic sleeves (2), and a second connecting strip (9) is connected between the tops of the other two anti-seismic sleeves (2), the first connecting strip (8) and the second connecting strip (9) are identical in structure, and four sides of the inner parts of the two protection plates (4) are connected with connecting screw rods (10).

2. An earthquake-proof protection structure for a computer hard disk according to claim 1, wherein the first connecting bar (8) is symmetrically provided with connecting sliding grooves (11) at two sides of the inside, the inside of the two connecting sliding grooves (11) is slidably connected with connecting sliding blocks (12), and the first connecting bar (8) is slidably connected with the connecting sliding blocks (12) through the connecting sliding grooves (11).

3. An anti-seismic protection structure for a computer hard disk according to claim 2, characterized in that the outer ends of the two connection sliders (12) are fixedly provided with connection arms (13), the connection arms (13) are fixedly connected with the anti-seismic sleeve (2), the inner sides of the two connection chutes (11) are provided with connection springs (14), and the outer ends of the connection springs (14) are connected with the outer portions of the connection sliders (12).

4. An earthquake-proof protection structure for a computer hard disk according to claim 3, wherein two limiting slide blocks (15) are symmetrically installed on two outer sides of the two connecting slide blocks (12), limiting slide grooves (16) are respectively formed in positions, corresponding to the limiting slide blocks (15), of the first connecting strip (8), and the connecting slide blocks (12) are slidably connected with the limiting slide grooves (16) through the limiting slide blocks (15).

5. An anti-seismic protection structure for a computer hard disk according to claim 1, characterized in that the middle of the inside of the anti-seismic sleeve (2) is fixedly provided with an L-shaped connecting division bar (17), and an isolation groove (18) is arranged between the inside of the anti-seismic sleeve (2) and the outside of the connecting division bar (17).

6. An anti-seismic protection structure for a computer hard disk according to claim 5, characterized in that two anti-seismic plates (19) are arranged inside the anti-seismic sleeve (2) at positions close to the connecting parting strips (17), connecting sliding rods (20) are symmetrically arranged on two sides of the outside of each anti-seismic plate (19), and the connecting sliding rods (20) are connected with the connecting parting strips (17) in a sliding manner.

7. An earthquake-proof protection structure for a computer hard disk according to claim 6, characterized in that the outside of the connecting slide rod (20) is sleeved with a jacking spring (21), the jacking spring (21) is arranged between the connecting parting bead (17) and the inner side of the earthquake-proof plate (19), and the clamping surfaces of the earthquake-proof plate (19) are provided with anti-skid pads (22).

Images