CN212484275U - Computer hard disk protection device that takes precautions against earthquakes - Google Patents

Abstract

The utility model discloses a computer hard disk protection device that takes precautions against earthquakes relates to computer hardware technical field, comprises protective housing and mounting panel, installs the roll-up box that the position corresponds on the inside two relative sides of protective housing, and the roll-up has the connection rope in the roll-up box, and the mounting panel is located between two roll-up boxes that correspond, and the connection rope that stretches out in the roll-up box is connected on the mounting panel, and the hard disk is then installed on the mounting panel. Because the utility model discloses well mounting panel is connected with the protective housing through soft connection rope, consequently when the protective housing was along with the quick-witted case vibrations of computer, the mounting panel can remove along arbitrary direction in the protective housing to slow down the influence of vibrations to the hard disk.

Description

Computer hard disk protection device that takes precautions against earthquakes

Technical Field

The utility model relates to a computer hardware technical field especially relates to a computer hard disk protection device that takes precautions against earthquakes.

Background

Computers are a product of the information age, and are widely used due to their rich functions and good data processing capabilities. A complete computer is composed of several parts, but in general it is mainly composed of a processor, a motherboard, a memory and a hard disk, which are indispensable components for composing a computer.

Among the above components, the hard disk is an important part for storing data, and is essential for the normal operation of the computer. The current hard disk is mainly divided into two types according to the working principle: mechanical hard disks and solid state disks, the latter of which are products that utilize flash memory particles for data storage, so that the data read-write speed is faster than that of mechanical hard disks. The former is a traditional hard disk, and although the read-write speed is slow, the cost is lower and the usage amount is larger, so the former is still the main hard disk form in the market at present. Because the disk and the magnetic head exist in the mechanical hard disk, the requirement on the working environment is higher, the mechanical hard disk needs to be prevented from vibrating in the normal use process so as to avoid the damage of the disk, but the computer is difficult to avoid generating unexpected vibration in use, so that the shockproof mechanism is arranged at the position where the mechanical hard disk is arranged in the computer at present so as to reduce the influence of the vibration on the hard disk.

However, most of the conventional hard disk anti-vibration mechanisms simply damp vibration in a specific direction by using a damping mechanism such as a rubber pad or a spring, but in actual situations, the installation direction of the hard disk is not fixed, which results in that the anti-vibration mechanism cannot play a role.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a computer hard disk protection device that takes precautions against earthquakes can solve the problem that exists among the prior art.

The utility model provides a computer hard disk shockproof protection device, which comprises a protective shell and a mounting plate, wherein the protective shell is an uncovered shell, and the mounting plate is arranged in the protective shell;

the protective shell is provided with at least one furling box on two opposite inner side surfaces, and the furling boxes on the two inner side surfaces are in one-to-one correspondence and are arranged oppositely; a through hole is formed in the side face, back to the inner side face of the protective shell, of each furling box, and a connecting rope furled in each furling box extends out of the through hole; the mounting plate is positioned between the two corresponding furling boxes, and the connecting ropes extending out of the two furling boxes are fixedly connected to the mounting plate;

fixed mounting has vertical picture peg on the one end top surface of mounting panel, install the socket on the picture peg, the both ends of socket are located the both sides of picture peg respectively, the socket is located the one end that the picture peg is close to the mounting panel and has the jack, and this jack is used for pegging graft the hard disk.

The utility model provides a computer hard disk protection device that takes precautions against earthquakes comprises protective housing and mounting panel, installs the roll-up box that the position corresponds on the inside two relative sides of protective housing, and the roll-up has the connection rope in the roll-up box, and the mounting panel is located between two roll-up boxes that correspond, and the connection rope that stretches out in the roll-up box is connected on the mounting panel, and the hard disk is then installed on the mounting panel. Because the utility model discloses well mounting panel is connected with the protective housing through soft connection rope, consequently when the protective housing was along with the quick-witted case vibrations of computer, the mounting panel can remove along arbitrary direction in the protective housing to slow down the influence of vibrations to the hard disk.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of an overall structure of a computer hard disk shockproof protection device provided by the present invention;

FIG. 2 is a schematic longitudinal sectional view of the roll-up box and the mounting plate.

Description of reference numerals:

100-protective shell, 110-connecting seat, 120-furling box, 121-connecting rope, 122-shell, 123-mounting shaft, 124-furling wheel, 125-coil spring, 200-mounting plate, 201-mounting lug, 210-plug board, 220-socket, 230-baffle and 300-flat cable.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the utility model provides a computer hard disk protection device that takes precautions against earthquakes, the device include protective housing 100 and mounting panel 200, protective housing 100 is the uncovered cube casing, mounting panel 200 is installed inside protective housing 200, will during the use protective housing 100 fixed mounting is in the computer case of computer, with the hard disk install on mounting panel 200 can, when the quick-witted case of computer takes place vibrations, the hard disk can move to all directions in protective housing 100 inside together with mounting panel 200 to satisfy the demand of taking precautions against earthquakes of hard disk in arbitrary installation direction.

The protective housing 100 is fixedly provided with a connecting seat 110 on one side surface, one end of the connecting seat 110 is positioned outside the protective housing 100, the other end of the connecting seat 110 is positioned inside the protective housing 100, and one end of the connecting seat positioned outside the protective housing 100 is provided with a jack for plugging a cable connected with a hard disk inside the computer. The protective shell 100 is provided with at least one furling box 120 on two inner side surfaces adjacent to the side surface where the connecting seat 110 is installed, and the furling boxes 120 on the two inner side surfaces are in one-to-one correspondence and are arranged oppositely. Each furling box 120 is provided with a through hole on a side surface back to the inner side surface of the protective shell 100, and a connecting rope 121 furled in the furling box 120 extends out of the through hole. The mounting plate 200 is located between two corresponding furling boxes 120, and the connecting ropes 121 extending from the two furling boxes 120 are fixedly connected to the mounting plate 200.

In this embodiment, the number of the furling boxes 120 on each inner side surface of the protective shell 100 is two, and the four furling boxes 120 are divided into two groups and are respectively located at positions inside the protective shell 100 close to two ends of the mounting plate 200. And two corresponding furling boxes 120 share one connecting rope 121, that is, one end of the connecting rope 121 is furled in one furling box 120, the other end of the connecting rope 121 is furled in the other corresponding furling box 120, and the connecting rope 121 passes through the lower part of the mounting plate 200 and is fixed on the bottom surface of the mounting plate 200. In other embodiments, one connecting rope 121 may be used in each of the two furling boxes 120, and one end of each of the two connecting ropes 121 located outside the furling box 120 is fixedly mounted on two opposite side edges of the mounting plate 200.

The mounting plate 200 is fixedly provided with a vertical insertion plate 210 on the top surface of one end close to the connecting seat 110, the insertion plate 210 is provided with a socket 220, and two ends of the socket 220 are respectively positioned at two sides of the insertion plate 210. The end of the socket 220, which is located at the plug board 210 and close to the connection seat 110, is electrically connected to the end of the connection seat 110, which is located inside the protective shell 100, through the flexible flat cable 300, and the end of the socket 220, which is located at the plug board 210 and is back to the connection seat 110, is provided with a jack for plugging a hard disk. It should be understood that the length of the flat cable 300 should be greater than the distance between the connecting socket 110 and the socket 220 so that the socket 220 can move freely inside the protective case 100.

The mounting plate 200 has seted up the slide opening in the one end of keeping away from picture peg 210, it has vertical baffle 230 to peg graft in the slide opening, the height of baffle 230 be greater than the mounting plate 200 bottom surface with distance between the bottom surface in the protective housing 100, so that when baffle 230 falls on protective housing 100 naturally in the slide opening, the upper end of baffle 230 is higher than the top surface of mounting plate 200, so that the user will make things convenient for baffle 230 upwards to mention. In this embodiment, the slide opening is the n type structure that sets up towards picture peg 210, baffle 230 is also for corresponding shape, consequently baffle 230 includes the curb plate of two parallels and a connecting plate of connection between two curb plates, two all seted up the screw that the position corresponds on the curb plate, peg graft as the hard disk in back on the socket 220, the bottom of hard disk and the top surface in close contact with of mounting panel 200, will then baffle 230 upwards lifts the back baffle 230 supports just to hold the afterbody of hard disk, uses the screw that matches with hard disk side screw to pass behind screw hole on the curb plate and the fastening screw on the hard disk this moment, can with the hard disk is stable to be installed on mounting panel 200, at this moment the baffle is also by stable the installing on mounting panel 200. In order to prevent the baffle 230 from being released from the slide hole when being lifted, the bottom of the baffle 230 has a catch plate protruding in a horizontal direction.

Referring to fig. 2, the furling box 120 includes a housing 122 and a furling wheel 124, the through hole is opened on the housing 122, a mounting shaft 123 is fixedly installed inside the housing 122, and two ends of the mounting shaft 123 are respectively fixed on two opposite inner side walls of the housing 122. The winding wheel 124 is a cylindrical structure, a groove is formed in the center of one bottom surface of the winding wheel, a mounting hole with a diameter slightly larger than that of the mounting shaft 123 is formed in the center of the groove, and the mounting shaft 123 penetrates through the mounting hole to enable the winding wheel 124 to be coaxially and rotatably mounted on the mounting shaft 123. A coil spring 125 is installed in a groove on the bottom surface of the winding wheel 124, the outer end of the coil spring 125 is fixedly installed on the inner side wall of the groove, the inner end of the coil spring 125 is fixedly installed on the installation shaft 123, and one end of the connection rope 121 located inside the winding box 120 is wound on the side surface of the winding wheel 124, so that when the winding wheel 124 rotates, the coil spring 125 is driven to deform, the coil spring 125 applies a restoring force of reverse rotation to the winding wheel 124, the connection rope 121 is tightened, and after the connection rope 121 is loosened, the winding wheel 124 is reversed to keep the connection rope 121 in a straightened state.

In this embodiment, a mounting lug 201 is fixedly mounted on the bottom surface of the mounting plate 200, and when the connection cord 201 is fixed on the bottom surface of the mounting plate 200, the connection cord 121 passes through the mounting lug 201 and is fixed in the mounting lug 201.

The utility model provides a protection device uses the screw to fix protective housing 100 at the quick-witted incasement portion of computer when using, then peg graft respectively the both ends of cable at the mainboard with on the connecting seat, insert the hard disk on socket 220 after that to it is fixed with the hard disk to use baffle 230. When the chassis of the computer is vibrated, the mounting plate 200 moves relatively inside the protective shell 100, at this time, the connecting rope 121 is stretched, the coil spring 125 in the roll-up box 120 deforms, and after the vibration disappears, the connecting rope 121 returns to the initial position under the restoring force of the coil spring 125, so that the influence of the vibration on the hard disk is greatly reduced. Because the utility model discloses in connect the connection rope 121 and the winding displacement 300 of mounting panel 200 and be soft materials, consequently mounting panel 200 can remove to arbitrary direction in protective housing 100 is inside, consequently can slow down the vibrations of arbitrary direction.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. The computer hard disk shockproof protection device is characterized by comprising a protective shell and an installation plate, wherein the protective shell is a coverless shell, and the installation plate is installed inside the protective shell;

the protective shell is provided with at least one furling box on two opposite inner side surfaces, and the furling boxes on the two inner side surfaces are in one-to-one correspondence and are arranged oppositely; a through hole is formed in the side face, back to the inner side face of the protective shell, of each furling box, and a connecting rope furled in each furling box extends out of the through hole; the mounting plate is positioned between the two corresponding furling boxes, and the connecting ropes extending out of the two furling boxes are fixedly connected to the mounting plate;

fixed mounting has vertical picture peg on the one end top surface of mounting panel, install the socket on the picture peg, the both ends of socket are located the both sides of picture peg respectively, the socket is located the one end that the picture peg is close to the mounting panel and has the jack, and this jack is used for pegging graft the hard disk.

2. The computer hard disk shock-proof protection device according to claim 1, wherein the protective shell is fixedly provided with a connecting seat on a side surface between two inner side surfaces for mounting the roll-up box, one end of the connecting seat is positioned outside the protective shell, the other end of the connecting seat is positioned inside the protective shell, and one end of the connecting seat positioned outside the protective shell is provided with a jack for plugging a cable connected with the hard disk inside the computer;

the picture peg fixed mounting is close to on the mounting panel the one end of connecting seat, the socket is located the one end that is close to the connecting seat on the picture peg through soft winding displacement with the connecting seat is located the inside one end electricity of protective housing and connects.

3. The computer hard disk shock-proof protection device of claim 2, wherein the length of the flat cable is greater than the distance between the connection socket and the socket.

4. The computer hard disk shock-proof protection device of claim 1, wherein said winding box comprises a housing and a winding wheel, said housing has a mounting shaft fixedly mounted inside, said winding wheel is coaxially and rotatably mounted on said mounting shaft, a coil spring is provided between said winding wheel and said mounting shaft, and one end of said connecting rope inside said winding box is wound on the side of said winding wheel.

5. The computer hard disk shock-proof protection device of claim 4, wherein said winding wheel is a cylindrical structure, a groove is formed in the center of one bottom surface of the winding wheel, a mounting hole with a diameter larger than that of said mounting shaft is formed in the center of the groove, and said mounting shaft passes through the mounting hole to rotatably mount said winding wheel on said mounting shaft;

the coil spring is arranged in a groove on the bottom surface of the winding wheel, the outer end of the coil spring is fixedly arranged on the inner side wall of the groove, and the inner end of the coil spring is fixedly arranged on the mounting shaft.

6. The computer hard disk shock-proof protection device according to claim 1, wherein one end of said connecting rope is wound in one of said winding boxes, and the other end is wound in the corresponding other of said winding boxes;

the bottom surface of the mounting plate is fixedly provided with a mounting lug, and the connecting rope penetrates through the mounting lug and is fixed in the mounting lug.

7. The computer hard disk shock-proof protection device according to claim 1, wherein two corresponding winding boxes respectively wind a connecting rope, and one ends of the two connecting ropes located outside the winding boxes are respectively fixedly installed on two opposite side edges of the installation plate.

8. The computer hard disk shock-proof protection device according to claim 1, wherein the mounting plate has a sliding hole at an end away from the insertion plate, the sliding hole is inserted with a baffle plate, the baffle plate is an n-shaped structure disposed toward the insertion plate, and comprises two parallel side plates and a connecting plate connected between the two side plates, the two side plates are both provided with screw holes corresponding to each other, and the screw holes correspond to the screw holes on the hard disk.

9. The computer hard disk shock protection device as claimed in claim 8, wherein the bottom of said baffle has a horizontally protruding catch plate.

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