CN213876575U - Computer hard disk protection device that takes precautions against earthquakes - Google Patents

Abstract

The utility model belongs to the technical field of hard disk protection equipment, specifically be a computer hard disk shock protection device, including main body cover, by the cube structure of four crossbearers and four perpendicular connection formation of putting up, its inside is used for placing the hard disk, each side all is the opening, four shock-absorbing layers of inboard one-to-one fixed mounting of crossbearer, evenly distributed shock protection device between two shock-absorbing layers of same surface, and two rows of shock protection device's both ends are connected through rotating device rather than adjacent shock-absorbing layer, shock protection device includes the fixed axle, the fixed axle both ends respectively with pivot one-to-one fixed connection, the fixed cover of fixed axle is equipped with the shock-resistant layer, be equipped with the charging connector on the shock-resistant layer, the space of reserving between fixed axle and the shock-resistant layer is the shock-resistant layer. The utility model discloses have stably, simple structure, the effect of taking precautions against earthquakes is outstanding, has solved the harm that vibrations caused to the computer hard disk, improves the convenience of hard disk when the dismouting, has increased the thermal diffusivity when the hard disk moves, has improved the life of hard disk.

Description

Computer hard disk protection device that takes precautions against earthquakes

Technical Field

The utility model belongs to the technical field of hard disk protection equipment, specifically be a computer hard disk protection device that takes precautions against earthquakes.

Background

The development of electronic information technology, the range of computer applications and the demand for applications continue to increase. The hard disk in the computer belongs to an important device for data storage and management, and has direct influence on the normal operation of the computer. As is well known, a computer is damaged by a collision due to shock during transportation of a user, improper operation during replacement, and the like, so that data loss is caused. In this case, in order to ensure good operation of the computer hard disk, the service life of the hard disk is extended.

The computer hard disk protection device in the prior art is characterized in that a protection structure is installed on the existing hard disk or a shockproof rubber pad is arranged on the existing hard disk, so that the vibration of the hard disk is reduced, the convenience of the hard disk in disassembly and assembly is reduced, the heat dissipation performance of the hard disk is poor due to the closed space, and the service life of the hard disk is shortened. Therefore, a new shockproof protection device for computer hard disk is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a computer hard disk protection device that takes precautions against earthquakes has stably, simple structure, and the effect of taking precautions against earthquakes is outstanding, has solved the harm that vibrations caused to computer hard disk, improves the convenience of hard disk when the dismouting, has increased hard disk thermal diffusivity when moving, has improved the life of hard disk.

The utility model aims at providing a computer hard disk shockproof protection device, which comprises a main body shell, wherein the main body shell is a cube formed by connecting four transverse frames and four vertical frames, and each side surface of the main body shell is provided with an opening;

one of the four shock absorption layers is correspondingly and fixedly arranged on the transverse frame;

two rows of shockproof protection devices are uniformly distributed between two shock absorption layers on the same side surface of the main body shell, and two ends of each shockproof protection device are connected with the adjacent shock absorption layers through rotating devices;

the shockproof protection device comprises a fixed shaft, a shockproof layer is fixedly sleeved outside the fixed shaft, a space reserved between the fixed shaft and the shockproof layer is the shockproof layer, two ends of the fixed shaft are respectively connected with the rotating devices in a one-to-one correspondence mode, and inflating nozzles are arranged on the shockproof layer.

Preferably, the shock-proof protection device for the computer hard disk comprises a shock-proof layer and a plurality of heat dissipation holes, wherein the shock-proof layer comprises two fixing plates and an elastic material layer connected between the two fixing plates, one of the fixing plates is fixedly connected with the adjacent transverse frame, and the fixing plates and the elastic material layer are both provided with the heat dissipation holes.

Preferably, in the computer hard disk anti-vibration protection device, the anti-vibration layer is an elastic soft layer with a thickness of 0.2-0.5 cm.

Preferably, in the computer hard disk shockproof protection device, a linear sliding groove is arranged in the cross frame, a notch of the linear sliding groove is formed in the left side surface of the cross frame and the side surface connected with the rotating device, an upper pulley, a sliding rod, a lower pulley and a spring are arranged in the linear sliding groove, the upper pulley is mounted on the upper surface of the sliding rod, the lower pulley is mounted on the lower surface of the sliding rod, the upper pulley and the lower pulley can move along the inner wall of the linear sliding groove, one end of the spring is fixed on the side wall of the linear sliding groove opposite to the notch, and the other end of the spring is a free end; the shockproof protection device is arranged between the two sliding rods on the same side face of the main body shell.

Preferably, in the computer hard disk shockproof protection device, two magnets which attract each other are arranged in the cross frame, one of the magnets is arranged on one side of the cross frame, which is far away from the spring, and the other magnet is arranged on one side of the slide bar, which is far away from the spring.

Preferably, the vertical frame comprises an upper damping device, the top of the upper damping device is connected with the transverse frame adjacent to the upper damping device, the lower end of the upper damping device is connected with an upper connecting pipe, the lower end of the upper connecting pipe is fixedly connected with the upper end of a pin groove, the lower end of the pin groove is inserted into a lower connecting pipe and can move up and down along the lower connecting pipe, the lower end of the lower damping device is fixedly connected with the lower end of the lower damping device in the lower connecting pipe and below the pin groove, and the upper end of the lower damping device is a free end;

at least one erect and be provided with the bolt on the frame, seted up the jack on the connecting tube pipe wall down, a plurality of sockets have been seted up along the axial on the bolt groove, the bolt can link up the jack and with arbitrary socket matches grafting on the bolt groove.

Preferably, in the computer hard disk shockproof protection device, the upper shock absorption device and the lower shock absorption device are both springs.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses a shock-proof layer and buffer layer realize that the one-level is taken precautions against earthquakes among two rows of protection device that take precautions against earthquakes, through four crossbearers and four vertical frame connection formation's the inside hollow structure of cube main body cover, a plurality of openings in side, hard disk are fixed between two rows of protection device that take precautions against earthquakes of main body cover inside, and its inside is little with hard disk area of contact, improves the heat radiating area of hard disk to increase the life of hard disk. The main body shell with a plurality of openings has a good heat dissipation effect.

2. And the four vertical frames are provided with upper damping devices and lower damping devices, so that a secondary damping effect is achieved when the computer is carried or disassembled, and the damage degree of the computer hard disk caused by vibration is reduced.

3. Through sharp spout and slide bar in four crossbearers, the protection device that takes precautions against earthquakes is installed on the slide bar, when changing the hard disk, draws out the slide bar then the hard disk is also drawn out, increases the space of changing the hard disk, reduces the injury to the hard disk, increases the convenience of hard disk when changing, has improved the stability when the hard disk uses.

Drawings

FIG. 1 is a perspective schematic view of the shockproof protection device for computer hard disk according to the present invention;

FIG. 2 is a schematic structural view of the shockproof protection device of the present invention;

FIG. 3 is a schematic diagram of a cross frame according to the present invention;

FIG. 4 is a schematic diagram of the structure of the vertical frame of the present invention;

description of reference numerals:

1. the damping device comprises a main body shell, 2 parts of a damping layer, 3 parts of a damping protection device, 301 parts of a fixed shaft, 302 parts of a damping layer, 303 parts of a damping layer, 304 parts of an inflating nozzle, 4 parts of a rotating shaft, 5 parts of a cross frame, 501 parts of an upper pulley, 502 parts of a sliding rod, 503 parts of a lower pulley, 504 parts of a spring, 6 parts of a vertical frame, 601 parts of an upper damping device, 602 parts of an upper connecting pipe, 603 parts of a bolt, 604 parts of a bolt groove, 605 parts of a lower connecting pipe and 606 parts of a lower damping device.

Detailed Description

In order to make the technical solution of the present invention better understood and practical for those skilled in the art, the present invention will be further described with reference to the following embodiments and accompanying drawings.

The utility model provides a computer hard disk protection device that takes precautions against earthquakes, as shown in fig. 1-4, include: the cubic main body shell 1 is formed by connecting four transverse frames 5 and four vertical frames 6, and each side surface of the main body shell 1 is provided with an opening; one of the four shock absorption layers 2 is correspondingly and fixedly arranged on the cross frame 5; two rows of shockproof protection devices 3 are uniformly distributed between the two damping layers 2 on the same side surface of the main body shell 1, and two ends of each shockproof protection device 3 are connected with the adjacent damping layers 2 through a rotating device 4; the shockproof protection device 3 comprises a fixed shaft 301, a shockproof layer 303 is fixedly sleeved outside the fixed shaft 301, a space reserved between the fixed shaft 301 and the shockproof layer 303 is the shockproof layer 302, two ends of the fixed shaft 301 are respectively connected with the rotating devices 4 in a one-to-one correspondence manner, and the shockproof layer 303 is provided with an air charging connector 304.

The utility model discloses a computer hard disk shockproof protection device, including computer hard disk shockproof protection device, cube main body cover 1, cross-frame 5, vertical frame 6, main body cover 1, the interior hollow structure that is of cube main body cover 1 in the computer hard disk shockproof protection device, each side all is the opening, the hard disk is placed to its inside, cross-frame 5 is the horizontal arris of main body cover 1 in the cube main body cover that four cross-frames 5 and four vertical frame 6 connect formation, vertical frame 6 is the vertical arris of main body cover 1, be a rigid material, in this embodiment, rigid material is stainless steel hollow tube, the compound plastic-aluminum hollow tube of aluminium, magnesium alloy hollow tube, copper pipe, cross-frame 5 upper wall is fixed with computer mainframe through the screw. When the hard disk is installed or replaced, the hard disk is placed on the anti-vibration layer 303 in the anti-vibration protection device 3, then the hard disk is pushed into the main body shell 1, the hard disk rotates along with the rotation device 4, the rotation device 4 is a rotating shaft, the anti-vibration protection device 3 rolls along with the rotation device, auxiliary force is provided for the hard disk when the hard disk is placed into the main body shell 1, friction between the hard disk and the anti-vibration protection device 3 is reduced, the convenience for placing the hard disk is improved, damage to other components such as a mainframe box can be avoided, and the operation is convenient and fast. The shockproof layer 302 is filled with air through the air charging nozzle 304 arranged on the shockproof layer 303, so that damage caused by extrusion when the hard disk is fixed is avoided. After the hard disk is placed in the main body shell 1, four vertical frames 6 at front, back, left and right are extruded until the shock-proof layers 303 in the upper row and the lower row of shock-proof protection devices 3 are contacted with the hard disk, at this time, the shock- proof layers 302 and 303 in the shock-proof protection devices 3 generate rebound force to the hard disk, so that the hard disk is fixed, and finally, the relative positions of the vertical frames 6 and the transverse frames 5 are fixed.

The shock-absorbing layer 2 comprises two fixing plates and an elastic material layer connected between the two fixing plates, wherein one fixing plate is fixedly connected with the adjacent cross frame 5, and a plurality of heat dissipation holes are formed in the fixing plates and the elastic material layer. Shock-absorbing layer 2 realizes taking precautions against earthquakes to the hard disk through elastic material layer, because elastic material layer is difficult to the design, consequently fixed elastic material layer through two fixed plates, elastic material layer can not drop, improves the stability of taking precautions against earthquakes. In this embodiment, the elastic material layer is a polyurethane layer, rubber, polypropylene or nylon material, and the diameter of the heat dissipation hole is 0.1-0.2mm, so as to increase the heat dissipation area of the hard disk, thereby increasing the service life of the hard disk.

The shock resistant layer 303 is a soft elastic layer with a thickness of 0.2-0.5 cm. In this embodiment, the flexible layer is made of rubber, polyurethane or resin, and is characterized by high elasticity, low wear resistance and deformation, and shock resistance of the hard disk.

A linear sliding groove is formed in the cross frame 5, a notch of the linear sliding groove is formed in the left side face of the cross frame 5 and the side face connected with the rotating device 4, an upper pulley 501, a sliding rod 502, a lower pulley 503 and a spring 504 are arranged in the linear sliding groove, the upper pulley 501 is installed on the upper surface of the sliding rod 502, the lower pulley 503 is installed on the lower surface of the sliding rod 502, the upper pulley 501 and the lower pulley 503 can move along the inner wall of the linear sliding groove, one end of the spring 504 is fixed on the side wall of the linear sliding groove opposite to the notch, and the other end of the spring 504 is a free end; the shock-proof protection device 3 is installed between two sliding rods 502 on the same side of the main body housing 1. Two magnets are arranged in the cross frame 5, wherein one magnet is arranged on the side of the cross frame 5 away from the spring 504, and the other magnet is arranged on the side of the sliding rod 502 away from the spring 504.

In the process of fixing the hard disk, when the sliding rod 502 in the cross frame 5 is pushed, the pulley 501 and the lower pulley 503 arranged inside the cross frame 5 move along the inner wall of the linear sliding groove in the cross frame 5, and then the sliding rod 502 in the cross frame 5 moves along the direction of the linear sliding groove. The slide rod 502 in the cross frame 5 is pushed to move to the position of the spring 504, and after the hard disk is pushed into the main body casing 1, the slide rod 502 is fixed in the cross frame 5 by the magnetic force between the two magnets, and the hard disk is further fixed. The speed of the hard disk during fixing is effectively accelerated, the hard disk is prevented from being fixed by using a dismounting tool, and the convenience of dismounting the hard disk is improved.

The vertical frame 6 comprises an upper damping device 601, the top of the upper damping device 601 is connected with a transverse frame 5 adjacent to the upper damping device, the lower end of the upper damping device 601 is connected with an upper connecting pipe 602, the lower end of the upper connecting pipe 602 is fixedly connected with the upper end of a plug pin groove 604, the lower end of the plug pin groove 604 is inserted into a lower connecting pipe 605 and can move up and down along the lower connecting pipe 605, the lower end of a lower damping device 606 is fixedly connected in the lower connecting pipe 605 below the plug pin groove 604, and the upper end of the lower damping device 606 is a free end; at least one vertical frame 6 is provided with a plug 603, the wall of the lower connecting pipe 605 is provided with a jack, a plurality of jacks are axially arranged on the plug groove 604, and the plug 603 can run through the jack and can be matched and plugged with any jack on the plug groove 604. The upper damping device 601 and the lower damping device 606 are springs

In the process of fixing the hard disk, the bolt 603 is screwed in the direction away from the pin slot 604 to separate the bolt 603 from the pin slot 604, the vertical frame 6 and the lower connecting pipe 605, then the vertical frame 6 is extruded, the pin slot 604 moves along with the bolt, when the vertical frame 6 is contacted with the hard disk, the bolt 603 is inserted from the corresponding positions of the vertical frame 6, the lower connecting pipe 605 and the bolt 603, the total length of the vertical frame 6 is limited, the vertical frame 6 is fixed, and then the hard disk is fixed. When the vertical frame 6 is extruded, the springs in the inner damping device 601 and the lower damping device 606 generate rebound force, the damping effect of the main body shell 1 is effectively enhanced, and accordingly the hard disk is protected against vibration. After the hard disk is fixed, in the process of maintaining the computer mainframe, when the mainframe box is moved or other components such as a fan, a power supply, an optical drive, a radiator and the like are disassembled and assembled in the mainframe box, the springs 504 in the transverse frame 5, the damping devices 601 in the vertical frame 6 and the springs in the lower damping devices 606 can generate rebound force, and accordingly the hard disk is protected in a shockproof mode, and the stability of the hard disk in use is improved.

It should be noted that in the description of the present invention, the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in fig. 1, which is only for the convenience of describing the present invention and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

It should be noted that, in the present invention, the connection relation of the components not particularly mentioned is the default of the prior art, and the connection relation of the structure is not described in detail since it does not relate to the invention point and is a common application of the prior art.

It should be noted that, when the present invention relates to a numerical range, it should be understood that two endpoints of each numerical range and any numerical value between the two endpoints can be selected, and since the steps and methods adopted are the same as those of the embodiments, in order to prevent redundancy, the present invention describes a preferred embodiment. While the preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the scope of the invention.

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 (7)

1. A computer hard disk protection device that takes precautions against earthquakes, characterized by includes:

the main body shell (1) is a cube formed by connecting four transverse frames (5) and four vertical frames (6), and each side surface of the main body shell (1) is provided with an opening;

four shock absorption layers (2), one of which is correspondingly and fixedly arranged on the cross frame (5);

two rows of shockproof protection devices (3) which are uniformly distributed between two damping layers (2) on the same side surface of the main body shell (1), and two ends of each shockproof protection device (3) are connected with the adjacent damping layers (2) through a rotating device (4); shockproof protection device (3) include fixed axle (301), fixed cover in fixed axle (301) outside is equipped with shockproof layer (303), fixed axle (301) with the space of reserving between shockproof layer (303) is shockproof layer (302), fixed axle (301) both ends respectively with rotating device (4) one-to-one is connected, be equipped with charging connector (304) on shockproof layer (303).

2. The computer hard disk shockproof protection device according to claim 1, wherein the shock absorbing layer (2) comprises two fixing plates and an elastic material layer connected between the two fixing plates, one of the fixing plates is fixedly connected with the adjacent cross frame (5), and a plurality of heat dissipation holes are formed in both the fixing plate and the elastic material layer.

3. The shock protection device for computer hard disk according to claim 1, wherein said shock protection layer (303) is a flexible layer with a thickness of 0.2-0.5 cm.

4. The computer hard disk shock-proof protection device according to claim 1, wherein a straight sliding groove is arranged in the cross frame (5), a notch of the straight sliding groove is arranged on the left side surface of the cross frame (5) and the side surface connected with the rotating device (4), an upper pulley (501), a sliding rod (502), a lower pulley (503) and a spring (504) are arranged in the straight sliding groove, the upper pulley (501) is mounted on the upper surface of the sliding rod (502), the lower pulley (503) is mounted on the lower surface of the sliding rod (502), the upper pulley (501) and the lower pulley (503) can move along the inner wall of the straight sliding groove, one end of the spring (504) is fixed on the side wall of the straight sliding groove opposite to the notch, and the other end is a free end; the shockproof protection device (3) is arranged between two sliding rods (502) on the same side surface of the main body shell (1).

5. The shock protection device for hard disk of computer as claimed in claim 4, wherein two magnets are disposed in said cross frame (5), one magnet is disposed on the side of said cross frame (5) away from said spring (504), and the other magnet is disposed on the side of said sliding rod (502) away from said spring (504).

6. The computer hard disk shockproof protection device according to claim 1, wherein the vertical frame (6) comprises an upper shock-absorbing device (601), the top of the upper shock-absorbing device (601) is connected with the horizontal frame (5) adjacent to the upper shock-absorbing device, the lower end of the upper shock-absorbing device is connected with an upper connecting pipe (602), the lower end of the upper connecting pipe (602) is fixedly connected with the upper end of a latch groove (604), the lower end of the latch groove (604) is inserted into a lower connecting pipe (605) and can move up and down along the lower connecting pipe (605), the lower end of a lower shock-absorbing device (606) is fixedly connected in the lower connecting pipe (605) below the latch groove (604), and the upper end of the lower shock-absorbing device (606) is a free end;

at least one of the vertical frames (6) is provided with a plug pin (603), the wall of the lower connecting pipe (605) is provided with a jack, the plug pin groove (604) is provided with a plurality of jacks along the axial direction, and the plug pin (603) can run through the jack and is matched and plugged with any jack on the plug pin groove (604).

7. The shock protection device for computer hard disk according to claim 6, wherein said upper shock absorbing device (601) and said lower shock absorbing device (606) are both springs.

Images