CN212873338U - Shockproof mounting structure of hard disk - Google Patents

Abstract

The utility model belongs to the technical field of hard disks and discloses a hard disk shockproof mounting structure, which comprises a bottom frame, two adjusting plates are symmetrically arranged in the bottom frame, top frames are arranged at the tops of the two adjusting plates, limiting frames are respectively arranged on two sides of the outer wall of the bottom frame, moving rods penetrate through the two limiting frames, moving plates are sleeved on the moving rods, and a pressure spring is sleeved at one side position of the circumferential surface of the moving rod close to the moving plate, a fixing frame is arranged in the bottom frame, the adjusting plate is fixed at the position on the bottom frame required by a user by extruding and pushing the moving plate and the moving rod through the pressure spring, the screw rod is rotated to drive the limiting plate to abut against the underframe and the adjusting plate, so that a user can conveniently fix hard disks with different numbers, the hard disks with the number required by a user can be installed, and the effect of improving the application range of the device is achieved.

Description

Shockproof mounting structure of hard disk

Technical Field

The utility model belongs to the technical field of the hard disk, concretely relates to shockproof mounting structure of hard disk.

Background

Hard disks are abbreviated as HDD, full name Winchester hard disk, computer hard disk is the most main storage equipment of computer, and is composed of one or more aluminum or glass made disks. The discs are coated with ferromagnetic material.

But the hard disk shock mounting on the existing market does not set up the structure of being convenient for fixed different figure hard disks, can only install fixed number hard disks, and the application range of device has the limitation to when the user needs fixed hard disk, need twist a large amount of fixed knot and construct, greatly increased the fixed degree of difficulty of hard disk, reduced the fixed efficiency of hard disk.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mounting structure takes precautions against earthquakes of hard disk to what provide in solving above-mentioned background art can only install the hard disk of fixed number, it is big that device application range has the fixed degree of difficulty of limitation and hard disk, fixed inefficiency problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a mounting structure takes precautions against earthquakes of hard disk, includes the chassis, two regulating plates, two are installed to the inside symmetry of chassis the roof-rack is all installed at the top of regulating plate, spacing, two are all installed to the outer wall both sides of chassis the carriage release lever has all been run through to spacing inside, the cover is equipped with the movable plate on the carriage release lever, and is close to one side position department cover of movable plate on the carriage release lever periphery and is equipped with the pressure spring, the internally mounted of chassis has the mount, the inside symmetry of mount closes soon and is connected with two screw rods, two the limiting plate is all installed to the one end that the screw rod was carried on the back mutually, and the head is all installed to two relative one.

Preferably, two elastic ropes symmetrically penetrate through the fixing frame, clamping plates are mounted at one ends of the two elastic ropes, a clamping hook is mounted at one end of one of the elastic ropes relative to the clamping plate, and a clamping ring is mounted at the other end of the other elastic rope relative to the clamping plate.

Preferably, the non-slip mat is installed to the one end that the carriage release lever extends to the inside of chassis, the non-slip mat has seted up the non-slip groove back on the back in one side of carriage release lever.

Preferably, the two sides of the rotating head are both provided with rotating rods, and the rotating rods are sleeved with handle sleeves.

Preferably, a pull ring is installed at one end, back to the non-slip mat, of the moving rod, and a pull hole is formed in the pull ring.

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

(1) the utility model discloses a pressure spring promotes movable plate and carriage release lever extrusion, makes the regulating plate be fixed in the position department that the user needs on the chassis, through rotating the screw rod, makes the screw rod drive the limiting plate and supports chassis and regulating plate, lets the hard disk of the fixed different figure of user being convenient for, can install the hard disk that the user needs the number, has reached the effect that improves the device application range.

(2) The utility model discloses a two elastic rope of pulling make two cardboards hug closely the hard disk main part, fixed through trip and snap ring block to on being fixed in the mount with the hard disk main part, when letting the user need fixed hard disk, need not to twist and move a large amount of fixed knot and construct, greatly reduced the fixed degree of difficulty of hard disk, improved the fixed efficiency of hard disk.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an internal structural view of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an enlarged view of portion B of FIG. 2;

in the figure: 1-a chassis; 2-a fixing frame; 3-a pull ring; 4-adjusting plate; 5-a hard disk main body; 6-clamping plate; 7-a top frame; 8-a limiting frame; 9-rotating rod; 10-turning the head; 11-an elastic cord; 12-a limiting plate; 13-a screw; 14-a non-slip mat; 15-pressure spring; 16-moving the plate; 17-a moving rod; 18-a hook; 19-snap ring.

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. 1-4, the present invention provides the following technical solutions: a shockproof mounting structure for a hard disk comprises an underframe 1, wherein two adjusting plates 4 are symmetrically mounted in the underframe 1, top frames 7 are mounted at the tops of the two adjusting plates 4, limiting frames 8 are mounted on two sides of the outer wall of the underframe 1, moving rods 17 penetrate through the two limiting frames 8, a moving plate 16 is sleeved on the moving rod 17, a pressure spring 15 is sleeved at a position, close to one side of the moving plate 16, on the circumferential surface of the moving rod 17, a fixed frame 2 is mounted in the underframe 1, two screw rods 13 are symmetrically and rotatably connected in the fixed frame 2, a limiting plate 12 is mounted at one end opposite to each other of the two screw rods 13, a rotating head 10 is mounted at one end opposite to each other of the two screw rods 13, a hard disk main body 5 is mounted above the fixed frame 2, the moving plate 16 is extruded by the pressure spring 15 to move the moving rod 17, so that the moving rod 17 is, the adjusting plate 4 and the top frame 7 are fixed at the position required by the user, the screw 13 is driven to rotate through the rotary head 10, the screw 13 moves in the fixing frame 2, and the limiting plate 12 abuts against the inner wall of the bottom frame 1, so that the fixing frame 2 required by the user is fixed on the bottom frame 1.

Further, the symmetry runs through two elastic ropes 11 on mount 2, cardboard 6 is all installed to the one end of two elastic ropes 11, and trip 18 is installed for cardboard 6's one end to one of them elastic rope 11, snap ring 19 is installed for cardboard 6's one end to another elastic rope 11, through pulling two elastic ropes 11, make two elastic ropes 11 drive cardboard 6 and remove, let two cardboard 6 support hard disk main part 5, it is fixed with 19 block of snap ring through trip 18, thereby be fixed in on mount 2 with hard disk main part 5.

Further, the non-slip mat 14 is installed to the inside one end that the carriage release lever 17 extends to chassis 1, and the non-slip mat 14 has seted up the non-slip groove in one side of carriage release lever 17 mutually, and is more firm when letting carriage release lever 17 support regulating plate 4 through non-slip groove and non-slip mat 14.

Furthermore, the rotating rods 9 are arranged on two sides of the rotating head 10, the rotating rod 9 is sleeved with a handle sleeve, and the rotating head 10 is convenient to rotate through the handle sleeve and the rotating rods 9.

Furthermore, a pull ring 3 is installed at one end of the movable rod 17 opposite to the non-slip mat 14, a pull hole is formed in the pull ring 3, and the movable rod 17 is convenient to pull through the pull hole and the pull ring 3.

The utility model discloses a theory of operation and use flow: when the utility model is used, the device is moved to a use point, after the device is placed stably, the moving rod 17 is pulled through the pull ring 3, the moving rod 17 is separated from the adjusting plate 4, the top frame 7 is pulled, the top frame 7 drives the adjusting plate 4 to move, the adjusting plate 4 is moved to the length required by a user, the moving rod 17 is loosened, the moving plate 16 is extruded and pushed through the pressure spring 15, the moving rod 17 is driven to move, the moving rod 17 is inserted into the bottom frame 1 to support the adjusting plate 4, the adjusting plate 4 is fixed with the fixed frame 2, and under the action of the anti-skid pad 14, the adjusting plate 4 is fixed more stably, after the adjusting plate 4 is fixed, the fixed frames 2 with the number required by the user are selected, the fixed frames 2 are placed in the bottom frame 1, the rotating rod 9 is rotated through the rotating head 10, the screw 13 is rotated, so that the screw 13 moves in the fixed, make limiting plate 12 remove to support the inner wall of mount 2 and regulating plate 4, thereby make the mount 2 installation back that finishes, place the hard disk main part 5 that will install in mount 2, through pulling two elasticity ropes 11, make elasticity rope 11 drive cardboard 6 and remove, make cardboard 6 hug closely hard disk main part 5, it is fixed with 19 block of snap ring through trip 18, thereby be fixed in mount 2 with hard disk main part 5 on, reduce the vibrations that hard disk main part 5 received through mount 2.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (5)

1. The utility model provides a hard disk mounting structure that takes precautions against earthquakes which characterized in that: comprises an underframe (1), two adjusting plates (4) are symmetrically arranged in the underframe (1), top frames (7) are arranged at the tops of the two adjusting plates (4), limiting frames (8) are respectively arranged on two sides of the outer wall of the bottom frame (1), moving rods (17) penetrate through the two limiting frames (8), a moving plate (16) is sleeved on the moving rods (17), a pressure spring (15) is sleeved on one side of the circumferential surface of the moving rod (17) close to the moving plate (16), a fixing frame (2) is arranged in the chassis (1), two screw rods (13) are symmetrically and rotatably connected in the fixing frame (2), a limiting plate (12) is arranged at one end of each screw rod (13) which is opposite to the other, and the opposite ends of the two screw rods (13) are provided with rotating heads (10), and a hard disk main body (5) is arranged above the fixed frame (2).

2. The shockproof mounting structure for hard disks of claim 1, wherein: two elastic ropes (11) symmetrically penetrate through the fixed frame (2), the clamping plate (6) is installed at one end of each elastic rope (11), a clamping hook (18) is installed on one end, opposite to one end of the clamping plate (6), of one elastic rope (11), and a clamping ring (19) is installed on the other end, opposite to one end of the clamping plate (6), of the elastic rope (11).

3. The shockproof mounting structure for hard disks of claim 1, wherein: non-slip mat (14) are installed to the inside one end that carriage release lever (17) extended to chassis (1), non-slip groove has been seted up in one side that non-slip mat (14) back on the back of the body in carriage release lever (17).

4. The shockproof mounting structure for hard disks of claim 1, wherein: the handle is characterized in that rotating rods (9) are mounted on two sides of the rotating head (10), and handle sleeves are sleeved on the rotating rods (9).

5. The shockproof mounting structure for hard disks of claim 3, wherein: and a pull ring (3) is arranged at one end of the moving rod (17) back to the non-slip mat (14), and a pull hole is formed in the pull ring (3).

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