CN115064187B - Safe and stable electronic information data storage equipment - Google Patents

Abstract

The invention discloses safe and stable electronic information data storage equipment, which comprises a box body and the data storage equipment, wherein a support rod is hinged on the box body through a pin shaft, a fixed plate used for placing and fixing the data storage equipment is fixedly connected on the support rod, two first rotating rods are rotatably connected on the inner wall of the box body, a limiting box is fixedly connected on each first rotating rod, a buffer mechanism used for damping the data storage equipment is arranged on the support rod, two first supporting plates are fixedly connected on the box body, through holes are formed in the two first supporting plates, winding rollers used for winding power wires are rotatably connected through the through holes, and the power wires are electrically connected with the data storage equipment. The invention achieves the effects of shock absorption and buffering and reducing physical damage to the storage equipment through the matching of the integral structure, and achieves the effect of shock absorption by dispersing the shock force through the swinging of the two cylindrical racks through the arrangement of the buffering mechanism.

Description

Safe and stable electronic information data storage equipment

Technical Field

The invention relates to the technical field of data storage equipment, in particular to safe and stable electronic information data storage equipment.

Background

The memory is an electronic device which is made up by using semiconductor and magnetic medium technology and can store program and various data, and can quickly and automatically implement access of program or data in the course of operation of computer.

At present, when the box body is carried manually, the data storage device in the box body is often vibrated, and once the vibration is strong, abnormal reading and writing can occur, even the storage device is damaged physically, and the consequence is serious, so that a safe and stable electronic information data storage device is needed to solve the problems.

Disclosure of Invention

The invention aims to provide a safe and stable electronic information data storage device, which has the advantages of shock absorption and buffering and reduction of physical damage to the storage device, and solves the problem that the storage device is physically damaged due to read-write abnormity if the vibration is strong.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a safety and stability's electronic information data storage equipment includes box and data storage equipment, it has the bracing piece to articulate through the round pin axle on the box, fixedly connected with is used for placing data storage equipment and fixed plate on the bracing piece, the inner wall of box rotates and is connected with two first transfer poles, every equal fixedly connected with spacing casees on the first transfer pole, be equipped with on the bracing piece and be used for carrying out the absorbing buffer gear of data storage equipment, two first backup pads of fixedly connected with on the box, all seted up the through-hole on two first backup pads and be connected with the wind-up roll that is used for carrying out the rolling with the power cord through the through-hole rotation, power cord and data storage equipment electric connection, be equipped with the supporting mechanism who is used for carrying out the box with the box and support on the box.

Preferably, buffer gear is including articulating two cylinder racks on the bracing piece through the round pin axle, every the cylinder rack all runs through the spacing case that corresponds, every first spring has all been cup jointed on the cylinder rack, every first spring respectively with corresponding spacing case and bracing piece fixed connection, every rotate on the spacing case and be connected with the second dwang, every fixedly connected with ratchet on the second dwang, every all the cover is equipped with the gear with cylinder rack toothing on the ratchet, every all set up on the gear with ratchet complex draw-in groove.

Preferably, the buffer mechanism further comprises a first bevel gear fixedly connected to each second rotating rod.

Preferably, the supporting mechanism is including two connecting rods of fixed connection on the box and two second backup pads, two common fixedly connected with barrel casing on the connecting rod, the roll is connected with the ball in the barrel casing, every there is first slide bar, every equal spacing sliding connection in the second backup pad all to rotate on the first slide bar and be connected with third dwang, every equal fixedly connected with and first bevel gear meshing's second bevel gear on the third dwang.

Preferably, the supporting mechanism further comprises a bearing rod fixedly connected to each third rotating rod, and each bearing rod penetrates through the box body.

Preferably, the box body is provided with an unlocking mechanism used for loosening a power line during shaking, the unlocking mechanism comprises a third supporting plate, a second sliding rod and a first pull rope, the third supporting plate is fixedly connected to the box body, the second sliding rod is fixedly connected with a first spline, the second sliding rod is slidably connected to the third supporting plate through the first spline, the second sliding rod is fixedly connected with a circular table, and the second sliding rod is fixedly connected with a bearing rod through the first pull rope.

Preferably, the unlocking mechanism is further composed of a fourth supporting plate, a third sliding rod, a second pull rope and a second spring, the fourth supporting plate is fixedly connected to the box body, a second spline is fixedly connected to the third sliding rod, the third sliding rod is connected to the fourth supporting plate through a second spline in a sliding mode, a hollow cavity is formed in the third sliding rod, two wedge blocks matched with the circular truncated cone are connected to the hollow cavity in a sliding mode, each wedge block is fixedly connected to the wedge blocks, the third sliding rod is fixedly connected to the bearing rod through the second pull rope, and the circular truncated cone is fixedly connected with the hollow cavity through the second spring.

Preferably, the two gears and the ratchet wheel are respectively arranged in a mirror image mode.

Preferably, the anti-skid grains are formed in one end, close to the winding roller, of each wedge block.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention achieves the effects of damping and buffering and reducing physical damage to the storage equipment through the cooperation of the integral structure.

2. The damping device has the advantages that by arranging the buffer mechanism, the effect of damping is achieved by dispersing the vibration force through the swinging of the two cylindrical racks, and meanwhile, the vibration force is further decomposed by the aid of the two first springs, the vibration force is reduced rapidly, and the effect of damping is further achieved.

3. According to the invention, through the arrangement of the supporting mechanism, the effect that when the box body shakes violently and falls down soon, the box body is supported by the bearing rod, and the box body is prevented from falling down on the ground is achieved.

4. According to the invention, through arranging the unlocking mechanism, the effects that when the box body falls without shaking, the power line is tightened at the moment, the messy box body is prevented, and interference to other equipment is avoided, when the box body falls with shaking, the power line is pulled out, and the situation that when the box body falls, the power line pulls the data storage equipment, so that the data storage equipment is damaged is avoided.

Drawings

FIG. 1 is a schematic cross-sectional view of the overall structure of the present invention;

FIG. 2 is a schematic exterior view of the overall structure of the present invention;

FIG. 3 is a schematic sectional view of a structure of a buffer mechanism according to the present invention;

FIG. 4 is an exploded view of the structure of the cushioning mechanism of the present invention;

FIG. 5 is a schematic view of the supporting mechanism of the present invention;

FIG. 6 is a schematic cross-sectional view of the supporting mechanism of the present invention;

FIG. 7 is a schematic view of the release mechanism of the present invention;

fig. 8 is a schematic structural section view of the unlocking mechanism of the present invention.

In the figure: 1. a box body; 11. a first rotating lever; 12. a second support plate; 14. a third support plate; 15. a fourth support plate; 16. a first support plate; 17. a connecting rod; 2. a support bar; 21. a fixing plate; 22. a cylindrical rack; 23. a first spring; 3. a limiting box; 31. a second rotating rod; 32. a first bevel gear; 33. a ratchet wheel; 34. a gear; 4. a barrel sleeve; 41. a ball; 42. a first slide bar; 43. a third rotating rod; 44. a load-bearing bar; 45. a second bevel gear; 5. a second slide bar; 51. a first spline; 52. a first pull cord; 53. a circular truncated cone; 6. a third slide bar; 61. a second spline; 62. a second pull cord; 63. a second spring; 64. wedge blocks; 65. a stopper; 7. a wind-up roll; 71. a power line.

Detailed Description

The technical solutions 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 a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

The invention provides a technical scheme that: the utility model provides a safety and stability's electronic information data storage equipment, including box 1 and data storage equipment, it has bracing piece 2 to articulate through the round pin axle on the box 1, fixedly connected with is used for placing data storage equipment and fixed plate 21 on the bracing piece 2, the inner wall of box 1 rotates and is connected with two first pivot poles 11, equal fixedly connected with spacing case 3 on every first pivot pole 11, be equipped with on the bracing piece 2 and be used for carrying out the absorbing buffer gear of data storage equipment, two first backup pads 16 of fixedly connected with on the box 1, all seted up the through-hole on two first backup pads 16 and be connected with the wind-up roll 7 that is used for carrying out the rolling with power cord 71 through the through-hole rotation, power cord 71 and data storage equipment electric connection, be equipped with the supporting mechanism that is used for carrying out the support with box 1 on the box 1.

Buffer gear articulates two cylindrical rack 22 on bracing piece 2 including selling the axle, every cylindrical rack 22 all runs through the stop box 3 that corresponds, first spring 23 has all been cup jointed on every cylindrical rack 22, every first spring 23 respectively with stop box 3 and bracing piece 2 fixed connection that correspond, it is connected with second dwang 31 to rotate on every stop box 3, fixedly connected with ratchet 33 on every second dwang 31, all overlap on every ratchet 33 and be equipped with the gear 34 with cylindrical rack 22 meshing, all seted up on every gear 34 with ratchet 33 complex draw-in groove.

The damping mechanism further comprises a first bevel gear 32 fixedly connected to each second rotatable shaft 31.

The two gears 34 and the ratchet wheel 33 are respectively arranged in mirror images.

During the use, when box 1 receives the striking and rocks, thereby bracing piece 2 used its round pin axle with box 1 junction as the centre of a circle reciprocal rocking, when bracing piece 2 rocked left side in fig. 3, left cylinder rack 22 used its round pin axle with bracing piece 2 junction as the centre of a circle and rotated downwards, thereby left cylinder rack 22 slided to the direction that is close to spacing case 3 in step, thereby left gear 34 rotates clockwise and anticlockwise, and at this moment, right side cylinder rack 22 used its round pin axle with bracing piece 2 junction as centre of a circle upwards rotation in fig. 3, thereby right side cylinder rack 22 slides to the direction of keeping away from spacing case 3 in step, thereby right side gear 34 anticlockwise rotation.

When the support bar 2 is swung to the right in fig. 3, the rack gear 22 on the left side in fig. 3 is slid in a direction away from the stopper box 3 in synchronization with the same principle as described above, so that the gear 34 on the left side is rotated clockwise, and the rack gear 22 on the right side in fig. 3 is slid in a direction closer to the stopper box 3 in synchronization with the gear 34 on the right side is rotated clockwise.

Through the swing of two cylindrical rack 22 in the above, with the dispersion of vibration power to absorbing effect, simultaneously through the assistance of two first springs 23, thereby further decompose the power of vibrations, and accelerate the power of vibrations to reduce, and then further absorbing effect.

The effect that the limiting box 3 can rotate is achieved by arranging the first rotating rod 11, and the effect of interference with the two cylindrical racks 22 is avoided.

The supporting mechanism comprises two connecting rods 17 and two second supporting plates 12 which are fixedly connected to the box body 1, a barrel sleeve 4 is fixedly connected to the two connecting rods 17 together, a round ball 41 is connected to the barrel sleeve 4 in a rolling mode, a first sliding rod 42 is connected to each second supporting plate 12 in a limiting sliding mode, a third rotating rod 43 is connected to each first sliding rod 42 in a rotating mode, and a second bevel gear 45 meshed with the first bevel gear 32 is fixedly connected to each third rotating rod 43 in a rotating mode.

The supporting mechanism further comprises a bearing rod 44 fixedly connected to each third rotating rod 43, and each bearing rod 44 penetrates through the box body 1.

When the two gears 34 rotate back and forth, the ratchet wheel 33 rotates unidirectionally through the cooperation of the engaging groove and the ratchet wheel 33, so that the second rotating rod 31 drives the first bevel gear 32 to rotate unidirectionally.

So that the ball 41 in the sleeve 4 slides in the falling direction when the case 1 is shaken violently and falls over.

When the round ball 41 slides towards the first left sliding rod 42 in fig. 6, the round ball impacts the first left sliding rod 42, so that the first left sliding rod 42 slides leftwards until the second bevel gear 45 is meshed with the first bevel gear 32, the second bevel gear 45 drives the third rotating rod 43 to rotate, the bearing rod 44 on the left side supports the box body 1, and the box body is prevented from falling to the ground and causing damage to the data storage device.

When the round ball 41 slides towards the first sliding rod 42 on the right side in fig. 6, the bearing rod 44 on the right side supports the box body 1, and the effect of avoiding falling down to the ground and causing damage to the data storage device is also achieved.

Through setting up supporting mechanism, reached and taken place acutely to rock when falling soon at box 1, bearing bar 44 propped box 1 this moment, avoided the effect that box 1 falls on the ground.

The two gears 34 and the ratchet wheel 33 are respectively arranged in a mirror image manner, so that the effect that the two bearing rods 44 can be opened in the direction of unidirectional rotation is achieved.

The box body 1 is provided with an unlocking mechanism used for loosening the power line 71 during shaking, the unlocking mechanism comprises a third supporting plate 14, a second sliding rod 5 and a first pull rope 52, the third supporting plate 14 is fixedly connected to the box body 1, the second sliding rod 5 is fixedly connected with a first spline 51, the second sliding rod 5 is slidably connected to the third supporting plate 14 through the first spline 51, a circular truncated cone 53 is fixedly connected to the second sliding rod 5, and the second sliding rod 5 is fixedly connected with a bearing rod 44 through the first pull rope 52.

The unlocking mechanism further comprises a fourth supporting plate 15, a third sliding rod 6, a second pull rope 62 and a second spring 63, the fourth supporting plate 15 is fixedly connected to the box body 1, a second spline 61 is fixedly connected to the third sliding rod 6, the third sliding rod 6 is slidably connected to the fourth supporting plate 15 through the second spline 61, a hollow cavity is formed in the third sliding rod 6, two wedges 64 matched with the circular truncated cones 53 are slidably connected to the hollow cavity, a stop block 65 is fixedly connected to each wedge 64, the third sliding rod 6 is fixedly connected with the bearing rod 44 through the second pull rope 62, and the circular truncated cones 53 are fixedly connected with the hollow cavity through the second springs 63.

Anti-skid threads are formed in one ends, close to the winding roller 7, of the two wedge blocks 64.

Referring to fig. 7 and 8, when the bearing rod 44 on the left side rotates, the first pull rope 52 slides the second sliding rod 5 to the left, so that the circular truncated cone 53 slides to the left synchronously, the two wedge blocks 64 slide oppositely, and the locking of the take-up roll 7 is cancelled, so that the power line 71 on the take-up roll 7 can be pulled out when falling, and the phenomenon that the power line 71 pulls the data storage device when falling, so that the data storage device is damaged is avoided.

Referring to fig. 7 and 8, when the bearing bar 44 on the right side rotates, the third sliding bar 6 slides to the right through the second pulling rope 62, so that the two wedges 64 synchronously slide to the right, and the two wedges 64 synchronously slide towards each other, thereby canceling the locking of the take-up roll 7, and the power cord 71 on the take-up roll 7 can be pulled out when falling.

By arranging the stop 65, the effect of limiting the wedge block 64 is achieved.

Through setting up release mechanism, reached when not rocking to fall, power cord 71 was comparatively tight this moment, had avoided in disorder and caused the effect of interference to other equipment in box 1, when rocking to fall, power cord 71 was pulled out, had avoided when falling, power cord 71 dragged data storage equipment to the effect that data storage equipment damaged.

Through setting up first spline 51 and second spline 61, reached second slide bar 5 and third slide bar 6 and can not rotated to can guarantee to carry out the effect of locking to wind-up roll 7.

The working principle is as follows: this safety and stability's electronic information data storage equipment, in use, receive the striking when rocking at box 1, thereby bracing piece 2 uses its round pin axle with the box 1 junction as the centre of a circle reciprocal wave, wave to the left side in fig. 3 at bracing piece 2, left cylinder rack 22 uses its round pin axle with bracing piece 2 junction as centre of a circle downrotation, thereby left cylinder rack 22 is synchronous to the direction that is close to spacing box 3 and is slided, thereby left gear 34 rotates clockwise and anticlockwise, and at this moment, cylinder rack 22 on right side in fig. 3 uses its round pin axle with the bracing piece 2 junction as centre of a circle upwards rotation, thereby cylinder rack 22 on right side slides to the direction of keeping away from spacing box 3 in step, thereby right side gear 34 anticlockwise rotation.

When the support bar 2 is swung to the right in fig. 3, the rack gear 22 on the left side in fig. 3 is slid in a direction away from the stopper box 3 in synchronization with the same principle as described above, so that the gear 34 on the left side is rotated clockwise, and the rack gear 22 on the right side in fig. 3 is slid in a direction closer to the stopper box 3 in synchronization with the gear 34 on the right side is rotated clockwise.

Through the swing of two cylindrical rack 22 in the above-mentioned, with the vibration power dispersion to absorbing effect, simultaneously through the assistance of two first springs 23, thereby further decompose the power of vibrations, and accelerate the power of vibrations to reduce, and then further absorbing effect.

The effect that the limiting box 3 can rotate is achieved by arranging the first rotating rod 11, and the effect of interference with the two cylindrical racks 22 is avoided.

When the two gears 34 rotate back and forth, the ratchet wheel 33 rotates in one direction through the cooperation of the locking groove on the two gears and the ratchet wheel 33, so that the second rotating rod 31 drives the first bevel gear 32 to rotate in one direction.

So that the ball 41 in the sleeve 4 slides in the falling direction when the case 1 is shaken violently and falls over.

When the round ball 41 slides towards the first left sliding rod 42 in fig. 6, the round ball impacts the first left sliding rod 42, so that the first left sliding rod 42 slides leftwards until the second bevel gear 45 is meshed with the first bevel gear 32, the second bevel gear 45 drives the third rotating rod 43 to rotate, the bearing rod 44 on the left side supports the box body 1, and the box body is prevented from falling to the ground and causing damage to the data storage device.

When the round ball 41 slides towards the first sliding rod 42 on the right side in fig. 6, the bearing rod 44 on the right side supports the box body 1, and the effect of avoiding falling down to the ground and causing damage to the data storage device is also achieved.

Through setting up supporting mechanism, reached and taken place acutely to rock when falling soon at box 1, bearing bar 44 propped box 1 this moment, avoided the effect that box 1 falls on the ground.

The two gears 34 and the ratchet wheel 33 are arranged in a mirror image mode respectively, so that the effect that the two bearing rods 44 can be opened in the direction of unidirectional rotation is achieved.

Referring to fig. 7 and 8, when the bearing rod 44 on the left side rotates, the first pull rope 52 slides the second sliding rod 5 to the left, so that the circular truncated cone 53 synchronously slides to the left, the two wedge blocks 64 slide oppositely, the locking of the wind-up roll 7 is cancelled, the power cord 71 on the wind-up roll 7 can be pulled out when falling, and the effect that the power cord 71 pulls the data storage device when falling, so that the data storage device is damaged is avoided.

Referring to fig. 7 and 8, when the bearing bar 44 on the right side rotates, the third sliding bar 6 slides to the right through the second pulling rope 62, so that the two wedges 64 synchronously slide to the right, and the two wedges 64 synchronously slide towards each other, thereby canceling the locking of the take-up roll 7, and the power cord 71 on the take-up roll 7 can be pulled out when falling.

By arranging the stop 65, the effect of limiting the wedge block 64 is achieved.

Through setting up release mechanism, reached when not rocking to fall, power cord 71 was comparatively tight this moment, had avoided in disorder and caused the effect of interference to other equipment in box 1, when rocking to fall, power cord 71 was pulled out, had avoided when falling, and power cord 71 drags data storage equipment to the effect that data storage equipment damaged.

Through setting up first spline 51 and second spline 61, reached second slide bar 5 and third slide bar 6 and can not rotated to can guarantee the effect of locking wind-up roll 7.

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 (8)

1. A safe and stable electronic information data storage device comprises a box body (1) and data storage equipment, and is characterized in that: the box body (1) is hinged with a supporting rod (2) through a pin shaft, the supporting rod (2) is fixedly connected with a fixed plate (21) used for placing data storage equipment and fixing the data storage equipment, the inner wall of the box body (1) is rotatably connected with two first rotating rods (11), each first rotating rod (11) is fixedly connected with a limiting box (3), the supporting rod (2) is provided with a buffer mechanism used for damping the data storage equipment, the box body (1) is fixedly connected with two first supporting plates (16), the two first supporting plates (16) are respectively provided with a through hole and are rotatably connected with a winding roller (7) used for winding a power line (71) through the through holes, the power line (71) is electrically connected with the data storage equipment, and the box body (1) is provided with a supporting mechanism used for supporting the box body (1);

buffer gear is including articulating two cylinder rack (22) in the bracing piece (2) left and right sides through the round pin axle respectively, every cylinder rack (22) all runs through spacing case (3) that correspond, every first spring (23), every have all been cup jointed on cylinder rack (22) first spring (23) respectively with spacing case (3) and bracing piece (2) fixed connection that correspond, every rotate on spacing case (3) and be connected with second dwang (31), every fixedly connected with ratchet (33), every on second dwang (31) all the cover is equipped with gear (34) with cylinder rack (22) meshing on ratchet (33), every the draw-in groove with ratchet (33) complex has all been seted up on gear (34).

2. A secure and stable electronic information material storage device according to claim 1, wherein: the buffer mechanism also comprises a first bevel gear (32) fixedly connected to each second rotating rod (31).

3. A secure and stable electronic information material storage device according to claim 2, wherein: supporting mechanism is including two connecting rods (17) and two second backup pads (12) of fixed connection on box (1), two common fixedly connected with barrel casing (4) are gone up in connecting rod (17), the roll is connected with ball (41), every in barrel casing (4) equal spacing sliding connection has first slide bar (42), every on second backup pad (12) all rotate on first slide bar (42) and be connected with third dwang (43), every equal fixedly connected with and second bevel gear (45) of first bevel gear (32) meshing on third dwang (43).

4. A secure and stable electronic information material storage device according to claim 3, wherein: the supporting mechanism further comprises a bearing rod (44) fixedly connected to each third rotating rod (43), and each bearing rod (44) penetrates through the box body (1).

5. A secure and stable electronic information material storage device according to claim 4, wherein: be equipped with the release mechanism who is used for loosening power cord (71) when rocking on box (1), release mechanism is including third backup pad (14), second slide bar (5) and first stay cord (52), third backup pad (14) fixed connection is on box (1), fixedly connected with first spline (51) on second slide bar (5), second slide bar (5) are through first spline (51) sliding connection on third backup pad (14), fixedly connected with round platform (53) on second slide bar (5), pass through first stay cord (52) and bearing bar (44) fixed connection on second slide bar (5).

6. A secure, stable electronic information material storage device as claimed in claim 5, wherein: unlocking mechanism is still including fourth backup pad (15), third slide bar (6), second stay cord (62) and second spring (63), fourth backup pad (15) fixed connection is on box (1), fixedly connected with second spline (61) on third slide bar (6), third slide bar (6) are through second spline (61) sliding connection on fourth backup pad (15), hollow chamber has been seted up on third slide bar (6), sliding connection has two voussoirs (64) with round platform (53) matched with on the hollow chamber, every equal fixedly connected with dog (65) on voussoir (64), go up through second stay cord (62) and bearing bar (44) fixed connection on third slide bar (6), round platform (53) are through second spring (63) and hollow chamber fixed connection.

7. A secure and stable electronic information material storage device according to claim 1, wherein: the two gears (34) and the ratchet wheel (33) are arranged in a mirror image mode respectively.

8. A secure, stable electronic information material storage device as claimed in claim 6, wherein: and anti-skid grains are arranged at one end of each wedge block (64) close to the winding roller (7).

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