CN111469898A

CN111469898A - Mobile database with damping function

Info

Publication number: CN111469898A
Application number: CN202010352189.6A
Authority: CN
Inventors: 顿菊红
Original assignee: Qingdao Junping Damping Technology Co Ltd
Current assignee: Qingdao Junping Damping Technology Co Ltd
Priority date: 2020-04-28
Filing date: 2020-04-28
Publication date: 2020-07-31

Abstract

The invention discloses a mobile database with a shock absorption function, which comprises a clamping cavity arranged in a machine body, wherein the upper side of the clamping cavity is communicated with the outside of the machine body, transmission cavities are symmetrically arranged at the left side and the right side of the clamping cavity, a bottom clamping device for clamping the bottom of a computer is arranged in the clamping cavity, and the bottom clamping device comprises a first guide groove formed in the lower side wall of the clamping cavity; the invention has simple and convenient operation and low manufacturing cost, can clamp the bottom of the computer through the rubber pads at two sides to prevent the computer from moving left and right, can clamp the middle of the computer through the rubber wheels at two sides to prevent the computer from shaking left and right, can reduce the vibration received by the computer when the computer moves through the six springs, and can reduce the frequency and the energy of the six springs through the hydraulic shock absorbers.

Description

Mobile database with damping function

Technical Field

The invention relates to the technical field of damping equipment, in particular to a mobile database with a damping function.

Background

The database is a warehouse for organizing, storing and managing data according to a data structure, and is a large amount of data which is stored in a computer for a long time, organized, sharable and uniformly managed, and along with the application of large data, the volume of the computer for storing data is continuously increased, so that the labor intensity is continuously increased during transportation, and the difficulty during transportation is increased because electronic elements in the computer are very sensitive to vibration.

Disclosure of Invention

The present invention is directed to a mobile database with shock absorbing function, which overcomes the above-mentioned drawbacks of the prior art.

The invention discloses a mobile database with a shock absorption function, which comprises a machine body, wherein a clamping cavity is arranged in the machine body, the upper side of the clamping cavity is communicated with the outside of the machine body, transmission cavities are symmetrically arranged at the left side and the right side of the clamping cavity, a bottom clamping device for clamping the bottom of a computer is arranged in the clamping cavity, the bottom clamping device comprises a first guide groove formed in the lower side wall of the clamping cavity, a first sliding block is arranged in the first guide groove in a sliding mode, a first spring is fixedly arranged between the first sliding blocks at the two sides, an auxiliary block is fixedly arranged on the upper side wall of the first sliding block, rubber pads are fixedly arranged on the opposite side walls of the auxiliary blocks at the two sides, an auxiliary groove I is formed in the auxiliary block, a second sliding block is arranged in the first auxiliary groove in a sliding mode, a second auxiliary groove communicated with the outside of the auxiliary, a spring II is fixedly arranged between the sliding block II and one side wall of the auxiliary groove I, which is far away from the auxiliary groove II, an auxiliary groove III communicated with the clamping cavity is formed in the side wall of the transmission cavity, which is close to the clamping cavity, and an auxiliary groove III is formed in the side wall of the transmission cavity, which is far away from the auxiliary groove II; the transmission shaft drives the rope winding wheel to rotate, the auxiliary blocks on the two sides are mutually pulled apart along the guide groove I through the steel rope, the computer is placed between the rubber pads on the two sides, and after the transmission shaft stops rotating, the rubber pads on the two sides approach to each other along the guide groove I under the action of the spring I and clamp the bottom of the computer.

On the basis of the technical scheme, the middle clamping device comprises a rotary drum which is rotatably arranged on the rear side wall of the transmission cavity, a first gear is fixedly arranged at the tail end of the front side of the rotary drum, the first gear is sleeved on the auxiliary wheel, a second guide groove is formed in the auxiliary wheel in an annular array manner, a first bayonet lock is slidably arranged in the second guide groove, a third spring is fixedly arranged between the first bayonet lock and the bottom of the second guide groove, a first clamping groove is formed in the annular array manner on the inner wall of the first gear, a second transmission shaft is rotatably arranged between the front wall and the rear wall of the transmission cavity, a second gear is fixedly arranged on the second transmission shaft, a guide rod is fixedly arranged between the left wall and the right wall of the transmission cavity, the guide rod is positioned between the second gear and the first gear, a rack which is meshed with the second gear and the first gear is slidably arranged on the guide rod, and a fourth spring is, the front and back positions of the side wall of the transmission cavity are symmetrically provided with a third guide groove, a first connecting rod is arranged in the third guide groove in a sliding mode, the first connecting rod is fixedly arranged on the second transmission shaft, and rubber wheels are fixedly arranged between the tail ends of one side, far away from the second transmission shaft, of the first connecting rod on the front side and the back side.

On the basis of the technical scheme, a locking cavity is arranged on the left side of the transmission cavity, and a synchronous rotation transmission device which drives the transmission shafts to synchronously rotate is arranged in the transmission cavity on the left side.

On the basis of the technical scheme, the synchronous rotation transmission device comprises a third transmission shaft which is rotatably arranged between the transmission cavity on the left side and the locking cavity, a second bevel gear which is meshed with the first bevel gear is fixedly arranged at the tail end of the right side of the third transmission shaft, a fourth transmission shaft is rotatably arranged on the lower side wall of the transmission cavity on the left side, the third bevel gear and the fourth transmission shaft are sequentially and fixedly arranged on the fourth transmission shaft from top to bottom, the third bevel gear is meshed with the second bevel gear, a fifth transmission shaft is rotatably arranged on the lower side wall of the transmission cavity on the right side, the fourth bevel gear and a first belt wheel are sequentially and fixedly arranged on the fifth transmission shaft from top to bottom, the fourth bevel gear is meshed with the first bevel gear, a fourth auxiliary groove which is communicated with each other is formed between the transmission cavities on the two sides, a belt is arranged between the first belt wheel and the second belt wheel in, the end of the six right sides of the transmission shaft and the end of the three left sides of the transmission shaft are fixedly provided with a rectangular connecting block, the end of the six left sides of the transmission shaft is fixedly provided with a second connecting rod, the left side wall of the second connecting rod is fixedly provided with a first handle, and a locking device which locks the rectangular connecting block and blocks the rectangular connecting block from rotating is arranged in the locking cavity.

On the basis of the technical scheme, the locking device comprises a fourth guide groove which is formed in the side wall of the locking cavity and is communicated with the outside of the machine body, a third connecting rod extending up and down is arranged in the fourth guide groove in a sliding mode, a locking block is fixedly arranged at the tail end of the lower side of the third connecting rod, a button is fixedly arranged at the tail end of the upper side of the third connecting rod, a second clamping groove and a third clamping groove are sequentially formed in the third connecting rod from top to bottom, a fifth guide groove is formed in the side wall of the fourth guide groove, a second clamping pin is slidably arranged in the fifth guide groove, and a fifth spring is fixedly arranged between the second clamping pin and the fifth.

On the basis of the technical scheme, the organism downside is equipped with the base, base downside lateral symmetry all around has set firmly universal connector, universal connector downside lateral wall has set firmly the bracing piece, it is equipped with the gyro wheel to rotate on the bracing piece, the brake block is installed to lateral symmetry around the base downside lateral wall, the brake block is located the left side universal connector left side, lateral symmetry has set firmly handle two around the base left side end, the organism with be equipped with the damping device who reduces the vibrations of computer when the transportation between the base.

On the basis of the technical scheme, the damping device comprises hydraulic dampers which are symmetrically and fixedly arranged between the upper side wall of the base and the lower side wall of the machine body in the front-back and left-right positions, and a spring six is sleeved on each hydraulic damper.

The invention has the beneficial effects that: the invention has simple and convenient operation and low manufacturing cost, can clamp the bottom of the computer through the rubber pads at two sides to prevent the computer from moving left and right, can clamp the middle of the computer through the rubber wheels at two sides to prevent the computer from shaking left and right, can reduce the vibration received by the computer when the computer moves through the six springs, and can reduce the frequency and the energy of the six springs through the hydraulic shock absorbers.

Drawings

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

FIG. 1 is a schematic front view of a mobile database structure with shock absorption function according to the present invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is a schematic view of the structure at B-B in FIG. 1;

FIG. 4 is a schematic view of the structure at C-C in FIG. 1;

FIG. 5 is a schematic view of the structure of FIG. 1 at D-D;

FIG. 6 is an enlarged view of the structure at E in FIG. 1;

FIG. 7 is an enlarged view of the structure at F in FIG. 1;

fig. 8 is an enlarged schematic view of the structure of fig. 4 at the drum.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 8, a mobile database with a shock absorption function according to an embodiment of the present invention includes a machine body 10, a clamping cavity 49 is provided in the machine body 10, an upper side of the clamping cavity 49 is communicated with an outside of the machine body 10, transmission cavities 14 are symmetrically provided at left and right sides of the clamping cavity 49, a bottom clamping device 76 for clamping a bottom of a computer is provided in the clamping cavity 49, the bottom clamping device 76 includes a first guide groove 65 formed on a lower side wall of the clamping cavity 49, a first sliding block 52 is provided in the first guide groove 65 in a left-right symmetrical sliding manner, a first spring 66 is provided between the first sliding blocks 52 at two sides, an auxiliary block 63 is provided on an upper side wall of the first sliding block 52, a rubber pad 51 is provided on an opposite side wall of the auxiliary block 63 at two sides, a first auxiliary groove 61 is provided in the auxiliary block 63, a second sliding block 62 is provided, an auxiliary groove two 68 communicated with the outside of the auxiliary block 63 is formed in one side wall of the auxiliary groove one 61 close to the transmission cavity 14, a spring two 64 is fixedly arranged between the sliding block two 62 and one side wall of the auxiliary groove one 61 far from the auxiliary groove two 68, an auxiliary groove three 69 communicated with the clamping cavity 49 is formed in one side wall of the transmission cavity 14 close to the clamping cavity 49, a transmission shaft one 44 is rotatably arranged on the front side wall of the transmission cavity 14, an auxiliary wheel 74, a bevel gear one 42 and a rope winding wheel 43 are fixedly arranged on the transmission shaft one 44 from back to front, a steel rope 70 is fixedly arranged between the sliding block two 62 and the rope winding wheel 43, the steel rope 70 is arranged in the auxiliary groove two 68 and the auxiliary groove three 69, and a middle clamping device 77 for clamping the middle part of a computer is arranged in the transmission cavity 14; the first transmission shaft 44 drives the rope winding wheel 43 to rotate, the auxiliary blocks 63 on the two sides are pulled away from each other along the first guide groove 65 through the steel rope 70, the computer is placed between the rubber pads 51 on the two sides, and after the first transmission shaft 44 stops rotating, the rubber pads 51 on the two sides approach each other along the first guide groove 65 under the action of the first spring 66 and clamp the bottom of the computer.

In addition, in one embodiment, the middle clamping device 77 includes a rotating drum 48 rotatably disposed on the rear side wall of the transmission chamber 14, a first gear 73 is fixedly disposed at the front end of the rotating drum 48, the first gear 73 is sleeved on the auxiliary wheel 74, a second guide groove 75 is disposed on the auxiliary wheel 74 in an annular array, a first bayonet 72 is slidably disposed in the second guide groove 75, a third spring 11 is fixedly disposed between the first bayonet 72 and the bottom of the second guide groove 75, a first bayonet 71 is disposed on the inner wall of the first gear 73 in an annular array, a second transmission shaft 38 is rotatably disposed between the front and rear walls of the transmission chamber 14, a second gear 37 is fixedly disposed on the second transmission shaft 38, a guide rod 41 is fixedly disposed between the left and right walls of the transmission chamber 14, the guide rod 41 is disposed between the second gear 37 and the first gear 73, a rack 40 engaged with the second gear 37 and the first gear 73 is slidably disposed on the guide rod 41, a spring IV 60 is fixedly arranged between the rack 40 and one side wall of the transmission cavity 14 close to the clamping cavity 49, a guide groove III 39 is symmetrically formed in the front and back positions of the upper side wall of the transmission cavity 14, a connecting rod I13 is slidably arranged in the guide groove III 39, the connecting rod I13 is fixedly arranged on the transmission shaft II 38, and a rubber wheel 12 is fixedly arranged between the tail ends of the connecting rod I13 on the front side and the rear side far away from the transmission shaft II 38; the first transmission shaft 44 is matched with the first clamping groove 71 through the first clamping pin 72 to drive the first gear 73 to rotate, the first gear 73 is meshed with the rack 40, the rack 40 is meshed with the second gear 37 to drive the second transmission shaft 38 to rotate, the second transmission shaft 38 drives the first connecting rod 13 to rotate, when the first transmission shaft 44 stops rotating, the rack 40 restores to the original position under the action of the fourth spring 60, meanwhile, the first connecting rod 13 is driven to rotate, and the middle of the computer is clamped through the rubber wheel 12.

In addition, in one embodiment, the left side of the transmission cavity 14 is provided with the locking cavity 30, and the left side of the transmission cavity 14 is provided with a synchronous rotation transmission device 78 for driving the transmission shafts 44 on the two sides to rotate synchronously.

In addition, in one embodiment, the synchronous rotation transmission device 78 includes a third transmission shaft 34 rotatably disposed between the transmission cavity 14 on the left side and the locking cavity 30, a second bevel gear 26 engaged with the first bevel gear 42 is fixedly disposed at the end of the right side of the third transmission shaft 34, a fourth transmission shaft 46 is rotatably disposed on the lower side wall of the transmission cavity 14 on the left side, a third bevel gear 45 and a fourth transmission shaft 46 are sequentially and fixedly disposed on the fourth transmission shaft 46 from top to bottom, the third bevel gear 45 is engaged with the second bevel gear 26, a fifth transmission shaft 54 is rotatably disposed on the lower side wall of the transmission cavity 14 on the right side, a fourth bevel gear 55 and a first pulley 53 are sequentially and fixedly disposed on the fifth transmission shaft 54 from top to bottom, the fourth bevel gear 55 is engaged with the first bevel gear 42, a fourth auxiliary groove 50 communicated with each other is disposed between the transmission cavities 14 on both sides, and a belt, the belt 67 is wound in an 8 shape, a transmission shaft six 58 extending to the outside of the machine body 10 to the left is rotatably arranged on the left side wall of the locking cavity 30, a rectangular connecting block 29 is fixedly arranged between the right end of the transmission shaft six 58 and the left end of the transmission shaft three 34, a connecting rod two 18 is fixedly arranged at the left end of the transmission shaft six 58, a handle one 17 is fixedly arranged on the left side wall of the connecting rod two 18, and a locking device 79 for locking the rectangular connecting block 29 and preventing the rotation of the rectangular connecting block 29 is arranged in the locking cavity 30; the first handle 17 is shaken to drive the first transmission shaft six 58 to rotate, the first transmission shaft six 58 drives the third transmission shaft 34 to rotate, the third transmission shaft 34 is meshed with the first bevel gear 42 through the second bevel gear 26 to drive the first transmission shaft 44 on the left side to rotate, the third transmission shaft 34 is meshed with the third bevel gear 45 through the second bevel gear 26 to drive the third bevel gear 45 to rotate, the third bevel gear 45 drives the fifth transmission shaft 54 to synchronously and reversely rotate through the second belt wheel 47, the belt 67 and the first belt wheel 53, and the fifth transmission shaft 54 is meshed with the fourth bevel gear 55 and the first bevel gear 42 to drive the first transmission shaft 44 on the right side to rotate.

In addition, in one embodiment, the locking device 79 includes a fourth guide groove 59 formed in an upper side wall of the locking cavity 30 and communicated with the outside of the machine body 10, a third connecting rod 32 extending up and down is slidably disposed in the fourth guide groove 59, a locking block 28 is fixedly disposed at a lower end of the third connecting rod 32, a button 15 is fixedly disposed at an upper end of the third connecting rod 32, a second slot 27 and a third slot 31 are sequentially formed in the third connecting rod 32 from top to bottom, a fifth guide groove 36 is formed in a right side wall of the fourth guide groove 59, a second pin 56 is slidably disposed in the fifth guide groove 36, and a fifth spring 57 is fixedly disposed between the second pin 56 and the right side wall of the fifth guide groove 36; pushing the button 15 downwards drives the third connecting rod 32 to move downwards along the fourth guide groove 59, and the second clamping pin 56 is retracted into the fifth guide groove 36 through the sliding fit of the third clamping groove 31 and the second clamping pin 56, when the rectangular connecting block 29 is clamped by the locking block 28, the second clamping pin 56 is clamped into the second clamping groove 27, and when the rectangular connecting block 29 is released, the button 15 is pulled upwards, so that the third connecting rod 32 is restored to the original position.

In addition, in one embodiment, the base 23 is arranged on the lower side of the machine body 10, the universal connectors 22 are fixedly arranged on the lower side wall of the base 23 in a front-back and left-right position symmetry manner, the supporting rod 21 is fixedly arranged on the lower side wall of the universal connectors 22, the roller 20 is arranged on the supporting rod 21 in a rotating manner, the brake pads 19 are symmetrically arranged on the lower side wall of the base 23 in a front-back position manner, the brake pads 19 are located on the left side of the universal connectors 22, the handle two 16 is fixedly arranged on the left side of the base 23 in a front-back position symmetry manner, and the damping device 80 for reducing the vibration of the computer during transportation is arranged.

In addition, in one embodiment, the damping device 80 includes hydraulic dampers 24 symmetrically fixed at front, rear, left and right positions between the upper side wall of the base 23 and the lower side wall of the machine body 10, and six springs 25 are sleeved on the hydraulic dampers 24; the frequency and energy of the vertical vibration of the spring six 25 are reduced through the hydraulic shock absorber 24.

At the initial state, spring 66 is in the relaxed state for both sides rubber pad 51 contact, spring four 60 spring two 64 spring three 11 and spring five 57 all are in half compression state, make both sides rubber wheel 12 is close to each other, sliding block two 62 with supplementary groove one 61 has been seted up supplementary groove two 68 a lateral wall contact, bayonet lock one 72 receives outside power all the time, bayonet lock two 56 receives power to left all the time.

When the computer starts to work, the first handle 17 is shaken to drive the sixth transmission shaft 58 to rotate, the sixth transmission shaft 58 drives the first transmission shaft 44 on the left side and the right side to synchronously and reversely rotate through the synchronous rotating transmission device 78, the first transmission shaft 44 pulls the two sides of the rubber pads 51 to be away from each other through the bottom clamping device 76, meanwhile, the first transmission shaft 44 drives the two sides of the rubber wheels 12 to be away from each other through the middle clamping device 77, the button 15 is pressed, the rectangular connecting block 29 is locked through the locking device 79 to prevent the rectangular connecting block from rotating, a computer is placed between the rubber wheels 12 on the two sides and between the rubber pads 51 on the two sides, the button 15 is pulled upwards to separate the locking block 28 from the rectangular connecting block 29, and the rubber pads 51 on the two sides are close to each other under the action of the first spring 66, the bottom of the computer is clamped to prevent the computer from moving, and meanwhile, the rack 40 is restored to the original position under the action of the spring four 60, so that the first connecting rods 13 on the two sides are close to each other to rotate, and the middle of the computer is clamped by the rubber wheel 12 to prevent the computer from shaking.

When the computer starts to move, the second handle 16 is held to push the base 23 to move forwards, the base 23 drives the machine body 10 to move forwards synchronously through the hydraulic shock absorber 24, when the computer passes through an uneven road section in the moving process, the vibration on the machine body 10 is reduced through the spring six 25, and meanwhile, the vibration frequency and energy of the spring six 25 are reduced through the hydraulic shock absorber 24.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a remove database with shock-absorbing function, includes the organism, its characterized in that: a clamping cavity is arranged in the machine body, the upper side of the clamping cavity is communicated with the outside of the machine body, transmission cavities are symmetrically arranged at the left side and the right side of the clamping cavity, a bottom clamping device for clamping the bottom of a computer is arranged in the clamping cavity, the bottom clamping device comprises a first guide groove formed in the lower side wall of the clamping cavity, a first sliding block is arranged in the first guide groove in a sliding manner, a first spring is fixedly arranged between the first sliding blocks at two sides, an auxiliary block is fixedly arranged on the upper side wall of the first sliding block, a rubber pad is fixedly arranged on one side wall of the auxiliary block at two sides, a first auxiliary groove is arranged in the auxiliary block, a second sliding block is arranged in the first auxiliary groove in a sliding manner, a second auxiliary groove communicated with the outside of the auxiliary block is formed in the side wall of the first auxiliary groove close to the transmission cavity, and a second spring is fixedly arranged between, an auxiliary groove III communicated with the clamping cavity is formed in the side wall, close to the clamping cavity, of the transmission cavity, a transmission shaft I is rotatably arranged on the front side wall of the transmission cavity, an auxiliary wheel, a bevel gear I and a rope winding wheel are fixedly arranged on the transmission shaft I from back to front in sequence, a steel rope is fixedly arranged between the sliding block II and the rope winding wheel and is arranged in the auxiliary groove II and the auxiliary groove III, and a middle clamping device for clamping the middle of a computer is arranged in the transmission cavity; the transmission shaft drives the rope winding wheel to rotate, the auxiliary blocks on the two sides are mutually pulled apart along the guide groove I through the steel rope, the computer is placed between the rubber pads on the two sides, and after the transmission shaft stops rotating, the rubber pads on the two sides approach to each other along the guide groove I under the action of the spring I and clamp the bottom of the computer.

2. The mobile database with shock absorption function according to claim 1, wherein: the middle clamping device comprises a rotary drum rotatably arranged on the rear side wall of the transmission cavity, a first gear is fixedly arranged at the tail end of the front side of the rotary drum, the first gear is sleeved on the auxiliary wheel, a second guide groove is formed in the annular array on the auxiliary wheel, a first clamping pin is slidably arranged in the second guide groove, a third spring is fixedly arranged between the first clamping pin and the bottom of the second guide groove, a first clamping groove is formed in the annular array on the inner wall of the first gear, a second transmission shaft is rotatably arranged between the front wall and the rear wall of the transmission cavity, a second gear is fixedly arranged on the second transmission shaft, a guide rod is fixedly arranged between the left wall and the right wall of the transmission cavity, the guide rod is positioned between the second gear and the first gear, a rack meshed with the second gear and the first gear is slidably arranged on the guide rod, and a fourth spring is fixedly arranged between the rack and one, the front and back positions of the side wall of the transmission cavity are symmetrically provided with a third guide groove, a first connecting rod is arranged in the third guide groove in a sliding mode, the first connecting rod is fixedly arranged on the second transmission shaft, and rubber wheels are fixedly arranged between the tail ends of one side, far away from the second transmission shaft, of the first connecting rod on the front side and the back side.

3. The mobile database with shock absorption function according to claim 1, wherein: and a locking cavity is arranged on the left side of the transmission cavity, and a synchronous rotation transmission device which drives the transmission shafts to synchronously rotate is arranged in the transmission cavity on the left side.

4. The mobile database with shock absorption function according to claim 3, wherein: the synchronous rotation transmission device comprises a transmission shaft III which is rotatably arranged between the transmission cavity on the left side and the locking cavity, a bevel gear II meshed with the bevel gear I is fixedly arranged at the tail end of the right side of the transmission shaft III, a transmission shaft IV is rotatably arranged on the lower side wall of the transmission cavity on the left side, a bevel gear III and a transmission shaft IV are fixedly arranged on the transmission shaft IV from top to bottom in sequence, the bevel gear III is meshed with the bevel gear II, a transmission shaft V is rotatably arranged on the lower side wall of the transmission cavity on the right side, a bevel gear IV and a belt wheel I are fixedly arranged on the transmission shaft V from top to bottom in sequence, the bevel gear IV is meshed with the bevel gear I, auxiliary grooves IV which are mutually communicated are arranged between the transmission cavities on the two sides, a transmission belt is arranged between the belt wheel I and the belt wheel II, the belt is wound in, the end of the six right sides of the transmission shaft and the end of the three left sides of the transmission shaft are fixedly provided with a rectangular connecting block, the end of the six left sides of the transmission shaft is fixedly provided with a second connecting rod, the left side wall of the second connecting rod is fixedly provided with a first handle, and a locking device which locks the rectangular connecting block and blocks the rectangular connecting block from rotating is arranged in the locking cavity.

5. The mobile database with shock absorption function according to claim 4, wherein: the locking device comprises a fourth guide groove which is formed in the side wall of the locking cavity and is communicated with the outside of the machine body, a third connecting rod which extends up and down is arranged in the fourth guide groove in a sliding mode, a locking block is fixedly arranged at the tail end of the lower side of the third connecting rod, a button is fixedly arranged at the tail end of the upper side of the third connecting rod, a second clamping groove and a third clamping groove are sequentially formed in the third connecting rod from top to bottom, a fifth guide groove is formed in the wall of the fourth right side of the guide groove, a second clamping pin is arranged in the fifth guide groove in a sliding mode, and a fifth spring is fixedly arranged between the.

6. The mobile database with shock absorption function according to claim 1, wherein: the organism downside is equipped with the base, lateral position symmetry has set firmly universal connector around the base downside wall, lateral wall has set firmly the bracing piece under the universal connector, it is equipped with the gyro wheel to rotate on the bracing piece, lateral position symmetry installs the brake block around the base downside wall, the brake block is located the left side universal connector left side, lateral position symmetry has set firmly handle two around the base left side end, the organism with be equipped with the damping device who reduces the vibrations of computer when the transportation between the base.

7. The mobile database with shock absorption function according to claim 6, wherein: the damping device comprises hydraulic dampers which are symmetrically and fixedly arranged at the front, back, left and right positions between the upper side wall of the base and the lower side wall of the machine body, and a spring six is sleeved on each hydraulic damper.