CN110390961A

CN110390961A - A kind of mechanical hard disk vibration damping protection fixed equipment

Info

Publication number: CN110390961A
Application number: CN201910710077.0A
Authority: CN
Inventors: 汪贤荣
Original assignee: Zhejiang Zhichuang Enterprise Management Co Ltd
Current assignee: Xuzhou Hongxiang Machinery Manufacturing Co ltd
Priority date: 2019-08-02
Filing date: 2019-08-02
Publication date: 2019-10-29
Anticipated expiration: 2039-08-02
Also published as: CN110390961B; JP2021026787A; JP6808117B1; SG10201910606PA

Abstract

A kind of mechanical hard disk vibration damping disclosed by the invention protects fixed equipment, including vibration damping box, opening up vibration damping chamber is equipped in the vibration damping box, the intracavitary damper being equipped with for vibration damping of the vibration damping, the longitudinal damping mechanism for realizing up and down direction vibration damping is equipped in the damper, slidable connection has the hard disk fixator of energy fast clamp solid mechanical hard disk in the damper, the gripper jaw for gripping mechanical hard disk is equipped in the hard disk fixator, hard disk fixator of the invention is pushed by hard disk and pushes grip block and push rod, bolt mechanism is enabled to fix push rod automatically mobile to limit grip block, cam driven gripper mechanism grips mechanical hard disk on push rod simultaneously, and fast and reliable fixation of the realization to hard disk, bolt mechanism is made to release the limit to push rod by manual toggle bolt, it is able to achieve quick disassembling function, Therefore the present invention reliable solid mechanical hard disk and can be rapidly assembled and disassembled mechanical hard.

Description

A kind of mechanical hard disk vibration damping protection fixed equipment

Technical field

The present invention relates to mechanical hard disk vibration dampings to protect technique for fixing field, and specially a kind of mechanical hard disk vibration damping protection is fixed Equipment.

Background technique

Mechanical hard disk is traditional common hard disc, mainly by disc, magnetic head, disc shaft and control motor, magnetic head control Device, data converter, interface, several part compositions such as caching, important component of the mechanical hard disk as computer are mechanical hard The mechanical mechanism of disk makes vibration be affected it, and slight vibration will affect mechanical hard disk service life, be easy to cause magnetic track Damage, disc or magnetic head can be made to damage for high vibration so that mechanical hard disk is scrapped, current mechanical hard disk vibration absorber, most nothing The reliable solid mechanical hard disk of method, while vibration absorber installation and removal mechanical hard disk is more difficult, one kind that the present invention illustrates The equipment that can solve the above problem.

Summary of the invention

Technical problem: mechanical hard disk vibration absorber, it mostly can not reliably solid mechanical hard disk, while vibration absorber installation It is more difficult with disassembly mechanical hard disk.

To solve the above problems, this example devises a kind of mechanical hard disk vibration damping protection fixed equipment, a kind of machinery of this example Hard disk vibration damping protects fixed equipment, including vibration damping box, is equipped with opening up vibration damping chamber in the vibration damping box, the vibration damping is intracavitary Equipped with the damper for vibration damping, the longitudinal damping mechanism for realizing up and down direction vibration damping, the vibration damping are equipped in the damper Slidable connection has the hard disk fixator of energy fast clamp solid mechanical hard disk in device, and the hard disk fixator can be by being set to The intracavitary fixed case of the vibration damping is set in the fixed case and opening up lock chamber, is slidably connected to the fixation Lifter plate on rear side of chamber on inner wall is fixedly connected on the downside of the lifter plate on inner wall and extends downward into the fixed resonator end surface Outer elevating lever, be set in the elevating lever and the pin hole of left and right perforation, two be set on the downside of the lock chamber on end face And symmetrical bolt case, be set in the bolt case and opening towards symmetrical centre side bolt chamber, be slidably connected Bolt that is intracavitary in the bolt and being abutted with the pin hole, and pushed using hard disk and the lifter plate is driven to move down and can make The elevating lever moves down, so that the bolt be made quickly to abut the fixed elevating lever, and realizes Fast Installation hard disk, described hard The gripper jaw for gripping mechanical hard disk is equipped in disk fixator, the gripper jaw can pass through two bilateral symmetries and sliding L shape bar and the L shape bar on rear side of the lock chamber on inner wall is connected to be located at left and right sides of the lifter plate, be set to institute It states left and right perforation in L shape bar and opening up turn chamber, is rotationally connected with and described turn on chamber front inner wall and extand rearward to institute The gear shaft turned outside chamber back end surface is stated, is fixedly connected on the gear shaft and part is located at described turn of intracavitary fixture block, and And rotated to close to the movement of symmetrical centre side and the fixture block to close to symmetrical centre side using the L shape bar, thus real Now mechanical hard disk is gripped.

Wherein, the damper includes the lifting platform being slidably connected at left and right sides of the vibration damping chamber between inner wall, described Traversing case is slidably connected on the upside of lifting platform on end face, is equipped with opening up traversing chamber, the traversing chamber in the traversing case Opening is fixedly connected with heat sink, on the upside of the heat sink on end face from left to right array distribution have 11 for heat dissipation Fin, the heat sink downside are fixedly connected with heat-conducting copper pipe on end face, and the heat-conducting copper pipe lower end is fixedly connected with can be with machine The heat-conducting plate that tool hard disk abuts, is fixedly connected with that there are two symmetrical sliding case, the cunnings on the vibration damping chamber left and right side inner wall It is equipped with cunning chamber of the opening towards symmetrical centre side in case, slidably connects slide bar between the inner wall of two sides above and below the sliding chamber, institute Stating slide bar, there are two symmetrical above and below far from connection between one side end face of symmetrical centre and vibration damping chamber left or right side inner wall Compression spring, the slide bar are connected with spring between one side end face of symmetrical centre and the traversing case.

It may be preferred that the coefficient of elasticity of the compression spring is big compared with the coefficient of elasticity of the spring, so that second level can be realized Slow use of bestirring oneself.

Wherein, the longitudinal damping mechanism includes the elevator being fixedly connected on the downside of the lifting platform on inner wall, described Hinged there are two symmetrical swing rod in elevator front end face, being slidably connected on inner wall on the downside of the vibration damping chamber, there are two left Right symmetrical damping block, the damping block are hinged with the swing rod lower end, are fixedly connected on end face on the downside of the vibration damping chamber Two bilateral symmetries and be located at block of the damping block far from symmetrical centre side, connect between the block and the damping block It is connected to compressed spring, connection there are two bilateral symmetry and is located at described between the lifting platform on inner wall on the downside of the vibration damping chamber Shock-absorbing spring of the block far from symmetrical centre side.

Wherein, the hard disk fixator includes the fixed case being slidably coupled on the traversing cavity wall, described The trapezoidal cam being fixedly connected on the upside of the pin hole on elevating lever, sets that there are two symmetrical in the trapezoidal cam Sliding slot, the pushing block being fixedly connected on the elevating lever between the trapezoidal cam and the pin hole, the pushing block and institute It states and is connected with reset spring on the downside of lock chamber between inner wall, hinged on the pushing block there are two symmetrical rocking bars, described solid Determining to be slidably connected on inner wall on the downside of chamber, there are two symmetrical rack gears, and the rack gear is hinged with the rocking bar lower end, described Bolt and the bolt chamber are fixed on end face on the downside of the bolt far from latch spring is connected between the inner wall of symmetrical centre side It is connected with the driving lever extended on the downside of the bolt chamber outside end face.

It may be preferred that there is certain damping in the sliding between the fixed case and the traversing cavity wall, thus will be described Fixed case be installed to it is described it is traversing it is intracavitary after, external vibration is difficult to make the fixed case and the traversing chamber to generate opposite position It moves, the sliding slot and horizontal plane are at 45 degree of angles.

Wherein, the gripper jaw includes the follower lever for being fixedly connected on the L shape bar on one side end face of symmetrical centre, And the L shape bar can only be moved left and right along inner wall on rear side of the lock chamber, be hinged on the follower lever sliding with the sliding slot The pulley of dynamic connection, the L shape bar downside are fixedly connected with quarter butt on end face, are rotatablely connected in the quarter butt front end face oriented The shaft of preceding extension is fixedly connected with the gear for engaging connection with the rack gear in the shaft, is fixedly connected in the shaft There is the crank being located on front side of the gear, the crank upper end is hinged with connecting rod, and the L shape bar is far from one side end face of symmetrical centre On slidably connect sliding block, the sliding block far from being fixedly connected with secondary rack gear on one side end face of symmetrical centre, the pair rack gear with The connecting rod is hinged, and is fixedly connected with described in being located on the gear shaft and turns outside chamber back end surface and engage with the secondary rack gear The pinion of connection, the fixture block and the rubber block have been respectively fixedly connected with rubber block on one side end face of symmetrical centre.

The beneficial effects of the present invention are: hard disk fixator of the invention is pushed by hard disk pushes grip block and push rod, make Push rod can be fixed automatically to limit grip block movement by obtaining bolt mechanism, while the cam driven supporting rod movement on push rod will be hard It is fixedly clamped at left and right sides of disk, the gear and rack teeth mechanism on supporting rod drives switch block rotation, to make switch block and hard disk upside Face abuts, and realizes the fast and reliable fixation to hard disk, by manual toggle bolt bolt mechanism is released to push rod Limit discharges so that grip block and push rod reset and is clamped fixed hard disk, so that it is able to achieve disassembling function, hard disk fixator It can be inserted directly into and be installed in vibration absorber, and can directly extract out, therefore the present invention can reliable solid mechanical hard disk and can be fast Speed installation and removal mechanical hard disk.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is the overall structure diagram that a kind of mechanical hard disk vibration damping of the invention protects fixed equipment；

Fig. 2 is the structural schematic diagram of the hard disk fixator of Fig. 1；

Fig. 3 is the structural schematic diagram in direction " A-A " of Fig. 2；

Fig. 4 is the structure enlargement diagram at " B " of Fig. 2.

Specific embodiment

Below with reference to Fig. 1 to Fig. 4, the present invention is described in detail, for sake of convenience, now advises to hereafter described orientation Fixed as follows: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

The present invention relates to a kind of mechanical hard disk vibration dampings to protect fixed equipment, and it is solid to be mainly used in the protection of mechanical hard disk vibration damping Fixed, below in conjunction with attached drawing of the present invention, the present invention will be further described:

A kind of mechanical hard disk vibration damping of the present invention protects fixed equipment, including vibration damping box 11, is equipped in the vibration damping box 11 Opening up vibration damping chamber 12, the vibration damping chamber 12 is interior to be equipped with the damper 101 for being used for vibration damping, is equipped in the damper 101 Realize the longitudinal damping mechanism 102 of up and down direction vibration damping, slidable connection has the fixed machine of energy fast clamp in the damper 101 The hard disk fixator 103 of tool hard disk, the hard disk fixator 103 can by the fixed case 21 that is set in the vibration damping chamber 12, It is set in the fixed case 21 and opening up lock chamber 31, the liter that is slidably connected on the 31 rear side inner wall of lock chamber Drop plate 45 is fixedly connected on the 45 downside inner wall of lifter plate and extends downward into the elevating lever outside 31 end face of lock chamber 46, pin hole 54, two for being set to the perforation of in the elevating lever 46 and left and right be set on the 31 downside end face of lock chamber and Symmetrical bolt case 56 is set to the bolt case 56 is interior and opening is towards symmetrical centre side bolt chamber 57, sliding It is connected to the bolt 59 that can be abutted in the bolt chamber 57 and with the pin hole 54, and is pushed using hard disk and drives the lifting Plate 45, which moves down, can be such that the elevating lever 46 moves down, so that the bolt 59 be made quickly to abut the fixed elevating lever 46, and realize Fast Installation hard disk, the interior gripper jaw 104 being equipped with for gripping mechanical hard disk of the hard disk fixator 103, the clamping Pawl 104 can pass through two bilateral symmetries and the L shape bar 38 being slidably connected on the 31 rear side inner wall of lock chamber and the L shape Bar 38 is located at 45 left and right sides of the lifter plate, is set in the L shape bar 38 left and right perforation and opening up turn chamber 61, turns It moves and turns on 61 front inner wall of chamber and extand rearward to the gear shaft 43 turned outside 61 back end surface of chamber, fixed company described in being connected to It is connected on the gear shaft 43 and part is located at the fixture block 44 turned in chamber 61, and using the L shape bar 38 to close to right Title center side is mobile and the fixture block 44 is rotated to close to symmetrical centre side, to realize that the clamping to mechanical hard disk is solid It is fixed.

According to embodiment, damper 101 is described in detail below, the damper 101 includes being slidably connected to institute The lifting platform 19 between 12 left and right sides inner wall of vibration damping chamber is stated, slidably connects traversing case on the 19 upside end face of lifting platform 20, the traversing case 20 is interior to be equipped with opening up traversing chamber 26, and traversing 26 opening of chamber is fixedly connected with heat sink 27, On the 27 upside end face of heat sink from left to right array distribution have 11 for heat dissipation fin 28, under the heat sink 27 It is fixedly connected with heat-conducting copper pipe 29 on side end face, 29 lower end of heat-conducting copper pipe is fixedly connected with leading of can abutting with mechanical hard disk Hot plate 30 is fixedly connected on the 12 left and right side inner wall of vibration damping chamber there are two symmetrical sliding case 62, is set in the sliding case 62 There is cunning chamber 22 of the opening towards symmetrical centre side, slidably connects slide bar 24, institute between sliding about the 22 two sides inner wall of chamber Stating slide bar 24, there are two right up and down far from connection between 12 left or right side inner wall of one side end face of symmetrical centre and the vibration damping chamber The compression spring 23 of title, the slide bar 24 are connected with spring 25 between one side end face of symmetrical centre and the traversing case 20, By the compression of the spring 25 and the compression spring 23 or extensional motion elastic potential can be converted by the vibration of left and right directions Can, to realize damping effect.

Valuably, the coefficient of elasticity of the compression spring 23 is big compared with the coefficient of elasticity of the spring 25, so that two can be realized The slow use of bestirring oneself of grade.

According to embodiment, longitudinal damping mechanism 102 is described in detail below, the longitudinal damping mechanism 102 includes The elevator 18 being fixedly connected on the 19 downside inner wall of lifting platform, hinged in 18 front end face of elevator there are two left Right symmetrical swing rod 17, being slidably connected on the 12 downside inner wall of vibration damping chamber, there are two symmetrical damping blocks 16, described to subtract Vibration block 16 be hinged with 17 lower end of swing rod, be fixedly connected on the 12 downside end face of vibration damping chamber there are two symmetrically and position In block 14 of the damping block 16 far from symmetrical centre side, compression is connected between the block 14 and the damping block 16 Spring 15, connection there are two bilateral symmetry and is located at the gear between the lifting platform 19 on the 12 downside inner wall of vibration damping chamber Shock-absorbing spring 13 of the block 14 far from symmetrical centre side is driven by the lifting platform 19 and is moved down on the elevator 18, and led to Crossing the swing rod 17 drives the damping block 16 mobile, to convert the compressed spring 15 and institute for the vibration of up and down direction The elastic potential energy of shock-absorbing spring 13 is stated, to realize vibration-damping function.

According to embodiment, hard disk fixator 103 is described in detail below, the hard disk fixator 103 includes that can slide The fixed case 21 being connected on 26 inner wall of traversing chamber is moved, is fixedly connected on the elevating lever 46 positioned at the pin hole The trapezoidal cam 47 of 54 upsides is set in the trapezoidal cam 47 there are two symmetrical sliding slot 48, solid on the elevating lever 46 Surely the pushing block 49 being connected between the trapezoidal cam 47 and the pin hole 54, the pushing block 49 under the lock chamber 31 It is connected with reset spring 55 between the inner wall of side, hinged on the pushing block 49 there are two symmetrical rocking bar 52, the lock chambers It being slidably connected on 31 downside inner walls there are two symmetrical rack gear 32, the rack gear 32 is hinged with 52 lower end of rocking bar, The bolt 59 and the bolt chamber 57 are far from being connected with latch spring 60 between the inner wall of symmetrical centre side, under the bolt 59 It is fixedly connected with the driving lever 58 extended to outside the 57 downside end face of bolt chamber on side end face, institute is pushed down on by mechanical hard disk Lifter plate 45 is stated, and the elevating lever 46 is driven to move down, so that the bolt 59 is inserted into the pin hole 54, to realize quick It is fixed, while the driving lever 58, under 55 active force of reset spring, the liter are pulled by will be far from symmetrical centre side Drop bar 46 moves up, to realize quickly disassembly mechanical hard disk.

Valuably, there is certain damping in the sliding between the fixed case 21 and 26 inner wall of traversing chamber, thus by institute It states after fixed case 21 is installed in the traversing chamber 26, external vibration is difficult to produce the fixed case 21 with the traversing chamber 26 Raw relative displacement, the sliding slot 48 and horizontal plane are at 45 degree of angles.

According to embodiment, gripper jaw 104 is described in detail below, the gripper jaw 104 includes being fixedly connected on institute Follower lever 51 of the L shape bar 38 on one side end face of symmetrical centre is stated, and after the L shape bar 38 can only be along the lock chamber 31 Side inner wall moves left and right, and is hinged with the pulley 50 being slidably connected with the sliding slot 48 on the follower lever 51, under the L shape bar 38 It is fixedly connected with quarter butt 36 on side end face, the shaft 34 extended forward is rotatably connected in 36 front end face of quarter butt, it is described It is fixedly connected with the gear 33 for engaging connection with the rack gear 32 in shaft 34, is fixedly connected in the shaft 34 described in being located at The crank 35 of 33 front side of gear, 35 upper end of crank are hinged with connecting rod 37, and the L shape bar 38 is far from one side end face of symmetrical centre On slidably connect sliding block 40, the sliding block 40 is far from being fixedly connected with secondary rack gear 39, the pair on one side end face of symmetrical centre Rack gear 39 is hinged with the connecting rod 37, be fixedly connected on the gear shaft 43 be located at it is described turn 61 back end surface of chamber it is outer and with The pinion 42 of the pair rack gear 39 engagement connection, the fixture block 44 is with the rubber block 41 on one side end face of symmetrical centre Be respectively fixedly connected with rubber block 41, moved down by the elevating lever 46 can drive the follower lever 51 and the L shape bar 38 to It is mobile close to symmetrical centre side, to realize to gripping at left and right sides of hard disk, while the rack gear 32 is to far from right The side movement of title center can drive the gear 33 to rotate, so that the fixture block 44 rotates down and cooperates with the lifter plate 45 Two sides above and below hard disk are gripped to realize.

It is carried out below in conjunction with use step of the Fig. 1 to Fig. 4 to one of this paper mechanical hard disk vibration damping protection fixed equipment It is described in detail:

When beginning, fixed case 21 is not slidably connected with traversing chamber 26, and elevator 18 and pushing block 49 are located at upper limit, 24 He of slide bar Bolt 59 is located at close to symmetrical centre side spacing place, and L shape bar 38 is located remotely from symmetrical centre side spacing place, secondary rack gear 39 At lower limit, fixture block 44 is located at vertical position.

When work, mechanical hard disk is placed on lifter plate 45, and pushes down on lifter plate 45 and elevating lever 46, so that inserting Pin 59 is inserted into pin hole 54 to limit the movement of elevating lever 46, while elevating lever 46 drives trapezoidal cam 47 to move down, so that pulley 50 move along sliding slot 48 to close to symmetrical centre side, to drive follower lever 51 and L shape bar 38 to close to symmetrical centre one Side is mobile, so that L shape bar 38 will clamp at left and right sides of hard disk, while elevating lever 46 drives pushing block 49 to move down, and pushing block 49 is by shaking Bar 52 pushes rack gear 32 to far from the movement of symmetrical centre side, and rack gear 32 is rotated by engagement connecting band moving gear 33, gear 33 Crank 35 and connecting rod 37 is driven to rotate by shaft 34, to push secondary rack gear 39 and sliding block 40 along L shape bar 38 far from symmetrical One side end face of center moves up, and secondary rack gear 39 drives pinion 42 and gear shaft 43 to rotate by engagement connection, gear shaft 43 It drives fixture block 44 to rotate 90 degree to close to symmetrical centre side, and realizes the folder to two sides above and below hard disk with the cooperation of lifter plate 45 It fastens, fixed case 21 is inserted into traversing chamber 26 later, to complete the work of hard disk Fast Installation, while end face on the upside of hard disk It is contacted with heat-conducting plate 30, the heat that hard disk generates can be transferred to heat sink 27 and fin 28 by heat-conducting copper pipe 29 by heat-conducting plate 30 On, to improve heat dissipation area, the heat-sinking capability of hard disk is improved, when vibration damping box 11 is vibrated, passes through spring 25 and pressure bullet The vibration for moving left and right absorption left and right directions of the left and right stretching motion and slide bar 24 of spring 23, is moved up and down by elevator 18, And drive damping block 16 to move left and right by swing rod 17, realize 15 or so stretching motion of compressed spring and about 13 shock-absorbing spring Stretching motion realizes that the vibration for absorbing up and down direction, by the way that fixed case 21 is released traversing chamber 26, takes to realize vibration-damping function Fixed case 21 out, and driving lever 58 is pulled to far from symmetrical centre side, so that bolt 59 is disconnected with pin hole 54, elevating lever 46 Reset is moved up under 55 spring-force driven dual of reset spring, thus the hard disk that release is clamped, to realize fast quick-detach hard disk Function.

In the above manner, those skilled in the art can be made within the scope of the invention according to operating mode it is various Change.

Claims

1. a kind of mechanical hard disk vibration damping protects fixed equipment, including vibration damping box；

Opening up vibration damping chamber is equipped in the vibration damping box, the intracavitary damper being equipped with for vibration damping of the vibration damping is described to subtract The device that shakes is interior to be equipped with the longitudinal damping mechanism for realizing up and down direction vibration damping, and slidable connection has energy fast clamp solid in the damper Determine the hard disk fixator of mechanical hard disk, the hard disk fixator can be by being set to the intracavitary fixed case of the vibration damping, being set to In the fixed case and opening up lock chamber, it is slidably connected to lifter plate on rear side of the lock chamber on inner wall, fixed connects It is connected on the downside of the lifter plate elevating lever on inner wall and extended downward into outside the fixed resonator end surface, is set to the elevating lever Interior and left and right perforation pin hole, two be set on the downside of the lock chamber on end face and symmetrical bolt case, be set to institute State in bolt case and opening towards symmetrical centre side bolt chamber, to be slidably connected to the bolt intracavitary and can be with the pin hole The bolt of abutting, and pushing the drive lifter plate using hard disk and moving down can be such that the elevating lever moves down, to make described insert Pin quickly abuts the fixed elevating lever, and realizes Fast Installation hard disk, is equipped in the hard disk fixator for gripping The gripper jaw of mechanical hard disk；

The gripper jaw can pass through two bilateral symmetries and be slidably connected to the L shape bar on rear side of the lock chamber on inner wall and institute L shape bar is stated to be located at left and right sides of the lifter plate, be set to left and right perforation in the L shape bar and opening up turn chamber, rotation Be connected to it is described turn on chamber front inner wall and extand rearward to the gear shaft turned outside chamber back end surface, be fixedly connected on it is described On gear shaft and part be located at it is described turn intracavitary fixture block, and using the L shape bar to close to symmetrical centre side it is mobile and The fixture block is rotated to close to symmetrical centre side, is gripped to realize to mechanical hard disk.

2. a kind of mechanical hard disk vibration damping as described in claim 1 protects fixed equipment, it is characterised in that: the damper includes It is slidably connected to the lifting platform at left and right sides of the vibration damping chamber between inner wall, slidably connects cross on end face on the upside of the lifting platform Case is moved, opening up traversing chamber is equipped in the traversing case, the traversing chamber opening is fixedly connected with heat sink, described to dissipate On the upside of hot plate on end face from left to right array distribution have 11 for heat dissipation fin, fixation on end face on the downside of the heat sink It is connected with heat-conducting copper pipe, the heat-conducting copper pipe lower end is fixedly connected with the heat-conducting plate that can be abutted with mechanical hard disk, the vibration damping chamber It is fixedly connected on left and right side inner wall and slides case there are two symmetrical, opening is equipped in the sliding case towards symmetrical centre side Chamber is slided, slidably connects slide bar between the inner wall of two sides above and below the sliding chamber, the slide bar is far from one side end face of symmetrical centre and institute Stating connection between the inner wall of vibration damping chamber left or right side, there are two compression springs symmetrical above and below, and the slide bar is close to symmetrical centre one Spring is connected between side end face and the traversing case.

3. a kind of mechanical hard disk vibration damping as claimed in claim 2 protects fixed equipment, it is characterised in that: the compression spring Coefficient of elasticity is big compared with the coefficient of elasticity of the spring, so that the slow use of bestirring oneself of second level can be realized.

4. a kind of mechanical hard disk vibration damping as claimed in claim 2 protects fixed equipment, it is characterised in that: the longitudinal damping machine Structure includes the elevator being fixedly connected on the downside of the lifting platform on inner wall, and hinged in the elevator front end face there are two left Right symmetrical swing rod is slidably connected on inner wall on the downside of the vibration damping chamber there are two symmetrical damping block, the damping block with The swing rod lower end is hinged, and is fixedly connected on end face there are two bilateral symmetry on the downside of the vibration damping chamber and is located at the damping block Block far from symmetrical centre side is connected with compressed spring, the vibration damping chamber downside between the block and the damping block Connection there are two bilateral symmetry and is located at vibration damping of the block far from symmetrical centre side between the lifting platform on inner wall Spring.

5. a kind of mechanical hard disk vibration damping as claimed in claim 2 protects fixed equipment, it is characterised in that: the hard disk fixator Including the fixed case being slidably coupled on the traversing cavity wall, it is fixedly connected on the elevating lever positioned at the pin Trapezoidal cam on the upside of hole is set in the trapezoidal cam there are two symmetrical sliding slot, is fixedly connected on the elevating lever It is connected between inner wall on the downside of pushing block between the trapezoidal cam and the pin hole, the pushing block and the lock chamber multiple Position spring, it is hinged there are two symmetrical rocking bar on the pushing block, be slidably connected on inner wall on the downside of the lock chamber there are two Symmetrical rack gear, the rack gear are hinged with the rocking bar lower end, and the bolt and the bolt chamber are far from symmetrical centre It is connected with latch spring between the inner wall of side, is fixedly connected on end face on the downside of the bolt and extends to bolt chamber lower side Driving lever outside face.

6. a kind of mechanical hard disk vibration damping as claimed in claim 5 protects fixed equipment, it is characterised in that: the fixed case and institute State sliding between traversing cavity wall and there is certain damping, thus by the fixed case be installed to it is described it is traversing it is intracavitary after, it is external Vibration be difficult to make the fixed case and the traversing chamber to generate relative displacement, the sliding slot and horizontal plane into 45 degree folders Angle.

7. a kind of mechanical hard disk vibration damping as claimed in claim 6 protects fixed equipment, it is characterised in that: the gripper jaw includes It is fixedly connected on follower lever of the L shape bar on one side end face of symmetrical centre, and the L shape bar can only be along the fixation Inner wall moves left and right on rear side of chamber, and the pulley being slidably connected with the sliding slot, the L shape bar lower side are hinged on the follower lever It is fixedly connected with quarter butt on face, the shaft extended forward is rotatably connected in the quarter butt front end face, is fixed in the shaft It is connected with the gear that connection is engaged with the rack gear, the crank being fixedly connected on front side of the gear in the shaft, institute It states crank upper end and is hinged with connecting rod, for the L shape bar far from sliding block is slidably connected on one side end face of symmetrical centre, the sliding block is remote From secondary rack gear is fixedly connected on one side end face of symmetrical centre, the pair rack gear is hinged with the connecting rod, on the gear shaft Be fixedly connected with that be located at the chamber back end surface that turns outer and engage the pinion connected with the secondary rack gear, the fixture block with it is described Rubber block has been respectively fixedly connected with rubber block on one side end face of symmetrical centre.