CN110164485B

CN110164485B - Big data management strorage device

Info

Publication number: CN110164485B
Application number: CN201910463918.2A
Authority: CN
Inventors: 杨莹; 李敏; 王永波; 陈涛
Original assignee: Xinxiang Medical University
Current assignee: Xinxiang Medical University
Priority date: 2019-05-30
Filing date: 2019-05-30
Publication date: 2020-09-11
Anticipated expiration: 2039-05-30
Also published as: CN110164485A

Abstract

The big data management and storage device comprises a hard disk, wherein a plurality of rotatable hard disk frames are arranged in a hard disk cabinet from top to bottom, the hard disk frames are rotated, the hard disk frames are sequentially connected end to end from top to bottom to form a whole hard disk wall in the vertical direction, a base is fixed at the lower end of the hard disk cabinet, a plurality of L-shaped supporting rods capable of sliding back and forth in the base are arranged in the base, the lower end of the base is rotatably connected with a plurality of supporting legs, each supporting leg corresponds to a box body, a balancing weight capable of sliding back and forth in the box body is arranged in each box body, the balancing weight corresponds to the L-shaped supporting rods one by one, and the balancing weight is matched with the L-shaped supporting rods to form an anti-overturning, the problem that a conventional big data management storage device is single in function, hard disks with a large amount of data stored in the hard disks cannot be fully protected, and the hard disks cannot be checked and managed by workers conveniently is solved effectively through the design.

Description

Big data management strorage device

Technical Field

The invention relates to the technical field of big data management, in particular to a big data management storage device.

Background

Big data, or mass data, refers to massive, high growth rate and diversified information assets that need new processing mode to have stronger decision making power, insight and flow optimization capability, and with the continuous popularization and application of current information technology and the continuous accumulation of electronic data resources, information and data resources in the medical industry are in a rapidly growing trend, so that the demand for data resources and information storage media is in a rapidly growing trend year by year, while a hard disk is a main device for storing massive data resources, and it is very important for technicians in the field to store and manage a large number of hard disks more properly.

The hard disk is very accurate storage equipment, can not receive and fall to bump and the striking, but present big data management strorage device function singleness, the protection to the hard disk is perfect inadequately, causes the hard disk to damage very easily when the device of depositing the hard disk overturns and even a large amount of data information and resource are lost, and the staff is difficult in getting when patrolling and examining moreover and puts and observe the hard disk, brings inconvenience for staff's management.

Disclosure of Invention

In view of the above situation, in order to overcome the defects of the prior art, the invention provides a big data management storage device, which effectively solves the problems that the conventional big data management storage device has a single function, cannot fully protect a hard disk storing a large amount of data, and is inconvenient for workers to check and manage the hard disk.

In order to achieve the purpose, the invention provides the following technical scheme: the anti-overturning hard disk cabinet comprises a hard disk cabinet, wherein a plurality of rotatable hard disk frames are arranged in the hard disk cabinet from top to bottom, the rotatable hard disk frames are connected end to end sequentially from top to bottom to form a whole hard disk wall in the vertical direction, a base is fixed at the lower end of the hard disk cabinet, a plurality of L-shaped supporting rods capable of sliding back and forth in the base are arranged in the base, the lower end of the base is rotatably connected with a plurality of supporting legs, each supporting leg corresponds to a box body, a balancing weight capable of sliding back and forth in the box body is arranged in each box body, the balancing weight corresponds to the L-shaped supporting rods one by one, and the balancing weight is matched with the L-shaped supporting rods to.

Preferably, a first rack capable of sliding back and forth in each box body is arranged in each box body, a first piston is fixed on each first rack, a second piston is arranged at the end part of the counterweight block corresponding to each first rack, and the first piston and the second piston are matched to form a sealed cavity;

the sealing plate is characterized in that the box body is provided with an air pressure box, an air vent is arranged between the lower end of the air pressure box and the box body, a sealing plate capable of sliding at the bottom of the air pressure box is arranged at the air vent, the lower end of the sealing plate is provided with a tooth surface, a second rack is arranged above the end part of the first rack, the upper end of the second rack is meshed with a first gear, the upper end of the first gear is meshed with the tooth surface at the lower end of the sealing plate, the second rack, the first gear and the tooth surface at the lower end of the sealing plate are mutually matched to form a structure for opening and closing the sealing.

Preferably, the upper end and the lower extreme of balancing weight all are equipped with a plurality of gyro wheels, be equipped with in the box can with gyro wheel complex slide, be connected with the second spring between the tip of balancing weight and the box inside.

Preferably, a plurality of sliding grooves are formed in the base, the sliding grooves correspond to the L-shaped supporting rods one by one, the L-shaped supporting rods can slide back and forth in the sliding grooves, the middle parts of the L-shaped supporting rods are hinged to a stop block through torsion springs, a limiting rack capable of sliding up and down is arranged at the front end of the stop block, and the limiting rack and the stop block are matched to form a first limiting structure;

the rear end of the L-shaped supporting rod is provided with a limiting hole in the left-right direction, the inner wall of the front end of the sliding groove is provided with a limiting pin capable of sliding left and right, a third spring is connected between the end part of the limiting pin and the base, and the limiting pin and the limiting hole are matched to form a second limiting structure;

a first spring is connected between the rear end of the L-shaped supporting rod and the sliding groove, and the first spring and the L-shaped supporting rod are matched to form a structure for the L-shaped supporting rod to automatically slide out.

Preferably, a plurality of connecting pieces are fixed at the lower end of the base, the connecting pieces correspond to the supporting legs one to one, the lower end of each connecting piece is rotatably connected with the upper end of the corresponding supporting leg, the lower end of each connecting piece is provided with a tooth surface, the upper end of each supporting leg is provided with a second gear, the lower end of each second gear is meshed with a third gear, and a fourth gear capable of rotating along with the third gear is arranged outside the third gear;

the lower end of the connecting piece is meshed with the second gear, the connecting piece drives the third gear to rotate through the second gear, the upper end of the fourth gear is meshed with the fifth gear, the gear axle center of the fifth gear and the hinged point of the lower end of the connecting piece are on the same horizontal line, and the second gear, the third gear, the fourth gear and the fifth gear are matched with each other to form a transmission mechanism.

Preferably, the front end of the box body is provided with a fixing piece, the lower end of the fixing piece is provided with a sixth gear, the sixth gear is meshed with the corresponding first rack, and the upper end of the fixing piece is provided with a first bevel gear which can synchronously rotate with the sixth gear;

the outer end of the fifth gear is connected with a second bevel gear which can rotate along with the fifth gear, the tooth surface of the second bevel gear is meshed with the tooth surface of the first bevel gear, the hard disk cabinet is turned over, the base drives the connecting piece to rotate, the connecting piece drives the second bevel gear to rotate through the transmission mechanism, the second bevel gear drives the sixth gear to rotate through the first bevel gear, and the sixth gear rotates to form a sliding structure of the first rack.

Preferably, the fifth gear is meshed with the corresponding tooth surface of the limiting rack, and the fifth gear rotates to form a structure that the limiting rack gradually slides downwards away from the stop block.

Preferably, the upper end of each hard disk frame is provided with a plurality of hard disk grooves, the upper end of each hard disk groove is hinged with a pressing plate capable of opening and closing through a torsion spring, a triangular adapter is fixed at the right end of each hard disk frame, the outer end of each adapter is rotatably connected with the inner wall of the box body, a connecting rod is arranged at the right end in the box body, the plurality of adapters are connected through the connecting rod, and each adapter is hinged with the connecting rod;

a rotary table is rotatably connected to the right side in the box body, an extension rod is connected to the periphery of the rotary table, a push-pull rod is hinged between the end of the extension rod and the connecting rod, and the rotary table is rotated, and the push-pull rod is matched with the connecting rod to form a hard disk rack rotating structure;

the right end of the rotary table is provided with a rotary shaft, the right end of the rotary shaft is rotatably connected with the hard disk cabinet, a seventh gear is sleeved on the rotary shaft, a hydraulic push rod is arranged at the lower end of the seventh gear, a third rack is arranged at the upper end of the hydraulic push rod, and the third rack and the seventh gear are matched with each other to form a rotary table rotating structure.

Preferably, a storage rack is fixed at the lower end of each hard disk rack, and the front end of each storage rack is hinged with a limit rack capable of being opened and closed.

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

1. when the hard disk cabinet inclines, the first rack slides fast and drives the sealing plate to slide, so that the balancing weight is changed fast to the center of the hard disk cabinet under the action of air pressure, and the hard disk cabinet is prevented from continuously tipping.

2. If the gravity center of the hard disk cabinet is still continuously tilted after being changed under the action of the balancing weight, the limiting rack can gradually break away from the stop block to enable the L-shaped supporting rod to rapidly slide outwards, and the L-shaped supporting rod forms secondary protection for the hard disk cabinet.

3. In order to facilitate taking, checking and checking of hard disks with a large amount of information stored by managers, the hard disk rack is rotated, the hard disk racks are sequentially connected end to end from top to bottom to form a whole block of hard disk wall in the vertical direction, the upper end faces of all the hard disks are right opposite to the workers, and the checking condition and the basic information of the hard disks can be marked on the pressing plate.

4. A storage rack is fixed at the lower end of each hard disk rack, and large data equipment such as a case and the like can be placed in the storage rack.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the hard disk cabinet of the present invention.

FIG. 3 is a schematic view of the structure of the case of the present invention.

FIG. 4 is a schematic view of the internal structure of the case of the present invention.

FIG. 5 is a schematic view of the structure of the box body and the air pressure box.

FIG. 6 is a schematic view of the structure of the base and the L-shaped strut of the present invention.

FIG. 7 is a schematic view of the structure of the L-shaped support rod and the support leg of the present invention.

Fig. 8 is a schematic view of the natural state structure of the hard disk rack of the present invention.

Fig. 9 is a schematic view of the rotation state of the hard disk rack of the present invention.

Detailed Description

The following description of the present invention will be made in detail with reference to the accompanying drawings 1 to 9.

In the first embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 6, fig. 8 and fig. 9, the present invention includes a hard disk cabinet 1, two cabinet doors are provided at the front end of the hard disk cabinet 1, a plurality of rotatable hard disk frames 3 are provided in the hard disk cabinet 1 from top to bottom, a hard disk can be placed on the hard disk, in order to facilitate the administrator to pick, place, inspect and check the hard disk storing a large amount of information, the hard disk frames 3 are rotated, the plurality of hard disk frames 3 are sequentially connected end to end from top to bottom to form a whole block of vertical hard disk wall, at this time, the upper end surfaces of all the hard disks face the worker, and the inspection condition and the basic information of the hard disk can be marked on a pressing plate 8, the hard disk cannot be impacted and excessively vibrated during the storage process, a base 4 is fixed at the lower end of the hard disk cabinet 1, a plurality of L-shaped supporting rods 10 capable of sliding back, the L-shaped supporting rod 10 at the front side in the base 4 slides out to support the hard disk cabinet 1, similarly, when the hard disk cabinet 1 inclines towards the rear side, the L-shaped supporting rod 10 at the rear side in the base 4 slides out to support the hard disk cabinet 1, the lower end of the base 4 is rotatably connected with a plurality of supporting legs 7, each supporting leg 7 corresponds to one box body 6, a counter weight 21 capable of sliding back and forth in the box body 6 is arranged in each box body 6, when the hard disk cabinet 1 inclines, the counter weight 21 slides back and forth to prevent the hard disk cabinet 1 from inclining by changing the gravity center of the hard disk cabinet 1, the counter weight 21 corresponds to the L-shaped supporting rod 10 one by one, after the gravity center of the hard disk cabinet 1 is changed by the counter weight 21, the hard disk cabinet 1 does not restore to the original position but continues to incline, at the moment, the L-shaped supporting rod 10 at the inclined side in the base 4 slides out of the base 4, the L-shaped supporting rod 10 supports the hard disk cabinet 1, thereby realizing, the balancing weight 21 and the L-shaped supporting rod 10 are matched to form an anti-turnover structure of the hard disk cabinet 1, and the hard disk cabinet 1 is prevented from being damaged after being turned over.

In the second embodiment, on the basis of the first embodiment, as shown in fig. 3, 4 and 5, in order to realize the forward and backward sliding of the weight block 21, a first rack 15 capable of sliding forward and backward in the box 6 is arranged in each box 6, a first piston 26 is fixed on the first rack 15, a second piston 22 is arranged at the end of the weight block 21 corresponding to the first rack 15, and the first piston 26 and the second piston 22 cooperate to form a sealed cavity;

in order to realize that the gas in the air pressure box 12 enters the sealing cavity between the first piston 26 and the second piston 22 when the first rack 15 slides, the air pressure box 12 is arranged on the box body 6, a vent hole is arranged between the lower end of the air pressure box 12 and the box body 6, a sealing plate 23 which can slide at the bottom of the air pressure box 12 is arranged at the vent hole, the seal plate 23 can seal the vent hole, the lower end of the sealing plate 23 is provided with a tooth surface, a second rack 25 is arranged above the end part of the first rack 15, a first gear 24 is meshed at the upper end of the second rack 25, the upper end of the first gear 24 is meshed with the tooth surface at the lower end of the sealing plate 23, when the first rack 15 slides, the second rack 25 is driven to slide, the second rack 25 drives the sealing plate 23 to slide through the first gear 24, therefore, the tooth surfaces at the lower ends of the second rack 25, the first gear 24 and the sealing plate 23, the gas in the gas pressure tank 12 acts on the second piston 22 plate to slide the counterweight 21, and the gas pressure in the gas pressure tank 12 is matched with the second piston 22 to form a structure in which the counterweight 21 slides, it should be noted that, because the sliding of the first piston 26 is driven by the rotation of the hard disk cabinet 1, the gas in the gas pressure tank 12 acts on the second piston 22 and simultaneously prevents the first piston 26 from continuing to slide, and the hard disk cabinet 1 and the base 4 can receive the resistance converted by the gas pressure when turning over on the supporting leg 7.

Third embodiment, on the basis of second embodiment, by figure 4 and 5, for the convenience of the balancing weight 21 can slide in box 6, the upper end and the lower extreme of balancing weight 21 all are equipped with a plurality of gyro wheels 27, be equipped with in the box 6 can with gyro wheel 27 complex slide, gyro wheel 27 set up the balancing weight 21 of being convenient for simultaneously to the wearing and tearing of box 6 quick slip of balancing weight 21, be connected with second spring 20 between the tip of balancing weight 21 and the box 6 is inside, second spring 20 can make balancing weight 21 reset on the one hand, on the other hand can support balancing weight 21, avoid balancing weight 21 to slide wantonly when not receiving the pneumatics effect.

In a fourth embodiment, which is based on the first embodiment and is shown in fig. 6 and 7, in order to prevent the L-shaped strut 10 from slipping out in a natural state, a plurality of sliding grooves are arranged in the base 4, the sliding grooves correspond to the L-shaped supporting rods 10 one by one, the L-shaped supporting rods 10 can slide back and forth in the sliding grooves, the middle parts of the L-shaped supporting rods 10 are hinged with a stop block 28 by a torsion spring, a limit rack 14 capable of sliding up and down is arranged at the front end of the stop block 28, in a natural state, the limiting rack 14 is clamped at the front end of the stop block 28 to prevent the L-shaped support rod 10 from sliding out, after the L-shaped support rod 10 slides out, when the L-shaped support rod 10 needs to be reset, the stopper 28 contacts the limit rack 14 and rotates until the stopper 28 slides to the original position, and it should be noted that, the stopper 28 is L-shaped, therefore, the stop block 28 can only rotate towards the inner direction of the sliding chute, the limit rack 14 and the stop block 28 are matched to form a first limit structure, and the limit rack 14 can prevent the L-shaped support rod 10 from sliding out;

in order to realize the limiting after the L-shaped supporting rod 10 slides out of the sliding groove, a limiting hole 42 in the left-right direction is formed in the rear end of the L-shaped supporting rod 10, a limiting pin 43 capable of sliding left and right is arranged on the inner wall of the front end of the sliding groove, a third spring 44 is connected between the end part of the limiting pin 43 and the base 4, the L-shaped supporting rod 10 slides outwards until the limiting hole 42 slides to the limiting pin 43, and the limiting pin 43 and the limiting hole 42 are matched to form a second limiting structure to prevent the outer end of the L-shaped supporting rod 10 from being compressed and then contracting inwards the sliding groove;

in order to realize outward automatic sliding of the L-shaped supporting rod 10, a first spring 11 is connected between the rear end of the L-shaped supporting rod 10 and the sliding groove, the first spring 11 and the L-shaped supporting rod 10 are matched to form an automatic sliding structure of the L-shaped supporting rod 10, and after the limiting rack 14 slides downwards away from the stop block 28, the L-shaped supporting rod 10 slides outwards quickly under the action of the first spring 11.

Fifth embodiment, based on the first embodiment, as shown in fig. 3, 4, 5 and 6, in order to achieve better effects, the lower end of the base 4 is fixed with a plurality of connecting pieces 13, the connecting pieces 13 correspond to the supporting legs 7 one by one, the lower end of each connecting piece 13 is rotatably connected with the upper end of the corresponding supporting leg 7, the lower end of each connecting piece 13 is provided with a tooth surface, the upper end of the supporting leg 7 is provided with a second gear 30, the lower end of the second gear 30 is engaged with a third gear 31, and the outside of the third gear 31 is provided with a fourth gear 17 which can rotate along with the third gear 31;

the lower end of the connecting piece 13 is meshed with the second gear 30, the connecting piece 13 drives the third gear 31 to rotate through the second gear 30, the upper end of the fourth gear 17 is meshed with the fifth gear 16, the gear axis of the fifth gear 16 and the hinge point of the lower end of the connecting piece 13 are on the same horizontal line, the second gear 30, the third gear 31, the fourth gear 17 and the fifth gear 16 are mutually matched to form a transmission mechanism, and when the hard disk cabinet 1 inclines towards the front side, the rotating direction of the connecting piece 13 at the front end of the base 4 is opposite to the rotating direction of the corresponding fifth gear 16.

Sixth embodiment, based on the fifth embodiment, as shown in fig. 1, 2, 3 and 4, in order to realize that the first rack 15 also starts to slide when the connecting member 13 rotates, a fixing member is disposed at the front end of the box 6, a sixth gear is disposed at the lower end of the fixing member, the sixth gear is engaged with the corresponding first rack 15, and a first bevel gear 19 capable of synchronously rotating with the sixth gear is disposed at the upper end of the fixing member;

the outer end of the fifth gear 16 is connected with a second bevel gear 18 which can rotate along with the fifth gear 16, the tooth surface of the second bevel gear 18 is meshed with the tooth surface of a first bevel gear 19, the hard disk cabinet 1 is turned over, the base 4 drives the connecting piece 13 to rotate, the connecting piece 13 drives the second bevel gear 18 to rotate through a transmission mechanism, the second bevel gear 18 drives a sixth gear to rotate through the first bevel gear 19, and the sixth gear rotates to form a structure that a first rack 15 slides, therefore, the rotation of the first bevel gear 19 can be accelerated, the first bevel gear 19 drives the first rack 15 to slide through the sixth gear, and the rotation of the first bevel gear 19 can be accelerated to realize the quick sliding of the first rack 15 and open the sealing plate 23.

Seventh embodiment, on the basis of the fifth embodiment, as shown in fig. 6 and 7, in order to realize that the L-shaped support rod 10 can slide out quickly when the hard disk cabinet 1 is tilted, the fifth gear 16 is engaged with the tooth surface of the corresponding limit rack 14, and the fifth gear 16 rotates to form a structure that the limit rack 14 slides downwards and gradually away from the stop 28, it should be noted that, when the hard disk cabinet 1 tilts, the first rack 15 slides quickly and drives the sealing plate 23 to slide, so that the counterweight 21 quickly changes the center of the hard disk cabinet 1 under the action of air pressure to prevent the hard disk cabinet 1 from tilting continuously, if the hard disk cabinet 1 tilts continuously, the limit rack 14 gradually disengages from the stop 28 to make the L-shaped support rod 10 slide outwards quickly, and the L-shaped support rod 10 forms secondary protection for the hard disk cabinet 1.

Eighth embodiment, on the basis of the first embodiment, as shown in fig. 8 and 9, in order to achieve a better effect, the upper end of each hard disk rack 3 is provided with a plurality of hard disk grooves 9, a layer of elastic protection pad can be arranged in each hard disk groove 9, the upper end of each hard disk groove 9 is hinged with a pressing plate 8 which can be opened and closed by a torsion spring, the lower end face of each pressing plate 8 is provided with an elastic pad, the right end of each hard disk rack 3 is fixed with a triangular adapter 32, the outer end of each adapter 32 is rotatably connected with the inner wall of the box body 6, the right end in the box body 6 is provided with a connecting rod 33, the plurality of adapters 32 are connected through the connecting rod 33, and the connecting mode of each adapter 32 and the connecting rod 33 is hinged;

in order to realize rotation of the hard disk frame 3, a rotary table 35 is rotatably connected to the right side in the box body 6, an extension rod 38 is connected to the periphery of the rotary table 35, a push-pull rod 34 is hinged between the end of the extension rod 38 and the connecting rod 33, the rotary table 35 is rotated, the push-pull rod 34 and the connecting rod 33 are matched to form a structure for rotating the hard disk frame 3, and the push-pull rod 34 realizes rotation of the hard disk frame 3 while pulling the connecting rod 33;

the right end of the turntable 35 is provided with a rotating shaft, the right end of the rotating shaft is rotatably connected with the hard disk cabinet 1, a seventh gear 36 is sleeved on the rotating shaft, the lower end of the seventh gear 36 is provided with a hydraulic push rod 41, the hydraulic push rod 41 is the prior art, and not described in more detail herein, the upper end of the hydraulic push rod 41 is provided with a third rack 37, and the third rack 37 and the seventh gear 36 are matched with each other to form a rotating structure of the turntable 35.

In a ninth embodiment, on the basis of the first embodiment, as shown in fig. 8 and 9, in order to improve the utilization rate of the apparatus, a storage rack 39 is fixed at the lower end of each hard disk rack 3, large data devices such as a cabinet can be placed in the storage rack 39, an openable limiting rack 40 is hinged at the front end of each storage rack 39, the lower end of the limiting rack 40 is hinged with the hard disk rack 3, the upper end of the limiting rack 40 can be detachably connected with the hard disk rack 3 through a lock catch, the lock catch is the prior art, and the articles on the storage rack 39 need to be placed closely to the limiting rack 40, it is noted that a plurality of fixing straps are arranged in the storage rack 39, and the fixing straps can fix the articles on the storage rack 39 on the bottom plate of the storage rack 39 to prevent the articles on the storage rack 39 from overturning when the hard disk rack 3 is rotated.

When the hard disk cabinet is used, a hard disk with a large amount of information is placed in the hard disk groove 9, basic information of the hard disk is marked on the pressing plate 8, the hard disk frame 3 can be turned over during checking and checking, a worker can conveniently take and check the hard disk, meanwhile, the worker can record checking information on the pressing plate 8, when the worker carelessly touches the hard disk cabinet 1, when the hard disk cabinet 1 inclines, the first rack 15 slides quickly and drives the sealing plate 23 to slide, the balancing weight 21 quickly changes the center of the hard disk cabinet 1 under the action of air pressure so as to prevent the hard disk cabinet 1 from continuously tipping, if the hard disk cabinet 1 continuously tips, the limiting rack 14 can gradually break away from the stop block 28 to enable the L-shaped support rod 10 to slide outwards quickly, and the L-shaped support rod 10 forms secondary protection for the hard disk cabinet 1.

The invention has novel structure, ingenious conception and simple and convenient operation, and effectively solves the problems that the conventional big data management and storage device has single function, can not fully protect the hard disk storing a large amount of data and is inconvenient for workers to check and manage the hard disk.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The big data management and storage device comprises a hard disk cabinet (1) and is characterized in that a plurality of rotatable hard disk frames (3) are arranged in the hard disk cabinet (1) from top to bottom, the hard disk frames (3) are rotated, the hard disk frames (3) are sequentially connected end to end from top to bottom to form a whole hard disk wall in the vertical direction, a base (4) is fixed at the lower end of the hard disk cabinet (1), a plurality of L-shaped supporting rods (10) capable of sliding back and forth in the base (4) are arranged in the base (4), a plurality of supporting legs (7) are rotatably connected to the lower end of the base (4), each supporting leg (7) corresponds to one box body (6), a balancing weight (21) capable of sliding back and forth in each box body (6) is arranged in each box body (6), the balancing weights (21) correspond to the L-shaped supporting rods (10) one by one, and the balancing weights (21) are matched with the L-shaped supporting rods (10) to;

a first rack (15) capable of sliding back and forth in the box body (6) is arranged in each box body (6), a first piston (26) is fixed on the first rack (15), a second piston (22) is arranged at the end part of a counterweight block (21) corresponding to the first rack (15), and the first piston (26) and the second piston (22) are matched to form a sealed cavity;

the sealing structure is characterized in that an air pressure box (12) is arranged on the box body (6), an air vent is arranged between the lower end of the air pressure box (12) and the box body (6), a sealing plate (23) capable of sliding at the bottom of the air pressure box (12) is arranged at the air vent, a tooth surface is arranged at the lower end of the sealing plate (23), a second rack (25) is arranged above the end part of the first rack (15), a first gear (24) is meshed with the upper end of the second rack (25), the upper end of the first gear (24) is meshed with the tooth surface at the lower end of the sealing plate (23), the tooth surfaces at the lower ends of the second rack (25), the first gear (24) and the sealing plate (23) are mutually matched to form a structure for opening and closing the sealing plate (23), and air pressure in the air pressure box (12.

2. The big data management and storage device according to claim 1, wherein a plurality of rollers (27) are arranged at the upper end and the lower end of the counterweight block (21), a slide way which can be matched with the rollers (27) is arranged in the box body (6), and a second spring (20) is connected between the end part of the counterweight block (21) and the inside of the box body (6).

3. The big data management and storage device according to claim 1, wherein a plurality of sliding grooves are formed in the base (4), the sliding grooves correspond to the L-shaped supporting rods (10) one by one, the L-shaped supporting rods (10) can slide back and forth in the sliding grooves, a stop (28) is hinged to the middle of each L-shaped supporting rod (10) through a torsion spring, a limiting rack (14) capable of sliding up and down is arranged at the front end of each stop (28), and the limiting rack (14) and the stop (28) are matched to form a first limiting structure;

a left-right limiting hole (42) is formed in the rear end of the L-shaped support rod (10), a left-right sliding limiting pin (43) is arranged on the inner wall of the front end of the sliding groove, a third spring (44) is connected between the end of the limiting pin (43) and the base (4), and the limiting pin (43) and the limiting hole (42) are matched to form a second limiting structure;

a first spring (11) is connected between the rear end of the L-shaped supporting rod (10) and the sliding groove, and the first spring (11) is matched with the L-shaped supporting rod (10) to form a structure that the L-shaped supporting rod (10) automatically slides out.

4. The big data management and storage device according to claim 1, wherein a plurality of connecting pieces (13) are fixed at the lower end of the base (4), the connecting pieces (13) correspond to the supporting legs (7) one by one, the lower end of each connecting piece (13) is rotatably connected with the upper end of the corresponding supporting leg (7), the lower end of each connecting piece (13) is provided with a tooth surface, the upper end of each supporting leg (7) is provided with a second gear (30), the lower end of each second gear (30) is engaged with a third gear (31), and the outer part of each third gear (31) is provided with a fourth gear (17) which can rotate along with the third gear (31);

the lower extreme and the meshing of second gear (30) of connecting piece (13), connecting piece (13) drive third gear (31) through second gear (30) and rotate, and the upper end meshing of fourth gear (17) has fifth gear (16), and the gear axle center of fifth gear (16) and the pin joint of connecting piece (13) lower extreme are on same water flat line, and second gear (30), third gear (31), fourth gear (17) and fifth gear (16) mutually support and form drive mechanism.

5. The big data management and storage device according to claim 4, wherein the front end of the box body (6) is provided with a fixed piece, the lower end of the fixed piece is provided with a sixth gear, the sixth gear is meshed with the corresponding first rack (15), and the upper end of the fixed piece is provided with a first bevel gear (19) which can rotate synchronously with the sixth gear;

the outer end of the fifth gear (16) is connected with a second bevel gear (18) which can rotate along with the fifth gear (16), the tooth surface of the second bevel gear (18) is meshed with the tooth surface of the first bevel gear (19), the hard disk cabinet (1) is turned, the base (4) drives the connecting piece (13) to rotate, the connecting piece (13) drives the second bevel gear (18) to rotate through the transmission mechanism, the second bevel gear (18) drives the sixth gear to rotate through the first bevel gear (19), and the sixth gear rotates to form a sliding structure of the first rack (15).

6. A device according to claim 4, characterized in that the fifth gear (16) is engaged with the corresponding tooth surface of the limit rack (14), and the fifth gear (16) rotates to form a structure that the limit rack (14) slides downwards gradually away from the stop (28).

7. The big data management and storage device according to claim 1, wherein a plurality of hard disk slots (9) are formed in the upper end of each hard disk frame (3), an openable pressing plate (8) is hinged to the upper end of each hard disk slot (9) through a torsion spring, a triangular adapter (32) is fixed to the right end of each hard disk frame (3), the outer end of each adapter (32) is rotatably connected with the inner wall of the box body (6), a connecting rod (33) is arranged at the right end in the box body (6), the plurality of adapters (32) are connected through the connecting rod (33), and each adapter (32) is hinged to the connecting rod (33);

a rotary table (35) is rotatably connected to the right side in the box body (6), an extension rod (38) is connected to the periphery of the rotary table (35), a push-pull rod (34) is hinged between the end of the extension rod (38) and the connecting rod (33), the rotary table (35) is rotated, and the push-pull rod (34) is matched with the connecting rod (33) to form a hard disc frame (3) rotating structure;

the right end of carousel (35) is equipped with the axis of rotation, and the right end of axis of rotation is rotated with hard disk cabinet (1) and is connected, and the cover is equipped with seventh gear (36) in the axis of rotation, and the lower extreme of seventh gear (36) is equipped with hydraulic push rod (41), and the upper end of hydraulic push rod (41) is equipped with third rack (37), and third rack (37) and seventh gear (36) mutually support and form carousel (35) pivoted structure.

8. The big data management storage device according to claim 1, wherein a storage rack (39) is fixed at the lower end of each hard disk rack (3), and the front end of each storage rack (39) is hinged with an openable limiting rack (40).