CN111767587A - Hard disk cartridge device for preventing data from being stolen - Google Patents

Abstract

The invention discloses a hard disk cartridge device for preventing data from being stolen, which comprises a hard disk cartridge, wherein a rotating door is arranged on the lower side of the hard disk cartridge, a locking device is arranged in the rotating door, the locking device comprises a supporting cavity arranged in the rotating door, the lower side of the supporting cavity is communicated with a supporting groove, a sliding block is connected in the supporting cavity in a sliding manner, the lower side of the sliding block is fixedly connected with a supporting block in sliding connection with the supporting groove, a supporting spring is connected between the sliding block and the bottom wall of the supporting cavity, the left side and the right side of the supporting cavity are symmetrically communicated with connecting grooves, building blocks are connected in the connecting grooves in a sliding manner, a connecting spring is connected between the building blocks and the wall body of the connecting grooves, and building block grooves capable of being abutted and.

Description

Hard disk cartridge device for preventing data from being stolen

Technical Field

The invention relates to the technical field of electronic storage, in particular to a hard disk cartridge device for preventing data from being stolen.

Background

With the rapid development of networks and multimedia, people are more and more often confronted with large-capacity data exchange taking GB as a unit, and in the face of such multiple data, the protection work of the hard disk needs to be paid attention to, but nowadays, hard disk cartridges rarely have the function of protecting the hard disk from being stolen, so that the invention of a hard disk device capable of protecting the hard disk in the hard disk from being stolen is very important.

Disclosure of Invention

The present invention is directed to a hard disk cartridge device for preventing data theft, which overcomes the above-mentioned drawbacks of the prior art.

The hard disk cartridge device for preventing data from being stolen comprises a hard disk cartridge, wherein a rotating door is arranged on the lower side of the hard disk cartridge, a locking device is arranged in the rotating door, the locking device comprises a supporting cavity formed in the rotating door, a supporting groove is communicated with the lower side of the supporting cavity, a sliding block is connected in the supporting cavity in a sliding mode, a supporting block in sliding connection with the supporting groove is fixedly connected to the lower side of the sliding block, a supporting spring is connected between the sliding block and the bottom wall of the supporting cavity, connecting grooves are symmetrically communicated with the left side and the right side of the supporting cavity, building blocks are connected in the connecting grooves in a sliding mode, connecting springs are connected between the building blocks and wall bodies of the connecting grooves, building block grooves capable of being abutted and locked with the building blocks are symmetrically formed in the left side and the right side of the hard disk cartridge, when an operator presses, the hard disk box is locked and can not be moved out manually, the hard disk box is provided with a through groove positioned on the upper side of a bevel gear connecting groove, a hard disk device is arranged in the through groove, the hard disk device comprises a ratchet shaft which is in running fit with the right wall of the through groove, the ratchet shaft is fixedly connected with a ratchet wheel in the through groove, a torsional spring is connected between the ratchet shaft and the right wall of the through groove, a rotating door positioned on the right side of the rotating door is fixedly connected with a connecting gear, the upper side of the through groove is communicated with a matching groove, the rear side of the matching groove is communicated with a butting groove, a butting block is slidably connected in the butting groove, a butting spring is connected between the butting block and the rear wall of the butting groove, the right wall of the matching groove is slidably connected with a moving rack fixedly connected with the butting block, the top wall of the matching groove is slidably connected with a sliding rack, and, the cooperation groove right side wall normal running fit has the extension axle, it is located to extend the axle cooperation inslot fixedly connected with can with the slip rack with the running gear of butt piece meshing, the user fills in the hard disk lead to the inslot, makes the revolving door rotates, the butt simultaneously the butt piece removes backward, works as the hard disk butt after the butt piece removes a definite position, the revolving door will lead to the groove and close.

On the basis of the technical scheme, the locking device also comprises a bevel gear connecting groove arranged in the hard disk box, wherein a power shaft is rotationally matched with the bottom wall of the bevel gear connecting groove, matching shafts are symmetrically and rotationally matched with the left wall and the right wall of the bevel gear connecting groove, the matching shafts and the power shaft are positioned in the bevel gear connecting groove and are connected with an inner bevel gear pair, friction grooves which are communicated with the outer side of the hard disk box and are positioned on the upper side of the connecting groove are symmetrically arranged on the left side and the right side of the bevel gear connecting groove, one-way shafts are rotationally matched towards the direction close to the central end surface of the bevel gear connecting groove, the one-way shafts are connected with the matching shafts by one-way couplings, the one-way shafts are fixedly connected with connecting friction blocks in the friction grooves, bevel gear meshing grooves which can be communicated with the friction grooves, the bevel gear meshing groove is rotationally matched with a connecting shaft towards the direction far away from the central end surface of the supporting cavity, the connecting shaft is positioned in the bevel gear meshing groove and is fixedly connected with a connecting bevel gear, a wall body between the bevel gear meshing groove and the connecting groove is rotationally matched with a rotating shaft, the rotating shaft is positioned in the bevel gear meshing groove and is fixedly connected with a meshing bevel gear meshed with the connecting bevel gear, the building blocks are positioned in the connecting grooves and fixedly connected with connecting gears meshed with the building blocks, the connecting shafts are positioned in the bevel gear meshing grooves and fixedly connected with connecting blocks positioned on the side close to the central end face direction of the supporting cavity, the connecting shaft is positioned in the bevel gear meshing groove, a pressure friction block which is positioned close to the side of the central end face of the supporting cavity and can be in running fit with the connecting friction block is connected with the connecting shaft through a spline, and a pressure spring is connected between the pressure friction block and the connecting block.

On the basis of the technical scheme, the hard disk device further comprises a moving groove communicated with the rear side of the through groove, a connecting device is connected in the moving groove in a sliding mode, a hard disk socket capable of being inserted with a hard disk inserting port for data transmission is formed in the front side of the connecting device, a gear groove is formed in the lower side of the connecting device, a sliding groove is formed in the lower side of the connecting device, a connecting rack is connected in the sliding groove in a sliding mode, a transmission shaft is matched with the wall body of the gear groove support in a rotating mode and is located in the sliding groove, the connecting rack is meshed with the connecting rack, a power shaft is located in the gear groove, a rotating gear is fixedly connected in the gear groove and extends downwards to the lower side of the bevel gear connecting groove, the tail end of the power shaft is connected with a power motor embedded in the wall body of the hard disk box, and the transmission shaft is located in the gear groove A belt wheel groove is arranged between the bevel gear connecting groove and the gear groove, a fan groove positioned at the front side of the gear groove is arranged at the lower side of the through groove, a fan shaft positioned at the front side of the power shaft is arranged on the wall body between the fan groove and the belt wheel groove in a rotating fit manner, the fan shaft is connected with the power shaft positioned in the belt wheel groove by a belt wheel, a bevel gear driving groove positioned at the upper side of the sliding groove is arranged in the connecting device, a sliding groove with the front side communicated with the moving groove is arranged at the front side of the bevel gear driving groove, a driving screw rod is arranged on the rear side wall body of the sliding groove in a rotating fit manner, a plug-in block is arranged in the sliding groove in a threaded fit manner, a data line plug-in groove is arranged at the front side of the plug-in block, a sliding shaft is arranged on the top wall of the bevel gear driving groove in a rotating fit manner, the transmission screw rod is located in the bevel gear transmission groove and is fixedly connected with a connecting semi-bevel gear meshed with the rotating bevel gear, the upper side of the moving groove is communicated with a conjunction groove, a fixed rack is fixedly installed on the right wall of the conjunction groove, a sliding gear capable of being meshed with the fixed rack is fixedly connected with the sliding shaft, the sliding shaft is located in the conjunction groove and is fixedly connected with a connecting friction wheel located on the upper side of the sliding gear, a conjunction shaft is arranged on the top wall of the conjunction groove in a rotating fit mode, the conjunction shaft is located in the conjunction groove and is fixedly connected with an abutting friction wheel capable of being in rotating fit with the connecting friction wheel, the conjunction shaft extends upwards to form a tail end power connection with a disconnecting motor embedded in a wall body, and a data line inserting groove capable of being inserted by the inserting block and extending to the outer side of the hard disk cartridge is fixedly installed on the rear side wall body of the hard disk socket.

On the basis of the technical scheme, the top wall of the rear side of the hard disk box is fixedly provided with a fingerprint block, and the lower side of the rotating door is fixedly provided with a desk.

The invention has the beneficial effects that: when daily hard disk used, as long as fill in the supporting cavity with the hard disk box, the hard disk box will be locked, prevent that the people except user oneself from stealing the hard disk box, the hard disk fills in the hard disk box and leads to the inslot and will lock the hard disk and open the use, when opening the hard disk, connecting device will break off with the data line behind the user's multiple input password mistake, prevent that data from being stolen, set up fan blade help hard disk heat dissipation simultaneously, data transmission's high efficiency in the increase hard disk use.

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 diagram showing the overall structure of a hard disk cartridge device for preventing data theft;

fig. 2 is an enlarged view of a partial structure at C in fig. 1;

FIG. 3 is a schematic view of the structure in the direction A-A in FIG. 2;

fig. 4 is an enlarged view of a partial structure at B in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: 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. 1-4, a hard disk cartridge device for preventing data from being stolen according to an embodiment of the present invention includes a hard disk cartridge 36, a rotating door 37 is disposed at a lower side of the hard disk cartridge 36, a locking device is disposed in the rotating door 37, the locking device includes a supporting cavity 27 opened in the rotating door 37, a supporting groove 25 is communicated with a lower side of the supporting cavity 27, a sliding block 28 is slidably connected in the supporting cavity 27, a supporting block 24 slidably connected with the supporting groove 25 is fixedly connected to a lower side of the sliding block 28, a supporting spring 26 is connected between the sliding block 28 and a bottom wall of the supporting cavity 27, connecting grooves 31 are symmetrically communicated with left and right sides of the supporting cavity 27, building blocks 29 are slidably connected in the connecting grooves 31, connecting springs 32 are connected between walls of the building blocks 29 and the connecting grooves 31, building block grooves 21 capable of being locked by abutting against the building blocks 29 are symmetrically formed at left and right sides of the, when an operator presses the hard disk box 36 downwards until the building block 29 enters the block groove 21, the hard disk box 36 is locked and cannot be moved out manually, the hard disk box 36 is provided with a through groove 13 positioned on the upper side of the bevel gear connecting groove 55, a hard disk device is arranged in the through groove 13, the hard disk device comprises a ratchet shaft 39 in rotating fit with the right wall of the through groove 13, the ratchet shaft 39 is positioned in the through groove 13 and fixedly connected with a ratchet 38, a torsion spring is connected between the ratchet shaft 39 and the right wall of the through groove 13, the connecting gear 30 is fixedly connected with a rotating door 37 positioned on the right side of the rotating door 37, the upper side of the through groove 13 is communicated with a matching groove 40, the rear side of the matching groove 40 is communicated with a butting groove 48, a butting block 46 is slidably connected in the butting groove 48, and a butting spring 47 is connected between the butting block 46 and the rear wall of the butting groove, the right wall sliding connection of cooperation groove 40 have with butt piece 46 fixed connection's removal rack 45, cooperation groove 40 roof sliding connection has slip rack 42, slip rack 42 downside fixed connection with ratchet 38 sliding fit's pawl 41, cooperation groove 40 right wall normal running fit has extension axle 43, it is located to extend axle 43 fixed connection can with in the cooperation groove 40 slip rack 42 with the rotating gear 44 of butt piece 46 meshing, the user fills in the hard disk in leading to the groove 13, makes rotate door 37 and rotate, the butt simultaneously butt piece 46 removes backward, works as the hard disk butt after butt piece 46 removes a certain position, it will to rotate door 37 lead to groove 13 and close.

In addition, in one embodiment, the locking device further comprises a bevel gear connecting groove 55 opened in the hard disk box 36, the bottom wall of the bevel gear connecting groove 55 is rotatably fitted with a power shaft 11, the left and right walls of the bevel gear connecting groove 55 are symmetrically rotatably fitted with a fitting shaft 60, the fitting shaft 60 is connected with the power shaft 11 in the bevel gear connecting groove 55 through a bevel gear pair, the left and right sides of the bevel gear connecting groove 55 are symmetrically provided with a friction groove 35 communicated with the outer side of the hard disk box 36 and positioned on the upper side of the connecting groove 31, the friction groove 35 is rotatably fitted with a one-way shaft 86 towards the direction close to the central end surface of the bevel gear connecting groove 55, the one-way shaft 86 is connected with the fitting shaft 60 through a one-way coupling, the one-way shaft 86 is fixedly connected with a connecting friction block 34 in the friction groove 35, the left and right sides of the rotating door 37 are symmetrically provided with bevel gear engaging grooves 19, a connecting shaft 18 is rotatably fitted in the bevel gear engaging groove 19 in a direction away from the central end surface of the support cavity 27, a connecting bevel gear 16 is fixedly connected to the connecting shaft 18 in the bevel gear engaging groove 19, a rotating shaft 20 is rotatably fitted in a wall body between the bevel gear engaging groove 19 and the connecting groove 31, a bevel gear 17 engaged with the connecting bevel gear 16 is fixedly connected to the rotating shaft 20 in the bevel gear engaging groove 19, a connecting gear 30 engaged with the block 29 is fixedly connected to the block 29 in the connecting groove 31, a connecting block 15 located on a side close to the central end surface of the support cavity 27 is fixedly connected to the connecting shaft 18 in the bevel gear engaging groove 19, and a pressure friction block 33 located on a side close to the central end surface of the support cavity 27 and capable of rotatably fitting with the connecting friction block 34 is splined to the connecting shaft 18 in the bevel gear engaging groove 19, a pressure spring 14 is connected between the pressure friction block 33 and the connecting block 15, when the power motor 22 rotates reversely, the engaging shaft 60 can drive the one-way shaft 86 to rotate reversely, so that the ascending rotating shaft 20 drives the upper body connecting gear 30 to rotate, and thus the additional blocks 29 move away from each other, so that the hard disk cartridge 36 can be taken out.

In addition, in one embodiment, the hard disk device further includes a moving slot 87 communicated with the rear side of the through slot 13, a connecting device 72 is slidably connected in the moving slot 87, a hard disk socket 71 capable of being plugged into a hard disk socket for data transmission is opened on the front side of the connecting device 72, a gear slot 58 is opened on the lower side of the connecting device 72, a sliding slot 74 is opened on the lower side of the connecting device 72, a connecting rack 75 is slidably connected in the sliding slot 74, a transmission shaft 59 is rotatably matched with the wall body of the bracket of the gear slot 58 in the sliding slot 74, the transmission shaft 59 is fixedly connected with a connecting rack 76 engaged with the connecting rack 75 in the sliding slot 74, the power shaft 11 is fixedly connected with a rotating gear 56 in the gear slot 58, the power shaft 11 extends downwards to the lower side of the bevel gear connecting slot 55, the end of the power shaft is dynamically connected with a power motor 22 embedded in the hard disk box 36, the transmission shaft 59 is positioned in the gear groove 58 and fixedly connected with a connecting half gear 57 engaged with the rotating gear 56, a belt wheel groove 54 is arranged between the bevel gear connecting groove 55 and the gear groove 58, a fan groove 50 positioned at the front side of the gear groove 58 is arranged at the lower side of the through groove 13, a fan shaft 52 positioned at the front side of the power shaft 11 is rotatably matched with a wall body between the fan groove 50 and the belt wheel groove 54, the fan shaft 52 is in belt wheel connection with the power shaft 11 positioned in the belt wheel groove 54, a bevel gear transmission groove 73 positioned at the upper side of the sliding groove 74 is arranged in the connecting device 72, a sliding groove 80 with the front side communicated with the sliding groove 87 is arranged at the front side of the bevel gear transmission groove 73, a transmission screw 77 is rotatably matched with a rear side wall body of the sliding groove 80, and the transmission screw 77 is positioned in the sliding groove 80 and is in threaded fit with a plug-in block 78, a data line splicing groove 79 is formed in the front side of the splicing block 78, a sliding shaft 68 is rotatably matched with the top wall of the bevel gear transmission groove 73, the sliding shaft 68 is positioned in the bevel gear transmission groove 73 and fixedly connected with a rotating bevel gear 88, the transmission screw 77 is positioned in the bevel gear transmission groove 73 and fixedly connected with a connecting half bevel gear 89 meshed with the rotating bevel gear 88, the upper side of the moving groove 87 is communicated with a matching groove 65, the right wall of the matching groove 65 is fixedly provided with a fixed rack 70, the sliding shaft 68 is fixedly connected with a sliding gear 69 meshed with the fixed rack 70, the sliding shaft 68 is positioned in the matching groove 65 and fixedly connected with a connecting friction wheel 66 positioned on the upper side of the sliding gear 69, the top wall of the matching groove 65 is rotatably matched with a matching shaft 63, the matching shaft 63 is positioned in the matching groove 65 and fixedly connected with a butting friction wheel 62 rotatably matched with the connecting friction wheel 66, the upward extending tail end of the fit shaft 63 is in power connection with a disconnecting motor 64 embedded in a wall body, a data line insertion groove 81 which can be inserted by the insertion block 78 and extends to the outer side of the hard disk box 36 is fixedly installed on the rear side wall body of the hard disk insertion opening 71, when a hard disk is inserted into the hard disk insertion opening 71, the power motor 22 rotates forward to drive the hard disk inserted into the hard disk insertion opening 71 to move backward, so that the pawl 41 continues to move forward until the pawl 41 engages with the ratchet 38, and the ratchet 38 is locked and cannot rotate. The rotating door 37 abuts against the hard disk and cannot be opened forwards, and the ratchet wheel 38 is locked by the pawl 41 and cannot be opened backwards.

In addition, in one embodiment, a fingerprint block 49 is fixedly mounted on the top wall of the rear side of the hard disk box 36, and a table 83 is fixedly mounted on the lower side of the rotating door 37.

In the initial state, the connecting spring 32 is in a relaxed state, the pressure spring 14 is in a relaxed state, the connecting means 72 is located in front of the moving groove 87, and the connecting friction wheel 66 is not in abutment with the abutment friction wheel 62.

When a hard disk is required to be used, the hard disk box 36 is placed into the supporting cavity 27, the sliding block 28 moves downwards, so that after the building blocks 29 are far away from each other, the supporting spring 26 resets upwards to drive the hard disk box 36 to move upwards, after the building block groove 21 and the connecting groove 31 are communicated with each other, the building blocks 29 pop out to lock the hard disk box 36, the pressure friction block 33 always rubs and abuts against the connecting friction block 34 under the action of the pressure spring 14 and cannot move upwards and downwards, external force cannot be opened, at the moment, the hard disk is pushed forwards into the through groove 13 to rotate the rotating door 37, then the hard disk abutting and abutting block 46 moves backwards to drive the moving rack 45 to move backwards, so that the rotating gear 44 rotates, so that the sliding rack 42 moves forwards, when the hard disk is completely plugged into the through groove 13, the hard disk interface is plugged into the hard disk socket 71, the lower side of the rotating door, at the moment, the power motor 22 rotates forwards, the power shaft 11 rotates, the rotating gear 56 rotates to drive the connecting half gear 57 to rotate, so that the transmission shaft 59 rotates, when the connecting half gear 57 rotates to the last tooth, the fixed rack 70 drives the sliding gear 69 to rotate, so that the plug-in block 78 moves backwards to move the data line plug-in groove 79 to be plugged in the data line plug-in groove 81, the connecting friction wheel 66 is abutted against the abutting friction wheel 62, at the moment, the lower side of the hard disk is disengaged from the rotating door 37 to be reset under the action of the torsion spring, at the moment, the pawl 41 continues to move forwards to enable the pawl 41 to be matched with the ratchet 38, the rotating door 37 cannot be rotated any more, a user can input password transmission data, but when a data thief inputs the password for many times, the disconnecting motor 64 is started to drive the abutting friction wheel 62 to rotate, so that the sliding gear 69 rotates, so that the transmission screw 77 rotates, when a user needs to take out the hard disk, the power shaft 11 drives the fan shaft 52 to rotate so that the fan blades 53 rotate to dissipate heat of the hard disk during use, the fingerprint blocks 49 verify that the fingerprint passes through and then the power motor 22 rotates reversely, thereby driving the power shaft 11 to rotate reversely, thereby driving the connecting half gear 57 to rotate reversely so that the connecting device 72 moves forward, so that the hard disk is also moved forward, the sliding rack 42 moves the pawl 41 out of engagement with the engagement groove 40 in sequence, the hard disk can be taken out by opening the rotating door 37, at the same time, the power shaft 11 rotates reversely, so that the matching shaft 60 drives the one-way shaft 86 to rotate, the friction groove 35 drives the pressure friction block 33 to rotate, so that the connecting bevel gear 16 drives the engaging bevel gear 17 to rotate, so that the connecting gear 30 drives the building blocks 29 to move mutually in a mutual force, the hard disk cartridge 36 is thereby ejected upward and the mating shaft 60 cannot rotate the one-way shaft 86 when the power motor 22 is rotating in the forward direction.

The invention has the beneficial effects that: when daily hard disk used, as long as fill in the supporting cavity with the hard disk box, the hard disk box will be locked, prevent that the people except user oneself from stealing the hard disk box, the hard disk fills in the hard disk box and leads to the inslot and will lock the hard disk and open the use, when opening the hard disk, connecting device will break off with the data line behind the user's multiple input password mistake, prevent that data from being stolen, set up fan blade help hard disk heat dissipation simultaneously, data transmission's high efficiency in the increase hard disk use.

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 (4)

1. A hard disk cartridge device for preventing data from being stolen comprises a hard disk cartridge, wherein a rotating door is arranged on the lower side of the hard disk cartridge, a locking device is arranged in the rotating door and comprises a supporting cavity arranged in the rotating door, the lower side of the supporting cavity is communicated with a supporting groove, a sliding block is connected in the supporting cavity in a sliding mode, a supporting block in sliding connection with the supporting groove is fixedly connected to the lower side of the sliding block, a supporting spring is connected between the sliding block and the bottom wall of the supporting cavity, connecting grooves are symmetrically communicated with the left side and the right side of the supporting cavity and are connected with building blocks in sliding connection, a connecting spring is connected between the building blocks and the wall body of the connecting grooves, building block grooves capable of being locked with the building blocks in a butting mode are symmetrically arranged on the left side and the right side of the hard disk cartridge, when an, the hard disk box is locked and can not be moved out manually, the hard disk box is provided with a through groove positioned on the upper side of a bevel gear connecting groove, a hard disk device is arranged in the through groove, the hard disk device comprises a ratchet shaft which is in running fit with the right wall of the through groove, the ratchet shaft is fixedly connected with a ratchet wheel in the through groove, a torsional spring is connected between the ratchet shaft and the right wall of the through groove, a rotating door positioned on the right side of the rotating door is fixedly connected with a connecting gear, the upper side of the through groove is communicated with a matching groove, the rear side of the matching groove is communicated with a butting groove, a butting block is slidably connected in the butting groove, a butting spring is connected between the butting block and the rear wall of the butting groove, the right wall of the matching groove is slidably connected with a moving rack fixedly connected with the butting block, the top wall of the matching groove is slidably connected with a sliding rack, and, the cooperation groove right side wall normal running fit has the extension axle, it is located to extend the axle cooperation inslot fixedly connected with can with the slip rack with the running gear of butt piece meshing, the user fills in the hard disk lead to the inslot, makes the revolving door rotates, the butt simultaneously the butt piece removes backward, works as the hard disk butt after the butt piece removes a definite position, the revolving door will lead to the groove and close.

2. The hard disk cartridge device for preventing data theft according to claim 1, wherein: the locking device also comprises a bevel gear connecting groove arranged in the hard disk box, the bottom wall of the bevel gear connecting groove is rotationally matched with a power shaft, the left wall and the right wall of the bevel gear connecting groove are symmetrically rotationally matched with matching shafts, the matching shafts and the power shaft are positioned in the bevel gear connecting groove and are connected with an inner bevel gear pair, the left side and the right side of the bevel gear connecting groove are symmetrically provided with friction grooves which are communicated with the outer side of the hard disk box and are positioned at the upper side of the connecting groove, the friction grooves are rotationally matched with a one-way shaft towards the direction close to the central end surface of the bevel gear connecting groove, the one-way shaft is connected with the matching shafts by a one-way coupling, the one-way shaft is positioned in the friction grooves and is fixedly connected with a connecting friction block, the left side and the right side of the rotating door are symmetrically provided with bevel gear meshing grooves which can be, the connecting shaft is positioned in the bevel gear meshing groove and is fixedly connected with a connecting bevel gear, a wall body between the bevel gear meshing groove and the connecting groove is rotatably matched with a rotating shaft, the rotating shaft is positioned in the bevel gear meshing groove and is fixedly connected with a meshing bevel gear meshed with the connecting bevel gear, the building block is positioned in the connecting groove and is fixedly connected with a connecting gear meshed with the building block, the connecting shaft is positioned in the bevel gear meshing groove and is fixedly connected with a connecting block positioned on the side close to the central end face direction of the supporting cavity, the connecting shaft is positioned in the bevel gear meshing groove and is in splined connection with a pressure friction block which is positioned on the side close to the central end face direction of the supporting cavity and can be rotatably matched with the connecting friction block, and a pressure spring is.

3. The hard disk cartridge device for preventing data theft according to claim 1, wherein: the hard disk device also comprises a moving groove communicated with the rear side of the through groove, a connecting device is connected in the moving groove in a sliding manner, a hard disk socket capable of being inserted into a hard disk inserting port for data transmission is arranged at the front side of the connecting device, a gear groove is arranged at the lower side of the connecting device, a sliding groove is arranged at the lower side in the connecting device, a connecting rack is connected in the sliding groove in a sliding manner, a transmission shaft is matched with the wall body of the gear groove support in a rotating manner, the transmission shaft is positioned in the sliding groove and fixedly connected with the connecting rack meshed with the connecting rack, a power shaft is positioned in the gear groove and fixedly connected with a rotating gear, the power shaft extends downwards to the lower side of the bevel gear connecting groove, a power motor embedded in the wall body of the hard disk box is connected at the tail end of the power shaft in a power mode, and a connecting half gear meshed, a belt wheel groove is arranged between the bevel gear connecting groove and the gear groove, a fan groove positioned at the front side of the gear groove is arranged at the lower side of the through groove, a fan shaft positioned at the front side of the power shaft is arranged on the wall body between the fan groove and the belt wheel groove in a rotating fit manner, the fan shaft is connected with the power shaft positioned in the belt wheel groove by a belt wheel, a bevel gear driving groove positioned at the upper side of the sliding groove is arranged in the connecting device, a sliding groove with the front side communicated with the moving groove is arranged at the front side of the bevel gear driving groove, a driving screw rod is arranged on the rear side wall body of the sliding groove in a rotating fit manner, a plug-in block is arranged in the sliding groove in a threaded fit manner, a data line plug-in groove is arranged at the front side of the plug-in block, a sliding shaft is arranged on the top wall of the bevel gear driving groove in a rotating fit, the transmission screw rod is located in the bevel gear transmission groove and is fixedly connected with a connecting semi-bevel gear meshed with the rotating bevel gear, the upper side of the moving groove is communicated with a conjunction groove, a fixed rack is fixedly installed on the right wall of the conjunction groove, a sliding gear capable of being meshed with the fixed rack is fixedly connected with the sliding shaft, the sliding shaft is located in the conjunction groove and is fixedly connected with a connecting friction wheel located on the upper side of the sliding gear, a conjunction shaft is arranged on the top wall of the conjunction groove in a rotating fit mode, the conjunction shaft is located in the conjunction groove and is fixedly connected with an abutting friction wheel capable of being in rotating fit with the connecting friction wheel, the conjunction shaft extends upwards to form a tail end power connection with a disconnecting motor embedded in a wall body, and a data line inserting groove capable of being inserted by the inserting block and extending to the outer side of the hard disk cartridge is fixedly installed on the rear side wall body of the hard disk socket.

4. The hard disk cartridge device for preventing data theft according to claim 1, wherein: the hard disk cartridge is characterized in that a fingerprint block is fixedly mounted on the top wall of the rear side of the hard disk cartridge, and a desk is fixedly mounted on the lower side of the rotating door.

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