CN114063729A - Cloud computing data encryption system - Google Patents

Abstract

The invention discloses a cloud computing data encryption system which comprises a machine body shell, wherein an isolation cavity is arranged in the machine body shell, a water storage tank penetrating through the front surface of the machine body shell is arranged in the isolation cavity in a sliding mode, a water storage cavity with an upward opening and full water storage is arranged in the water storage tank, a working cavity is arranged above the isolation cavity, the working cavity is communicated with the isolation cavity through a first channel, and an isolation assembly capable of isolating the first channel is arranged in the first channel; the mobile box moves under the drive of the first motor, the action of pushing the mobile box out of the protection cavity to wrap the storage hard disk is achieved, the clamping plate can clamp the storage hard disk under the drive of the first electric push rod, the action of pulling the storage hard disk from the main board in cooperation with the mobile box is achieved, and the storage hard disk storing important data is separated from the fired main board so as to avoid great economic loss caused by burning of the storage hard disk.

Description

Cloud computing data encryption system

Technical Field

The invention relates to the technical field of cloud computing data encryption, in particular to a cloud computing data encryption system.

Background

When the encryption host analyzes big data, high-load operation of each electronic element of the host needs to be mobilized, so that high temperature is generated, and limited heat dissipation in a case is insufficient, so that fire disasters of components inside the case are caused.

In the prior art, when a fire disaster occurs in a computer case, the storage hard disk cannot be effectively protected, so that all important data stored by a user are burnt, and great economic loss is caused.

Disclosure of Invention

The invention aims to provide a cloud computing data encryption system which is used for overcoming the defects in the prior art.

The cloud computing data encryption system comprises a machine body shell, wherein an isolation cavity is arranged in the machine body shell, a water storage tank penetrating through the front surface of the machine body shell is arranged in the isolation cavity in a sliding mode, a water storage cavity with an upward opening and full of water is arranged in the water storage tank, a working cavity is arranged above the isolation cavity, the working cavity is communicated with the isolation cavity through a first channel, an isolation assembly capable of isolating the first channel is arranged in the first channel, a main board penetrating through the right surface of the machine body shell is arranged in the right wall of the working cavity, a storage hard disk is arranged on the left wall of the main board, a protection box corresponding to the storage hard disk in position is arranged on the right side of the storage hard disk, a protection cavity with an opening facing the storage hard disk is arranged in the protection box, a mobile box in sliding connection is arranged in the protection cavity, and a push-out assembly capable of pushing the mobile box out is arranged in the protection cavity, a clamping cavity with a right opening is arranged in the movable box, first electric push rods with symmetrical positions are arranged in the upper wall and the lower wall of the clamping cavity, a clamping plate is fixedly arranged at the output end of the first electric push rod, a sealing door is rotatably arranged on the right surface of the protection box, a permanent magnet is arranged in the sealing door, an electromagnet corresponding to the permanent magnet is arranged in the machine body shell, a sealing ring is fixedly arranged on the side wall of the sealing door matched with the protection box, a locking assembly is arranged on the sealing door matched with the protection box, a push-off cavity corresponding to the protection box is arranged on the top wall of the working cavity, a push-off assembly capable of pushing off the protection box is arranged in the push-off cavity, a fire extinguishing assembly capable of extinguishing fire by using carbon dioxide is arranged above the push-off cavity, and a heat dissipation channel penetrating through the top surface of the machine body shell is arranged on the top wall of the working cavity, the radiator is installed to the heat dissipation passageway lateral wall, install thermodetector in the working chamber right side wall.

Like this, the clamp plate that is equipped with just can press from both sides tight storage hard disk under the drive of first electric putter, plays the cooperation and releases the effect that the subassembly will save hard disk and pull out from the mainboard, and the electro-magnet can produce the magnetic pole that attracts or repel the permanent magnet, plays the effect of fixed or spring-open sealing door.

According to the technical scheme, the isolation assembly comprises a second chute arranged on the right wall of the first channel, a third chute with an upward opening is formed in the bottom wall of the second chute, a second motor is installed in the right wall of the third chute, a second screw rod connected with the left wall of the third chute in a rotating mode is installed on the left end face of the second motor, a second sliding block connected with the third chute in a sliding mode is connected onto the second screw rod in a threaded mode, the top end of the second sliding block is fixedly provided with a protection plate connected with the second chute in a sliding mode, and the protection plate can be connected with the left wall of the first channel in a pressing mode.

Therefore, the protection plate can move under the driving of the second motor, the first channel is separated to prevent burning sundries from falling into the water storage cavity when a fire disaster happens, and objects in the water storage cavity can be protected from being damaged.

Further technical scheme, the release subassembly including set up in the protection chamber diapire and the ascending first spout of opening, install first motor in the wall of first spout left side, first motor right-hand member face install with the first screw rod of first spout right side wall rotation connection, threaded connection has on the first screw rod with first spout sliding connection's first slider, first slider with removal case fixed connection.

Therefore, the mobile box is driven by the first motor to move, and the mobile box is pushed out of the protection cavity to wrap the storage hard disk.

According to the technical scheme, the locking assembly comprises a third motor, the third motor is installed in the right wall of the protection box and located below the protection cavity, a third screw rod is installed on the right end face of the third motor, a locking cavity with a rightward opening is arranged in the sealing door, a locking plate in sliding connection is arranged in the locking cavity, the left wall of the locking plate is connected with the left wall of the locking cavity through a first spring, and the third screw rod can be in threaded connection with the locking plate.

Like this, the sealing door that is equipped with just can support press fit with the guard box under the combined action of third motor and locking plate to play the effect that prevents that water from entering into the guard cavity and damaging the storage hard disk under the combined action of sealing washer.

In a further technical scheme, the push-off component comprises a guide post which is arranged in the push-off cavity and is connected with the push-off cavity in a sliding way, the guide post is fixedly connected with the protection box, a spring cavity with a right opening is arranged in the guide post, a bayonet lock cavity which corresponds to the spring cavity in position and has a leftward opening is arranged on the right wall of the push-off cavity, a bayonet lock which can extend into the bayonet lock cavity is slidably arranged in the spring cavity, the left wall of the bayonet lock is connected with the left wall of the spring cavity through a second spring, a second electric push rod is arranged in the right wall of the bayonet lock cavity, the output end of the second electric push rod is fixedly provided with a first push plate which is connected with the bayonet lock cavity in a sliding way, the first push plate is connected with the bayonet lock in a propping way, the pushing cavity is internally provided with a second pushing plate in a sliding manner, the second pushing plate is connected with the surgical guide pillar in a pressing manner, and the top wall of the second pushing plate is connected with the top wall of the pushing cavity through a third spring.

Therefore, the arranged bayonet lock can be retracted into the spring cavity under the pushing of the second electric push rod, when the bayonet lock is completely retracted into the spring cavity, the compressed third spring pushes the guide pillar to move downwards, the guide pillar is unlocked and ejected downwards to enter the water storage cavity, and the storage hard disk is protected from being roasted at high temperature by water in the water storage cavity.

Further technical scheme, the subassembly of putting out a fire including set up in carbon dioxide storage chamber in the engine body shell, carbon dioxide storage chamber with the working chamber is linked together through the trachea, install electronic valve on the trachea, be equipped with the fourth spout that the opening is right in the heat dissipation passageway left wall, install the fourth motor in the fourth spout left wall, fourth motor right-hand member face installs the fourth screw rod, threaded connection have on the fourth screw rod with fourth spout sliding connection's baffle, the baffle can with the heat dissipation passageway right wall is supported and is pressed the connection.

Like this, the baffle that is equipped with just can support under the drive of fourth motor and press on heat dissipation channel's right wall, reduces external oxygen and gets into the work intracavity, and electronic valve opens the carbon dioxide that makes carbon dioxide storage chamber store and gets into the work intracavity simultaneously, makes the mainboard that the work intracavity catches fire extinguish because of there being no oxygen, reaches the effect of putting out a fire.

In a further technical scheme, the temperature detector can detect the temperature change in the working cavity and control the whole operation of the invention according to the temperature change.

According to the further technical scheme, the radiator can change the wind speed along with the regulation and control of the temperature detector, so that the radiating speed is in a reasonable state.

The invention has the beneficial effects that:

firstly, the mobile box provided by the invention moves under the drive of the first motor, so that the mobile box is pushed out of the protection cavity to wrap the storage hard disk, the clamping plate provided by the invention can clamp the storage hard disk under the drive of the first electric push rod, and the storage hard disk is pulled out of the main board in a matching manner with the mobile box, so that the storage hard disk storing important data is separated from the fired main board.

Secondly, the sealing door provided by the invention can be in abutting press fit with the protection box under the combined action of the third motor and the locking plate, and plays a role of preventing water from entering the protection cavity to damage the storage hard disk under the combined action of the sealing ring, the clamping pin can be retracted into the spring cavity under the pushing action of the second electric push rod, and when the clamping pin is completely retracted into the spring cavity, the compressed third spring pushes the guide pillar to move downwards, so that the protection box is unlocked to eject downwards and enter the water storage cavity, and the storage hard disk is protected from being roasted at high temperature by using the water in the storage cavity.

Thirdly, the baffle plate arranged in the invention can be pressed on the right wall of the heat dissipation channel under the driving of the fourth motor, so that the external oxygen is reduced from entering the working cavity, meanwhile, the electronic valve is opened to enable the carbon dioxide stored in the carbon dioxide storage cavity to enter the working cavity, and the main board on fire in the working cavity is extinguished due to the absence of oxygen, thereby achieving the effect of fire extinguishing.

Drawings

FIG. 1 is a schematic external view of a cloud computing data encryption system according to the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 taken at A-A in accordance with the present invention;

FIG. 3 is a schematic diagram of the ejector assembly of FIG. 2 according to the present invention;

FIG. 4 is a schematic structural view illustrating the operation of the sealing door of FIG. 2 according to the present invention;

FIG. 5 is a schematic view of the push-off assembly of FIG. 2 according to the present invention;

FIG. 6 is a schematic structural view of the locking assembly of FIG. 4 in accordance with the present invention;

FIG. 7 is a schematic illustration of the construction of the isolation assembly of FIG. 2 in accordance with the present invention;

fig. 8 is a schematic view of the fire suppression assembly of fig. 2 according to the present invention.

Detailed Description

For purposes of making the objects and advantages of the present invention more apparent, the following detailed description of the present invention, taken in conjunction with the examples, should be understood that the following text is only intended to describe one cloud computing data encryption system or several specific embodiments of the present invention, and not to strictly limit the scope of the invention as specifically claimed, as used herein, the terms up, down, left and right are not limited to strict geometric definitions thereof, but rather include tolerances for machining or human error rationality and inconsistencies, the following detailed description of which is exhaustive:

referring to fig. 1 to 8, a cloud computing data encryption system according to an embodiment of the present invention includes a machine body shell 11, an isolation cavity 12 is disposed in the machine body shell 11, a water storage tank 13 penetrating through a front surface of the machine body shell 11 is slidably disposed in the isolation cavity 12, a water storage cavity 14 having an upward opening and being full of water is disposed in the water storage tank 13, a working cavity 16 is disposed above the isolation cavity 12, the working cavity 16 is communicated with the isolation cavity 12 through a first passage 15, an isolation component 64 capable of isolating the first passage 15 is disposed in the first passage 15, a main board 18 penetrating through a right surface of the machine body shell 11 is disposed in a right wall of the working cavity 16, a storage hard disk 20 is mounted on a left wall of the main board 18, a protection box 17 corresponding to the storage hard disk 20 is disposed on a right side of the storage hard disk 20, a protection cavity 37 having an opening facing the storage hard disk 20 is disposed in the protection box 17, a sliding-connected moving box 40 is arranged in the protection cavity 37, a push-out assembly 65 capable of pushing out the moving box 40 is arranged in the protection cavity 37, a clamping cavity 44 with a right opening is arranged in the moving box 40, a clamping cavity 44 with a right opening is arranged in the clamping cavity 44, first electric push rods 39 with symmetrical positions are arranged in upper and lower walls of the clamping cavity 44, a clamping plate 38 is fixedly arranged at the output end of the first electric push rod 39, a sealing door 24 is rotatably arranged on the right surface of the protection box 17, a permanent magnet 23 is arranged in the sealing door 24, an electromagnet 22 corresponding to the position of the permanent magnet 23 is arranged in the machine body shell 11, a sealing ring 32 is fixedly arranged on the side wall of the sealing door 24 matched with the protection box 17, a locking assembly 66 is arranged on the sealing door 24 matched with the protection box 17, and a push-out cavity 25 corresponding to the position of the protection box 17 is arranged on the top wall of the working cavity 16, it can with to push away from the intracavity 25 is equipped with can with the guard box 17 pushes away from subassembly 67 that pushes away from, it is equipped with the subassembly 68 of putting out a fire that can utilize carbon dioxide to put out a fire to push away from the chamber 25 top, working chamber 16 roof is equipped with and runs through the heat dissipation channel 30 of engine body shell 11 top surface, radiator 31 is installed to the heat dissipation channel 30 lateral wall, install thermodetector 21 in the working chamber 16 right wall.

Beneficially or exemplarily, the isolation assembly 64 includes a second sliding groove 19 disposed on the right wall of the first channel 15, a third sliding groove 56 with an upward opening is disposed in the bottom wall of the second sliding groove 19, a second motor 59 is mounted in the right wall of the third sliding groove 56, a second screw 57 rotatably connected to the left wall of the third sliding groove 56 is mounted on the left end surface of the second motor 59, a second sliding block 58 slidably connected to the third sliding groove 56 is connected to the second screw 57 in a threaded manner, a protection plate 60 slidably connected to the second sliding groove 19 is fixedly mounted at the top end of the second sliding block 58, the protection plate 60 can be connected to the left wall of the first channel 15 in a pressing manner, when the second motor 59 is started, the second motor 59 drives the second screw 57 to rotate, the second screw 57 drives the second sliding block 58 to move, and the second sliding block 58 drives the protection plate 60 to move.

Advantageously or exemplarily, the pushing-out assembly 65 includes a first sliding chute 34 disposed in the bottom wall of the protection cavity 37 and having an upward opening, a first motor 33 is installed in a left wall of the first sliding chute 34, a first screw 36 rotatably connected to a right wall of the first sliding chute 34 is installed at a right end face of the first motor 33, a first slider 35 slidably connected to the first sliding chute 34 is threadedly connected to the first screw 36, the first slider 35 is fixedly connected to the moving box 40, when the first motor 33 is activated, the first motor 33 drives the first screw 36 to rotate, and the first screw 36 drives the moving box 40 to move through the first slider 35.

Advantageously or exemplarily, the locking assembly 66 includes a third motor 51 installed in the right wall of the protection box 17 and located below the protection cavity 37, a third screw 52 is installed on a right end face of the third motor 51, a locking cavity 55 with a right opening is formed in the sealing door 24, a locking plate 54 in sliding connection is formed in the locking cavity 55, a left wall of the locking plate 54 is connected with a left wall of the locking cavity 55 through a first spring 53, the third screw 52 and the locking plate 54 can be in threaded connection, when the sealing door 24 and the protection box 17 are closed, the third motor 51 is activated, the third motor 51 drives the third screw 52 to rotate, the third screw 52 drives the locking plate 54 to move, and the locking plate 54 firmly presses the sealing door 24 against the protection box 17.

Beneficially or exemplarily, the push-off assembly 67 includes a guide post 41 disposed in the push-off cavity 25 and slidably connected thereto, the guide post 41 is fixedly connected to the protection box 17, a spring cavity 42 with a rightward opening is disposed in the guide post 41, a bayonet cavity 49 with a leftward opening corresponding to the position of the spring cavity 42 is disposed on a right wall of the push-off cavity 25, a bayonet 50 capable of extending into the bayonet cavity 49 is slidably disposed in the spring cavity 42, a left wall of the bayonet 50 is connected to a left wall of the spring cavity 42 through a second spring 43, a second electric push rod 48 is disposed in a right wall of the bayonet cavity 49, a first push plate 47 slidably connected to the bayonet cavity 49 is fixedly disposed at an output end of the second electric push rod 48, the first push plate 47 is in press-connection with the bayonet 50, a second push plate 46 in press-connection with the surgical guide post 41 is slidably disposed in the push-off cavity 25, the top wall of the second push plate 46 is connected with the top wall of the push-off cavity 25 through a third spring 45, when the second electric push rod 48 is started, the second electric push rod 48 pushes the first push plate 47 to move, the first push plate 47 pushes the detent 50 to move, and when the detent 50 is completely retracted into the spring cavity 42, the compressed third spring 45 pushes the guide post 41 to move through the second push plate 46.

Beneficially or exemplarily, the fire extinguishing assembly 68 includes a carbon dioxide storage chamber 26 disposed in the machine body housing 11, the carbon dioxide storage chamber 26 is communicated with the working chamber 16 through an air pipe 28, an electronic valve 27 is mounted on the air pipe 28, a fourth chute 29 with a right opening is disposed in a left wall of the heat dissipation channel 30, a fourth motor 61 is mounted in a left wall of the fourth chute 29, a fourth screw 62 is mounted on a right end face of the fourth motor 61, a baffle 63 slidably connected with the fourth chute 29 is threadedly connected to the fourth screw 62, the baffle 63 can be connected to a right wall of the heat dissipation channel 30 in a pressing manner, when the electronic valve 27 is activated, the electronic valve 27 conducts the air pipe 28 to introduce the carbon dioxide gas in the carbon dioxide storage chamber 26 into the working chamber 16, and when the fourth motor 61 is activated, the fourth motor 61 drives the fourth screw 62 to rotate, the fourth screw 62 moves the shutter 63.

Advantageously or exemplarily, said temperature detector 21 is able to detect temperature variations within the working chamber 16 and to control the overall operation of the invention in accordance with the temperature variations.

Advantageously or exemplarily, the heat sink 31 can change the wind speed according to the regulation of the temperature detector 21, so as to keep the speed of heat dissipation in a reasonable state.

The invention discloses a cloud computing data encryption system, which comprises the following working procedures:

when a fire disaster occurs in the chassis, the temperature detector 21 detects that the temperature in the working chamber 16 rises sharply to judge that the fire disaster occurs in the working chamber 16, then the first motor 33 and the first electric push rod 39 are controlled to start to clamp and pull out the storage hard disk 20 and retract into the protection chamber 37, then the sealing door 24 is turned downwards to be matched with the protection box 17 to be closed when the electromagnet 22 changes the magnetic pole direction, then the third motor 51 is started to lock the locking plate 54 to enable the sealing door 24 to be locked on the protection box 17 firmly, the sealing ring 32 is matched to play a waterproof role, then the second electric push rod 48 is started to push the clamping pin 50 into the spring chamber 42 to release the locking of the guide post 41, then the protection box 17 is ejected into the water storage chamber 14 under the action of the third spring 45, then the second motor 59 is started to control the protection plate 60 to be connected with the left wall of the first channel 15 in a pressing mode to block the connection between the water storage chamber 14 and the working chamber 16, the fire in the working chamber 16 is prevented from spreading to the water storage chamber 14, meanwhile, the fourth motor 61 is started, the control baffle 63 is connected with the right wall of the heat dissipation channel 30 in a pressing mode, external oxygen is prevented from entering the working chamber 16, meanwhile, the electronic valve 27 is started, the carbon dioxide storage chamber 26 is communicated with the working chamber 16, carbon dioxide stored in the carbon dioxide storage chamber 26 enters the working chamber 16, the fire in the case is extinguished due to the fact that sufficient oxygen does not exist through the carbon dioxide, and all actions are completed.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (8)

1. A cloud computing data encryption system comprises a machine body shell (11), and is characterized in that: the water storage and water storage device is characterized in that an isolation cavity (12) is arranged in the engine body shell (11), a water storage tank (13) penetrating through the front surface of the engine body shell (11) is arranged in the isolation cavity (12) in a sliding mode, a water storage cavity (14) with an opening which is upward and full of water is arranged in the water storage tank (13), a working cavity (16) is arranged above the isolation cavity (12), the working cavity (16) is communicated with the isolation cavity (12) through a first channel (15), an isolation assembly (64) capable of isolating the first channel (15) is arranged in the first channel (15), a main board (18) penetrating through the right surface of the engine body shell (11) is arranged in the right wall of the working cavity (16), a storage hard disk (20) is installed on the left wall of the main board (18), a protection box (17) corresponding to the position of the storage hard disk (20) is arranged on the right side of the storage hard disk (20), and a protection cavity (37) with an opening facing to the storage hard disk (20) is arranged in the protection box (17), the protection device is characterized in that a sliding connection moving box (40) is arranged in the protection cavity (37), a push-out assembly (65) capable of pushing out the moving box (40) is arranged in the protection cavity (37), a clamping cavity (44) with a right opening is arranged in the moving box (40), first electric push rods (39) with symmetrical positions are arranged in the upper wall and the lower wall of the clamping cavity (44), a clamping plate (38) is fixedly arranged at the output end of the first electric push rod (39), a sealing door (24) is rotatably arranged on the right surface of the protection box (17), a permanent magnet (23) is arranged in the sealing door (24), an electromagnet (22) corresponding to the permanent magnet (23) is arranged in the machine body shell (11), a sealing ring (32) is fixedly arranged on the side wall of the sealing door (24) matched with the protection box (17), and a locking assembly (66) is arranged on the sealing door (24) matched with the protection box (17), working chamber (16) roof be equipped with what guard box (17) position corresponds pushes away from chamber (25), it can with to push away from being equipped with in chamber (25) that guard box (17) push away from pushing away from subassembly (67), it is equipped with fire extinguishing components (68) that can utilize carbon dioxide to put out a fire to push away from chamber (25) top, working chamber (16) roof is equipped with and runs through heat dissipation channel (30) of engine body shell (11) top surface, heat dissipation channel (30) lateral wall is installed radiator (31), install thermodetector (21) in working chamber (16) right wall.

2. The cloud computing data encryption system of claim 1, wherein: isolation component (64) including set up in second spout (19) of first passageway (15) right wall, be equipped with ascending third spout (56) of opening in second spout (19) diapire, install second motor (59) in third spout (56) right wall, second motor (59) left end face install with second screw rod (57) that third spout (56) left wall rotated the connection, threaded connection has on second screw rod (57) with third spout (56) sliding connection's second slider (58), second slider (58) top set firmly with guard plate (60) of second spout (19) sliding connection, guard plate (60) can with first passageway (15) left wall is supported and is pressed the connection.

3. The cloud computing data encryption system of claim 1, wherein: the push-out component (65) comprises a first sliding groove (34) which is arranged in the bottom wall of the protection cavity (37) and has an upward opening, a first motor (33) is installed in the left wall of the first sliding groove (34), a first screw rod (36) which is connected with the right wall of the first sliding groove (34) in a rotating mode is installed on the right end face of the first motor (33), a first sliding block (35) which is connected with the first sliding groove (34) in a sliding mode is connected with the first screw rod (36) in a threaded mode, and the first sliding block (35) is fixedly connected with the moving box (40).

4. The cloud computing data encryption system of claim 1, wherein: locking Assembly (66) including install in guard box (17) right side wall and be located third motor (51) of guard chamber (37) below, third screw rod (52) are installed to third motor (51) right-hand member face, be equipped with locking chamber (55) that the opening is right in sealing door (24), be equipped with sliding connection's locking plate (54) in locking chamber (55), locking plate (54) left side wall with locking chamber (55) left side wall is connected through first spring (53), third screw rod (52) with locking plate (54) can threaded connection.

5. The cloud computing data encryption system of claim 1, wherein: the push-off assembly (67) comprises a guide post (41) which is arranged in the push-off cavity (25) and is in sliding connection, the guide post (41) is fixedly connected with the protection box (17), a spring cavity (42) with a rightward opening is arranged in the guide post (41), a bayonet lock cavity (49) with a leftward opening and corresponding to the spring cavity (42) is arranged on the right wall of the push-off cavity (25), a bayonet lock (50) which can extend into the bayonet lock cavity (49) is arranged in the spring cavity (42) in a sliding manner, the left wall of the bayonet lock (50) is connected with the left wall of the spring cavity (42) through a second spring (43), a second electric push rod (48) is arranged in the right wall of the bayonet lock cavity (49), a first push plate (47) which is in sliding connection with the bayonet lock cavity (49) is fixedly arranged at the output end of the second electric push rod (48), and the first push plate (47) is in pressing connection with the bayonet lock (50), a second push plate (46) which is connected with a surgical guide post (41) in a pressing mode is arranged in the push-off cavity (25) in a sliding mode, and the top wall of the second push plate (46) is connected with the top wall of the push-off cavity (25) through a third spring (45).

6. The cloud computing data encryption system of claim 1, wherein: put out a fire subassembly (68) including set up in carbon dioxide storage chamber (26) in engine body shell (11), carbon dioxide storage chamber (26) with working chamber (16) are linked together through trachea (28), install electronic valve (27) on trachea (28), be equipped with fourth spout (29) that the opening is right in heat dissipation passageway (30) left side wall, install fourth motor (61) in fourth spout (29) left side wall, fourth screw rod (62) are installed to fourth motor (61) right-hand member face, threaded connection have on fourth screw rod (62) with fourth spout (29) sliding connection's baffle (63), baffle (63) can with heat dissipation passageway (30) right side wall supports to press and connects.

7. The cloud computing data encryption system of claim 1, wherein: the temperature detector (21) can detect the temperature change in the working chamber (16) and control the whole operation of the invention according to the temperature change.

8. The cloud computing data encryption system of claim 1, wherein: the radiator (31) can change the wind speed along with the regulation and control of the temperature detector (21), so that the radiating speed is in a reasonable state.

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