CN113257623B - Intelligent device power-on protection equipment - Google Patents

Abstract

For solving above-mentioned technical problem, an intelligent device circular telegram protection equipment, including control clamping device, position limiting device, the device of bounceing, installation fixed plate, through the tight degree of control clamping device control to the device clamp of bounceing, position limiting device limits the device of bounceing and makes the device of bounceing carry out the accumulation of energy, thereby the device of bounceing will separate function such as power-off protection with control clamping device when holding power to certain numerical value, its characterized in that: the control clamping device is fixedly installed on the installation fixing plate, the position limiting device is fixedly installed on the installation fixing plate, and the bouncing device is fixedly installed on the installation fixing plate.

Description

Intelligent device power-on protection equipment

Technical Field

The invention relates to a power-on protection device, in particular to a power-on protection device for an intelligent device.

Background

More and more intelligent devices are introduced into our lives along with the advancement of science and technology, so that our lives become more convenient, but the intelligent devices are expensive, so that the intelligent device power-on protection device is invented.

Disclosure of Invention

The invention relates to intelligent device power-on protection equipment, in particular to intelligent device power-on protection equipment.

For solving above-mentioned technical problem, an intelligent device circular telegram protective equipment, including control clamping device, position limiting device, the device of bounceing, the installation fixed plate, through the control of control clamping device to the tight degree of the device clamp of bounceing, position limiting device limits the device of bounceing and makes the device of bounceing carry out the accumulation of energy, thereby the device of bounceing will separate function such as power-off protection with control clamping device when holding power to certain numerical value, its characterized in that: the control clamping device is fixedly installed on the installation fixing plate, the position limiting device is fixedly installed on the installation fixing plate, and the bouncing device is fixedly installed on the installation fixing plate.

As a further optimization of the technical scheme, the invention relates to intelligent device power-on protection equipment, which comprises a first mounting box, a water inlet pipe, a rotating disc, a spiral rod, a spring pushing plate, a spring, a pushing frame, a first sliding piston, a first pushing cavity, a first water passing cavity, a pushing column, a pushing plate, a first connecting pipe, a first control valve, a moving bolt, a first spring, a control ball, a connecting column and a water return pipe, wherein the first mounting box is fixedly arranged on a mounting fixing plate, the water inlet pipe is fixedly arranged on the first mounting box, the rotating disc is fixedly arranged on the spiral rod, the spiral rod is arranged on the first mounting box, the spiral rod is in threaded fit with the first mounting box, the spring pushing plate is rotatably arranged on the spiral rod, the spring pushing plate is slidably arranged inside the first mounting box, the spring is fixedly arranged on the spring pushing plate, the pushing frame is slidably arranged inside the first mounting box, the first sliding piston is fixedly arranged on the pushing frame, a sliding piston is slidably mounted inside a pushing cavity I, the pushing cavity I is arranged inside an installation box I, a water passing cavity I is arranged inside the installation box I, the pushing column is fixedly mounted on a pushing frame, a pushing plate is fixedly mounted on the pushing column, a connecting pipe I is fixedly mounted on the installation box I, a control valve I is fixedly mounted on the connecting pipe I, a moving bolt is slidably mounted inside a connecting column, the moving bolt is fixedly mounted on the pushing plate, a spring I is fixedly mounted on the moving bolt, a control ball is slidably mounted inside the installation box I, the connecting column is fixedly mounted on a mounting fixing plate, and a return water pipe is fixedly mounted on the installation box I.

As a further optimization of the technical scheme, the position limiting device comprises a mounted water tank, a water passing cavity, a sliding piston II, a pushing frame II, a pushing box, a spring III, a sliding column II, a limiting force storage card and a sliding cavity II, wherein a connecting pipe I is fixedly mounted on the mounted water tank, the mounted water tank is fixedly mounted on a mounting fixing plate, the water passing cavity is arranged on the mounted water tank, the sliding piston II is slidably mounted in the sliding cavity II, the sliding piston II is fixedly mounted on the pushing frame II, the pushing frame II is slidably mounted in the mounted water passing tank, the pushing box is fixedly mounted on the pushing frame II, the spring III is mounted on the pushing box, the sliding column II is slidably mounted on the pushing box, the limiting force storage card is fixedly mounted on the sliding column II, and the sliding cavity II is arranged on the mounted water passing tank.

As a further optimization of the technical scheme, the invention relates to an intelligent device power-on protection device, wherein the bouncing device comprises a third installation box, a water passing pipe, a second control valve, a second connecting pipe, a third control valve, a rotary connecting block, a matching hole, an installation shaft, a rotary gear, a movable tooth column, a fourth spring, a connecting plate, a third pushing column, a third pushing piston, a water passing layer and a third sliding cavity, the third installation box is fixedly installed on an installation fixing plate, the water passing pipe is fixedly installed on the third installation box and a rotary disc, the second control valve is fixedly installed on the water passing pipe, the second connecting pipe is fixedly installed on the water passing tank and the water passing pipe, the third control valve is fixedly installed on the second connecting pipe, the rotary connecting block is fixedly installed on the installation shaft, the matching hole is arranged on the rotary connecting block, the rotary installation shaft is rotatably installed on the third installation box, the rotary gear is fixedly installed on the installation shaft, the movable tooth column is slidably installed in the third installation box, the movable tooth column is meshed with the rotating gear, the spring four is installed inside the movable tooth column, the connecting plate is installed inside the movable tooth column in a sliding mode, the pushing column three is installed and fixed on the connecting plate, the pushing piston three is installed and fixed on the pushing column three, the pushing piston three is installed inside the installing box three in a sliding mode, the water passing layer is arranged inside the installing box three, and the sliding cavity three is arranged inside the installing box three.

As a further optimization of the technical scheme, the intelligent device power-on protection equipment comprises two mounting boxes I, two rotating discs, two spiral rods, two spring pushing plates, two springs and two pushing frames of the control clamping device, eight sliding pistons I and eight pushing cavities I, two pushing columns, two pushing plates, two connecting pipes I and two control valves I, three moving bolts, three springs I and three control balls, wherein a water inlet pipe is connected with a water outlet end of the intelligent liquid cooling device, and a water return pipe is connected with a water return end of the intelligent liquid cooling device.

As further optimization of the technical scheme, the intelligent device power-on protection equipment provided by the invention has the advantages that the number of the position limiting device which is provided with the water passing tank, the water passing cavity, the second pushing frame, the third pushing box, the third spring, the second sliding column, the two limiting power storage cards and the second sliding cavity is two.

The intelligent device power-on protection equipment has the beneficial effects that:

the invention relates to intelligent device power-on protection equipment, in particular to intelligent device power-on protection equipment, which realizes the functions of controlling the clamping degree of a bouncing device by controlling a clamping device, limiting the bouncing device by a position limiting device so as to accumulate energy of the bouncing device, separating the bouncing device from the control clamping device when the accumulated force reaches a certain value so as to carry out power-off protection and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

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

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural schematic diagram of the control clamping device of the present invention.

Fig. 5 is a schematic structural diagram of a control clamping device of the present invention.

Fig. 6 is a third structural schematic diagram of the control clamping device of the invention.

FIG. 7 is a first schematic structural diagram of a position limiting device according to the present invention.

FIG. 8 is a second schematic structural diagram of the position limiting device of the present invention.

Fig. 9 is a first structural diagram of the pop-up device of the present invention.

Fig. 10 is a second structural diagram of the pop-up device of the present invention.

Fig. 11 is a third structural schematic diagram of the pop-up device of the present invention.

Fig. 12 is a fourth structural diagram of the pop-up device of the present invention.

Fig. 13 is a fifth structural schematic diagram of the pop-up device of the present invention.

In the figure: controlling the clamping device 1; 1-1 of an installation box; a water inlet pipe 1-2; 1-3 of a rotating disc; 1-4 of a screw rod; the spring pushes the plate 1-5; 1-6 parts of a spring; a push frame 1-7; 1-8 sliding pistons; 1-9 of the pushing cavity I; 1-10 parts of a water passing cavity; pushing the column 1-11; pushing the plate 1-12; connecting pipes I1-13; control valves 1-14; 1-15 parts of a movable bolt; 1-16 parts of a first spring; 1-17 of a control ball; 1-18 of connecting columns; 1-19 of a water return pipe; a position restricting device 2; installing a water tank 2-1; 2-2 of a water passing cavity; 2-3 of a sliding piston II; a second pushing frame 2-4; 2-5 of a push box; 2-6 parts of a spring; 2-7 of a second sliding column; 2-8 of a limit power storage card; 2-9 parts of a sliding cavity II; a pop-up device 3; a third installation box 3-1; 3-2 of a water pipe; a second control valve 3-3; a second connecting pipe 3-4; 3-5 of a control valve III; rotating the connecting block 3-6; 3-7 of a matching hole; installing shafts 3-8; 3-9 of a rotating gear; 3-10 of a movable toothed column; 3-11 parts of spring; 3-12 of a connecting plate; pushing the third column 3-13; pushing a piston III 3-14; 3-15 parts of a water passing layer; a sliding cavity III is 3-16; the fixing plate 4 is installed.

Detailed Description

The first specific implementation way is as follows:

in order to solve the above technical problems, an intelligent device power-on protection apparatus includes a control clamping device 1, a position limiting device 2, a pop-up device 3, and an installation fixing plate 4, the control clamping device controls the degree of clamping the pop-up device, the position limiting device limits the pop-up device so that the pop-up device accumulates energy, and when the accumulated energy reaches a certain value, the pop-up device separates from the control clamping device to perform power-off protection, and the like, and is characterized in that: the control clamping device 1 is fixedly arranged on the mounting fixing plate 4, the position limiting device 2 is fixedly arranged on the mounting fixing plate 4, and the bouncing device 3 is fixedly arranged on the mounting fixing plate 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the embodiment further describes the embodiment, where the control clamping device 1 includes a first installation box 1-1, a first water inlet pipe 1-2, a first rotating disk 1-3, a screw rod 1-4, a spring pushing plate 1-5, a spring 1-6, a pushing frame 1-7, a first sliding piston 1-8, a first pushing cavity 1-9, a first water passing cavity 1-10, a pushing column 1-11, a pushing plate 1-12, a first connecting pipe 1-13, a first control valve 1-14, a first moving bolt 1-15, a first spring 1-16, a first control ball 1-17, a first connecting column 1-18, and a second water returning pipe 1-19, and the normal use is that the second control valve 3-3 is closed first, the liquid temperature of the liquid which is cooled by the intelligent equipment is increased by the liquid path control clamping device 1, the position limiting device 2, the bouncing device 3, the position limiting device 2 and the control clamping device 1, then the heated liquid enters the water passing cavity I1-10 of the installation box I1-1 through the water inlet pipe 1-2 of the control clamping device 1 through other equipment, then the temperature in the pushing cavity I1-9 is increased along with the flowing of warm water, gas which is severely changed by temperature changes is arranged in the pushing cavity I1-9 to expand and then push the sliding piston I1-8 to slide, the moving sliding piston I1-8 pushes the pushing frame 1-7 to move, the pushing frame 1-7 drives the pushing column 1-11 to move and then compresses the spring 1-6, the moving pushing column 1-11 will reduce the compression amount of the spring 1-16 to the control ball 1-17 by pulling the moving bolt 1-15 outwards through the pushing plate 1-12, thereby reducing the resistance of the rotating connecting block 3-6 of the bouncing device 3 to pop out, then the screw rod 1-4 can be driven to rotate according to the rotating disc 1-3, thereby moving on the installation box 1-1, changing the compression amount of the spring 1-6, then changing the moving condition of the pushing column 1-11, further changing the change of the monitoring temperature, the liquid passes through the water passing cavity 1-10 and then enters the water passing cavity 2-2 installed on the water tank 2-1 through the connecting pipe 1-13, the installation box 1-1 is installed and fixed on the installation fixing plate 4, the water inlet pipe 1-2 is installed and fixed on the installation box 1-1, a rotating disc 1-3 is fixedly arranged on a screw rod 1-4, the screw rod 1-4 is arranged on a mounting box 1-1, the screw rod 1-4 is in threaded fit with the mounting box 1-1, a spring pushing plate 1-5 is rotatably arranged on the screw rod 1-4, the spring pushing plate 1-5 is slidably arranged in the mounting box 1-1, a spring 1-6 is fixedly arranged on the spring pushing plate 1-5, a pushing frame 1-7 is slidably arranged in the mounting box 1-1, a sliding piston 1-8 is fixedly arranged on the pushing frame 1-7, the sliding piston 1-8 is slidably arranged in a pushing cavity 1-9, the pushing cavity 1-9 is arranged in the mounting box 1-1, a water passing cavity 1-10 is arranged in the mounting box 1-1, the pushing column 1-11 is fixedly arranged on the pushing frame 1-7, the pushing plate 1-12 is fixedly arranged on the pushing column 1-11, the connecting pipe I1-13 is fixedly arranged on the mounting box I1-1, the control valve I1-14 is fixedly arranged on the connecting pipe I1-13, the movable bolt 1-15 is slidably arranged in the connecting column 1-18, the movable bolt 1-15 is fixedly arranged on the pushing plate 1-12, the spring I1-16 is fixedly arranged on the movable bolt 1-15, the control ball 1-17 is slidably arranged in the mounting box I1-1, the connecting column 1-18 is fixedly arranged on the mounting fixing plate 4, and the water return pipe 1-19 is fixedly arranged on the mounting box I1-1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the embodiment further describes the embodiment, where the position limiting device 2 includes a water passing tank 2-1, a water passing cavity 2-2, a sliding piston two 2-3, a pushing frame two 2-4, a pushing tank 2-5, a spring three 2-6, a sliding column two 2-7, a limit power storage card 2-8, and a sliding cavity two 2-9, and then the temperature of the gas in the sliding cavity two 2-9 changes to push the sliding piston two 2-3 to move so that the pushing frame two 2-4 pulls the pushing tank 2-5 to move, and the pushing tank 2-5 pulls the limit power storage card 2-8 to move to both sides through the sliding column two 2-7, gradually separating the limiting power storage card 2-8 from the rotating connecting block 3-6 of the bouncing device 3 along with the temperature surpassing, installing and fixing the connecting pipe I1-13 on the installed water tank 2-1, installing and fixing the installed water tank 2-1 on the installation fixing plate 4, arranging the water passing cavity 2-2 on the installed water tank 2-1, installing the sliding piston II 2-3 in the sliding cavity II 2-9 in a sliding way, installing and fixing the sliding piston II 2-3 on the pushing frame II 2-4, installing the pushing frame II 2-4 in the installed water tank 2-1 in a sliding way, installing and fixing the pushing box 2-5 on the pushing frame II 2-4, installing the spring III 2-6 on the pushing box 2-5, installing the sliding column II 2-7 on the pushing box 2-5 in a sliding way, the limiting power storage card 2-8 is fixedly arranged on the sliding column II 2-7, and the sliding cavity II 2-9 is arranged on the water tank 2-1.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and the embodiment further describes the first embodiment, wherein the bouncing device 3 comprises a mounting box three 3-1, a water passing pipe 3-2, a control valve two 3-3, a connecting pipe two 3-4, a control valve three 3-5, a rotary connecting block 3-6, a matching hole 3-7, a mounting shaft 3-8, a rotary gear 3-9, a movable toothed column 3-10, a spring four 3-11, a connecting plate 3-12, a pushing column three 3-13, a pushing piston three 3-14, a water passing layer 3-15, and a sliding cavity three 3-16, and liquid enters the water passing pipe 3-2 through the connecting pipe two 3-4 and then enters the water passing layer 3-15 of the mounting box three 3-1 through the mounting box 2-1, so that the sliding cavity three 3-4 is formed by the water passing layer 3-15 16, the pushing piston 3-14 pushes the pushing column 3-13 to move, the pushing column 3-13 pushes the connecting plate 3-12 to compress the spring 3-11, the rotating connecting block 3-6 is not limited by the limit power storage card 2-8, the limit power storage card 2-8 does not limit the rotating connecting block 3-6 along with the rise of temperature, then the compressed spring 3-11 pushes the moving toothed column 3-10 to move, the moving toothed column 3-10 drives the rotating gear 3-9 to rotate, the rotating gear 3-9 drives the rotating connecting block 3-6 to rotate and separate from the connecting column 1-18 through the mounting shaft 3-8, and the connecting column 1-18 and the rotating connecting block 3-6 are connected with a power supply, the separation between the two control valves is carried out, the circuit is cut to stop the device, then the first control valve 1-14 and the third control valve 3-5 can be closed, then the second control valve 3-3 is opened, then the position limiting device 2 can always limit the bouncing device 3 and cannot enable the control clamping device 1 and the bouncing device 3 to be separated and always powered on, the mounting box 3-1 is fixedly arranged on the mounting fixing plate 4, the water passing pipe 3-2 is fixedly arranged on the mounting box 3-1 and the rotating disc 1-3, the second control valve 3-3 is fixedly arranged on the water passing pipe 3-2, the second connecting pipe 3-4 is fixedly arranged on the water passing box 2-1 and the water passing pipe 3-2, and the third control valve 3-5 is fixedly arranged on the second connecting pipe 3-4, a rotating connecting block 3-6 is fixedly arranged on a mounting shaft 3-8, a matching hole 3-7 is arranged on the rotating connecting block 3-6, the mounting shaft 3-8 is rotatably arranged on a mounting box III 3-1, a rotating gear 3-9 is fixedly arranged on the mounting shaft 3-8, a moving toothed column 3-10 is slidably arranged in the mounting box III 3-1, the moving toothed column 3-10 is meshed with the rotating gear 3-9, a spring IV 3-11 is arranged in the moving toothed column 3-10, a connecting plate 3-12 is slidably arranged in the moving toothed column 3-10, a pushing column III 3-13 is fixedly arranged on the connecting plate 3-12, a pushing piston III 3-14 is fixedly arranged on a pushing column III 3-13, and a pushing piston III 3-14 is slidably arranged in the mounting box III 3-1, the water passing layer 3-15 is arranged inside the mounting box III 3-1, and the sliding cavity III 3-16 is arranged inside the mounting box III 3-1.

The fifth concrete implementation mode:

this embodiment mode will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and this embodiment mode will further describe embodiment mode two, the intelligent liquid cooling device is characterized in that the number of the installation boxes I1-1, the number of the rotating discs 1-3, the number of the spiral rods 1-4, the number of the spring pushing plates 1-5, the number of the springs 1-6 and the number of the pushing frames 1-7 are two, the number of the sliding pistons I1-8 and the number of the pushing cavities I1-9 are eight, the number of the pushing columns 1-11, the number of the pushing plates 1-12, the number of the connecting pipes I1-13 and the number of the control valves I1-14 are two, the number of the moving bolts 1-15, the number of the springs I1-16 and the number of the control balls 1-17 are three, the water inlet pipe 1-2 is connected with a water outlet end of the intelligent liquid cooling device, and the water return pipe 1-19 is connected with a water return end of the intelligent liquid cooling device.

The sixth specific implementation mode:

the third embodiment is further described by referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12. the third embodiment is further described by the present embodiment, and the number of the position limiting device 2, which is installed with the water tank 2-1, the water passing cavity 2-2, the pushing frame 2-4, the pushing box 2-5, the spring three 2-6, the sliding column two 2-7, the limit power storage card 2-8, and the sliding cavity two 2-9, is two.

The working principle of the invention is as follows:

the working principle of the intelligent device power-on protection equipment is that whether the connection condition between the devices meets the requirements is checked before the intelligent device power-on protection equipment is used, when the intelligent device power-on protection equipment is used normally, a control valve II 3-3 is closed firstly, liquid passes through a control clamping device 1, a position limiting device 2, a bouncing device 3, a position limiting device 2 and a control clamping device 1, the temperature of the liquid after the intelligent device is cooled is increased, then the liquid after the temperature is increased enters a water passing cavity I1-10 of an installation box I1-1 through a water inlet pipe 1-2 of the control clamping device 1 through other equipment, then the temperature inside the pushing cavity I1-9 is increased along with the flowing of warm water, gas which is compared with the temperature change is arranged inside the pushing cavity I1-9 and expands, and then a sliding piston I1-8 is pushed to slide violently, the movable sliding piston 1-8 pushes the pushing frame 1-7 to move, the pushing frame 1-7 drives the pushing column 1-11 to move and then compress the spring 1-6, the movable pushing column 1-11 pulls the movable bolt 1-15 outwards through the pushing plate 1-12 to reduce the compression amount of the spring 1-16 on the control ball 1-17 so as to reduce the resistance of the rotating connecting block 3-6 of the bouncing device 3 to bounce, then the spiral rod 1-4 can be driven to rotate according to the rotating disc 1-3 so as to move on the installation box 1-1 to change the compression amount of the spring 1-6 and then change the condition of the pushing column 1-11 to move, and further change the change of the monitored temperature, and the liquid passes through the water passing cavity 1-10 and then enters the water passing cavity provided with the water tank 2-1 through the connecting pipe 1-13 2-2, then the temperature of the gas in the sliding cavity II 2-9 is changed to push the sliding piston II 2-3 to move, so that the pushing frame II 2-4 pulls the pushing box 2-5 to move, the pushing box 2-5 pulls the limit power storage card 2-8 to move towards two sides through the sliding column II 2-7, the liquid is gradually separated from the rotating connecting block 3-6 of the bounce device 3 along with the temperature surpassing the limit power storage card 2-8, the liquid enters the water passing pipe 3-2 through the connecting pipe II 3-4 by being installed through the water tank 2-1 and then enters the water passing layer 3-15 of the mounting box III 3-1, so that the temperature in the sliding cavity III 3-16 is changed, then the pushing piston III 3-14 is pushed to move, the pushing piston III 3-14 pushes the pushing column III 3-13 to move, the third pushing column 3-13 pushes the connecting plate 3-12 to compress the fourth spring 3-11, the rotary connecting block 3-6 is limited by the limit power storage card 2-8 and can not rotate, the limit power storage card 2-8 can not limit the rotary connecting block 3-6 along with the rise of temperature, then the compressed fourth spring 3-11 can push the movable toothed column 3-10 to move, the movable toothed column 3-10 can drive the rotary gear 3-9 to rotate, the rotary gear 3-9 drives the rotary connecting block 3-6 to rotate and separate from the connecting column 1-18 through the mounting shaft 3-8, and as the connecting column 1-18 and the rotary connecting block 3-6 are connected with a power supply, the circuit is cut to stop the device when separation occurs, it is then also possible to close the control valves one 1-14 and three 3-5 and then to open the control valves two 3-3, which then makes the position limiting device 2 always limit the pop-up device 3 without the control clamp 1 and pop-up device 3 being separated from the always energized state.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (3)

1. The utility model provides an intelligent device circular telegram protection equipment, includes control clamping device (1), position limiting device (2), bounce device (3), installation fixed plate (4), its characterized in that: the control clamping device (1) is fixedly installed on the installation fixing plate (4), the position limiting device (2) is fixedly installed on the installation fixing plate (4), and the bouncing device (3) is fixedly installed on the installation fixing plate (4);

the control clamping device (1) comprises a first installation box (1-1), a water inlet pipe (1-2), a rotating disc (1-3), a spiral rod (1-4), a spring pushing plate (1-5), a spring (1-6), a pushing frame (1-7), a first sliding piston (1-8), a first pushing cavity (1-9), a first water passing cavity (1-10), a pushing column (1-11), a pushing plate (1-12), a first connecting pipe (1-13), a first control valve (1-14), a movable bolt (1-15), a first spring (1-16), a control ball (1-17), a connecting column (1-18) and a return water pipe (1-19), wherein the first installation box (1-1) is fixedly installed on an installation fixing plate (4), the water inlet pipe (1-2) is fixedly arranged on the first mounting box (1-1), the rotating disc (1-3) is fixedly arranged on the screw rod (1-4), the screw rod (1-4) is arranged on the first mounting box (1-1), the screw rod (1-4) is in threaded fit with the first mounting box (1-1), the spring pushing plate (1-5) is rotatably arranged on the screw rod (1-4), the spring pushing plate (1-5) is slidably arranged in the first mounting box (1-1), the spring (1-6) is fixedly arranged on the spring pushing plate (1-5), the pushing frame (1-7) is slidably arranged in the first mounting box (1-1), the sliding piston (1-8) is fixedly arranged on the pushing frame (1-7), the sliding piston (1-8) is slidably arranged in the first pushing cavity (1-9), the push cavity I (1-9) is arranged inside the installation box I (1-1), the water passing cavity I (1-10) is arranged inside the installation box I (1-1), the push column I (1-11) is fixedly arranged on the push frame I (1-7), the push plate I (1-12) is fixedly arranged on the push column I (1-11), the connecting pipe I (1-13) is fixedly arranged on the installation box I (1-1), the control valve I (1-14) is fixedly arranged on the connecting pipe I (1-13), the movable bolt I (1-15) is slidably arranged inside the connecting column I (1-18), the movable bolt I (1-15) is fixedly arranged on the push plate I (1-12), the spring I (1-16) is fixedly arranged on the movable bolt I (1-15), and the control ball I (1-17) is slidably arranged inside the installation box I (1-1), the connecting columns (1-18) are fixedly arranged on the mounting fixing plate (4), and the return pipes (1-19) are fixedly arranged on the mounting box I (1-1);

the position limiting device (2) comprises a mounting water passing tank (2-1), a water passing cavity (2-2), a sliding piston II (2-3), a pushing frame II (2-4), a pushing box (2-5), a spring III (2-6), a sliding column II (2-7), a limiting force storage clamp (2-8) and a sliding cavity II (2-9), wherein a connecting pipe I (1-13) is fixedly mounted on the mounting water passing tank (2-1), the mounting water passing tank (2-1) is fixedly mounted on a mounting fixing plate (4), the water passing cavity (2-2) is arranged on the mounting water passing tank (2-1), the sliding piston II (2-3) is slidably mounted in the sliding cavity II (2-9), and the sliding piston II (2-3) is fixedly mounted on the pushing frame II (2-4), a second pushing frame (2-4) is installed inside the installed water tank (2-1) in a sliding mode, a pushing box (2-5) is installed and fixed on the second pushing frame (2-4), a third spring (2-6) is installed on the pushing box (2-5), a second sliding column (2-7) is installed on the pushing box (2-5) in a sliding mode, a limiting power storage clamp (2-8) is installed and fixed on the second sliding column (2-7), and a second sliding cavity (2-9) is arranged inside the installed water tank (2-1);

the bouncing device (3) comprises a third installation box (3-1), a water passing pipe (3-2), a second control valve (3-3), a second connecting pipe (3-4), a third control valve (3-5), a rotary connecting block (3-6), a matching hole (3-7), an installation shaft (3-8), a rotary gear (3-9), a movable tooth column (3-10), a fourth spring (3-11), a connecting plate (3-12), a third pushing column (3-13), a third pushing piston (3-14), a water passing layer (3-15) and a third sliding cavity (3-16), wherein the third installation box (3-1) is fixedly installed on an installation fixing plate (4), the water passing pipe (3-2) is fixedly installed on the third installation box (3-1) and a rotary disc (1-3), a second control valve (3-3) is fixedly arranged on the water passing pipe (3-2), a second connecting pipe (3-4) is fixedly arranged on the water passing tank (2-1) and the water passing pipe (3-2), a third control valve (3-5) is fixedly arranged on the second connecting pipe (3-4), a rotating connecting block (3-6) is fixedly arranged on a mounting shaft (3-8), a matching hole (3-7) is arranged on the rotating connecting block (3-6), the mounting shaft (3-8) is rotatably arranged on a third mounting box (3-1), a rotating gear (3-9) is fixedly arranged on the mounting shaft (3-8), a moving toothed column (3-10) is slidably arranged in the third mounting box (3-1), and the moving toothed column (3-10) is meshed with the rotating gear (3-9), the spring IV (3-11) is installed inside the movable toothed column (3-10), the connecting plate (3-12) is installed inside the movable toothed column (3-10) in a sliding mode, the pushing column III (3-13) is installed and fixed on the connecting plate (3-12), the pushing piston III (3-14) is installed and fixed on the pushing column III (3-13), the pushing piston III (3-14) is installed inside the installation box III (3-1) in a sliding mode, the water passing layer (3-15) is arranged inside the installation box III (3-1), and the sliding cavity III (3-16) is arranged inside the installation box III (3-1).

2. The intelligent device energization protection apparatus according to claim 1, wherein: the number of the first installation box (1-1), the rotating disc (1-3), the screw rod (1-4), the spring pushing plate (1-5), the spring (1-6) and the pushing frame (1-7) of the control clamping device (1) is two, the intelligent liquid cooling device comprises a sliding piston I (1-8) and a pushing cavity I (1-9), wherein the number of the sliding piston I (1-8) and the pushing cavity I (1-9) is eight, the number of the pushing column I (1-11), the number of the pushing plate I (1-12), the number of the connecting pipe I (1-13) and the number of the control valve I (1-14) are two, the number of the moving bolt I (1-15), the number of the spring I (1-16) and the number of the control ball I (1-17) are three, a water inlet pipe (1-2) is connected with a water outlet end of the intelligent liquid cooling device, and a water return pipe (1-19) is connected with a water return end of the intelligent liquid cooling device.

3. The intelligent device energization protection apparatus according to claim 1, wherein: the number of the water passing tank (2-1), the water passing cavity (2-2), the second pushing frame (2-4), the second pushing box (2-5), the third spring (2-6), the second sliding column (2-7), the limiting force storage card (2-8) and the second sliding cavity (2-9) of the position limiting device (2) is two.

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