CN114003112A - Computer machine case auxiliary heat dissipation protection device - Google Patents

Abstract

The invention relates to the field of computer heat dissipation, in particular to an auxiliary heat dissipation protection device for a computer case, wherein a plurality of devices are operated in a computer room at the same time, most of the devices are in an unattended state, disasters frequently occur in nature, and serious property and data loss can occur if managers cannot catch up in time, the auxiliary heat dissipation protection device solves the problems, a computer is arranged in a heat dissipation combination body, a fan rotates to dissipate heat of the computer, when the local temperature in the computer is overhigh, the case starts to slide back and forth between an air inlet fan and an exhaust fan, the internal air flow is increased, the local heat is reduced, automatic cooling is completed, when a fire occurs, the fire protection combination body can hit a bell to alarm to remind workers to deal with the fire, if the workers put out the fire in the future, a water tank sprays water, when an earthquake occurs, the earthquake protection combination body tensions the whole device and two side walls through a steel wire rope, and equipment damage caused by an earthquake is prevented.

Description

Computer machine case auxiliary heat dissipation protection device

Technical Field

The invention relates to the field of computer heat dissipation, in particular to an auxiliary heat dissipation protection device for a computer case.

Background

The invention solves the problems that a plurality of devices are operated in a computer room at the same time, most of the devices are in an unattended state, disasters frequently occur in nature, and if managers cannot catch up in time, serious property and data loss occurs.

Disclosure of Invention

The invention aims to provide an auxiliary heat dissipation protection device for a computer case, which can automatically perform the functions of heat dissipation and disaster protection for the operation of a computer.

The purpose of the invention is realized by the following technical scheme:

an auxiliary heat dissipation protection device for a computer case comprises a heat dissipation module and a heat dissipation module.

As a further optimization of the technical solution, the auxiliary heat dissipation protection device for a computer case of the present invention includes a heat dissipation assembly, a fire protection assembly, and an earthquake protection assembly, where the fire protection assembly and the earthquake protection assembly are both connected to the heat dissipation assembly.

As a further optimization of the technical scheme, the invention relates to an auxiliary heat dissipation protection device for a computer case, wherein a heat dissipation assembly comprises a support column, a slide rail, a slide lug, a case, a sliding cover, an opening and closing bolt, a servo motor support, a servo motor, a belt wheel I, a servo motor shaft, a motor shaft support, a belt I, a belt wheel II, a fan blade shaft, a fan blade, a frame I, a frame II, a bevel gear I, a bevel gear II shaft support, a belt wheel III, a belt wheel II, a belt wheel III, a gear I, a fixed support, a slide gear, a gear sliding frame, a sliding frame slide rail, a gear II, a disc shaft, a disc, a shifting block, a shifting groove and a smoke temperature sensor, the support column is connected with the slide rail, the slide lug is connected with the slide rail in a sliding manner, the slide lug is connected with the case, the case is connected with the sliding cover at the tail end of the sliding cover through the opening and closing bolt, the servo motor support is connected with the support, the servo motor support is connected with the servo motor, the servo motor is connected with a servo motor shaft, the servo motor shaft is connected with a belt wheel I, the servo motor shaft is rotationally connected with the motor shaft support, the motor shaft support is connected with the support, the belt wheel I is connected with three belt wheels II through a belt I, the belt wheels II are connected with fan blade shafts, the fan blade shafts are rotationally connected with a frame II, the frame II is connected with a frame I, the frame I is connected with the support, the fan blade shafts are connected with fan blades, the servo motor shaft is connected with a bevel gear I, the bevel gear I is meshed with a bevel gear II, the bevel gear II is connected with a bevel gear II shaft, the bevel gear II shaft is rotationally connected with a bevel gear II shaft support, the bevel gear II shaft is connected with a servo motor support, the bevel gear II shaft is connected with a belt wheel III, and the two belt wheels III are connected through a belt II, a band pulley III is connected with III axles on the band pulley, III axles on the band pulley are connected with the fixed bolster, the fixed bolster is connected with the pillar, III axles on the band pulley are connected with gear I, gear I is connected with the meshing of sliding gear, sliding gear rotates with the gear carriage to be connected, gear carriage and carriage slide rail sliding connection, the carriage slide rail is connected with the fixed bolster, sliding gear meshes with II gears to be connected, gear II is connected with the disc axle, the disc axle rotates with the fixed bolster to be connected, the disc axle is connected with the disc, the disc is connected with the shifting block, the shifting block with dial groove sliding connection, the dial groove is connected with all quick-witted casees, smog temperature sensor is located quick-witted incasement portion.

As a further optimization of the technical scheme, the invention relates to an auxiliary heat dissipation protection device for a computer case, wherein a fire protection assembly comprises a triangular support, a motor shaft, a deflector rod, a hammer shaft, a spring fixing piece, a spring, a bell support, a bell limiting piece, a knocking bell, a belt wheel IV, a belt III, a belt wheel IV shaft, a speed change friction wheel I, a speed change friction wheel II, a friction wheel II shaft, a direction change friction wheel, a friction wheel shaft, a belt wheel V, a belt IV, a friction roller, a lifting plate sliding rail, a water tank, a water outlet pipe, a water outlet hole and a sliding water outlet bucket, a support is connected with the triangular support, the motor is connected with the triangular support through a bottom support, the motor is connected with the motor shaft, the motor shaft is rotatably connected with the triangular support, the motor shaft is connected with the deflector rod, the hammer is rotatably connected with the hammer shaft, the hammer shaft is connected with the triangular support, the spring fixing piece is connected with the support, the two ends of the spring are respectively connected with a hammer and a spring fixing plate, the spring is in a normal state, a bell support is connected with bell limiting plates, a knocking bell is positioned between the two bell limiting plates and sleeved on the bell support with a large gap, a motor shaft is connected with a belt wheel IV, the two belt wheels IV are connected through a belt III, one belt wheel IV is connected with a belt wheel IV shaft, the belt wheel IV shaft is rotatably connected with a triangular support, the belt wheel IV shaft is connected with a speed change friction wheel I, the speed change friction wheel I is frictionally connected with a speed change friction wheel II, the speed change friction wheel II is connected with a friction wheel II shaft, the friction wheel II shaft is rotatably connected with the triangular support, the friction wheel II shaft is connected with a direction change friction wheel, the two direction change friction wheels are frictionally connected, the other direction change friction wheel is connected with a friction wheel shaft, the friction wheel shaft is rotatably connected with the triangular support, the friction wheel shaft is connected with a belt wheel V, and the two belt wheels V are connected through a belt IV, a band pulley V is connected with II axles of another friction pulley, and two II axles of friction pulley are connected with two friction rollers respectively, and the friction roller is connected with the lift plate friction, lift plate and lift plate slide rail sliding connection, and the lift plate slide rail is connected with the A-frame, and the pillar is connected with the water tank, and the water tank is connected with the outlet pipe, and the apopore is located the outlet pipe, outlet pipe and slip play water fill sliding connection.

As a further optimization of the technical scheme, the invention provides an auxiliary heat dissipation protection device for a computer case, wherein an earthquake protection assembly comprises a rubber pad, a bottom plate, a rocker, a hinged shaft, a poking tooth limiting piece, a spring piece, a ratchet wheel, a rope roller shaft support lug, a steel wire rope, a wall and a hidden cylinder, the bottom plate is connected with a pillar, the rubber pad is connected with the rocker, the rocker is rotatably connected with the hinged shaft, the hinged shaft is rotatably connected with the bottom plate, the rocker is hinged with the poking tooth, the rocker is connected with the poking tooth limiting piece, two ends of the spring piece are respectively connected with the poking tooth and the rocker, the spring piece is in a compressed state, the poking tooth is contacted with the ratchet wheel, the ratchet wheel is connected with the rope roller, the rope roller is connected with the rope roller shaft, the rope roller shaft support lug is rotatably connected with the bottom plate, the steel wire rope is connected with the rope roller, and the tail end of the steel wire rope is connected with the wall, the steel wire rope penetrates through the hidden cylinder, the hidden cylinder is buried underground, and the upper surface of the hidden cylinder is connected in a gluing mode.

The computer case auxiliary heat dissipation protection device has the beneficial effects that: install the computer to the heat dissipation combination internal, the fan rotates and is the computer heat dissipation, when the inside local high temperature of computer, the machine case begins reciprocating sliding between air inlet fan and air discharge fan, inside air current volume increase reduces local heat, accomplish automatic cooling, conflagration protection combination can hit the bell when taking place the condition of a fire and report to the police and remind the staff to deal with before, if the staff is future, the water tank water spray is put out a fire, it is interim when the earthquake comes, the earthquake protection combination passes through wire rope with whole device and both sides wall taut, prevent that the earthquake from causing equipment to damage.

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 first schematic structural diagram of the heat dissipation assembly 1 of the present invention;

FIG. 3 is a second schematic structural diagram of the heat dissipation assembly 1 of the present invention;

fig. 4 is a schematic structural diagram three of the heat dissipation assembly 1 of the present invention;

fig. 5 is a fourth schematic structural diagram of the heat dissipation assembly 1 of the present invention;

fig. 6 is a schematic structural diagram five of the heat dissipation assembly 1 of the present invention;

fig. 7 is a sixth schematic structural view of the heat dissipation assembly 1 of the present invention;

FIG. 8 is a first schematic view of the fire protection assembly 2 of the present invention;

FIG. 9 is an enlarged view of the first embodiment of the fire protection assembly 2 of the present invention;

FIG. 10 is a first cross-sectional view of the fire protection assembly 2 of the present invention;

FIG. 11 is an enlarged view of the second embodiment of the fire protection assembly 2 of the present invention;

FIG. 12 is a second schematic structural view of the fire protection assembly 2 of the present invention;

FIG. 13 is a second sectional view of the fire protection assembly 2 of the present invention;

FIG. 14 is a first schematic structural view of the seismic protection assembly 3 of the present invention;

fig. 15 is a second schematic structural view of the seismic protection assembly 3 of the present invention.

In the figure: a heat dissipation assembly 1; a pillar 1-1; a slide rail 1-2; 1-3 of a sliding lug; 1-4 of a case; a sliding cover 1-5; 1-6 of a folding bolt; 1-7 servo motor supports; 1-8 of a servo motor; 1-9 belt wheels; servo motor shaft 1-10; motor shaft supports 1-11; 1-12 parts of a belt I; belt wheels II 1-13; 1-14 parts of fan blade shaft; 1-15 parts of fan blades; 1-16 of framework I; frames II 1-17; bevel gears I1-18; bevel gears II 1-19; 1-20 shafts of a bevel gear II; bevel gear II shaft supports 1-21; pulleys III 1-22; belts II 1-23; 1-24 of a belt wheel III shaft; 1-25 parts of a gear I; fixing supports 1-26; sliding gears 1-27; a gear carriage 1-28; sliding rack 1-29; 1-30 parts of a gear II; disc shafts 1-31; disks 1-32; 1-33 of a shifting block; 1-34 of a shifting groove; smoke temperature sensors 1-35; a fire protection assembly 2; 2-1 of a triangular bracket; a motor 2-2; a motor shaft 2-3; 2-4 of a deflector rod; 2-5 of a hammer; a hammer shaft 2-6; 2-7 parts of a spring fixing piece; 2-8 parts of a spring; 2-9 parts of bell support; 2-10 parts of a ring limiting sheet; knocking a bell 2-11; a pulley IV 2-12; 2-13 of a belt III; 2-14 of pulley IV shaft; 2-15 parts of a variable-speed friction wheel; variable speed friction wheels II 2-16; 2-17 of friction wheel II shaft; 2-18 of a turning friction wheel; 2-19 parts of friction wheel shaft; a pulley V2-20; 2-21 parts of a belt IV; 2-22 parts of friction roller; lifting plates 2-23; lift plate slide rails 2-24; 2-25 parts of a water tank; 2-26 of a water outlet pipe; 2-27 parts of water outlet; 2-28 of a sliding water outlet hopper; a seismic protection assembly 3; 3-1 parts of rubber pad; a bottom plate 3-2; 3-3 of a rocker; 3-4 of a hinged shaft; 3-5 of shifting teeth; 3-6 of shifting tooth limiting sheets; 3-7 of spring pieces; 3-8 parts of ratchet wheel; 3-9 parts of rope rollers; 3-10 parts of rope roll shaft; 3-11 rope roll shaft support lugs; 3-12 parts of a steel wire rope; 3-13 parts of a wall; hiding the cartridges 3-14.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 15, and a computer case auxiliary heat dissipation protection device includes a heat dissipation assembly 1, a fire protection assembly 2, and an earthquake protection assembly 3, wherein a computer is installed in the heat dissipation assembly, a fan rotates to dissipate heat of the computer, when the temperature inside the computer is too high, the case starts to slide back and forth between an air intake fan and an air exhaust fan, the heat is reduced by increasing the internal air flow, automatic cooling is completed, the fire protection assembly can hit a bell to alarm to remind a worker to come, if the worker comes in the future, a water tank sprays water to extinguish a fire, when an earthquake comes, the earthquake protection assembly tightens the whole device and two side walls through a steel wire rope, and equipment damage caused by an earthquake is prevented.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 15, and the present embodiment further describes the first embodiment, where the heat dissipation assembly 1 includes a pillar 1-1, a sliding rail 1-2, a sliding lug 1-3, a casing 1-4, a sliding cover 1-5, an opening and closing bolt 1-6, a servo motor bracket 1-7, a servo motor 1-8, a pulley i 1-9, a servo motor shaft 1-10, a motor shaft bracket 1-11, a belt i 1-12, a pulley ii 1-13, a fan shaft 1-14, a fan blade 1-15, a frame i 1-16, a frame ii 1-17, a bevel gear i 1-18, a bevel gear ii 1-19, a bevel gear ii shaft 1-20, a bevel gear ii shaft bracket 1-21, a pulley iii 1-22, a bevel gear ii shaft bracket 1-21, and a pulley iii 1-22, 1-23 parts of belt II, 1-24 parts of shaft III with wheel, 1-25 parts of gear I, 1-26 parts of fixed support, 1-27 parts of sliding gear, 1-28 parts of gear sliding frame, 1-29 parts of sliding frame sliding rail, 1-30 parts of gear II, 1-31 parts of disc shaft, 1-32 parts of disc, 1-33 parts of shifting block, 1-34 parts of shifting groove and 1-35 parts of smoke temperature sensor, 1-6 parts of sliding cover is released by rotating opening and closing bolt 1-6, 1-5 parts of sliding cover is pulled open, the upper surface and side surface of case 1-4 are provided with outlets, at this time, the computer can be installed in case 1-4, after finishing, the sliding cover 1-5 parts are closed and the opening and closing bolt 1-6 parts are screwed again, the computer is fixed, 1-35 parts of smoke temperature sensor are arranged in case 1-4 and can sense smoke and temperature, when the temperature in the case 1-4 is lower than the set temperature, the servo motor 1-8 rotates forwards, the servo motor 1-8 drives the servo motor shaft 1-10 to rotate, the servo motor shaft 1-10 drives the belt wheel I1-9 to rotate, the belt wheel I1-9 drives the belt wheel II 1-13 to rotate through the belt I1-12, the belt wheel II 1-13 drives the fan blade shaft 1-14 to rotate, the fan blade shaft 1-14 drives the fan blade 1-15 to rotate, one side of the fan on two sides is a blowing fan, the other side is an air outlet fan, heat in the case 1-4 is taken away, the servo motor shaft 1-10 drives the bevel gear I1-18 to rotate, the bevel gear I1-18 drives the bevel gear II 1-19 to rotate, the bevel gear II 1-19 drives the bevel gear II shaft 1-20 to rotate, the bevel gear II shaft 1-20 drives the belt wheel III 1-22 to rotate, two belt wheels III 1-22 drive belt wheel III shafts 1-24 to rotate through belts II 1-23, belt wheel III shafts 1-24 drive belt wheel III shafts 1-24 to rotate, belt wheel III shafts 1-24 drive gears I1-25 to rotate, gears I1-25 rotate clockwise, gear sliding frames 1-28 are driven through sliding gears 1-27 to slide upwards in sliding frame sliding rails 1-29, power cannot be transmitted to gears II 1-30, energy is saved, when a smoke temperature sensor 1-35 senses that the temperature in a machine case 1-4 is too high, the machine case 1-4 controls a servo motor 1-8 to rotate reversely, the transmission process from the servo motor 1-8 to the gears I1-25 is repeated, and the gears I1-25 rotate anticlockwise to drive the sliding gears 1-27 to rotate, the sliding gears 1-27 can transmit power to the gears II 1-30 without sliding downwards, the gears II 1-30 drive the disc shafts 1-31 to rotate, the disc shafts 1-31 drive the discs 1-32 to rotate, the discs 1-32 drive the shifting blocks 1-33 to rotate, the shifting blocks 1-33 drive all the cases 1-4 to slide along the sliding rails 1-2 by sliding in the shifting grooves 1-34, the servo motors 1-8 reversely rotate only to change the directions of the air inlet fan and the air outlet fan without changing the functions, when the cases 1-4 are close to the air inlet fan, the flow of the air blown in the cases 1-4 is increased, local heat is exhausted, when the cases 1-4 are close to the air outlet fan, the air outlet fan sucks out the heat in the cases 1-4 to finish rapid cooling, and after the cooling is finished, the servo motors 1-8 recover to turn, the automatic heat dissipation is completed.

The third concrete implementation mode:

the fire protection assembly 2 comprises a triangular support 2-1, a motor 2-2, a motor shaft 2-3, a deflector rod 2-4, a hammer 2-5, a hammer shaft 2-6, a spring fixing piece 2-7, a spring 2-8, a bell support 2-9, a bell limiting piece 2-10, a knocking bell 2-11, a belt pulley IV 2-12, a belt III 2-13, a belt pulley IV shaft 2-14, a variable-speed friction wheel I2-15, a variable-speed friction wheel II 2-16, a friction wheel II shaft 2-17, a variable-direction friction wheel 2-18, a friction wheel shaft 2-19, a belt pulley V2-20, a belt IV 2-21 and a friction roller 2-22, When fire occurs in the device to generate smoke, the smoke temperature sensor 1-35 controls the motor 2-2 to rotate, the motor 2-2 drives the motor shaft 2-3 to rotate, the motor shaft 2-3 drives the deflector rod 2-4 to rotate anticlockwise to reciprocate the knocking hammer 2-5, the knocking hammer 2-5 rotates around the knocking hammer shaft 2-6 to drive the spring 2-8 to compress, the knocking hammer 2-11 is contacted with the knocking bell 2-11 to knock the bell 2-11, the knocking bell 2-11 is reset under the action of the spring 2-8, the knocking bell 2-11 is positioned between two bell limiting plates 2-10 and is sleeved on the bell support 2-9 in a large clearance manner, the vibration sounds to remind workers of coming treatment, a motor shaft 2-3 drives belt pulleys IV 2-12 to rotate, two belt pulleys IV 2-12 drive belt pulley IV shafts 2-14 to rotate through belts III 2-13, belt pulley IV shafts 2-14 drive speed change friction wheels I2-15 to rotate, speed change friction wheels I2-15 drive speed change friction wheels II 2-16 to rotate, speed change friction wheels II 2-16 drive friction wheel II shafts 2-17 to rotate, friction wheel II shafts 2-17 drive direction change friction wheels 2-18 to rotate, direction change friction wheels 2-18 drive adjacent direction change friction wheels 2-18 to rotate oppositely, direction change friction wheels 2-18 drive friction wheel shafts 2-19 to rotate, friction wheel shafts 2-19 drive belt pulleys V2-20 to rotate, two belt pulleys V2-20 drive another friction wheel II shaft 2-17 to rotate through belts IV 2-21, the two friction wheel II shafts 2-17 rotate oppositely, the friction wheel II shafts 2-17 drive the friction rollers 2-22 to rotate, the friction rollers 2-22 drive the lifting plates 2-23 to slide upwards along the lifting plate slide rails 2-24, the two lifting plates 2-23 simultaneously slide slowly until the friction rollers contact with the sliding water outlet buckets 2-28, the middle time is the time for the workers to deal with the fire in the front, if the workers are in the future, the lifting plates 2-23 drive the sliding water outlet buckets 2-28 to move upwards to prevent the fire from spreading, the water outlet holes 2-27 are not blocked, the water in the water tanks 2-25 is discharged onto the inclined planes of the lifting plates 2-23 through the water outlet pipes 2-26, the water outlet holes 2-27 and the sliding water outlet buckets 2-28 and slides to the front of the fan blades along the inclined planes and is blown into the machine boxes 1-4 by the ancient fan blades to complete fire extinguishing, avoiding further losses.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, and the embodiment further describes the first embodiment, wherein the earthquake protection assembly 3 comprises a rubber pad 3-1, a bottom plate 3-2, a rocker 3-3, a hinge shaft 3-4, a shifting tooth 3-5, a shifting tooth limiting sheet 3-6, a spring sheet 3-7, a ratchet 3-8, a rope roller 3-9, a rope roller shaft 3-10, a rope roller shaft support lug 3-11, a steel wire rope 3-12, a wall 3-13 and a hidden cylinder 3-14, when an earthquake occurs, the device shakes, the rubber pad 3-1 rubs with the ground, the rubber pad 3-1 drives the rocker 3-3 to reciprocate around the hinge shaft 3-4, the rocker 3-3 drives the shifting tooth 3-5 to reciprocate, when the shifting tooth 3-5 swings leftwards, the elastic pieces 3-7 are compressed, the shifting teeth 3-5 rotate around the hinged shaft, when the shifting teeth 3-5 swing rightwards, under the action of the shifting tooth limiting pieces 3-6, the shifting teeth 3-5 cannot move, the shifting teeth 3-5 drive the ratchet wheels 3-8 to rotate, the ratchet wheels 3-8 drive the rope rollers 3-9 to rotate, the rope rollers 3-9 drive the steel wire ropes 3-12 to roll up to be tensioned with the walls 3-13, the hidden barrels 3-14 are buried underground, the upper surfaces of the hidden barrels 3-14 are in glued connection, the steel wire ropes 3-12 break the upper surfaces of the hidden barrels 3-14 to form a triangular stable structure, the device is helped to be kept vertical, and loss caused by collapse of the device is prevented.

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 (4)

1. The utility model provides a supplementary heat dissipation protection device of computer machine case, includes heat dissipation assembly (1), fire protection assembly (2) and earthquake protection assembly (3), its characterized in that: the fire protection assembly (2) and the earthquake protection assembly (3) are both connected with the heat dissipation assembly (1).

2. The auxiliary heat dissipation protection device of claim 1, wherein: the heat dissipation assembly (1) comprises a support column (1-1), a sliding rail (1-2), a sliding support lug (1-3), a case (1-4), a sliding cover (1-5), an opening and closing bolt (1-6), a servo motor support (1-7), a servo motor (1-8), a belt wheel I (1-9), a servo motor shaft (1-10), a motor shaft support (1-11), a belt I (1-12), a belt wheel II (1-13), a fan blade shaft (1-14), a fan blade (1-15), a frame I (1-16), a frame II (1-17), a bevel gear I (1-18), a bevel gear II (1-19), a bevel gear II shaft (1-20), a bevel gear II shaft support (1-21), a belt wheel III (1-22), A belt II (1-23), a shaft III with a belt wheel (1-24), a gear I (1-25), a fixed support (1-26), a sliding gear (1-27), a gear sliding frame (1-28), a sliding frame sliding rail (1-29), a gear II (1-30), a disc shaft (1-31), a disc (1-32), a shifting block (1-33), a shifting groove (1-34) and a smoke temperature sensor (1-35), wherein a support post (1-1) is connected with the sliding rail (1-2), a sliding support lug (1-3) is connected with the sliding rail (1-2) in a sliding way, the sliding support lug (1-3) is connected with a case (1-4), the case (1-4) is connected with a sliding cover (1-5) in a sliding way, the tail end of the sliding cover (1-5) is connected with the case (1-4) through an opening and closing bolt (1-6), a servo motor support (1-7) is connected with a support column (1-1), the servo motor support (1-7) is connected with a servo motor (1-8), the servo motor (1-8) is connected with a servo motor shaft (1-10), the servo motor shaft (1-10) is connected with belt wheels I (1-9), the servo motor shaft (1-10) is rotatably connected with a motor shaft support (1-11), the motor shaft support (1-11) is connected with the support column (1-1), the belt wheels I (1-9) are connected with three belt wheels II (1-13) through belts I (1-12), the belt wheels II (1-13) are connected with fan blade shafts (1-14), the fan blade shafts (1-14) are rotatably connected with frames II (1-17), the frame II (1-17) is connected with the frame I (1-16), the frame I (1-16) is connected with a strut (1-1), a fan blade shaft (1-14) is connected with a fan blade (1-15), a servo motor shaft (1-10) is connected with a bevel gear I (1-18), the bevel gear I (1-18) is meshed with a bevel gear II (1-19), the bevel gear II (1-19) is connected with a bevel gear II shaft (1-20), the bevel gear II shaft (1-20) is rotationally connected with a bevel gear II shaft bracket (1-21), the bevel gear II shaft bracket (1-21) is connected with a servo motor bracket (1-7), the bevel gear II shaft (1-20) is connected with a belt wheel III (1-22), and the two belt wheels III (1-22) are connected through a belt II (1-23), a belt wheel III (1-22) is connected with a belt wheel III shaft (1-24), the belt wheel III shaft (1-24) is connected with a fixed support (1-26), the fixed support (1-26) is connected with a support column (1-1), the belt wheel III shaft (1-24) is connected with a gear I (1-25), the gear I (1-25) is meshed with a sliding gear (1-27), the sliding gear (1-27) is rotationally connected with a gear sliding frame (1-28), the gear sliding frame (1-28) is slidingly connected with a sliding frame sliding rail (1-29), the sliding frame sliding rail (1-29) is connected with the fixed support (1-26), the sliding gear (1-27) is meshed with a gear II (1-30), the gear II (1-30) is connected with a disc shaft (1-31), the disc shafts (1-31) are rotatably connected with the fixed supports (1-26), the disc shafts (1-31) are connected with the discs (1-32), the discs (1-32) are connected with the shifting blocks (1-33), the shifting blocks (1-33) are slidably connected with the shifting grooves (1-34), the shifting grooves (1-34) are connected with all the machine cases (1-4), and the smoke temperature sensors (1-35) are positioned inside the machine cases (1-4).

3. The auxiliary heat dissipation protection device of claim 1, wherein: the fire protection assembly (2) comprises a triangular support (2-1), a motor (2-2), a motor shaft (2-3), a shifting lever (2-4), a hammer (2-5), a hammer shaft (2-6), a spring fixing piece (2-7), a spring (2-8), a bell support (2-9), a bell limiting piece (2-10), a knocking bell (2-11), a belt wheel IV (2-12), a belt III (2-13), a belt wheel IV shaft (2-14), a variable-speed friction wheel I (2-15), a variable-speed friction wheel II (2-16), a friction wheel II shaft (2-17), a variable-speed friction wheel (2-18), a friction wheel shaft (2-19), a belt wheel V (2-20), a belt IV (2-21), Friction rollers (2-22), lifting plates (2-23), lifting plate slide rails (2-24), water tanks (2-25), water outlet pipes (2-26), water outlet holes (2-27) and sliding water outlet hoppers (2-28), a support column (1-1) is connected with a triangular support (2-1), a motor (2-2) is connected with the triangular support (2-1) through a bottom support, the motor (2-2) is connected with a motor shaft (2-3), the motor shaft (2-3) is rotationally connected with the triangular support (2-1), the motor shaft (2-3) is connected with a deflector rod (2-4), a hammer (2-5) is rotationally connected with a hammer shaft (2-6), the hammer shaft (2-6) is connected with the triangular support (2-1), the spring fixing piece (2-7) is connected with the pillar (1-1), two ends of the spring (2-8) are respectively connected with the hammer (2-5) and the spring fixing piece (2-7), the spring (2-8) is in a normal state, the bell support (2-9) is connected with the bell limiting piece (2-10), the knocking bell (2-11) is positioned between the two bell limiting pieces (2-10) and sleeved on the bell support (2-9) in a large gap, the motor shaft (2-3) is connected with the belt pulley IV (2-12), the two belt pulleys IV (2-12) are connected through a belt III (2-13), one belt pulley IV (2-12) is connected with the belt pulley IV shaft (2-14), the belt pulley IV shaft (2-14) is rotationally connected with the triangular support (2-1), the belt wheel IV shaft (2-14) is connected with a speed change friction wheel I (2-15), the speed change friction wheel I (2-15) is in friction connection with a speed change friction wheel II (2-16), the speed change friction wheel II (2-16) is connected with a friction wheel II shaft (2-17), the friction wheel II shaft (2-17) is in rotary connection with a triangular support (2-1), the friction wheel II shaft (2-17) is connected with a direction change friction wheel (2-18), the two direction change friction wheels (2-18) are in friction connection, the other direction change friction wheel (2-18) is connected with a friction wheel shaft (2-19), the friction wheel shaft (2-19) is in rotary connection with the triangular support (2-1), the friction wheel shaft (2-19) is connected with a belt wheel V (2-20), and the two belt wheels V (2-20) are connected through a belt IV (2-21), one belt wheel V (2-20) is connected with another friction wheel II shaft (2-17), the two friction wheel II shafts (2-17) are respectively connected with two friction rollers (2-22), the friction rollers (2-22) are in friction connection with a lifting plate (2-23), the lifting plate (2-23) is in sliding connection with lifting plate sliding rails (2-24), the lifting plate sliding rails (2-24) are connected with a triangular support (2-1), a support column (1-1) is connected with a water tank (2-25), the water tank (2-25) is connected with a water outlet pipe (2-26), a water outlet hole (2-27) is positioned on the water outlet pipe (2-26), and the water outlet pipe (2-26) is in sliding connection with a sliding water outlet bucket (2-28).

4. The auxiliary heat dissipation protection device of claim 1, wherein: the earthquake protection assembly (3) comprises a rubber pad (3-1), a bottom plate (3-2), a rocker (3-3), a hinged shaft (3-4), a shifting tooth (3-5), a shifting tooth limiting sheet (3-6), an elastic sheet (3-7), a ratchet wheel (3-8), a rope roller (3-9), a rope roller shaft (3-10), a rope roller shaft lug (3-11), a steel wire rope (3-12), a wall (3-13) and a hidden cylinder (3-14), wherein the bottom plate (3-2) is connected with the support column (1-1), the rubber pad (3-1) is connected with the rocker (3-3), the rocker (3-3) is rotatably connected with the hinged shaft (3-4), and the hinged shaft (3-4) is rotatably connected with the bottom plate (3-2), the rocker (3-3) is hinged with the shifting teeth (3-5), the rocker (3-3) is connected with the shifting teeth limiting piece (3-6), two ends of the elastic piece (3-7) are respectively connected with the shifting teeth (3-5) and the rocker (3-3), the elastic piece (3-7) is in a compressed state, the shifting teeth (3-5) are contacted with the ratchet wheel (3-8), the ratchet wheel (3-8) is connected with the rope roller (3-9), the rope roller (3-9) is connected with the rope roller shaft (3-10), the rope roller shaft (3-10) is rotatably connected with the rope roller shaft support lug (3-11), the rope roller shaft support lug (3-11) is connected with the bottom plate (3-2), the steel wire rope (3-12) is connected with the rope roller (3-9), and the tail end of the steel wire rope (3-12) is connected with the wall (3-13), the steel wire ropes (3-12) penetrate through the hidden barrels (3-14), the hidden barrels (3-14) are buried underground, and the upper surfaces of the hidden barrels (3-14) are connected in a gluing mode.

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