Communication equipment heat dissipation protection device
Technical Field
The invention relates to a heat dissipation protection device, in particular to a heat dissipation protection device for communication equipment.
Background
The unit price of the communication equipment is high, if the communication equipment is damaged, high cost is needed for maintenance and repair, no better heat dissipation protection device is available on the market at present, the function is single, and the communication equipment heat dissipation protection device cannot be suitable for various working conditions, so the communication equipment heat dissipation protection device is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing a communication equipment heat dissipation protection device, which can switch a moving mode, can park, can prevent external dust from entering the device, can clean dust, can collect the dust cleaned off, can knock the collected dust off, can clamp communication equipment, can cool the equipment in a liquid cooling mode, and can help water in a liquid cooling system to cool.
In order to solve the technical problem, the invention relates to a heat dissipation protection device, in particular to a heat dissipation protection device for communication equipment, which comprises a moving wheel mechanism, a dustproof machine body mechanism, a dust collection mechanism, a moving heat dissipation mechanism, a clamping mechanism and a liquid cooling heat dissipation mechanism, wherein the moving mode of the device can be switched, the device can be parked, external dust can be prevented from entering the device, the device can clean dust, the device can collect the dust cleaned off, the device can knock the collected dust off, the device can clamp the communication equipment, the device can cool the equipment in a liquid cooling mode, and the device can help water in a liquid cooling system to cool.
The movable wheel mechanism comprises an adjustable movable wheel mechanism, a parking mechanism and a damping mechanism, the parking mechanism is arranged on two sides of the adjustable movable wheel mechanism, and the damping mechanism is positioned above the adjustable movable wheel mechanism;
the adjustable movable wheel mechanism comprises a wheel, a wheel shaft, a wheel seat, an adjusting screw hole, an adjusting block, an adjusting connecting rod and a damping groove, the wheel is connected with the wheel shaft, the wheel shaft is connected with the wheel seat in a bearing mode, the adjusting screw is matched with the adjusting screw hole, the adjusting screw hole is tapped on the wheel seat, the adjusting block is connected with the adjusting connecting rod, the adjusting block is matched with the damping groove, and the damping groove is formed in two sides of the wheel seat;
the parking mechanism comprises a parking support, a cam shaft, a handle, a parking hole and a parking screw, wherein the parking support is connected with the cam shaft in a bearing manner, the cam is connected with the cam shaft, the handle is connected with the cam, the parking hole is formed in the cam, and the parking screw is matched with the parking hole;
the damping mechanism comprises a damping seat and a damping spring, and the damping seat is connected with the damping spring;
the dustproof machine body mechanism comprises a machine body, a vibration ash removal mechanism, heat dissipation holes and a water pipe opening, wherein the vibration ash removal mechanism is arranged in the machine body, the heat dissipation holes are formed in the machine body, and the water pipe opening is formed in a top plate of the machine body;
the vibration ash removal mechanism comprises a vibration motor mechanism, a vibration seat mechanism, a pull rod mechanism and a filter screen mechanism, wherein the vibration motor mechanism is positioned above the vibration seat mechanism, the pull rod mechanism is connected with the filter screen mechanism, and the filter screen mechanism is connected with the vibration seat mechanism;
the vibration motor mechanism comprises a vibration motor and an eccentric wheel, and the vibration motor is connected with the eccentric wheel in an expansion sleeve manner;
the vibration seat mechanism comprises a vibration lower seat, a spring, a vibration upper seat and a support, wherein the spring is welded between the vibration lower seat and the vibration upper seat, and the support is positioned above the vibration upper seat;
the pull rod mechanism comprises a pull rod A, a pull rod spring and a pull rod B, and the pull rod spring is welded between the pull rod A and the pull rod B;
the filter screen mechanism comprises a cross arm, a hammer head support, a hammer head and a filter screen plate, the cross arm is hinged with the hammer head support, the hammer head is connected with the hammer head support, and the filter screen plate is matched with the hammer head;
the dust collection mechanism comprises a knocking frame mechanism, a knocking cam, a knocking motor and a dust collection box mechanism, wherein the knocking frame mechanism is arranged inside the dust collection box mechanism, the knocking cam is connected with the knocking motor, and the knocking motor is connected with the dust collection box mechanism;
the knocking frame mechanism comprises a knocking head, a support frame, a limiting plate, a knocking head support, a pull rod A hole, a spring rope seat, a fixed support, a middle pull rod and a spring rope, wherein the knocking head is connected with the knocking head support;
the dust collection box mechanism comprises a dust collection box body, a dust collection motor, dust collection fan blades, a filter screen A and an air opening, wherein the dust collection motor is arranged inside the dust collection box body, the dust collection fan blades are connected with the dust collection motor, and the filter screen A is connected with the dust collection box body;
the movable heat dissipation mechanism comprises a movable shell mechanism and a movable heat dissipation fan mechanism, and the movable shell mechanism is connected with the movable heat dissipation fan mechanism;
the movable shell mechanism comprises supporting legs, a movable shell body, steel wire rope holes, safety springs and a T-shaped groove, wherein the supporting legs are positioned below the movable shell body, the steel wire rope holes are formed in two sides of the movable shell body, the safety springs are arranged inside the T-shaped groove, and the T-shaped groove is formed in the movable shell body;
the movable heat dissipation fan mechanism comprises a fan blade A, a movable fan motor, a reversing wheel support, a steel wire rope, a motor wheel, a movable motor and a sliding block, wherein the fan blade A is connected with the movable fan motor, the movable fan motor is positioned below the sliding block, the sliding block is connected with the steel wire rope, the reversing wheel is hinged with the reversing wheel support, the steel wire rope is matched with the reversing wheel, the steel wire rope is connected with the motor wheel, and the motor wheel is connected with the movable motor in an expansion sleeve manner;
the clamping mechanism comprises a clamping execution mechanism and a safety seat mechanism, and the clamping execution mechanism is positioned above the safety seat mechanism;
the clamping executing mechanism comprises a vertical support, a semicircular frame, a semicircular groove, a built-in spring, a handle B, a clamping rod, a locking screw hole and a clamping executing seat, the vertical support is connected with the semicircular frame, the semicircular groove is formed in the semicircular frame, the built-in spring is arranged in the semicircular groove, the handle B is connected with the clamping rod, the clamping rod is matched with the semicircular groove, the locking screw is connected with the vertical support, the clamping executing seat is formed in the clamping rod, and the clamping executing seat is connected with the clamping rod;
the safety seat mechanism comprises a safety base, a safety T cavity, a safety sliding seat, a safety sliding rod, a safety spring B and a safety upper seat, wherein the safety T cavity is formed in the safety base, the safety sliding seat is matched with the safety T cavity, the safety sliding rod is connected with the safety sliding seat, the safety sliding rod is connected with the safety upper seat, and the safety spring B is welded between the safety base and the safety upper seat;
the liquid cooling heat dissipation mechanism comprises a liquid cooling pipe and a liquid cooling circulation structure, and the liquid cooling pipe is connected with the liquid cooling circulation structure;
the liquid cooling circulation structure comprises a circulation cavity, a one-way valve mechanism, a power spring, a circulation seat, a circulation connecting rod, an opening A, a circulation motor disc, a water change plug and a water change plug hole, wherein the one-way valve mechanism is arranged inside the circulation cavity;
the one-way valve mechanism comprises a one-way valve, a baffle seat and a baffle seat opening, the one-way valve is connected with the baffle seat, and the baffle seat opening is arranged on the baffle seat;
the movable wheel mechanism is located below the dustproof machine body mechanism, the dust collection mechanism is arranged inside the dustproof machine body mechanism, the movable heat dissipation mechanism is located above the dustproof machine body mechanism, the clamping mechanism is located in the middle of the dust collection mechanism, the liquid cooling heat dissipation mechanism is connected with the dustproof machine body mechanism, and the liquid cooling heat dissipation mechanism is connected with the movable heat dissipation mechanism.
As a further optimization of the technical solution, the number of the moving wheel mechanisms of the heat dissipation protection device for communication equipment of the present invention is four.
As a further optimization of the technical scheme, the material of the circulation cavity of the heat dissipation protection device for communication equipment is stainless steel.
The heat dissipation protection device for the communication equipment has the beneficial effects that:
according to the heat dissipation protection device for the communication equipment, the device can be switched to a moving mode, the device can be parked, external dust can be prevented from entering the device, the device can be used for cleaning dust, the device can be used for collecting the dust cleaned off, the device can be used for knocking the collected dust off, the device can be used for clamping the communication equipment, the device can be used for cooling the equipment in a liquid cooling mode, and the device can help water in a liquid cooling system to be cooled.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic structural diagram of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 2 is a schematic structural diagram of a moving wheel mechanism 1 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 3 is a schematic structural diagram of an adjustable moving wheel mechanism 1-1 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 4 is a schematic structural diagram of a parking mechanism 1-2 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 5 is a schematic structural diagram of a shock-absorbing mechanism 1-3 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 6 is a schematic structural diagram of a dustproof body mechanism 2 of a heat dissipation protection device of a communication device according to the present invention.
FIG. 7 is a schematic structural diagram of a vibration ash removal mechanism 2-2 of the heat dissipation protection device for communication equipment of the present invention.
Fig. 8 is a schematic structural diagram of a vibration motor mechanism 2-2-1 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 9 is a schematic structural diagram of a vibration seat mechanism 2-2-2 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 10 is a schematic structural diagram of a pull rod mechanism 2-2-3 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 11 is a schematic structural diagram of a filter screen mechanism 2-2-4 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 12 is a schematic structural diagram of a dust suction mechanism 3 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 13 is a schematic structural diagram of a knocking frame mechanism 3-1 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 14 is a schematic structural diagram of a dust suction box mechanism 3-4 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 15 is a schematic structural diagram of a mobile heat dissipation mechanism 4 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 16 is a schematic structural diagram of a movable housing mechanism 4-1 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 17 is a schematic structural diagram of a mobile cooling fan mechanism 4-2 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 18 is a schematic structural diagram of a clamping mechanism 5 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 19 is a schematic structural diagram of a clamping actuator 5-1 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 20 is a schematic structural diagram of a safety seat mechanism 5-2 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 21 is a schematic structural diagram of a liquid cooling heat dissipation mechanism 6 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 22 is a schematic structural diagram of a liquid cooling circulation structure 6-2 of a heat dissipation protection device for communication equipment according to the present invention.
Fig. 23 is a schematic structural diagram of a check valve mechanism 6-2-2 of a heat dissipation protection device for communication equipment according to the present invention.
In the figure: a moving wheel mechanism 1; the adjustable moving wheel mechanism 1-1; wheels 1-1-1; 1-1-2 of the wheel shaft; 1-1-3 of a wheel seat; 1-1-4 of an adjusting screw; 1-1-5 of adjusting screw holes; 1-1-6 of an adjusting block; 1-1-7 of an adjusting connecting rod; 1-1-8 parts of a damping groove; a parking mechanism 1-2; 1-2-1 of a parking support; a cam 1-2-2; 1-2-3 of a camshaft; 1-2-4 of a handle; 1-2-5 of a parking hole; 1-2-6 of a parking screw; 1-3 of a damping mechanism; 1-3-1 of a shock absorption seat; 1-3-2 of a damping spring; a dustproof body mechanism 2; a machine body 2-1; 2-2 of a vibration ash removal mechanism; a vibration motor mechanism 2-2-1; a vibration motor 2-2-1-1; an eccentric wheel 2-2-1-2; a vibration seat mechanism 2-2-2; vibrating the lower seat 2-2-2-1; a spring 2-2-2-2; vibrating the upper seat 2-2-2-3; support 2-2-2-4; 2-2-3 of a pull rod mechanism; a pull rod A2-2-3-1; a pull rod spring 2-2-3-2; a pull rod B2-2-3-3; 2-2-4 parts of a filter screen mechanism; 2-2-4-1 of a cross brace; 2-2-4-2 of hammer head support; 2-2-4-3 parts of a hammer head; 2-2-4-4 parts of a filter screen plate; 2-3 of heat dissipation holes; 2-4 parts of water pipe opening; a dust suction mechanism 3; a knocking frame mechanism 3-1; knocking head 3-1-1; a support frame 3-1-2; 3-1-3 parts of a limiting plate; the knocking head supports 3-1-4; 3-1-5 of a hole A of the pull rod; 3-1-6 parts of a spring rope seat; 3-1-7 of a fixed support; 3-1-8 of a middle pull rod; 3-1-9 parts of spring rope; knocking the cam 3-2; knocking the motor 3-3; a dust collection box mechanism 3-4; 3-4-1 of a dust collection box body; 3-4-2 of a dust collection motor; 3-4-3 parts of dust-absorbing fan blades; a filter screen A3-4-4; 3-4-5 of a tuyere; a mobile heat dissipation mechanism 4; a movable shell mechanism 4-1; the support legs are 4-1-1; moving the shell body 4-1-2; 4-1-3 of steel wire rope holes; 4-1-4 parts of safety spring; 4-1-5 of T groove; a movable heat radiation fan mechanism 4-2; leaf A4-2-1; a movable fan motor 4-2-2; 4-2-3 of a reversing wheel; 4-2-4 of a reversing wheel support; 4-2-5 of a steel wire rope; motor wheels 4-2-6; 4-2-7 of a mobile motor; 4-2-8 of a sliding block; a clamping mechanism 5; a clamping actuator 5-1; vertical supports 5-1-1; 5-1-2 of a semicircular frame; 5-1-3 of a semicircular groove; a built-in spring 5-1-4; handle B5-1-5; 5-1-6 of a clamping rod; 5-1-7 parts of locking screws; 5-1-8 parts of a locking screw hole; 5-1-9 of a clamping executing seat; a safety seat mechanism 5-2; 5-2-1 of a safety base; a safe T cavity 5-2-2; 5-2-3 parts of a safe sliding seat; 5-2-4 parts of a safety sliding rod; a safety spring B5-2-5; 5-2-6 parts of a safe upper seat; a liquid cooling heat dissipation mechanism 6; 6-1 of a liquid cooling pipe; a liquid cooling circulation structure 6-2; a circulation cavity 6-2-1; a one-way valve mechanism 6-2-2; a one-way valve 6-2-2-1; a baffle seat 6-2-2-2; an opening 6-2-2-3 of the blocking seat; a power-assisted spring 6-2-3; 6-2-4 of a circulating seat; 6-2-5 of a circulating connecting rod; opening A6-2-6; 6-2-7 of a circulating motor; 6-2-8 parts of a circulating motor disc; 6-2-9 parts of a water changing plug; and 6-2-10 parts of water changing plug hole.
Detailed Description
The first embodiment is as follows:
the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, and fig. 23, and the present invention relates to a heat dissipation protection device, more specifically, a heat dissipation protection device for communication equipment, including a moving wheel mechanism 1, a dust prevention body mechanism 2, a dust suction mechanism 3, a moving heat dissipation mechanism 4, a clamping mechanism 5, and a liquid cooling heat dissipation mechanism 6, the device being capable of switching a moving mode, parking, cleaning dust, collecting dust, knocking collected dust, clamping communication equipment, cooling equipment by liquid cooling, the device can help the water in the liquid cooling system to cool.
The movable wheel mechanism 1 comprises an adjustable movable wheel mechanism 1-1, a parking mechanism 1-2 and a damping mechanism 1-3, the parking mechanism 1-2 is arranged on two sides of the adjustable movable wheel mechanism 1-1, and the damping mechanism 1-3 is positioned above the adjustable movable wheel mechanism 1-1;
the adjustable moving wheel mechanism 1-1 comprises a wheel 1-1-1, a wheel shaft 1-1-2, a wheel seat 1-1-3, an adjusting screw 1-1-4, an adjusting screw hole 1-1-5, an adjusting block 1-1-6, an adjusting connecting rod 1-1-7 and a damping groove 1-1-8, wherein the wheel 1-1-1 is connected with the wheel shaft 1-1-2, the wheel shaft 1-1-2 is connected with the wheel seat 1-1-3 through a bearing, the adjusting screw 1-1-4 is matched with the adjusting screw hole 1-1-5, the adjusting screw hole 1-1-5 is tapped on the wheel seat 1-1-3, the adjusting block 1-1-6 is connected with the adjusting connecting rod 1-1-7, the adjusting block 1-1-6 is matched with the damping groove 1-1-8, and the damping groove 1-1-8 is arranged on two sides of the wheel seat 1-1-3;
the parking mechanism 1-2 comprises a parking support 1-2-1, a cam 1-2-2, a cam shaft 1-2-3, a handle 1-2-4, a parking hole 1-2-5 and a parking screw 1-2-6, the parking support 1-2-1 is connected with the cam shaft 1-2-3 by a bearing, the cam 1-2-2 is connected with the cam shaft 1-2-3, the handle 1-2-4 is connected with the cam 1-2-2, the parking hole 1-2-5 is arranged on the cam 1-2-2, the parking screw 1-2-6 is matched with the parking hole 1-2-5, when parking is needed, the handle 1-2-4 can be pulled, the handle 1-2-4 can drive the cam 1-2-2 to rotate, the cam 1-2-2 can rotate and can be extruded with the wheel 1-1-1 together, so that the rotation of the wheel 1-1-1 is limited, then the parking screw 1-2-6 is screwed, the parking screw 1-2-6 is matched with the parking hole 1-2-5, and the cam 1-2-2 can be limited not to rotate any more, so that the parking is realized;
the damping mechanism 1-3 comprises a damping seat 1-3-1 and a damping spring 1-3-2, the damping seat 1-3-1 is connected with the damping spring 1-3-2, a wheel 1-1-1 is arranged below the device and can rotate relative to the ground, the damping spring 1-3-2 is arranged between the wheel seat 1-1-3 and the damping seat 1-3-1 and can absorb vibration in movement to realize stable movement, when the device is switched to a flat ground mode, an adjusting screw 1-1-4 can be screwed, the adjusting screw 1-1-4 can jack an adjusting connecting rod 1-1-7 upwards, the adjusting connecting rod 1-1-7 can drive an adjusting block 1-1-6 to jack upwards, so that the adjusting block 1-1-6 can support the damping seat 1-3-1, the damping spring 1-3-2 loses compressibility, so that the transition of a rugged road to a flat road traveling mode is completed;
the dustproof machine body mechanism 2 comprises a machine body 2-1, a vibration ash cleaning mechanism 2-2, heat dissipation holes 2-3 and a water pipe port 2-4, wherein the vibration ash cleaning mechanism 2-2 is arranged inside the machine body 2-1, the heat dissipation holes 2-3 are formed in the machine body 2-1, and the water pipe port 2-4 is formed in a top plate of the machine body 2-1;
the vibration ash removal mechanism 2-2 comprises a vibration motor mechanism 2-2-1, a vibration seat mechanism 2-2-2, a pull rod mechanism 2-2-3 and a filter screen mechanism 2-2-4, wherein the vibration motor mechanism 2-2-1 is positioned above the vibration seat mechanism 2-2-2, the pull rod mechanism 2-2-3 is connected with the filter screen mechanism 2-2-4, and the filter screen mechanism 2-2-4 is connected with the vibration seat mechanism 2-2-2;
the vibration motor mechanism 2-2-1 comprises a vibration motor 2-2-1-1 and an eccentric wheel 2-2-1-2, and the vibration motor 2-2-1-1 and the eccentric wheel 2-2-1-2 are connected in an expansion sleeve mode;
the vibration seat mechanism 2-2-2 comprises a vibration lower seat 2-2-1, a spring 2-2-2, a vibration upper seat 2-2-3 and a support 2-2-2-4, the spring 2-2-2-2 is welded between the vibration lower seat 2-2-1 and the vibration upper seat 2-2-3, the support 2-2-2-4 is positioned above the vibration upper seat 2-2-2-3, when dust on the filter screen plate 2-2-4-4 is accumulated more, the vibration motor 2-2-1-1 can be started, the vibration motor 2-2-1-1 can drive the eccentric wheel 2-2-1-2 to rotate, the eccentric wheel 2-2-1-2 rotates to form a polarizing force, the support 2-2-2-4 vibrates continuously under the matching of the polarizing force and the elastic force of the spring 2-2-2-2, the support 2-2-4 vibrates to drive the filter screen plate 2-2-4-4 to vibrate, so that dust can be vibrated, if the dust is not thoroughly cleaned, the hammer head support 2-2-4-2 can be pulled and then loosened, the hammer head support 2-2-4-2 is rapidly reset under the resilience action of the pull rod spring 2-2-3-2, the hammer head support 2-2-4-2 is reset to drive the hammer head 2-2-4-3 to knock the filter screen plate 2-2-4-4, thus, the dust on the filter screen plate 2-2-4-4 can be knocked down;
the pull rod mechanism 2-2-3 comprises a pull rod A2-2-3-1, a pull rod spring 2-2-3-2 and a pull rod B2-2-3-3, wherein the pull rod spring 2-2-3-2 is welded between the pull rod A2-2-3-1 and the pull rod B2-2-3-3;
the filter screen mechanism 2-2-4 comprises a cross brace 2-2-4-1, a hammer head support 2-2-4-2, a hammer head 2-2-4-3 and a filter screen plate 2-2-4-4, wherein the cross brace 2-2-4-1 is hinged with the hammer head support 2-2-4-2, the hammer head 2-2-4-3 is connected with the hammer head support 2-2-4-2, and the filter screen plate 2-2-4-4 is matched with the hammer head 2-2-4-3;
the dust collection mechanism 3 comprises a knocking frame mechanism 3-1, a knocking cam 3-2, a knocking motor 3-3 and a dust collection box mechanism 3-4, wherein the knocking frame mechanism 3-1 is arranged inside the dust collection box mechanism 3-4, the knocking cam 3-2 is connected with the knocking motor 3-3, and the knocking motor 3-3 is connected with the dust collection box mechanism 3-4;
the knocking frame mechanism 3-1 comprises a knocking head 3-1-1, a supporting frame 3-1-2, a limiting plate 3-1-3, a knocking head support 3-1-4, a pull rod A hole 3-1-5, a spring rope seat 3-1-6, a fixed support 3-1-7, a middle pull rod 3-1-8 and a spring rope 3-1-9, wherein the knocking head 3-1-1 is connected with the knocking head support 3-1-4, the limiting plate 3-1-3 is arranged between the supporting frame 3-1-2 and the middle pull rod 3-1-8, the pull rod A hole 3-1-5 is arranged on the knocking head support 3-1-4, the spring rope seat 3-1-6 is connected with the knocking head support 3-1-4, the spring rope 3-1-9 is connected with the spring rope seat 3-1-6, the knocking motor 3-3 runs to drive the knocking cam 3-2 to rotate, the knocking cam 3-2 rotates to drive the knocking head support 3-1-4 to move, then the knocking head support 3-1-4 resets under the resilience effect of the spring rope 3-1-9, so that the knocking head support 3-1-4 can continuously move, the knocking head support 3-1-4 can continuously move to drive the knocking head 3-1-1 to continuously move, the knocking head 3-1-1 can continuously knock the filter screen A3-4-4, and the dust of the filter screen A3-4-4 can be shaken off;
the dust collection box mechanism 3-4 comprises a dust collection box body 3-4-1, a dust collection motor 3-4-2, a dust collection fan blade 3-4-3, a filter screen A3-4-4 and an air port 3-4-5, the dust collection motor 3-4-2 is arranged inside the dust collection box body 3-4-1, the dust collection fan blade 3-4-3 is connected with the dust collection motor 3-4-2, the filter screen A3-4-4 is connected with the dust collection box body 3-4-1, the dust collection motor 3-4-2 is operated to drive the dust collection fan blade 3-4-3 to rotate, the dust collection fan blade 3-4-3 rotates to form negative pressure air, and the vibrated dust is sucked from the air port 3-4-5 under the drive of the negative pressure air, adsorbed by a filter screen A3-4-4;
the movable heat dissipation mechanism 4 comprises a movable shell mechanism 4-1 and a movable heat dissipation fan mechanism 4-2, and the movable shell mechanism 4-1 is connected with the movable heat dissipation fan mechanism 4-2;
the movable shell mechanism 4-1 comprises supporting legs 4-1-1, a movable shell body 4-1-2, a steel wire rope hole 4-1-3, a safety spring 4-1-4 and a T groove 4-1-5, wherein the supporting legs 4-1-1 are positioned below the movable shell body 4-1-2, the steel wire rope hole 4-1-3 is formed in two sides of the movable shell body 4-1-2, the safety spring 4-1-4 is arranged in the T groove 4-1-5, and the T groove 4-1-5 is formed in the movable shell body 4-1-2;
the movable heat dissipation fan mechanism 4-2 comprises a fan blade A4-2-1, a movable fan motor 4-2-2, a reversing wheel 4-2-3, a reversing wheel support 4-2-4, a steel wire rope 4-2-5, a motor wheel 4-2-6, a movable motor 4-2-7 and a sliding block 4-2-8, wherein the fan blade A4-2-1 is connected with the movable fan motor 4-2-2, the movable fan motor 4-2-2 is positioned below the sliding block 4-2-8, the sliding block 4-2-8 is connected with the steel wire rope 4-2-5, the reversing wheel 4-2-3 is hinged with the reversing wheel support 4-2-4, and the steel wire rope 4-2-5 is matched with the reversing wheel 4-2-3, the steel wire rope 4-2-5 is connected with the motor wheel 4-2-6, the motor wheel 4-2-6 is connected with the mobile motor 4-2-7 in an expansion sleeve mode, the mobile motor 4-2-7 is driven to rotate by the operation of the mobile motor 4-2-7, the motor wheel 4-2-6 rotates to drive the sliding block 4-2-8 to move through the steel wire rope 4-2-5, the sliding block 4-2-8 moves to drive the mobile fan motor 4-2-2 to move, the mobile fan motor 4-2-2 is operated to drive the fan blade A4-2-1 to rotate at the moment, the fan blade A4-2-1 rotates to form wind power, and the moving wind cools the liquid cooling pipe 6-1, so as to help the water in the liquid cooling system to cool;
the clamping mechanism 5 comprises a clamping execution mechanism 5-1 and a safety seat mechanism 5-2, and the clamping execution mechanism 5-1 is positioned above the safety seat mechanism 5-2;
the clamping executing mechanism 5-1 comprises a vertical support 5-1-1, a semicircular frame 5-1-2, a semicircular groove 5-1-3, a built-in spring 5-1-4, a handle B5-1-5, a clamping rod 5-1-6, a locking screw 5-1-7, a locking screw hole 5-1-8 and a clamping executing seat 5-1-9, wherein the vertical support 5-1-1 is connected with the semicircular frame 5-1-2, the semicircular groove 5-1-3 is arranged on the semicircular frame 5-1-2, the built-in spring 5-1-4 is arranged inside the semicircular groove 5-1-3, the handle B5-1-5 is connected with the clamping rod 5-1-6, the clamping rod 5-1-6 is matched with the semicircular groove 5-1-3, the locking screw 5-1-7 is connected with the vertical support 5-1-1, the clamping execution seat 5-1-9 is arranged on the clamping rod 5-1-6, the clamping execution seat 5-1-9 is connected with the clamping rod 5-1-6, the handle B5-1-5 is pulled by hand to drive the clamping rod 5-1-6 to move to compress the built-in spring 5-1-4, then the communication equipment is placed in the middle of the clamping execution seat 5-1-9, the handle B5-1-5 is loosened, and the clamping execution seat 5-1-9 moves towards the middle to clamp the equipment under the elastic force action of the built-in spring 5-1-4;
the safety seat mechanism 5-2 comprises a safety base 5-2-1, a safety T cavity 5-2-2, a safety sliding seat 5-2-3, a safety sliding rod 5-2-4, a safety spring B5-2-5 and a safety upper seat 5-2-6, the safety T cavity 5-2-2 is arranged on the safety base 5-2-1, the safety sliding seat 5-2-3 is matched with the safety T cavity 5-2-2, the safety sliding rod 5-2-4 is connected with the safety sliding seat 5-2-3, the safety sliding rod 5-2-4 is connected with the safety upper seat 5-2-6, and the safety spring B5-2-5 is welded between the safety base 5-2-1 and the safety upper seat 5-2-6;
the liquid cooling heat dissipation mechanism 6 comprises a liquid cooling pipe 6-1 and a liquid cooling circulation structure 6-2, wherein the liquid cooling pipe 6-1 is connected with the liquid cooling circulation structure 6-2;
the liquid cooling circulation structure 6-2 comprises a circulation cavity 6-2-1, a one-way valve mechanism 6-2-2, a power-assisted spring 6-2-3, a circulation seat 6-2-4, a circulation connecting rod 6-2-5, an opening A6-2-6, a circulation motor 6-2-7, a circulation motor disc 6-2-8, a water changing plug 6-2-9 and a water changing plug hole 6-2-10, wherein the one-way valve mechanism 6-2-2 is arranged in the circulation cavity 6-2-1, the power-assisted spring 6-2-3 is connected with the circulation seat 6-2-4, the circulation seat 6-2-4 is matched with the circulation cavity 6-2-1, the circulating connecting rod 6-2-5 is hinged with the circulating seat 6-2-4, the opening A6-2-6 is arranged on the circulating cavity 6-2-1, the circulating motor 6-2-7 is connected with the circulating motor disc 6-2-8, the circulating motor disc 6-2-8 is hinged with the circulating connecting rod 6-2-5, the circulating motor 6-2-7 is positioned above the circulating cavity 6-2-1, the water changing plug 6-2-9 is connected with the water changing plug hole 6-2-10, the water changing plug hole 6-2-10 is tapped on the circulating cavity 6-2-1, the circulating motor disc 6-2-8 is driven to rotate by the operation of the circulating motor 6-2-7, and the circulating motor disc 6-2-8 can drive the circulating seat 6-2-5 to drive the circulating motor disc 6-2-8 to rotate 2-4, the circulating seat 6-2-4 can repeatedly suck water from the right one-way valve mechanism 6-2-2 into the middle position of the circulating cavity 6-2-1 by reciprocating motion, and then the left one-way valve mechanism 6-2-2 is flushed from the middle position, so that the water can be circulated from the inside of the liquid cooling pipe 6-1 all the time, and the temperature of the equipment is reduced;
the one-way valve mechanism 6-2-2 comprises a one-way valve 6-2-1, a baffle seat 6-2-2-2 and a baffle seat opening 6-2-2-3, the one-way valve 6-2-2-1 is connected with the baffle seat 6-2-2-2, and the baffle seat opening 6-2-2-3 is arranged on the baffle seat 6-2-2-2;
the movable wheel mechanism 1 is located below the dustproof machine body mechanism 2, the dust collection mechanism 3 is arranged inside the dustproof machine body mechanism 2, the movable heat dissipation mechanism 4 is located above the dustproof machine body mechanism 2, the clamping mechanism 5 is located in the middle of the dust collection mechanism 3, the liquid cooling heat dissipation mechanism 6 is connected with the dustproof machine body mechanism 2, and the liquid cooling heat dissipation mechanism 6 is connected with the movable heat dissipation mechanism 4.
The second embodiment is as follows:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, and fig. 23, and the present embodiment further describes the first embodiment in which the number of the moving wheel mechanisms 1 is four.
The third concrete implementation mode:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, and fig. 23, and the present embodiment further describes a first embodiment in which the material of the circulation chamber 6-2-1 is stainless steel.
The device can switch the moving mode, wheels 1-1-1 are arranged below the device and can rotate relative to the ground, a damping spring 1-3-2 is arranged between the wheel seat 1-1-3 and the damping seat 1-3-1, can absorb the vibration in the movement and realize the stable movement, when the mode is switched to the flat ground mode, the adjusting screw 1-1-4 can be screwed, the adjusting screw 1-1-4 can jack the adjusting connecting rod 1-1-7 upwards, the adjusting connecting rod 1-1-7 can drive the adjusting block 1-1-6 to jack upwards, thus, the adjusting block 1-1-6 can support the damping seat 1-3-1 to make the damping spring 1-3-2 lose compressibility, thus completing the transition of the rugged road to the flat road traveling mode; the device can park, when parking is needed, the handle 1-2-4 can be pulled, the handle 1-2-4 can drive the cam 1-2-2 to rotate, the cam 1-2-2 rotates and can be extruded with the wheel 1-1-1, so that the rotation of the wheel 1-1-1 is limited, then the parking screw 1-2-6 is screwed, the parking screw 1-2-6 is matched with the parking hole 1-2-5, and the cam 1-2-2 can be limited not to rotate any more, so that parking is achieved; the device can prevent external dust from entering the device, and a filter screen mechanism 2-2-4 is arranged beside a heat dissipation hole 2-3 of the device, so that the dust entering the device from the heat dissipation hole 2-3 can be effectively adsorbed; the device can clean ash, when dust on the filter screen plate 2-2-4-4 is accumulated more, the vibration motor 2-2-1-1 can be started, the vibration motor 2-2-1-1 can drive the eccentric wheel 2-2-1-2 to rotate, the eccentric wheel 2-2-1-2 rotates to form a bias force, the support 2-2-2-4 continuously vibrates under the matching of the polarization force and the elastic force of the spring 2-2-2-2, the support 2-2-4 vibrates to drive the filter screen plate 2-2-4-4 to vibrate, so that the dust can be vibrated, if the dust is not thoroughly cleaned, the hammer head support 2-2-4-2 can be pulled and then loosened, under the resilience effect of the pull rod spring 2-2-3-2, the hammer head support 2-2-4-2 is reset rapidly, and the hammer head support 2-2-4-2 is reset to drive the hammer head 2-2-4-3 to knock the filter screen plate 2-2-4-4, so that dust on the filter screen plate 2-2-4-4 can be knocked down; the device can collect the dust removed, the dust collection motor 3-4-2 is operated to drive the dust collection fan blade 3-4-3 to rotate, the dust collection fan blade 3-4-3 rotates to form negative pressure air, and the dust vibrated down is sucked from the air port 3-4-5 and adsorbed by the filter screen A3-4-4 under the drive of the negative pressure air; the device can knock down collected dust, the knocking motor 3-3 runs to drive the knocking cam 3-2 to rotate, the knocking cam 3-2 rotates to drive the knocking head support 3-1-4 to move, then the knocking head support 3-1-4 resets under the resilience effect of the spring rope 3-1-9, so that the knocking head support 3-1-4 can continuously move, the knocking head support 3-1-4 can continuously move to drive the knocking head 3-1-1 to continuously move, and the knocking head 3-1-1 can continuously knock the filter screen A3-4-4, so that the dust of the filter screen A3-4-4 can be shaken off; the device can clamp communication equipment, the handle B5-1-5 is pulled by a hand to drive the clamping rod 5-1-6 to move to compress the built-in spring 5-1-4, then the communication equipment is placed in the middle of the clamping execution seat 5-1-9, the handle B5-1-5 is released, and the clamping execution seat 5-1-9 moves towards the middle to clamp the equipment under the elastic force action of the built-in spring 5-1-4; the device can cool equipment in a liquid cooling mode, the circulating motor 6-2-7 is operated to drive the circulating motor disc 6-2-8 to rotate, the circulating motor disc 6-2-8 rotates to drive the circulating seat 6-2-4 to reciprocate through the circulating connecting rod 6-2-5, the circulating seat 6-2-4 reciprocates to repeatedly suck water from the right one-way valve mechanism 6-2-2 into the middle position of the circulating cavity 6-2-1, and then the left one-way valve mechanism 6-2-2 is flushed from the middle position, so that the water can circulate from the liquid cooling pipe 6-1 all the time, and the temperature of the equipment is reduced; the device can help water in the liquid cooling system to be cooled, the motor wheel 4-2-6 is driven to rotate through the operation of the movable motor 4-2-7, the motor wheel 4-2-6 rotates to drive the sliding block 4-2-8 to move through the steel wire rope 4-2-5, the sliding block 4-2-8 moves to drive the movable fan motor 4-2-2 to move, the movable fan motor 4-2-2 is operated to drive the fan blade A4-2-1 to rotate at the moment, the fan blade A4-2-1 rotates to form wind power, and the moving wind power cools the liquid cooling pipe 6-1, so that the water in the liquid cooling system can be cooled.
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.