CN112310021A

CN112310021A - Split formula chip heat dissipation dustproof facilities

Info

Publication number: CN112310021A
Application number: CN202011303163.9A
Authority: CN
Inventors: 王柯辙
Original assignee: Xianju Panjia Electronic Technology Co ltd
Current assignee: Xianju Panjia Electronic Technology Co ltd
Priority date: 2020-11-19
Filing date: 2020-11-19
Publication date: 2021-02-02

Abstract

The invention discloses a split chip heat dissipation dustproof device, which comprises a machine body, wherein a heat dissipation cavity is arranged in the machine body, an air inlet channel is communicated between the left wall surface of the heat dissipation cavity and the left end surface of the machine body, an air outlet channel is communicated between the right wall surface of the heat dissipation cavity and the right end surface of the machine body, the lower wall surface of the heat dissipation cavity is fixedly provided with the workbench, and the upper end surface of the workbench is fixedly provided with three fixed chips which are uniformly distributed, the invention can reduce the occupied area of the chips by splitting and storing the chips, meanwhile, when the chip works, the chip is spliced and unfolded, the heat dissipation area of the chip is enlarged, meanwhile, the closed space can be opened, and then realize the circulation of air and accelerate the heat dissipation processing to the chip, this device can dismantle the chip of stop work simultaneously and seal the save, the effectual entering that has reduced the dust, and then the realization is to the dustproof protection of chip.

Description

Split formula chip heat dissipation dustproof facilities

Technical Field

The invention relates to the field of chip heat dissipation devices, in particular to a split chip heat dissipation dustproof device.

Background

In our daily life, can touch a lot of high-tech electronic products, the chip in the electronic product is the brain of the whole equipment, in the existing chip technology, the heat dissipation of the chip becomes a difficult problem which needs to be solved urgently, the traditional chip heat dissipation generally adopts a fan to accelerate air convection, the single-side heat dissipation is carried out on the chip, the heat dissipation effect is not good, and meanwhile, the external dust is easily adsorbed on the surface of the chip to further influence the service life of the chip, the heat dissipation area of the traditional chip is fixed, and the heat diffusion cannot be accelerated.

Disclosure of Invention

In order to solve the problems, the split-type chip heat-dissipation dustproof device comprises a machine body, wherein a heat dissipation cavity is arranged in the machine body, an air inlet channel is communicated between the left wall surface of the heat dissipation cavity and the left end surface of the machine body, an air outlet channel is communicated between the right wall surface of the heat dissipation cavity and the right end surface of the machine body, a workbench is fixedly arranged on the lower wall surface of the heat dissipation cavity, three fixed chips which are uniformly distributed are fixedly arranged on the upper end surface of the workbench, a movable chip capable of moving back and forth is arranged on the upper end surface of the workbench between every two adjacent fixed chips, a movable chip trigger plate is fixedly arranged on the rear end surface of the movable chip, signal receiving plates are fixedly arranged on the front end surfaces of the fixed chips, front dustproof plates are fixedly arranged on the front end surfaces of the movable chips on the left side and the right side, and can play a role in protection, the rear end face of the movable chip trigger plate is fixedly provided with a push rod extending backwards, a telescopic belt wheel cavity is arranged in the machine body at the rear side of the heat dissipation cavity, a telescopic motor is fixedly arranged in the machine body at the rear side of the left end of the telescopic belt wheel cavity, the front end face of the telescopic motor is in power connection with a main telescopic shaft which penetrates through the front wall face and the rear wall face of the telescopic belt wheel cavity and extends to the inside of the heat dissipation cavity, an auxiliary telescopic shaft which extends to the inside of the heat dissipation cavity is rotatably arranged on the front wall face at the right end of the telescopic belt wheel cavity, the main telescopic shaft and the outer circular face of the auxiliary telescopic shaft are in threaded fit with the same heat dissipation fan plate, a heat dissipation channel is communicated between the front wall face and the rear wall face of the heat dissipation fan plate, a fixed screen plate is fixedly arranged on the inner wall face at the front side of the heat dissipation channel, the rear end of the push rod is, a ventilation motor is fixedly arranged in the machine body at the front side of the bevel gear cavity, the front end face of the ventilation motor is in power connection with a rotating column which penetrates through the front wall face and the rear wall face of the telescopic belt wheel cavity and extends to the inside of the heat dissipation cavity, a rotating cavity is arranged in the rotating column, a heat dissipation fan shaft capable of moving back and forth is arranged in the rotating cavity, a power receiving plate is fixedly arranged at the rear end of the heat dissipation fan shaft, a belt wheel cavity extending backwards is communicated with the rear wall face of the air outlet channel, a belt wheel protective cover is fixedly arranged on the inner wall face of the air outlet channel at the position corresponding to the belt wheel cavity, a belt wheel protective cavity mutually communicated with the belt wheel cavity is arranged in the belt wheel protective cover, an air suction fan support is fixedly arranged on the inner wall face of the air outlet channel at the right side of the belt wheel protective cover, and a sealing mechanism is arranged in the sealing cavity.

Preferably, a driving telescopic belt wheel is fixedly arranged on the outer circular surface of the main telescopic shaft and located inside the telescopic belt wheel cavity, a driven telescopic belt wheel is fixedly arranged at the rear end of the auxiliary telescopic shaft, a telescopic driving belt is wound between the driven telescopic belt wheel and the driving telescopic belt wheel, a radiating fan support is fixedly arranged on the inner wall surface of the radiating channel at the rear side of the fixed screen plate, the front end of the radiating fan shaft extends into the radiating fan support, and a radiating fan is fixedly arranged at the front end of the radiating fan shaft.

Preferably, the front wall surface of the bevel gear cavity is rotationally provided with a bevel gear shaft extending forwards, the front end of the bevel gear shaft is in power connection with the rear end surface of the ventilation motor, a driving bevel gear is fixedly arranged at the rear end of the bevel gear shaft, a belt wheel shaft extending into the belt wheel cavity is rotatably arranged on the right wall surface of the bevel gear cavity, a driven bevel gear which is meshed with the driving bevel gear is fixedly arranged at the left end of the belt pulley shaft, a driving belt pulley is fixedly arranged at the right end of the belt pulley shaft, the right wall surface of the belt wheel protective cavity is rotatably provided with an air suction fan shaft extending to the inside of the air suction fan support, a driven belt wheel is fixedly arranged at the left end of the air suction fan shaft, a transmission belt is wound between the driven belt wheel and the driving belt wheel, the air suction fan shaft right-hand member is fixed and is equipped with the air suction fan, the fixed dust screen that is equipped with of inlet air channel left end internal face, the dust screen can prevent the entering of dust.

Preferably, a sealing plate capable of extending forwards and backwards is arranged inside the sealing cavity, the air inlet channel and the air outlet channel can be sealed by the sealing plate when the sealing plate is located at the front limit position, a sealing spring is fixedly connected between the rear end face of the sealing plate and the rear wall face of the sealing cavity at the same side, and a pull rope is fixedly connected between the rear end face of the sealing plate and the rear end face of the heat dissipation fan plate.

But preferred, the intercommunication is equipped with bilateral symmetry's dash receiver heat dissipation channel between the terminal surface around the signal dash receiver, remove the chip and trigger the air inlet heat dissipation channel that the intercommunication is equipped with bilateral symmetry between the terminal surface around the board between the terminal surface, air inlet heat dissipation channel with dash receiver heat dissipation channel can pass cold wind, the homonymy is kept away from to air inlet heat dissipation channel remove the chip and trigger the fixed concatenation that is equipped with longitudinal symmetry of terminal surface and trigger the post before the board, with the concatenation triggers the post and corresponds the position signal dash receiver rear end face and is equipped with the signal reception chamber that the opening is backward, the fixed dust guard branch that is equipped with bilateral symmetry of terminal surface before the radiator fan board upside, the left and right sides dust guard branch front end is fixed to be equipped with and is located fixed chip with the upside.

The invention has the beneficial effects that: according to the invention, the chips are stored in a split manner, so that the occupied area of the chips can be reduced, the chips are spliced and unfolded when the chips work, the heat dissipation area of the chips is increased, the closed space can be opened, the air circulation is realized, the heat dissipation treatment on the chips is accelerated, and meanwhile, the chips which stop working can be disassembled, sealed and stored, so that the dust is effectively reduced, and the dustproof protection on the chips is realized.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 1;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 1;

fig. 5 is an enlarged schematic view of D in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to split chip heat dissipation dustproof equipment, which comprises an equipment body 11, wherein a heat dissipation cavity 12 is arranged in the equipment body 11, an air inlet channel 13 is communicated between the left wall surface of the heat dissipation cavity 12 and the left end surface of the equipment body 11, an air outlet channel 15 is communicated between the right wall surface of the heat dissipation cavity 12 and the right end surface of the equipment body 11, a workbench 47 is fixedly arranged on the lower wall surface of the heat dissipation cavity 12, three fixed chips 48 which are uniformly distributed are fixedly arranged on the upper end surface of the workbench 47, a movable chip 50 capable of moving back and forth is arranged on the upper end surface of the workbench 47 between every two adjacent fixed chips 48, a movable chip trigger plate 51 is fixedly arranged on the rear end surface of the movable chip 50, signal receiving plates 57 are fixedly arranged on the front end surfaces of the fixed chips 48, front dustproof plates 56 are fixedly arranged on the front end surfaces of the movable chips 50 on the left side and the right side, a push rod 46 extending backwards is fixedly arranged on the rear end face of the movable chip trigger plate 51, a telescopic pulley cavity 35 is arranged in the machine body 11 on the rear side of the heat dissipation cavity 12, a telescopic motor 34 is fixedly arranged in the machine body 11 on the rear side of the left end of the telescopic pulley cavity 35, a main telescopic shaft 36 penetrating through the front and rear wall faces of the telescopic pulley cavity 35 and extending into the heat dissipation cavity 12 is dynamically connected to the front end face of the telescopic motor 34, an auxiliary telescopic shaft 37 extending into the heat dissipation cavity 12 is rotatably arranged on the front wall face of the right end of the telescopic pulley cavity 35, the same heat dissipation fan plate 41 is in threaded fit with the outer circular face of the main telescopic shaft 36 and the auxiliary telescopic shaft 37, a heat dissipation channel 42 is communicated between the front and rear wall faces of the heat dissipation fan plate 41, a fixed screen plate 45 is fixedly arranged on the inner wall face on the front side of the heat dissipation channel 42, and the rear end of the push rod, a bevel gear cavity 26 is arranged at the rear side of the telescopic pulley cavity 35 corresponding to the middle fixed chip 48, a ventilation motor 60 is fixedly arranged in the machine body 11 at the front side of the bevel gear cavity 26, the front end face of the ventilation motor 60 is in power connection with a rotating column 61 which penetrates through the front wall face and the rear wall face of the telescopic pulley cavity 35 and extends to the inside of the heat dissipation cavity 12, a rotating cavity 62 is arranged in the rotating column 61, a heat dissipation fan shaft 63 capable of moving back and forth is arranged in the rotating cavity 62, a power receiving plate 64 is fixedly arranged at the rear end of the heat dissipation fan shaft 63, a pulley cavity 22 extending backwards is communicated with the rear wall face of the air outlet channel 15, a pulley protective cover 18 is fixedly arranged on the inner wall face of the air outlet channel 15 corresponding to the pulley cavity 22, a pulley protective cover 19 communicated with the pulley cavity 22 is arranged in the pulley protective cover 18, and an air suction fan support 16 is fixedly arranged on the inner wall face of the air outlet channel, the air outlet channel 15 and the air inlet channel 13 are communicated with a closed cavity 30 extending backwards and close to the rear wall surface of one side of the heat dissipation cavity 12, and a closing mechanism is arranged inside the closed cavity 30.

Beneficially, a driving telescopic pulley 39 is fixedly arranged on the outer circumferential surface of the main telescopic shaft 36 located inside the telescopic pulley cavity 35, a driven telescopic pulley 38 is fixedly arranged at the rear end of the auxiliary telescopic shaft 37, a telescopic transmission belt 40 is wound between the driven telescopic pulley 38 and the driving telescopic pulley 39, a cooling fan support 43 is fixedly arranged on the inner wall surface of the cooling channel 42 at the rear side of the fixed screen plate 45, the front end of the cooling fan shaft 63 extends into the cooling fan support 43, and a cooling fan 44 is fixedly arranged at the front end of the cooling fan shaft 63.

Beneficially, a plurality of power receiving cavities 65 with forward openings are uniformly distributed on the front end face of the power receiving plate 64, and power transmission columns 66 are fixedly arranged on the front wall face of the rotating cavity 62 at positions corresponding to the power receiving cavities 65, and the power transmission columns 66 are dense enough and can extend into the power receiving cavities 65 at any time.

Beneficially, a bevel gear shaft 29 extending forwards is rotatably disposed on the front wall surface of the bevel gear cavity 26, the front end of the bevel gear shaft 29 is in power connection with the rear end surface of the ventilation motor 60, a driving bevel gear 28 is fixedly disposed on the rear end of the bevel gear shaft 29, a pulley shaft 25 extending into the pulley cavity 22 is rotatably disposed on the right wall surface of the bevel gear cavity 26, a driven bevel gear 27 engaged with the driving bevel gear 28 is fixedly disposed on the left end of the pulley shaft 25, a driving pulley 23 is fixedly disposed on the right end of the pulley shaft 25, a suction fan shaft 17 extending into the suction fan support 16 is rotatably disposed on the right wall surface of the pulley protection cavity 19, a driven pulley 21 is fixedly disposed on the left end of the suction fan shaft 17, a transmission belt 24 is wound between the driven pulley 21 and the driving pulley 23, and a suction fan 20 is fixedly disposed on the right end of the suction fan, the inner wall surface of the left end of the air inlet channel 13 is fixedly provided with a dustproof net 14, and the dustproof net 14 can prevent dust from entering.

Beneficially, a closing plate 31 capable of extending back and forth is arranged inside the closing chamber 30, the air inlet channel 13 and the air outlet channel 15 can be closed by the closing plate 31 when the closing plate 31 is located at the front limit position, a closing spring 32 is fixedly connected between the rear end face of the closing plate 31 and the rear wall face of the closing chamber 30 at the same side, and a pull rope 67 is fixedly connected between the rear end face of the closing plate 31 and the rear end face of the heat dissipation fan plate 41.

Beneficially, the front and rear end faces of the signal receiving plate 57 are communicated with a left-right symmetrical receiving plate heat dissipation channel 58, the front and back end surfaces of the mobile chip trigger plate 51 are communicated with air inlet heat dissipation channels 52 which are symmetrical left and right, the air inlet heat dissipation channel 52 and the receiving plate heat dissipation channel 58 can pass through cold air, the front end surface of the air inlet heat dissipation channel 52, which is far away from the mobile chip trigger plate 51 of the mobile chip 50 on the same side, is fixedly provided with splicing trigger columns 53 which are symmetrical up and down, the rear end face of the signal receiving plate 57 at the position corresponding to the splicing triggering column 53 is provided with a signal receiving cavity 59 with a backward opening, the front end face of the upper side of the heat radiation fan plate 41 is fixedly provided with left and right symmetric dust guard supporting rods 55, and the front ends of the left and right dust guard supporting rods 55 are fixedly provided with upper dust guards 54 positioned on the upper sides of the fixed chip 48 and the movable chip 50.

The following describes in detail the use steps of the split chip heat dissipation and dust prevention apparatus with reference to fig. 1 to 5:

in the initial state, the closing plate 31 is at the front limit position, the heat radiation fan plate 41 is at the rear limit position, the front dust-proof plate 56 and the mobile chip 50 are at the rear limit position, the splicing triggering column 53 is separated from the signal receiving cavity 59, the power receiving plate 64 is at the rear limit position, and the power receiving cavity 65 and the power transmission column 66 are in the separated state.

When the device works, the telescopic motor 34 is driven to rotate forwards, so as to drive the main telescopic shaft 36 to rotate, further drive the driving telescopic belt wheel 39 to rotate, further drive the driven telescopic belt wheel 38 to rotate through the telescopic transmission belt 40, further drive the auxiliary telescopic shaft 37 to rotate, further drive the radiating fan plate 41 to move forwards, further push the push rod 46 to move forwards through the fixed screen 45, further push the movable chip trigger plate 51 and the movable chip 50 to move forwards, further push the front side dust-proof plate 56 to move forwards, when the splicing trigger column 53 extends into the signal receiving cavity 59 of the corresponding position, further realize the splicing of the chips, at the moment, the telescopic motor 34 is stopped being driven, the sealing plate 31 is pulled through the pull rope 67 to compress the sealing spring 32 to move backwards while the radiating fan plate 41 moves forwards, further open the air inlet channel 13 and the air outlet channel 15, the radiating fan plate 41 moves forwards, and simultaneously pushes the upper side dust-proof plate 54 to move forwards through the dust-, further, the upper spaces of the fixed chip 48 and the movable chip 50 are opened, the heat dissipation fan plate 41 moves forward and simultaneously drives the heat dissipation fan shaft 63 to move forward, and further drives the power receiving plate 64 to move forward, so that the power transmission column 66 extends into the power receiving cavity 65 and further realizes the power transmission between the rotating column 61 and the power receiving plate 64, at this time, the ventilation motor 60 is driven, so as to drive the rotating column 61 to rotate, and further drive the power receiving plate 64 to rotate through the power transmission column 66, and further drive the heat dissipation fan shaft 63 to rotate, and further drive the heat dissipation fan 44 to rotate at high speed, and further blow cold air to the gap between the fixed chip 48 and the movable chip 50 through the air inlet heat dissipation channel 52, so as to realize lateral heat dissipation, and drive the ventilation motor 60 and simultaneously drive the bevel gear shaft 29 to rotate, and further drive the driving bevel gear 28 to rotate, and further drive, and then driving the pulley shaft 25 to rotate, and then driving the driving pulley 23 to rotate, and then driving the driven pulley 21 to rotate through the driving belt 24, and further driving the air suction fan shaft 17 to rotate, and further driving the air suction fan 20 to rotate at high speed, and further sucking cold air through the air inlet channel 13 and performing front heat dissipation on the chip, and simultaneously discharging the hot air inside the heat dissipation cavity 12 outwards through the air outlet channel 15, thereby improving the heat dissipation effect, when the chip stops working, driving the telescoping motor 34 to rotate backwards, and further driving the main telescoping shaft 36 to rotate backwards, and further driving the driving telescoping pulley 39 to rotate backwards, and further driving the auxiliary telescoping shaft 37 to rotate through the driven telescoping pulley 38, and further driving the heat dissipation fan plate 41 to move backwards, and further driving the movable chip trigger plate 51 to move backwards through the pushing rod 46, and further completing the separation of the splicing trigger column 53 from the signal receiving cavity 59, meanwhile, the sealing plate 31 moves forwards under the elastic action of the sealing spring 32 to reset, so that the sealing of the air inlet channel 13 and the air outlet channel 15 is realized, and further external dust is prevented from entering, when the heat dissipation fan plate 41 resets, the dust plate support rod 55 drives the upper dust plate 54 to move backwards and reset, so that the space on the chip is sealed, when the heat dissipation fan plate 41 moves backwards, the power transmission column 66 is separated from the power receiving cavity 65, so that the power transmission of the heat dissipation fan shaft 63 is stopped, the driving of the ventilation motor 60 is stopped, and the heat dissipation function is stopped, when the movable chip 50 and the movable chip trigger plate 51 reset, the front dust plate 56 and the upper dust plate 54 jointly move the chip trigger plate 51 to seal the chip placing space, and further prevent dust from falling.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a split formula chip heat dissipation dustproof facilities, includes the organism, its characterized in that: a heat dissipation cavity is arranged in the machine body, an air inlet channel is communicated between the left wall surface of the heat dissipation cavity and the left end surface of the machine body, an air outlet channel is communicated between the right wall surface of the heat dissipation cavity and the right end surface of the machine body, a workbench is fixedly arranged on the lower wall surface of the heat dissipation cavity, three uniformly distributed fixed chips are fixedly arranged on the upper end surface of the workbench, a movable chip capable of moving back and forth is arranged on the upper end surface of the workbench between every two adjacent fixed chips, a movable chip trigger plate is fixedly arranged on the rear end surface of the movable chip, a signal receiving plate is fixedly arranged on the front end surface of each fixed chip, a front dust guard plate is fixedly arranged on the front end surface of each movable chip on the left side and the right side, the front dust guard plate can play a protective role, a pushing rod extending backwards is fixedly arranged on the rear end surface of each movable chip trigger plate, and, the aircraft body internal fixation of flexible pulley chamber left end rear side is equipped with flexible motor, terminal surface power connection has to run through around the flexible pulley chamber wall and extend to the main telescopic shaft of heat dissipation intracavity portion, flexible pulley chamber right-hand member antetheca rotates and is equipped with and extends to the vice telescopic shaft of heat dissipation intracavity portion, main telescopic shaft with the outer disc screw-thread fit of vice telescopic shaft has same radiator fan board, the intercommunication is equipped with heat dissipation channel between the wall around the radiator fan board, fixed otter board that is equipped with of radiator channel front side internal face, catch bar rear end with fixed otter board front end fixed connection, with the centre fixed chip corresponds the position telescopic pulley chamber rear side is equipped with the bevel gear chamber, the bevel gear chamber front side the aircraft body internal fixation is equipped with the motor of taking a breath, the motor front end power connection has passed around the flexible pulley chamber wall and extend to the commentaries on classics of heat dissipation intracavity portion The movable column is provided with a rotating cavity inside, a radiating fan shaft capable of moving back and forth is arranged inside the rotating cavity, a power receiving plate is fixedly arranged at the rear end of the radiating fan shaft, a belt wheel cavity extending backwards is formed in the rear wall face of an air outlet channel in a communicated mode, a belt wheel protective cover is fixedly arranged on the inner wall face of the air outlet channel at the position corresponding to the belt wheel cavity, a belt wheel protective cavity communicated with the belt wheel cavity is formed inside the belt wheel protective cover, an air suction fan support is fixedly arranged on the inner wall face of the air outlet channel on the right side of the belt wheel protective cover, a sealing cavity extending backwards is formed in the rear wall face of the air outlet channel and the air inlet channel, and a sealing mechanism is arranged inside the sealing.

2. The split chip heat dissipation and dust prevention device of claim 1, wherein: the cooling device comprises a main telescopic shaft, a telescopic belt wheel, a driven telescopic belt wheel, a telescopic driving belt, a radiating fan support, a radiating fan shaft and a radiating fan, wherein the main telescopic shaft is positioned in a telescopic belt wheel cavity, the outer circular surface of the main telescopic shaft is fixedly provided with the driving telescopic belt wheel, the rear end of the auxiliary telescopic shaft is fixedly provided with the driven telescopic belt wheel, the telescopic driving belt is wound between the driven telescopic belt wheel and the driving telescopic belt wheel, the inner wall surface of a radiating channel at the rear side of a fixed screen plate is fixedly provided with the radiating fan support, the front.

3. The split chip heat dissipation and dust prevention device of claim 1, wherein: the power receiving plate is characterized in that a plurality of power receiving cavities with forward openings are uniformly distributed on the front end face of the power receiving plate, power transmission columns are fixedly arranged on the front wall face of the rotating cavity at positions corresponding to the power receiving cavities, and the power transmission columns are dense enough and can extend into the power receiving cavities at any time.

4. The split chip heat dissipation and dust prevention device of claim 1, wherein: a bevel gear shaft extending forwards is rotatably arranged on the front wall surface of the bevel gear cavity, the front end of the bevel gear shaft is in power connection with the rear end surface of the air exchange motor, a driving bevel gear is fixedly arranged at the rear end of the bevel gear shaft, a belt wheel shaft extending into the belt wheel cavity is rotatably arranged on the right wall surface of the bevel gear cavity, a driven bevel gear which is meshed with the driving bevel gear is fixedly arranged at the left end of the belt pulley shaft, a driving belt pulley is fixedly arranged at the right end of the belt pulley shaft, the right wall surface of the belt wheel protective cavity is rotatably provided with an air suction fan shaft extending to the inside of the air suction fan support, a driven belt wheel is fixedly arranged at the left end of the air suction fan shaft, a transmission belt is wound between the driven belt wheel and the driving belt wheel, the air suction fan shaft right-hand member is fixed and is equipped with the air suction fan, the fixed dust screen that is equipped with of inlet air channel left end internal face, the dust screen can prevent the entering of dust.

5. The split chip heat dissipation and dust prevention device of claim 1, wherein: the air inlet channel and the air outlet channel are sealed by the sealing plate when the sealing plate is in the front limit position, a sealing spring is fixedly connected between the rear end face of the sealing plate and the rear wall face of the sealing cavity at the same side, and a pull rope is fixedly connected between the rear end face of the sealing plate and the rear end face of the radiating fan plate.

6. The split chip heat dissipation and dust prevention device of claim 1, wherein: the intercommunication is equipped with bilateral symmetry's dash receiver heat dissipation channel between the terminal surface around the signal dash receiver, remove the chip and trigger the air inlet heat dissipation channel that the intercommunication is equipped with bilateral symmetry between the terminal surface around the board around, air inlet heat dissipation channel with dash receiver heat dissipation channel can pass cold wind, the homonymy is kept away from to air inlet heat dissipation channel remove the chip remove the fixed concatenation that is equipped with longitudinal symmetry of terminal surface before the chip triggers the board and trigger the post, with concatenation trigger the post and correspond the position signal dash receiver rear end face is equipped with the signal reception chamber that the opening is backward, the fixed dust guard branch that is equipped with bilateral symmetry of terminal surface before the radiator fan board upside, the left and right sides dust guard branch front end is fixed to be equipped with and is located fixed chip with the upside dust guard of removal chip.