CN116560474A - Intelligent heat dissipation system of computer - Google Patents

Abstract

The invention relates to the technical field of computers, in particular to an intelligent heat dissipation system of a computer, which comprises a shell, a heat dissipation mechanism, an anti-blocking mechanism, an auxiliary mechanism, a backflow prevention mechanism and an automatic push-out mechanism.

Description

Intelligent heat dissipation system of computer

Technical Field

The invention relates to the technical field of computers, in particular to an intelligent heat dissipation system of a computer.

Background

The computer is commonly called as a computer, is a modern electronic computing machine for high-speed computation, can perform numerical computation, can perform logic computation, and has a memory function. The intelligent electronic device is modern intelligent electronic equipment which can automatically and rapidly process mass data according to program operation. A computer, which is composed of a hardware system and a software system, without any software installed, is called a bare metal. The method can be divided into five types of super computers, industrial control computers, network computers, personal computers and embedded computers, and more advanced computers include biological computers, photon computers, quantum computers and the like.

Through retrieving, the patent of application number CN212135373U discloses "a computer heat abstractor", including the device shell, be provided with the storage water tank on the device shell, the inlet tube is connected to the storage water tank, be provided with the suction pump on the inlet tube, the suction pump draws the water in the storage water tank.

However, when the device is used, the first air inlet 201 and the second air outlet 304 are arranged to ensure air circulation inside the shell, so that the purpose of heat dissipation is achieved, but in the prior art, when heat in the shell is easily discharged from the air outlet, the heat can drift to the air inlet again, so that the heat dissipation quality of a computer is reduced, a filter screen arranged at the air outlet is easily blocked by dust after long-time use, manual cleaning is inconvenient, efficiency is delayed when the filter screen is detached, and the high-efficiency heat dissipation of the computer is also affected; multiple disassembly and cleaning can damage internal parts of the computer by mistake.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, the first air inlet 201 and the second air outlet 304 are arranged to ensure air circulation in the shell so as to achieve the purpose of heat dissipation, but in the prior art, when heat in the shell is discharged from the air outlet, the heat can drift to the air inlet again, so that the heat dissipation quality of a computer is reduced, a filter screen arranged at the air outlet is easy to be blocked by dust after long-time use, manual cleaning is inconvenient, efficiency is delayed when the filter screen is detached for cleaning, and the high-efficiency heat dissipation of the computer is also influenced; the intelligent heat dissipation system for the computer is provided by solving the problem that internal parts of the computer can be mistakenly bumped and damaged due to repeated disassembly and cleaning.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a computer intelligent heat radiation system comprises a shell, a heat radiation mechanism, an anti-blocking mechanism, an auxiliary mechanism, a backflow prevention mechanism and an automatic push-out mechanism.

Preferably, the heat dissipation mechanism comprises a heat removal filter plate arranged on an air outlet at the right end of the shell, an air inlet filter plate is arranged on an air inlet at the upper end of the shell, an exhaust fan is arranged on the right side in the shell corresponding to the heat removal filter plate, lifting plates are fixedly arranged at the front end and the rear end of the exhaust fan, the front end and the rear end of each lifting plate are in sliding connection with the shell, a reciprocating screw rod is arranged on the rear side of each lifting plate in a threaded manner, a motor is arranged at the lower end of each reciprocating screw rod, and the lower end of each motor is fixedly arranged on the shell.

Preferably, the anti-blocking mechanism comprises an anti-blocking brush plate which is arranged inside the shell and mutually attached to the right end of the inner wall of the shell, a rotating shaft is arranged at the left end of the anti-blocking brush plate, the middle part of the rotating shaft is rotatably arranged at the lower end of the lifting plate, a torsion spring I is sleeved on the left side of the rotating shaft, a swinging strip is fixedly arranged at the left end of the rotating shaft, and a plurality of triangular blocks are fixedly arranged on the front side and the rear side of the inner wall of the shell at equal intervals and in dislocation.

Preferably, the auxiliary mechanism comprises a hinge shaft fixedly arranged on the right side of the rotating shaft, the anti-blocking brush plate is rotationally connected with the middle part of the hinge shaft, torsion springs II are sleeved on the front side and the rear side of the hinge shaft, a first magnetic block is fixedly arranged in the middle of the upper end of the anti-blocking brush plate, a second magnetic block is fixedly arranged on the top end in the shell corresponding to the first magnetic block, an auxiliary rod is fixedly arranged on the rear end of the rotating shaft corresponding to the anti-blocking brush plate, the auxiliary rod is positioned on the lower side of the anti-blocking brush plate, and a plurality of auxiliary sheets are fixedly arranged at the lower end of the auxiliary rod.

Preferably, the backflow prevention mechanism comprises a nozzle strip arranged at the upper end of the shell, an outlet faces the heat extraction filter plate, an air bag communicated with the nozzle strip is fixedly arranged at the inner top end of the shell, vertical plates are fixedly arranged at the front side and the rear side of the upper end of the shell, two ends of the nozzle strip penetrate through and are rotatably arranged on the vertical plates, torsion springs III are sleeved on the front end and the rear end of the nozzle strip, a roller is fixedly arranged at the front end of the nozzle strip, a winding rope is fixedly arranged on the roller, the upper end of the shell is positioned at the left side of the nozzle strip and is rotatably provided with a backflow prevention plate, the left end of the winding rope is fixedly arranged on the backflow prevention plate, a push rod is fixedly arranged at the middle part of the upper end of the swing strip and corresponds to the backflow prevention plate, and a through hole is formed in the upper end of the shell.

Preferably, the automatic pushing mechanism comprises a pushing plate which is slidably mounted on the inner bottom end of the shell, connecting rods are symmetrically hinged to the upper end of the pushing plate, a forced pressing plate is hinged to the upper end of each connecting rod, the forced pressing plate is slidably mounted on the inner wall of the shell, a spring is fixedly mounted at the lower end of the forced pressing plate, the lower end of the spring is fixedly mounted on the inner bottom end of the shell, a through groove is formed in the lower side of the right end of the shell, a movable baffle is hinged to the lower side of the right end of the shell, and reset torsion springs are sleeved on shafts at the joint of the movable baffle and the shell.

Compared with the prior art, the invention has the beneficial effects that:

1. in the invention, the motor is started to drive the reciprocating screw rod to rotate, the reciprocating screw rod drives the lifting plate to reciprocate up and down, the lifting plate drives the exhaust fan to synchronously move, the exhaust fan is started to blow heat in the shell to the heat-exhausting filter plate, and the heat-exhausting filter plate and the air-inlet filter plate are arranged, so that the air circulation in the computer is realized, the heat in the computer can be uniformly discharged from the heat-exhausting filter plate to the outside, and the efficient heat dissipation in the computer is realized.

2. In the invention, when the lifting plate ascends, the rotating shaft is driven to synchronously ascend, and the rotating shaft drives the anti-blocking brush plate and the swinging strip to synchronously ascend, so that the anti-blocking brush plate is convenient for brushing off dust adhered on the heat removal filter plate, and the normal heat dissipation of a computer is ensured.

3. In the invention, when the swinging strip rises, the left end and the right end of the swinging strip are respectively contacted with the triangular blocks on the two sides in sequence and are extruded, so that the swinging strip and the rotating shaft are driven to rotate on the lifting plate, the first torsion spring is compressed, the rotating shaft also drives the anti-blocking brush plate to rotate, the set torsion spring has the reset function on the swinging strip, the rotating shaft and the anti-blocking brush plate, and the left and right reciprocating rotation can be realized in the rising process of the anti-blocking brush plate, thereby facilitating the dust adhering firmly on the heat removal filter plate to be brushed off and improving the brushing quality of dust.

4. In the invention, the first magnetic block is driven to rise when the anti-blocking brush plate rises, and the first magnetic block and the anti-blocking brush plate are pushed to rotate on the hinge shaft under the action of magnetic repulsion when the first magnetic block rises to the lower side of the second magnetic block, so that the torsion spring II is compressed, at the moment, the anti-blocking brush plate is in a downward inclined shape, the right end of the anti-blocking brush plate is separated from the inner wall of the shell, the upper end of the anti-blocking brush plate is favorably brushed to remove accumulated dust and downward topple, the dust adhered to the anti-blocking brush plate is avoided, and the anti-blocking brush plate is adhered to the heat removal filter plate again when the anti-blocking brush plate is reset downward, so that the blocking condition of the heat removal filter plate is reduced, and the high-efficiency heat dissipation of a computer is ensured.

5. According to the invention, when the anti-blocking brush plate rotates downwards on the rotating shaft, the anti-blocking brush plate is softer, and can cross from the upper side of the auxiliary rod to the lower side of the auxiliary rod, when the anti-blocking brush plate rotates upwards for resetting, the upper end of the anti-blocking brush plate can be contacted with the auxiliary sheet, dust at the upper end of the anti-blocking brush plate is swept, dust which does not fall off completely after tilting is prevented from being attached to the anti-blocking brush plate, and the heat dissipation quality of a computer is improved.

6. When the lifting plate rises to the upper side in the shell, the lifting plate is matched with the inner top of the shell to extrude the air bag, so that gas in the air bag is sprayed out from the nozzle strips, the sprayed gas direction faces the heat extraction filter plate, heat dissipated in the heat extraction filter plate is blown away from the air inlet filter plate, the situation that the heat dissipated by the heat extraction filter plate flows to the air inlet filter plate again when rising and enters the shell again from the air inlet filter plate can be prevented, and therefore the heat dissipation quality of a computer is effectively improved.

7. According to the invention, when the swinging strip rises, the ejector rod is driven to rise, the ejector rod can pass through the through hole at the upper end of the shell, and can contact with the lower end of the backflow prevention plate along with the continuous rising of the ejector rod, and the backflow prevention plate is pushed to rotate upwards on the shell, at the moment, the backflow prevention plate can block heat emitted by the heat extraction filter plate, the heat is reduced to directly float to the air inlet filter plate again from the upper side of the shell, and when the backflow prevention plate rotates upwards, the winding rope is used for driving the winding roller and the nozzle strip to rotate on the vertical plate, the torsion spring III is compressed, the nozzle strip can rotate upwards from below to jet air, so that the heat at the upper side of the shell can be blown away quickly, and the heat is prevented from entering the inside of the shell from the air inlet filter plate again.

8. In the invention, when the ejector rod moves downwards to reset, the ejector rod is separated from the backflow preventing plate, the nozzle bar and the roller are driven to reset under the action of the torsion spring III, the roller and the gravity drive the backflow preventing plate to rotate downwards to reset, and when the backflow preventing plate rotates downwards, the heat on the upper side of the shell is blown again, so that the heat is separated from the direction of the air inlet filter plate again, thereby reducing the backflow of the heat and improving the heat dissipation quality of a computer.

9. When the lifting plate descends, the forced pressing plate is extruded to compress the spring, the push-out plate is pushed to slide towards the direction of the through groove under the action of the connecting rod, the push-out plate penetrates through the through groove and extrudes the movable baffle to enable the movable baffle to rotate on the shell, the through groove is communicated with the outside, dust scraped off from the bottom in the shell is pushed out of the through groove, automatic discharge of dust in the shell is achieved, excessive dust accumulation is prevented, the dust is attached to the heat extraction filter plate again, and heat dissipation quality of a computer can be improved.

10. According to the invention, the heat removal filter plate is not required to be disassembled and cleaned, so that the cleaning of dust in the heat removal filter plate can be realized, the blockage of the dust is effectively prevented, the working efficiency is improved, and the possibility of mistakenly touching internal parts during disassembly is reduced.

Drawings

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

FIG. 2 is a schematic view of the left side cross-sectional structure of the present invention;

FIG. 3 is a schematic bottom perspective view of FIG. 2 according to the present invention;

FIG. 4 is a schematic cross-sectional view of the present invention;

FIG. 5 is an enlarged view of a portion of the connection between the housing and the lifter plate in FIG. 2 according to the present invention;

FIG. 6 is a schematic diagram of the structure of FIG. 5A according to the present invention;

FIG. 7 is a schematic diagram of the structure of FIG. 2B according to the present invention;

FIG. 8 is a schematic view of the structure of FIG. 4C according to the present invention;

FIG. 9 is a schematic perspective view of an auxiliary rod according to the present invention;

in the figure: 1. a housing;

2. a heat dissipation mechanism; 201. a heat removal filter plate; 202. an air inlet filter plate; 203. an exhaust fan; 204. a lifting plate; 205. a reciprocating screw rod; 206. a motor;

3. an anti-blocking mechanism; 301. an anti-blocking brush plate; 302. a rotating shaft; 303. a torsion spring I; 304. a swinging bar; 305. triangular blocks;

4. an auxiliary mechanism; 401. a hinge shaft; 402. a torsion spring II; 403. a first magnetic block; 404. a second magnetic block; 405. an auxiliary lever; 406. an auxiliary sheet;

5. a backflow prevention mechanism; 501. a nozzle bar; 502. an air bag; 503. a riser; 504. a torsion spring III; 505. a roller; 506. a rope; 507. a backflow prevention plate; 508. a push rod;

6. an automatic push-out mechanism; 601. a push-out plate; 602. a connecting rod; 603. a forced pressing plate; 604. a spring; 605. a through groove; 606. a movable baffle.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-9, an intelligent heat dissipation system of a computer comprises a shell 1, a heat dissipation mechanism 2, an anti-blocking mechanism 3, an auxiliary mechanism 4, a backflow prevention mechanism 5 and an automatic pushing mechanism 6, wherein the heat dissipation mechanism 2 comprises a heat extraction filter plate 201 arranged on an air outlet at the right end of the shell 1, an air inlet filter plate 202 is arranged on an air inlet at the upper end of the shell 1, an exhaust fan 203 is arranged on the right side in the shell 1 corresponding to the heat extraction filter plate 201, lifting plates 204 are fixedly arranged at the front end and the rear end of the exhaust fan 203, the front end and the rear end of the lifting plates 204 are in sliding connection with the shell 1, a reciprocating screw rod 205 is arranged on the rear side of the lifting plates 204 in a threaded manner, a motor 206 is arranged at the lower end of the reciprocating screw rod 205, and the lower end of the motor 206 is fixedly arranged on the shell 1;

when the computer is used, the starting motor 206 drives the reciprocating screw rod 205 to rotate, the reciprocating screw rod 205 drives the lifting plate 204 to reciprocate up and down, the lifting plate 204 drives the exhaust fan 203 to synchronously move, the exhaust fan 203 is started to blow heat in the shell 1 to the heat exhausting filter plate 201, the arranged heat exhausting filter plate 201 and the air inlet filter plate 202 realize air circulation in the computer, ensure that heat in the computer can be exhausted out of the heat exhausting filter plate 201 uniformly, and realize efficient heat dissipation in the computer.

In this embodiment, the anti-blocking mechanism 3 includes an anti-blocking brush plate 301 disposed inside the housing 1 and attached to the right end of the inner wall of the housing 1, a rotating shaft 302 is disposed at the left end of the anti-blocking brush plate 301, the middle part of the rotating shaft 302 is rotatably mounted on the lower end of the lifting plate 204, a torsion spring 303 is sleeved on the left side of the rotating shaft 302, a swinging bar 304 is fixedly mounted at the left end of the rotating shaft 302, and a plurality of triangular blocks 305 are fixedly mounted on the front and rear sides of the inner wall of the housing 1 at equal intervals and in a staggered manner corresponding to the swinging bars 304;

when the anti-blocking brush plate 301 is used, when the lifting plate 204 is lifted, the rotating shaft 302 is driven to synchronously lift, the rotating shaft 302 drives the anti-blocking brush plate 301 and the swinging strips 304 to synchronously lift, the set anti-blocking brush plate 301 is convenient for brushing dust attached to the heat removal filter plate 201, normal heat dissipation of a computer is ensured, when the swinging strips 304 are lifted, the left end and the right end of the swinging strips 304 are respectively contacted with triangular blocks 305 on two sides in sequence and are extruded, the swinging strips 304 and the rotating shaft 302 are driven to rotate on the lifting plate 204, the first torsion spring 303 is compressed, the rotating shaft 302 also drives the anti-blocking brush plate 301 to rotate, the first torsion spring 303 is arranged to reset the swinging strips 304, the rotating shaft 302 and the anti-blocking brush plate 301, and the reciprocating rotation of the left side and the right side can be realized in the lifting process of the anti-blocking brush plate 301, so that dust attached to the filter plate 201 is convenient to brush down, and the brushing quality of dust is improved.

In this embodiment, the auxiliary mechanism 4 includes a hinge shaft 401 fixedly mounted on the right side of the rotating shaft 302, and the anti-blocking brush plate 301 is rotatably connected with the middle part of the hinge shaft 401, two torsion springs two 402 are sleeved on the front and rear sides of the hinge shaft 401, a first magnetic block 403 is fixedly mounted in the middle part of the upper end of the anti-blocking brush plate 301, a second magnetic block 404 is fixedly mounted on the top end of the housing 1 corresponding to the first magnetic block 403, an auxiliary rod 405 is fixedly mounted on the rear end of the rotating shaft 302 corresponding to the anti-blocking brush plate 301, the auxiliary rod 405 is located on the lower side of the anti-blocking brush plate 301, and a plurality of auxiliary pieces 406 are fixedly mounted on the lower end of the auxiliary rod 405;

when the anti-blocking brush plate 301 is in use, the first magnetic block 403 is driven to rise, when the first magnetic block 403 rises to the lower side of the second magnetic block 404, the first magnetic block 403 and the anti-blocking brush plate 301 are pushed to rotate on the hinge shaft 401 under the action of magnetic repulsion, the torsion spring second 402 is compressed, at the moment, the anti-blocking brush plate 301 is in a downward inclined shape, the right end of the anti-blocking brush plate 301 is separated from the inner wall of the shell 1, the upper end of the anti-blocking brush plate 301 is favorably brushed to remove accumulated dust and topple down, dust attached to the anti-blocking brush plate 301 is prevented, when the anti-blocking brush plate 301 is reset downwards, the anti-blocking brush plate 301 is attached to the heat removal filter plate 201 again, the situation that the heat removal filter plate 201 is blocked is reduced is ensured, when the anti-blocking brush plate 301 rotates downwards on the hinge shaft 302, the anti-blocking brush plate 301 is softer, the anti-blocking brush plate 301 can be overturned to the lower side of the auxiliary rod 405 from the upper side of the auxiliary rod 405, when the anti-blocking brush plate 301 rotates upwards, the anti-blocking brush plate 301 is prevented from contacting with the auxiliary plate 406, and the dust is prevented from being completely contacting the upper end of the anti-blocking brush plate 301, and the dust is prevented from being attached to the upper end of the computer.

In this embodiment, the backflow preventing mechanism 5 includes a nozzle strip 501 disposed at the upper end of the housing 1, with the outlet facing the heat rejection filter plate 201, an air bag 502 communicating with the nozzle strip 501 is fixedly mounted at the inner top end of the housing 1, vertical plates 503 are fixedly mounted at the front and rear sides of the upper end of the housing 1, the front and rear ends of the nozzle strip 501 are rotatably mounted on the vertical plates 503, torsion springs three 504 are sleeved at the front and rear ends of the nozzle strip 501, a roller 505 is fixedly mounted at the front end of the nozzle strip 501, a rope 506 is fixedly mounted on the roller 505 in a winding manner, an backflow preventing plate 507 is rotatably mounted at the left side of the nozzle strip 501 at the upper end of the housing 1, a push rod 508 is fixedly mounted at the middle part of the upper end of the swing strip 304 corresponding to the backflow preventing plate 507, and a through hole is formed at the upper end of the housing 1 corresponding to the push rod 508;

when in use, when the lifting plate 204 is lifted to the upper side in the shell 1, the lifting plate is matched with the top in the shell 1 to extrude the air bag 502, so that gas in the air bag 502 is sprayed out from the nozzle strips 501, the sprayed gas direction faces the heat extraction filter plate 201, the heat emitted from the interior of the heat extraction filter plate 201 is blown away to the direction far away from the air inlet filter plate 202, the heat emitted from the heat extraction filter plate 201 is prevented from floating to the air inlet filter plate 202 again when lifted, the heat enters the shell 1 from the air inlet filter plate 202 again, thereby effectively improving the heat dissipation quality of a computer, when the swinging strip 304 is lifted, the lifting rod 508 is also driven to lift, the lifting rod 508 is lifted to pass through the through holes in the upper end of the shell 1, and is contacted with the lower end of the backflow prevention plate 507 along with the continuous lifting of the lifting rod 508, and pushes the backflow prevention plate 507 to rotate upwards on the shell 1, at the moment, the backflow prevention plate 507 can block the heat emitted from the heat extraction filter plate 201, the heat is reduced to flow upwards from the upper side of the shell 1, when the backflow prevention plate 507 rotates upwards, the heat is also prevented from entering the air inlet filter plate 202 again, the situation that the rolling wire 506 is lifted to the shell 1 again, the rolling rod 505 is driven by the rolling up and the rolling rod 505, the rolling up roll 505 is driven by the rolling rod 505, the rolling up and the rolling rod 505 is driven by the rolling rod 505, the rolling up and the rolling up side is driven by the rolling up and the rolling rod 505, the heat is prevented from the rolling up and the rolling back plate is driven to rotate, and the heat is prevented from the upper side, and the heat is blown to rotate on the shell 1, and the heat is blown down through the heat. The heat dissipation quality of the computer is improved.

In this embodiment, the automatic push-out mechanism 6 includes a push-out plate 601 slidably mounted on an inner bottom end of the housing 1, connecting rods 602 are symmetrically hinged in front and back on an upper end of the push-out plate 601, a pressed plate 603 is hinged on an upper end of the connecting rods 602, the pressed plate 603 is slidably mounted on an inner wall of the housing 1, a spring 604 is fixedly mounted at a lower end of the pressed plate 603, a lower end of the spring 604 is fixedly mounted on the inner bottom end of the housing 1, a through groove 605 is formed on a lower side of a right end of the housing 1 corresponding to the push-out plate 601, a movable baffle 606 is hinged on a lower side of the right end of the housing 1 corresponding to the through groove 605, and reset torsion springs are sleeved on shafts at joints of the movable baffle 606 and the housing 1;

when the lifting plate 204 is used, when the lifting plate 204 descends, the forced pressing plate 603 is extruded, the spring 604 is compressed, the push-out plate 601 is pushed to slide towards the direction of the through groove 605 under the action of the connecting rod 602, the push-out plate 601 penetrates through the through groove 605 and extrudes the movable baffle 606 to enable the movable baffle 606 to rotate on the shell 1, the through groove 605 is communicated with the outside, dust scraped off the bottom in the shell 1 is pushed out of the through groove 605, automatic discharge of dust in the shell 1 is achieved, excessive dust accumulation is prevented, and the movable baffle 606 is attached to the heat removal filter plate 201 again, so that the heat dissipation quality of a computer can be improved.

Working principle:

when the invention is used, the starting motor 206 drives the reciprocating screw rod 205 to rotate, the reciprocating screw rod 205 drives the lifting plate 204 to reciprocate up and down, the lifting plate 204 drives the exhaust fan 203 to synchronously move, the exhaust fan 203 is started to blow heat in the shell 1 to the heat exhausting filter plate 201, the arranged heat exhausting filter plate 201 and the air inlet filter plate 202 realize air circulation in the computer, ensure that heat in the computer can be uniformly discharged from the heat exhausting filter plate 201 to the outside, realize high-efficiency heat dissipation in the computer, when the lifting plate 204 ascends, the rotating shaft 302 is driven to synchronously ascend, the rotating shaft 302 drives the anti-blocking brush plate 301 and the swinging bar 304 to synchronously ascend, the arranged anti-blocking brush plate 301 is convenient for brushing dust adhered on the heat exhausting filter plate 201, the normal heat dissipation of the computer is ensured, when the swinging bar 304 ascends, the left end and the right end of the swinging bar 304 are respectively contacted with triangular blocks 305 on two sides in sequence and extruded, further, the swing bar 304 and the rotating shaft 302 are driven to rotate on the lifting plate 204, the first compression torsion spring 303 and the rotating shaft 302 also drive the anti-blocking brush plate 301 to rotate, the first torsion spring 303 is arranged to reset the swing bar 304, the rotating shaft 302 and the anti-blocking brush plate 301, so that the anti-blocking brush plate 301 can reciprocate left and right in the lifting process, dust adhered on the heat removal filter plate 201 is conveniently brushed off, the dust removing quality is improved, the first magnetic block 403 is driven to lift when the anti-blocking brush plate 301 lifts, the first magnetic block 403 and the anti-blocking brush plate 301 are driven to rotate on the hinge shaft 401 under the repulsive force of the magnetic force when the first magnetic block 403 lifts to the lower side of the second magnetic block 404, the second torsion spring 402 is compressed, at this time, the anti-blocking brush plate 301 is inclined downwards, the right end of the anti-blocking brush plate 301 is separated from the inner wall of the casing 1, the anti-blocking brush plate 301 is favorable for brushing the accumulated dust downwards to topple over, the dust adhered on the anti-blocking brush plate 301 is avoided, when the anti-blocking brush plate 301 is reset downwards, the dust adhered on the heat rejection filter plate 201 is adhered again, the situation that the heat rejection filter plate 201 is blocked is reduced, the high-efficiency heat dissipation of a computer is ensured, when the anti-blocking brush plate 301 rotates downwards on the rotating shaft 302, the anti-blocking brush plate 301 is softer, the anti-blocking brush plate 301 can cross the lower side of the auxiliary rod 405 from the upper side of the auxiliary rod 405, when the anti-blocking brush plate 301 rotates upwards to reset, the upper end of the anti-blocking brush plate 301 is contacted with the auxiliary sheet 406, the dust at the upper end of the anti-blocking brush plate 301 is swept, the dust which is not completely dropped in an inclined way is prevented from being adhered on the anti-blocking brush plate 301, the heat dissipation quality of the computer is improved, when the lifting plate 204 ascends to the upper side in the shell 1, the lifting plate 204 is matched with the top in the shell 1 to squeeze the air bag 502, the air in the air bag 502 is sprayed out from the nozzle strips 501, the sprayed air direction is towards the heat extraction filter plate 201, the heat emitted from the interior of the heat extraction filter plate 201 is blown away from the air inlet filter plate 202, the situation that the heat emitted from the heat extraction filter plate 201 is floated towards the air inlet filter plate 202 again when rising and enters the interior of the shell 1 from the air inlet filter plate 202 again can be prevented, the heat dissipation quality of a computer is effectively improved, the ejector rods 508 are driven to rise when the swinging strips 304 rise, the ejector rods 508 rise and penetrate through the through holes at the upper end of the shell 1, the ejector rods 508 are contacted with the lower end of the backflow prevention plates 507 along with the continuous rising of the ejector rods 508, the backflow prevention plates 507 are pushed to rotate upwards on the shell 1, the backflow prevention plates 507 block the heat emitted from the heat extraction filter plate 201 at the moment, the heat is reduced to be floated towards the air inlet filter plate 202 again from the upper side of the shell 1 directly, and when the anti-backflow plate 507 rotates upwards, also can drive the roller 505 and the nozzle strip 501 through the coil 506 that sets up and take place to rotate on riser 503, compression torsional spring three 504, the nozzle strip 501 can rotate from down upwards and jet, be favorable to blowing off the heat of shell 1 upside fast, avoid the heat to enter into shell 1 from the filter plate 202 that admits air once more, when ejector pin 508 moves down and resets, can separate with anti-backflow plate 507, drive nozzle strip 501 under the effect of torsional spring three 504, roller 505 resets, roller 505 and gravity effect can drive the downward rotation reset of anti-backflow plate 507, can blow the heat of shell 1 upside again when anti-backflow plate 507 rotates downwards, make the heat keep away from the direction of inlet filter plate 202 once more, thereby reduce the backward flow of heat, the radiating quality of computer has been improved, when lifter plate 204 descends, can extrude to the forced clamp plate 603, compression spring 604, under the effect of connecting rod 602, can promote the ejector plate 601 to slide to the direction of passing through groove 605, ejector plate 601 can pass through the groove 605, and extrude movable baffle 606, make it extrude on the shell 606, it and can be favorable to the heat release the dust in the inside of the filter plate 605 from the groove 1 again, the inside is realized, the dust is deposited on the inside of the filter plate 605 is more than the inside is guaranteed to the computer, the inside is more is guaranteed, the dust is cooled down, and the inside is more is easy to be cooled down, and the inside is more than the inside is guaranteed, the machine is more than the machine is easy to be cooled down, and has the machine is easy to move down.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The intelligent heat dissipation system for the computer is characterized by comprising a shell (1), a heat dissipation mechanism (2), an anti-blocking mechanism (3), an auxiliary mechanism (4), a backflow prevention mechanism (5) and an automatic pushing mechanism (6).

2. The intelligent heat dissipation system of a computer according to claim 1, wherein the heat dissipation mechanism (2) comprises a heat removal filter plate (201) arranged on an air outlet at the right end of the casing (1), an air inlet filter plate (202) is arranged on an air inlet at the upper end of the casing (1), an exhaust fan (203) is arranged on the right side of the casing (1) corresponding to the heat removal filter plate (201), lifting plates (204) are fixedly arranged at the front end and the rear end of the exhaust fan (203), the front end and the rear end of the lifting plates (204) are both in sliding connection with the casing (1), a reciprocating screw rod (205) is arranged on the rear side of the lifting plates (204) in a threaded manner, a motor (206) is arranged at the lower end of the reciprocating screw rod (205), and the lower end of the motor (206) is fixedly arranged on the casing (1).

3. The intelligent heat dissipation system of a computer according to claim 1, wherein the anti-blocking mechanism (3) comprises an anti-blocking brush plate (301) which is arranged inside the shell (1) and is mutually attached to the right end of the inner wall of the shell (1), a rotating shaft (302) is arranged at the left end of the anti-blocking brush plate (301), the middle part of the rotating shaft (302) is rotatably arranged at the lower end of the lifting plate (204), a torsion spring (303) is sleeved on the left side of the rotating shaft (302), a swinging strip (304) is fixedly arranged at the left end of the rotating shaft (302), and a plurality of triangular blocks (305) are fixedly arranged on the front side and the rear side of the inner wall of the shell (1) corresponding to the swinging strip (304) at equal interval in a staggered manner.

4. The intelligent heat dissipation system of a computer according to claim 1, wherein the auxiliary mechanism (4) comprises a hinge shaft (401) fixedly installed on the right side of the rotating shaft (302), the anti-blocking brush plate (301) is rotatably connected with the middle part of the hinge shaft (401), torsion springs (402) are sleeved on the front side and the rear side of the hinge shaft (401), a first magnetic block (403) is fixedly installed in the middle of the upper end of the anti-blocking brush plate (301), a second magnetic block (404) is fixedly installed on the inner top end of the shell (1) corresponding to the first magnetic block (403), an auxiliary rod (405) is fixedly installed on the rear end of the rotating shaft (302) corresponding to the anti-blocking brush plate (301), the auxiliary rod (405) is located on the lower side of the anti-blocking brush plate (301), and a plurality of auxiliary pieces (406) are fixedly installed on the lower end of the auxiliary rod (405).

5. The intelligent heat dissipation system of a computer according to claim 1, wherein the backflow prevention mechanism (5) comprises a nozzle bar (501) arranged at the upper end of the casing (1) and with an outlet facing the heat removal filter plate (201), an air bag (502) communicated with the nozzle bar (501) is fixedly arranged at the inner top end of the casing (1), a vertical plate (503) is fixedly arranged at the front side and the rear side of the upper end of the casing (1), the front end and the rear end of the nozzle bar (501) are rotatably arranged on the vertical plate (503) in a penetrating manner, torsion springs (three) (504) are respectively sleeved at the front end and the rear end of the nozzle bar (501), a winding roller (505) is fixedly arranged on the winding roller (505), the upper end of the casing (1) is positioned at the left side of the nozzle bar (501) and is rotatably provided with an backflow prevention plate (507), the middle part of the upper end of the swinging bar (304) is fixedly provided with a vertical rod (507), and the upper end of the casing (1) is correspondingly provided with a through hole.

6. The intelligent heat dissipation system of a computer according to claim 1, wherein the automatic pushing mechanism (6) comprises a pushing plate (601) slidably mounted on the inner bottom of the casing (1), connecting rods (602) are symmetrically hinged to the upper end of the pushing plate (601), a pressed plate (603) is hinged to the upper end of the connecting rods (602), the pressed plate (603) is slidably mounted on the inner wall of the casing (1), a spring (604) is fixedly mounted at the lower end of the pressed plate (603), the lower end of the spring (604) is fixedly mounted on the inner bottom of the casing (1), through grooves (605) are formed in the lower side of the right end of the casing (1) corresponding to the pushing plate (601), movable baffles (606) are hinged to the lower side of the right end of the casing (1), and reset torsion springs are sleeved on shafts at the joints of the movable baffles (606) and the casing (1).