CN114461043B

CN114461043B - WEB system data mining system based on WEB crawlers

Info

Publication number: CN114461043B
Application number: CN202210078447.5A
Authority: CN
Inventors: 陈崇君; 保志荣; 王妙龄; 季嘉辉; 黄思奇; 林建丰
Original assignee: Shanwei Power Supply Bureau of Guangdong Power Grid Co Ltd
Current assignee: Shanwei Power Supply Bureau of Guangdong Power Grid Co Ltd
Priority date: 2022-01-24
Filing date: 2022-01-24
Publication date: 2023-12-26
Anticipated expiration: 2042-01-24
Also published as: CN114461043A

Abstract

The invention discloses a WEB system data mining system based on a WEB crawler, relates to the technical field of power grid operation data mining devices, and solves the problems that when electronic data in a power grid are mined through the WEB crawler, the workload of operation of internal elements of the device is large, overheating phenomenon is easy to occur, but the whole heat dissipation mechanism of the device is simple and a heat dissipation channel is insufficient. The utility model provides a WEB system data mining system based on WEB crawler, includes the device main part, the inside of device main part is provided with the component installation storehouse, the place ahead in component installation storehouse is provided with the dust screen installation draw-in groove, the inboard of dust screen installation draw-in groove is inlayed and is provided with the dust screen. The invention can quickly increase the number of the radiating channels of the device by arranging the ejecting radiating mechanism, the auxiliary dust removing mechanism and the radiating fan, accelerate the radiation of the internal elements of the device and avoid the occurrence of faults or short circuits caused by the overheating of the internal elements of the device.

Description

WEB system data mining system based on WEB crawlers

Technical Field

The invention relates to the technical field of power grid operation data mining devices, in particular to a WEB system data mining system based on a WEB crawler.

Background

With the rapid development of social economy, the whole body formed by power transformation stations and power transmission and distribution lines of various voltages in a power system is called a power grid, the power grid comprises three units of power transformation, power transmission and power distribution, the power grid is used for transmitting and distributing electric energy, voltage is changed, a WEB crawler (also called a WEB spider and a WEB robot and more frequently called a WEB chaser in the middle of a FOAF community) is a program or script for automatically capturing WEB information according to a certain rule, and a WEB system data mining system refers to equipment for mining data on a network through a WEB crawler principle.

However, when the existing network crawlers excavate the electronic data in the power grid, the workload of the operation of the internal elements of the device is large, the overheat phenomenon is very easy to occur, but the whole heat dissipation mechanism of the device is simple and the heat dissipation channel is insufficient; therefore, the existing requirements are not met, and a WEB system data mining system based on a WEB crawler is provided.

Disclosure of Invention

The invention aims to provide a WEB system data mining system based on a WEB crawler, which aims to solve the problems that when the existing technology is used for mining electronic data in a power grid through the WEB crawler, the workload of the operation of internal elements of the device is large, the phenomenon of overheating is easy to occur, but the whole heat dissipation mechanism of the device is simple, the heat dissipation channel is insufficient and the like.

In order to achieve the above purpose, the present invention provides the following technical solutions: the WEB system data mining system based on the WEB crawler comprises a device main body, wherein an element installation bin is arranged in the device main body, a dust screen installation clamping groove is formed in the front of the element installation bin, a dust screen is inlaid in the inner side of the dust screen installation clamping groove, two symmetrically distributed lifting sliding grooves are formed in the inner wall, close to the dust screen installation clamping groove, of the element installation bin, a USB interface is arranged on the upper surface of the device main body, and an auxiliary dust cleaning mechanism is arranged in the middle of the element installation bin;

the auxiliary dust cleaning mechanism comprises a lifting air outlet plate, a plurality of air nozzles which are arranged at equal intervals are arranged on the front surface of the lifting air outlet plate, a connecting air pipe is arranged on the upper surface of the lifting air outlet plate, one end of the connecting air pipe penetrates into the top end of the device main body from the inner top surface of the component mounting bin and then penetrates out of the upper surface of the device main body to be connected with an air pump from the inner top surface of the component mounting bin, lifting sliding blocks are arranged at two ends of the lifting air outlet plate, the two lifting sliding blocks are respectively clamped in the two lifting sliding grooves and are in sliding connection with the lifting sliding grooves, lifting screws are arranged in the middle of the lifting sliding blocks in a penetrating mode, two ends of each lifting screw are inserted into the device main body and the outer surface of the bottom end of each lifting screw is provided with a synchronous worm wheel, a synchronous worm gear meshed with the synchronous worm is arranged at the rear of each synchronous worm wheel in a transmission mode, a driving gear is arranged on the outer surface of the middle of each synchronous worm gear, a driving gear meshed with the worm gear is arranged below the side of each worm gear, and one end of each driving gear is provided with a driving motor;

the device comprises a device body, wherein two sides of the device body are respectively provided with a storage groove, a cooling fan is arranged between each storage groove and each element installation bin, a popping-up cooling mechanism is movably arranged in the middle of each storage groove, each popping-up cooling mechanism comprises a square electromagnet, the center line of the inner side of the side surface of the device body is arranged to coincide with the axis of each element installation bin, one side of each square electromagnet is provided with a permanent magnet, each permanent magnet is magnetically connected with each square electromagnet, the outer side of each permanent magnet is provided with a limiting plate, the other end of each limiting plate is provided with a connecting rod, one end of each connecting rod penetrates through the device body, the end face of each outer end of each connecting rod is provided with a sealing side plate, the surface of each sealing side plate, which faces the storage groove, is provided with a cooling frame, and each cooling frame is inserted into the inner side of each storage groove and is in sliding connection with the corresponding storage groove;

the dustproof heat dissipation device is characterized in that dustproof sheets are arranged on the front surface and the rear surface of the heat dissipation frame in an embedded mode, a moving sliding groove is formed in two sides of the dustproof sheets, a cleaning rolling brush is movably arranged in the middle of the moving sliding groove, a connecting rotating shaft is arranged in the middle of the cleaning rolling brush in a penetrating mode, one of the cleaning rolling brushes is movably provided with a power sliding block, a cleaning screw rod is arranged in the middle of the power sliding block in a penetrating mode, a gear strip is arranged on one side, away from the cleaning rolling brush, of the cleaning screw rod, the end portion, close to the power sliding block, of the connecting rotating shaft penetrates through the power sliding block, a transmission gear is arranged on the end face of the connecting rotating shaft, and the transmission gear is meshed with the gear strip in a maintaining mode.

Preferably, the connecting air pipe is provided with the connecting axle in the middle of the inside part in device main part top, be provided with the direction spout of symmetric distribution in the top inner wall of device main part, the mutual symmetry the direction spout is located the both sides of connecting axle, the both ends of connecting axle all are provided with the direction slider, direction slider joint is inboard and the device main part sliding connection in the direction spout.

Preferably, a connecting shaft is arranged in the middle of the guide sliding block in a penetrating way, two ends of the connecting shaft are fixed on end faces of two ends of the guide sliding grooves, and guide rods are arranged in the guide sliding grooves; and a return spring is sleeved outside one end of the guide rod, and one end of the return spring is contacted with the guide sliding block.

Preferably, the center department of power slider is provided with the screw hole that link up from top to bottom, still be provided with on the power slider and link up about the locating hole, clean screw passes the screw hole and is connected with the power slider, the one end of connecting the pivot is connected with the power slider through the locating hole and the tip runs through the inside that the power slider extends to the motion spout.

Preferably, threads which are in the same rotation direction as the outer surface of the cleaning screw rod are arranged on the inner side of the threaded hole, and the cleaning screw rod and the power sliding block are in threaded transmission.

Preferably, the other end of the connecting rotating shaft is provided with a supporting sliding block, and the thickness dimension of the supporting sliding block is consistent with the thickness dimension of the moving chute and is in sliding connection with the moving chute.

Preferably, the bottom of clean screw rod is pegged graft in the inside of heat dissipation frame and bottom one side is provided with synchronous motor, synchronous motor's tip and clean screw rod's bottom surface all are provided with power gear, two intermeshing between the power gear, electric connection between synchronous motor, radiator fan and the square electro-magnet three, square electro-magnet is independent power supply.

Preferably, a temperature sensor is arranged on the inner wall of the element mounting bin, and the temperature sensor is electrically connected with the square electromagnet.

Preferably, ejection springs are arranged on the outer sides of four end corners of the square electromagnet, and one end of each ejection spring is in contact with the limiting plate.

Preferably, positioning columns are arranged inside the two ends of the ejection spring, and the positioning length is consistent with the thickness dimension of the square electromagnet.

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

1. when the running temperature of the internal element of the device is increased to a certain value, the square electromagnet is powered off, the heat radiation fan and the synchronous motor are powered on, the heat radiation frame is ejected from the storage groove under the drive of the connecting rod and the sealing side plate due to the fact that the magnetic adsorption of the permanent magnet is lost when the square electromagnet is powered off, meanwhile, the heat radiation fan disperses hot air in the element mounting bin into the external environment, then the cleaning screw rotates to drive the power sliding block to move up and down, so that the connecting rotating shaft of the power sliding block moves to enable the transmission gear to move synchronously, the connecting rotating shaft and the cleaning rolling brush are driven to rotate through the transmission gear, the dust-proof sheet is cleaned from inside, the number of heat radiation channels of the device can be increased rapidly, heat radiation of the internal element of the device is accelerated, faults or short circuits caused by overheating of the internal element of the device are avoided, and the heat radiation holes are prevented from being blocked;

2. according to the invention, in the starting process of the device or in the process that the heat dissipation frame ejects out of the accelerating device to dissipate heat, the dust screen always keeps the air flow entering, at the moment, the power supply of the driving motor and the air pump is switched on and started, so that the driving motor drives the driving gear and the worm gear to rotate, the synchronous worm drives the two synchronous worm gears to rotate, the lifting screw rotates, at the moment, the lifting screw drives the lifting sliding block to move along the outer surface of the lifting sliding block, so that the lifting sliding block drives the lifting air outlet plate and the air nozzle to synchronously move, the air pump can send the air flow into the lifting air outlet plate through the connecting air pipe, and then the air nozzle on the front surface of the lifting air outlet plate blows out the lifting air outlet plate, so that dust intercepted in the dust screen filtering mesh is cleaned from inside outwards, the dust screen always keeps unblocked, and unblocked in the heat dissipation process of the device is ensured.

Drawings

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

FIG. 2 is a schematic view of the overall partial structure of the present invention;

FIG. 3 is a schematic view of the auxiliary dust cleaning mechanism of the present invention;

FIG. 4 is a schematic view of a part of the auxiliary dust removing mechanism of the present invention;

FIG. 5 is a schematic diagram of a pop-up heat dissipation mechanism according to the present invention;

fig. 6 is an enlarged view of the structure of fig. 5 a according to the present invention.

In the figure: 1. a device body; 2. a USB interface; 3. a dust screen; 4. an auxiliary dust cleaning mechanism; 401. connecting an air pipe; 402. lifting the air outlet plate; 403. an air nozzle; 404. a lifting slide block; 405. lifting screw rods; 406. a synchronous worm wheel; 407. a synchronizing worm; 408. a worm gear; 409. a drive gear; 410. a driving motor; 411. a connecting shaft; 412. a guide slide block; 413. a return spring; 414. a guide rod; 5. a heat dissipation mechanism can be popped up; 501. sealing the side plates; 502. a connecting rod; 503. a heat dissipation frame; 504. a dust-proof sheet; 505. a limiting plate; 506. a permanent magnet; 507. square electromagnet; 508. cleaning a rolling brush; 509. the connecting rotating shaft; 510. a movement chute; 511. a power slide block; 512. cleaning a screw; 513. a gear strip; 514. a transmission gear; 515. an ejector spring; 6. the dustproof net is provided with a clamping groove; 7. lifting sliding grooves; 8. a guide chute; 9. a component mounting bin; 10. a heat radiation fan; 11. and a storage groove.

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.

The drive motor 410 (model ncv-400-60C) and the synchronous motor (model 5IK60 RGN-CF) of the present invention are available commercially or custom made.

Referring to fig. 1 to 6, an embodiment of the present invention provides: the WEB system data mining system based on the WEB crawler comprises a device main body 1, wherein an element installation bin 9 is arranged in the device main body 1, a dust screen installation clamping groove 6 is arranged in front of the element installation bin 9, a dust screen 3 is embedded in the inner side of the dust screen installation clamping groove 6, two symmetrically distributed lifting sliding grooves 7 are formed in the inner wall, close to the dust screen installation clamping groove 6, of the element installation bin 9, a USB interface 2 is arranged on the upper surface of the device main body 1, and an auxiliary dust cleaning mechanism 4 is arranged in the middle of the element installation bin 9;

the auxiliary dust cleaning mechanism 4 comprises a lifting air outlet plate 402, a plurality of air nozzles 403 which are arranged at equal intervals are arranged on the front surface of the lifting air outlet plate 402, a connecting air pipe 401 is arranged on the upper surface of the lifting air outlet plate 402, one end of the connecting air pipe 401 penetrates into the top end of the device main body 1 from the inner top surface of the component mounting bin 9 and then penetrates out of the upper surface of the device main body 1 to be connected with an air pump, lifting sliding blocks 404 are arranged at two ends of the lifting air outlet plate 402, the two lifting sliding blocks 404 are respectively clamped in the two lifting sliding grooves 7 and are in sliding connection with the lifting sliding grooves 7, lifting screws 405 are arranged in the middle of the lifting sliding blocks 404 in a penetrating manner, two ends of the lifting screws 405 are inserted into the device main body 1 and are provided with synchronous worm gears 406 on the outer surfaces of the bottom ends, a synchronous worm 407 is meshed with the synchronous worm gears 407 in a transmission manner, a driving gear 409 is arranged on the middle outer surface of the synchronous worm gears 408, a driving gear 409 meshed with the worm gears 409 is arranged below the sides of the worm gears 408, and one end of the driving gear 409 is provided with a driving motor 410;

the device comprises a device main body 1, wherein two sides of the device main body 1 are respectively provided with a storage groove 11, a cooling fan 10 is arranged between the storage grooves 11 and an element mounting bin 9, an ejectable cooling mechanism 5 is movably arranged in the middle of the storage grooves 11, the ejectable cooling mechanism 5 comprises square electromagnets 507, the center lines of the inner sides of the side surfaces of the device main body 1 are overlapped with the axes of the element mounting bin 9, one sides of the square electromagnets 507 are provided with permanent magnets 506, the permanent magnets 506 are magnetically connected with the square electromagnets 507, limiting plates 505 are arranged on the outer sides of the permanent magnets 506, connecting rods 502 are arranged at the other ends of the limiting plates 505, one ends of the connecting rods 502 penetrate through the device main body 1, sealing side plates 501 are arranged on the end faces of the outer ends of the connecting rods, cooling frames 503 are arranged on the surfaces of the sealing side plates 501 facing the storage grooves 11, and the cooling frames 503 are inserted into the inner sides of the storage grooves 11 and are in sliding connection with the storage grooves 11;

the front and back surfaces of the heat dissipation frame 503 are embedded with dust-proof sheets 504, both sides of the dust-proof sheets 504 are provided with moving slide grooves 510, a cleaning rolling brush 508 is movably arranged in the middle of the two moving slide grooves 510, a connecting rotating shaft 509 is arranged in the middle of the cleaning rolling brush 508 in a penetrating manner, a power slide block 511 is movably arranged in the inner side of one moving slide groove 510, a cleaning screw 512 is arranged in the middle of the power slide block 511 in a penetrating manner, a gear strip 513 is arranged on one side, far away from the cleaning rolling brush 508, of the cleaning screw 512, a transmission gear 514 is arranged on the end part, close to the power slide block 511, of the connecting rotating shaft 509 in a penetrating manner, of the power slide block 511, and the end face of the end face is provided with a transmission gear 514, and the transmission gear 514 is meshed with the gear strip 513.

Further, a connecting shaft 411 is arranged in the middle of the portion of the connecting air pipe 401 located inside the top end of the device main body 1, symmetrically distributed guide sliding grooves 8 are formed in the inner wall of the top end of the device main body 1, the mutually symmetrical guide sliding grooves 8 are located on two sides of the connecting shaft 411, guide sliding blocks 412 are arranged at two ends of the connecting shaft 411, the guide sliding blocks 412 are clamped inside the guide sliding grooves 8 and are in sliding connection with the device main body 1, the guide sliding blocks 412 support the connecting shaft 411, and the connecting shaft 411 is guided when the connecting shaft 411 moves along with the stretching of the connecting air pipe 401.

Further, a connecting shaft 411 is arranged in the middle of the guide sliding block 412 in a penetrating manner, two ends of the connecting shaft 411 are fixed on two end surfaces of the guide sliding grooves 8, and guide rods 414 are arranged in the guide sliding grooves 8; the outside cover of one end of guide bar 414 has reset spring 413, and reset spring 413's one end and guide slider 412 contact, and reset spring 413 can go on the guide slider 412 when lift air outlet plate 402 upwards removes from the bottom for the connecting trachea 401 is located the inside part of device main part 1 can not appear slackening.

Further, the center department of power slider 511 is provided with the screw hole that link up from top to bottom, still be provided with the locating hole that link up from side to side on the power slider 511, clean screw 512 passes the screw hole and is connected with power slider 511, and the one end of connecting pivot 509 is connected and the tip runs through the inside that power slider 511 extends to motion spout 510 through the locating hole, through being provided with screw hole and locating hole and dislocation each other between two holes, can guarantee that clean screw 512 can not contact before with connecting pivot 509, avoid each other interfering.

Further, the inner side of the threaded hole is provided with threads which are in the same rotation direction with the outer surface of the cleaning screw rod 512, the cleaning screw rod 512 and the power sliding block 511 are in threaded transmission, the power sliding block 511 can be driven to move along the axis of the power sliding block 511 after the cleaning screw rod 512 is stressed to rotate, and the cleaning rolling brush 508 is adjusted to clean the dust-proof sheet 504.

Further, the other end of the connecting rotating shaft 509 is provided with a supporting slide block, the thickness dimension of the supporting slide block is consistent with the thickness dimension of the moving chute 510 and is in sliding connection with the moving chute 510, and the supporting slide block can be matched with the power slide block 511 to support the cleaning rolling brush 508, so that the cleaning rolling brush 508 is ensured not to incline.

Further, the bottom of clean screw 512 is pegged graft in the inside of heat dissipation frame 503 and bottom one side is provided with synchronous motor, synchronous motor's tip and clean screw 512's bottom surface all are provided with power gear, intermesh between two power gears, electric connection between synchronous motor, radiator fan 10 and the square electro-magnet 507 three, square electro-magnet 507 is independent power, guarantee when heat dissipation frame 503 pops up storage tank 11 after square electro-magnet 507 outage, radiator fan 10 and synchronous motor can start simultaneously, dispel the heat to the inside acceleration of device.

Further, be provided with temperature sensor on the inner wall of component mounting storehouse 9, electric connection between temperature sensor and the square electro-magnet 507 can be when the inside temperature value that reaches of device, dispel the heat automatically, need not the manual work and control more intelligent.

Further, ejection springs 515 are arranged at the outer sides of four end corners of the square electromagnet 507, one end of each ejection spring 515 is in contact with the corresponding limiting plate 505, and when the magnetic attraction force to the permanent magnet 506 is lost after the square electromagnet 507 is powered off, the ejection springs 515 push the corresponding limiting plates 505, so that the limiting plates 505 drive the connecting rods 502 to eject out of the device main body 1, and the heat dissipation frame 503 is ejected out of the storage groove 11.

Further, positioning columns are arranged inside two ends of the ejection spring 515, the positioning length is consistent with the thickness dimension of the square electromagnet 507, the ejection spring 515 is guaranteed not to fall from the middle of the limiting plate 505 and the device main body 1 in the compression and elastic recovery process, and the surface ejection spring 515 interferes with the contact between the permanent magnet 506 and the square electromagnet 507.

Working principle: when the intelligent power supply is used, the whole power supply of the device is firstly connected, then a WEB system data mining system preset by electronic elements in the device is started, data mining is carried out on the operation of a power grid through a WEB crawler of the WEB system data mining system, and when the temperature of the electronic elements rises to a certain temperature due to overlarge operation amount in the electronic elements in the process of carrying out data mining, the power supply connected with the square electromagnet 507 is disconnected;

when the square electromagnet 507 is powered off, the square electromagnet 507 does not magnetically adsorb the permanent magnet 506, at the moment, the ejection spring 515 which is compressed originally elastically recovers to drive the permanent magnet 506 to be far away from the square electromagnet 507, so that the permanent magnet 506 drives the limiting plate 505 to move, meanwhile, the limiting plate 505 drives the connecting rod 502 to eject from the inside of the device main body 1, the connecting rod 502 drives the sealing side plate 501 to move, so that the sealing side plate 501 pulls out the heat dissipation frame 503 from the storage groove 11, when the square electromagnet 507 is powered off, the heat dissipation fan 10 is electrified and started, heat generated by electronic elements in the device main body 1 is extracted to the external environment, and the heat enters the external environment through the dustproof sheets 504 which are ejected out of the front surface and the rear surface of the heat dissipation frame 503 of the storage groove 11, so that the heat dissipation in the device can be accelerated, and overheating of the device is avoided;

when the radiator fan 10 is electrified and the square electromagnet 507 is powered off, the synchronous motor is electrified and started, at the moment, the synchronous motor drives the cleaning screw rod 512 to rotate through the power gear, so that the cleaning screw rod 512 drives the power sliding block 511 to move up and down along the central axis of the cleaning screw rod, at the moment, the power sliding block 511 drives the connecting rotating shaft 509 to synchronously move, so that the connecting rotating shaft 509 drives the transmission gear 514 to be attached to the gear strip 513 to move, the transmission gear 514 drives the connecting rotating shaft 509 to rotate when moving, the connecting rotating shaft 509 drives the cleaning rolling brush 508 to rotate around the central axis of the transmission gear 514, and the rotating cleaning rolling brush 508 contacts the inner surface of the dust-proof sheet 504 and cleans the dust-proof sheet 504 from the inside when moving up and down, dust in the air is prevented from accumulating inside meshes of the dust-proof sheet 504, the number of heat dissipation channels of the device can be rapidly increased, heat dissipation of internal elements of the device is accelerated, faults or short circuits caused by overheating of internal elements of the device are prevented, and heat dissipation holes are prevented from being blocked.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a WEB system data mining system based on WEB crawler, includes device main part (1), its characterized in that: the device comprises a device body (1), wherein an element installation bin (9) is arranged in the device body (1), a dust screen installation clamping groove (6) is formed in the front of the element installation bin (9), a dust screen (3) is inlaid in the inner side of the dust screen installation clamping groove (6), two symmetrically-distributed lifting sliding grooves (7) are formed in the inner wall, close to the dust screen installation clamping groove (6), of the element installation bin (9), a USB interface (2) is arranged on the upper surface of the device body (1), and an auxiliary dust cleaning mechanism (4) is arranged in the middle of the element installation bin (9);

the auxiliary dust cleaning mechanism (4) comprises a lifting air outlet plate (402), a plurality of air nozzles (403) which are arranged at equal intervals are arranged on the front surface of the lifting air outlet plate (402), a connecting air pipe (401) is arranged on the upper surface of the lifting air outlet plate (402), one end of the connecting air pipe (401) is connected with the lifting air outlet plate (402), the other end of the connecting air pipe penetrates into the top end of the device main body (1) from the inner top surface of the component mounting bin (9), then penetrates out of the upper surface of the device main body (1) and is connected with an air pump, lifting sliding blocks (404) are arranged at two ends of the lifting air outlet plate (402), two lifting sliding blocks (404) are respectively clamped inside two lifting sliding grooves (7) and are in sliding connection with the lifting sliding grooves (7), lifting screws (405) are arranged in a penetrating mode in the middle of the lifting sliding blocks (404), two ends of each lifting screw (405) are inserted into the device main body (1), a synchronous worm (406) is arranged at the outer surface of the bottom end, a worm is arranged at the rear of the synchronous worm and keeps meshed with the inner surface of the device main body (9), the synchronous worm is arranged on the outer surface of the synchronous worm (407), a worm gear (408) is arranged on the middle of the worm gear (407), a worm gear (408) is meshed with a driving gear (409), and a driving gear (409) is arranged on the side of the worm driving gear (409);

the device comprises a device body (1), wherein two sides of the device body (1) are respectively provided with a storage groove (11), a heat radiation fan (10) is arranged between the storage grooves (11) and an element installation bin (9), a poppable heat radiation mechanism (5) is movably arranged in the middle of the storage grooves (11), the poppable heat radiation mechanism (5) comprises square electromagnets (507), the center lines of the inner sides of the device body (1) are overlapped with the axis of the element installation bin (9), one sides of the square electromagnets (507) are provided with permanent magnets (506), the permanent magnets (506) are magnetically connected with the square electromagnets (507), limiting plates (505) are arranged on the outer sides of the permanent magnets (506), connecting rods (502) are arranged at the other ends of the limiting plates (505), one ends of the connecting rods (502) penetrate through the device body (1) and the outer end faces of the sealing side plates (501), heat radiation frames (503) are arranged on the surfaces of the sealing side plates (501) facing the storage grooves (11), and the inner sides of the storage grooves (11) are connected with the storage grooves (11) in a sliding mode;

the novel heat dissipation device is characterized in that dust-proof sheets (504) are arranged on the front surface and the rear surface of the heat dissipation frame (503) in an embedded mode, moving sliding grooves (510) are formed in two sides of each dust-proof sheet (504), a cleaning rolling brush (508) is movably arranged in the middle of each moving sliding groove (510), a connecting rotating shaft (509) is arranged in the middle of each cleaning rolling brush (508) in a penetrating mode, a power sliding block (511) is movably arranged on the inner side of each moving sliding groove (510), a cleaning screw rod (512) is arranged in the middle of each power sliding block (511) in a penetrating mode, a gear strip (513) is arranged on one side, far away from each cleaning rolling brush (508), of each cleaning screw rod (512) and a transmission gear (514) is arranged on the end portion, close to each power sliding block (511), of each connecting rotating shaft (509) in a penetrating mode, of each end face of each power sliding block (511) is provided with a transmission gear (514), and each gear strip (513) in a meshed mode.

2. The WEB system data mining system based on a WEB crawler of claim 1, wherein: connecting trachea (401) are provided with connecting axle (411) in the middle of the inside part in device main part (1) top, be provided with symmetrically distributed's direction spout (8) in the top inner wall of device main part (1), mutual symmetry direction spout (8) are located the both sides of connecting axle (411), the both ends of connecting axle (411) all are provided with direction slider (412), direction slider (412) joint is at direction spout (8) inboard and device main part (1) sliding connection.

3. The WEB system data mining system based on a WEB crawler of claim 2, wherein: a connecting shaft (411) is arranged in the middle of the guide sliding block (412) in a penetrating way, two ends of the connecting shaft (411) are fixed on end faces of two ends of the guide sliding grooves (8), and guide rods (414) are arranged in the guide sliding grooves (8); a return spring (413) is sleeved outside one end of the guide rod (414), and one end of the return spring (413) is in contact with the guide sliding block (412).

4. The WEB system data mining system based on a WEB crawler of claim 1, wherein: the center department of power slider (511) is provided with the screw hole that link up from top to bottom, still be provided with the locating hole that link up from side to side on power slider (511), clean screw rod (512) pass the screw hole and are connected with power slider (511), the one end of connecting pivot (509) is connected with power slider (511) through the locating hole and the tip runs through the inside that power slider (511) extends to motion spout (510).

5. The WEB system data mining system based on a WEB crawler of claim 4, wherein: the inner side of the threaded hole is provided with threads which are in the same rotation direction as the outer surface of the cleaning screw rod (512), and the cleaning screw rod (512) and the power sliding block (511) are in threaded transmission.

6. The WEB system data mining system based on a WEB crawler of claim 4, wherein: the other end of the connecting rotating shaft (509) is provided with a supporting sliding block, and the thickness dimension of the supporting sliding block is consistent with the thickness dimension of the moving sliding groove (510) and is in sliding connection with the moving sliding groove (510).

7. The WEB system data mining system based on a WEB crawler of claim 1, wherein: the bottom of clean screw rod (512) is pegged graft in the inside of heat dissipation frame (503) and bottom one side is provided with synchronous motor, synchronous motor's tip and clean screw rod (512) bottom surface all are provided with power gear, two intermeshing between the power gear, electric connection between synchronous motor, radiator fan (10) and square electro-magnet (507) three, square electro-magnet (507) are independent power.

8. The WEB system data mining system based on a WEB crawler of claim 1, wherein: the inner wall of the element installation bin (9) is provided with a temperature sensor, and the temperature sensor is electrically connected with the square electromagnet (507).

9. The WEB system data mining system based on a WEB crawler of claim 1, wherein: ejection springs (515) are arranged on the outer sides of four end corners of the square electromagnet (507), and one end of each ejection spring (515) is in contact with the limiting plate (505).

10. The WEB system data mining system based on a WEB crawler of claim 9, wherein: positioning columns are arranged inside two ends of the ejection spring (515), and the positioning length is consistent with the thickness of the square electromagnet (507).