CN112068662A - Device for overload cooling and dust removal of computer case - Google Patents

Abstract

The invention discloses a device for overload cooling and dust removal of a computer case, which comprises a case and is characterized in that: the cooling dedusting system comprises a chassis, a cooling dedusting cavity with an upward opening is arranged in the chassis, a placing plate is fixedly connected to the rear wall of the cooling dedusting cavity, a driving motor is fixedly connected to the lower wall of the cooling dedusting cavity, the upper end of the driving motor is in power connection with a driving shaft, an inner core cavity is arranged in the placing plate, the driving shaft extends upwards into the inner core cavity, and the upper end of the driving shaft is rotatably connected into the upper wall of the inner core cavity.

Description

Device for overload cooling and dust removal of computer case

Technical Field

The invention relates to the field of computers, in particular to a device for overload cooling and dust removal of a computer case.

Background

In a general computer case, all parts in the case are usually connected together, when the case is overheated, the parts can be short-circuited due to overheating, when one part has a problem, the use of the whole computer is crashed, the use efficiency is reduced in the use process, and the parts in the computer case need to be completely disassembled for maintenance, so that the maintenance cost is increased.

Disclosure of Invention

In order to solve the above problems, the present embodiment provides a computer case overload cooling and dust removing device, which comprises a case, a cooling and dust removing cavity with an upward opening is arranged in the case, a placing plate is fixedly connected to the rear wall of the cooling and dust removing cavity, a driving motor is fixedly connected to the lower wall of the cooling and dust removing cavity, a driving shaft is dynamically connected to the upper end of the driving motor, a core cavity is arranged in the placing plate, the driving shaft extends upward into the core cavity, the upper end of the driving shaft is rotatably connected to the upper wall of the core cavity, two large cams are fixedly connected to the outer peripheral surface of the driving shaft, the two large cams are vertically and symmetrically distributed by taking the horizontal central line of the core cavity as a symmetric center, two small cams are fixedly connected to the outer peripheral surface of the driving shaft, and the two small cams are vertically and symmetrically distributed by taking the horizontal central line of the core cavity as a symmetric center, the outer peripheral surface of the driving shaft is rotatably connected with a stabilizing block, one end of the stabilizing block, which is far away from each other, is fixedly connected with a tension spring, one end of the tension spring, which is far away from the center line of the inner nuclear cavity, on the left side is fixedly connected with a dedusting inner core, one end of the tension spring, which is far away from the center line of the inner nuclear cavity, on the right side is fixedly connected with a cooling inner core, the lower ends of the dedusting inner core and the cooling inner core are in sliding connection with the lower wall of the inner nuclear cavity, the rear ends of the large cam and the small cam are in contact connection with the front ends of the dedusting inner core and the cooling inner core, the upper wall of the inner nuclear cavity is fixedly connected with two support frames, the two support frames are symmetrically distributed left and right by taking the center line of the inner nuclear cavity as a symmetric center, the lower ends of the side bevel gears are meshed and connected with one end of the middle bevel gear, which is far away from each other, the end of the front rotating shaft, which is far away from each other, is fixedly connected with a front bevel gear, the upper wall of the inner core cavity is fixedly connected with two rear frames, the two rear frames are symmetrically distributed and arranged in a bilateral mode by taking the center line of the inner core cavity as a symmetry center, the inner peripheral surface of each rear frame is rotatably connected with a rear rotating shaft, the outer peripheral surface of each rear rotating shaft is fixedly connected with a rolling gate roller, the outer peripheral surface of the rolling gate roller is wound and connected with a rolling plate, the rolling plate extends downwards and is fixedly connected with an attraction block, the lower end of the attraction block is magnetically connected with the upper end surface of the placing plate, the front end of each rear rotating shaft is fixedly connected with a rear bevel gear, one end of each rear bevel gear, which is close to each other, is meshed and connected with the rear, at the moment, the driving motor is started to drive the driving shaft to rotate, so as to drive the large cam and the small cam to swing, so as to drive the middle bevel gear, the side bevel gears and the front rotating shaft to rotate, the large cam and the small cam drive the dust removing kernel and the cooling kernel to move away from each other, at the moment, the front rotating shaft rotates to drive the front bevel gear, the rear bevel gear and the rear rotating shaft to rotate, so as to drive the roller shutter roller to rotate, so that the rolling plate moves upwards rapidly, when the rolling plate moves upwards, the suction block stops being adsorbed on the upper end surface of the placing plate, so that the dust removing kernel and the cooling kernel can be pushed into the cooling dust removing cavity from the inner core cavity, at the moment, the next cooling and dust removing operations are further carried out, and when the dust removing kernel and the cooling kernel move towards the cooling dust removing cavity, and then the tension spring is stretched, the stabilizing block is kept still, when the driving motor rotates reversely, the large cam and the small cam are driven to swing reversely, and at the moment, the dust removal inner core and the cooling inner core return to the inner core cavity under the action of the tension spring.

Preferably, a supporting rotating shaft is rotationally connected with the lower wall of the cooling dedusting cavity, a transverse bevel gear is fixedly connected with the peripheral surface of the supporting rotating shaft, the upper end of the transverse bevel gear is fixedly connected with a lifting screw rod, two reverse thread blocks are in threaded connection with the peripheral surface of the lifting screw rod, the two reverse thread blocks are distributed and arranged in an up-and-down symmetrical manner by taking the horizontal central line of the lifting screw rod as a symmetrical center, the upper end of the lifting screw rod is rotationally connected with a stop block, the upper end of the stop block is fixedly connected with the upper wall of the cooling dedusting cavity, a centrifugal cavity with a right opening is arranged in the reverse thread block, a centrifugal rod is slidably connected with the inner wall of the centrifugal cavity, a swinging block is rotationally connected with the right end of the centrifugal rod, one end of the swinging block, which is close to each other, is fixedly connected with a, the end of the centrifugal spring close to each other is fixedly connected with a dust removing rod, the peripheral surface of the dust removing rod is fixedly connected with six dust removing and cleaning blocks, the peripheral surface of the lifting screw rod is in threaded connection with a moving block, the right end of the moving block is fixedly connected with a dust removing and cleaning box, the end of the dust removing and cleaning box far away from each other up and down is fixedly connected with a spray pipe, a spray nozzle with a right opening is arranged in the spray pipe, when the dust removing kernel is pushed into the cooling and dust removing cavity on the left side, the supporting rotating shaft rotates to drive the lifting screw rod and the transverse bevel gear to rotate to drive the reverse threaded block, the moving block, the dust removing and cleaning box, the spray pipe and the centrifugal rod to move, the reverse threaded block and the centrifugal rod move close to each other, and when the, and then drive centrifugal swing pole, centrifugal spring, dust removal pole, the piece swing is cleaned in the dust removal, the dust removal pole with the piece is cleaned in the dust removal and is cleaned the effect of centrifugal force and throw, the piece is cleaned in the dust removal and then to the dust removal processing of dust removal kernel outer peripheral face, starts this moment the dust removal washs the case, thereby will the dust removal washs a small amount of washing liquid in the case and fills in thereby to the dust removal kernel washs the dust removal operation thereby further reaches clear purpose.

Preferably, the lower end of the placing plate is fixedly connected with a support frame, the inner peripheral surface of the support frame is rotatably connected with a transmission shaft, the left end of the transmission shaft is fixedly connected with a left bevel gear, the upper end of the left bevel gear is meshed with the right end of the transverse bevel gear, the right end of the transmission shaft is fixedly connected with a meshed bevel gear, the right side wall of the cooling and dust removing cavity is rotatably connected with a first rotating shaft, the left end of the first rotating shaft is fixedly connected with a side bevel gear, the outer peripheral surface of the driving shaft is fixedly connected with a driving belt pulley, the placing plate is internally provided with two sliding grooves with downward openings, the two sliding grooves are symmetrically distributed and arranged in a left-right mode by taking the central line of the placing plate as a symmetric center, the lower ends of the dust removing core and the, an engaging belt is rotatably connected between the movable belt pulley and the driving belt pulley, when the dedusting inner core and the cooling inner core move away from each other, thereby driving the moving shaft, the moving belt pulley and the moving bevel gear to move away from each other, thereby causing the traveling bevel gear on the left side to mesh with the meshing bevel gear and causing the traveling bevel gear on the right side to mesh with the side bevel gear, at which time the driving motor is started, thereby driving the driving shaft, the driving belt pulley, the movable belt pulley and the meshing belt to rotate, so that the moving bevel gear, the engaging bevel gear and the side bevel gear can be rotated, the meshing bevel gear drives the transmission shaft and the left side bevel gear to rotate, and the side bevel gear drives the first rotation shaft to rotate so as to perform next transmission.

Preferably, a first rotating shaft and a second rotating shaft are rotationally connected to the right side wall of the cooling dust removal cavity, a first belt pulley is fixedly connected to the outer peripheral surface of the first rotating shaft, a second belt pulley is fixedly connected to the outer peripheral surface of the second rotating shaft, a third belt pulley is fixedly connected to the outer peripheral surface of the first rotating shaft, a transmission belt is rotationally connected among the third belt pulley, the second belt pulley and the first belt pulley, four centrifugal expansion springs are fixedly connected to the outer peripheral surface of the second rotating shaft, one ends of the centrifugal expansion springs, which are far away from each other, are fixedly connected with centrifugal fan blades, a temperature sensor is fixedly connected to the left ends of the centrifugal fan blades, a transverse block is fixedly connected to the front ends of the transmission belt, two lower spray pipes are in contact connection with the upper end of the transverse block, and are arranged in a bilateral symmetry mode by taking the central line, the lower spray pipe is internally provided with a lower nozzle with an upward opening, the upper end of the lower spray pipe is fixedly connected with a lower suction block, when the first rotating shaft rotates, the first belt pulley and the transmission belt are driven to rotate, the second belt pulley and the second rotating shaft are driven to rotate by the rotation of the transmission belt, the centrifugal expansion spring, the centrifugal fan blade and the temperature sensor are driven to rotate, the temperature sensor detects the temperature of the cooling core, when the temperature of the cooling core is higher, the rotating speed of the second rotating shaft is higher, the centrifugal expansion spring is stretched under the action of centrifugal force, so that the rotation of the centrifugal fan blade can increase wind power to rapidly cool the cooling core, when the transmission belt rotates, the transverse block, the lower spray pipe and the lower suction block move to reach a position needing to be reached, the transmission belt drives the third belt pulley and the first rotating shaft to rotate so as to carry out the next cooling treatment.

Preferably, a moving cavity with an upward opening is arranged on the upper side of the inner cavity, a transverse screw rod is fixedly connected to the left end of the third belt pulley, the transverse screw rod is rotatably connected into the left side wall of the moving cavity, a transverse moving block is in threaded connection with the outer peripheral surface of the transverse screw rod, a dust removing box is fixedly connected to the lower end of the transverse moving block, an upper suction block is fixedly connected to the lower end of the dust removing box, an upper nozzle with a downward opening is arranged in the upper suction block, a torsion shaft is rotatably connected into the lower side wall of the moving cavity, a torsion spring is rotatably connected into the inner peripheral surface of the torsion shaft, a swing plate is fixedly connected to the front end of the torsion spring, when the third belt pulley rotates, the transverse screw rod is driven to rotate, the transverse moving block is driven to move rightwards, the dust removing box and the upper suction block are driven to move right, and then drive the swing board swing, and then drive the axis of torsion the torsional spring rotates, makes the dust removal case can be located horizontal piece upside, this moment inhale the piece down the spray tube removes dust removal case downside, inhale the piece with inhale the piece and adsorb each other down, start this moment the dust removal case, and then will the flush fluid in the dust removal case fills go up the spout with down in the spout right the cooling kernel surface washes.

The invention has the beneficial effects that: the computer case can be subjected to modularized distribution, the temperature and the cleanness degree in the computer case can be detected in real time, the cooling area and the dust removal area are separately processed, and the two areas are subjected to independent cooling cleaning and dust removal processing through popping up the two areas, so that the use efficiency of the whole computer case is improved, and the use ratio of the space in the computer case is also enhanced.

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 an overload cooling and dust removing device for a computer case according to the present invention.

Fig. 2 is an enlarged schematic view of a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Fig. 6 is a schematic diagram of the structure of E-E in fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, 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 a device for overload temperature reduction and dust removal of a computer case, which comprises a case 11, wherein a cooling dust removal cavity 12 with an upward opening is arranged in the case 11, a placing plate 53 is fixedly connected to the rear wall of the cooling dust removal cavity 12, a driving motor 58 is fixedly connected to the lower wall of the cooling dust removal cavity 12, the upper end of the driving motor 58 is in power connection with a driving shaft 57, a core cavity 13 is arranged in the placing plate 53, the driving shaft 57 extends upwards into the core cavity 13, the upper end of the driving shaft 57 is rotatably connected to the upper wall of the core cavity 13, two large cams 82 are fixedly connected to the outer peripheral surface of the driving shaft 57, the two large cams 82 are vertically and symmetrically distributed by taking the horizontal central line of the core cavity 13 as a symmetrical center, two small cams 85 are fixedly connected to the outer peripheral surface of the driving shaft 57, and the two small cams 85 are vertically and symmetrically distributed by taking the horizontal central line of the core cavity, the outer peripheral surface of the driving shaft 57 is rotatably connected with a stabilizing block 42, one end of the stabilizing block 42, which is far away from each other, is fixedly connected with a tension spring 20, one end of the tension spring 20, which is far away from the center line of the inner nuclear cavity 13, which is on the left side, is fixedly connected with a dust removal inner core 60, one end of the tension spring 20, which is on the right side, is far away from the center line of the inner nuclear cavity 13, is fixedly connected with a cooling inner core 46, the lower ends of the dust removal inner core 60 and the cooling inner core 46 are slidably connected with the lower wall of the inner nuclear cavity 13, the rear ends of the large cam 82 and the small cam 85 are in contact connection with the front ends of the dust removal inner core 60 and the cooling inner core 46, the upper wall of the inner nuclear cavity 13 is fixedly connected with two supporting frames 27, the two supporting frames 27 are bilaterally and symmetrically distributed by taking the center line of, the outer peripheral surface of the driving shaft 57 is fixedly connected with a middle bevel gear 83, the lower end of the side bevel gear 84 is meshed and connected with the end, away from each other, of the middle bevel gear 83, the end, away from each other, of the front rotating shaft 75 is fixedly connected with a front bevel gear 74, the upper wall of the inner core cavity 13 is fixedly connected with two rear frames 76, the two rear frames 76 are distributed and arranged in bilateral symmetry with the center line of the inner core cavity 13 as the symmetry center, the inner peripheral surface of each rear frame 76 is rotatably connected with a rear rotating shaft 80, the outer peripheral surface of the rear rotating shaft 80 is fixedly connected with a rolling gate roller 86, the outer peripheral surface of the rolling gate roller 86 is wound and connected with a rolling plate 43, the rolling plate 43 extends downwards and is fixedly connected with an attraction block 69, the lower end of the attraction block 69 is magnetically connected to the upper end surface of the placing plate 53, the front end of the rear rotating shaft 80 is fixedly connected with a rear, when the dust removing core 60 and the cooling core 46 in the core cavity 13 are overheated and have too much dust during use, the driving motor 58 is started to drive the driving shaft 57 to rotate, and further drive the large cam 82 and the small cam 85 to swing, and further drive the middle bevel gear 83, the side bevel gear 84 and the front rotating shaft 75 to rotate, and the large cam 82 and the small cam 85 drive the dust removing core 60 and the cooling core 46 to move away from each other, and at this time, the front rotating shaft 75 rotates to drive the front bevel gear 74, the rear bevel gear 81 and the rear rotating shaft 80 to rotate, and further drive the rolling gate roller 86 to rotate, so that the rolling plate 43 moves upward rapidly, and the suction block 69 stops the upper end surface of the placing plate 53 when the rolling plate 43 moves upward, the dedusting inner core 60 and the cooling inner core 46 can be pushed into the cooling dedusting cavity 12 from the inner core cavity 13, and then the next cooling and dedusting operations are performed, and when the dedusting inner core 60 and the cooling inner core 46 move towards the cooling dedusting cavity 12, the tensioning spring 20 is further stretched, the stabilizing block 42 remains still, and when the driving motor 58 rotates reversely, the large cam 82 and the small cam 85 are further driven to swing reversely, and at this time, the dedusting inner core 60 and the cooling inner core 46 return to the inner core cavity 13 under the action of the tensioning spring 20.

Beneficially, a supporting rotating shaft 62 is rotatably connected to the lower wall of the cooling dedusting cavity 12, a horizontal bevel gear 15 is fixedly connected to the outer peripheral surface of the supporting rotating shaft 62, a lifting screw 16 is fixedly connected to the upper end of the horizontal bevel gear 15, two reverse threaded blocks 17 are threadedly connected to the outer peripheral surface of the lifting screw 16, the two reverse threaded blocks 17 are vertically and symmetrically distributed by taking the horizontal central line of the lifting screw 16 as a symmetric center, a stopper 25 is rotatably connected to the upper end of the lifting screw 16, the upper end of the stopper 25 is fixedly connected to the upper wall of the cooling dedusting cavity 12, a centrifugal cavity 18 with a right opening is arranged in each reverse threaded block 17, a centrifugal rod 19 is slidably connected to the inner wall of the centrifugal cavity 18, a swinging block 26 is rotatably connected to the right end of the centrifugal rod 19, a centrifugal swinging rod 64 is fixedly connected to one end of each swinging block 26 close to each other, and a swinging, the centrifugal springs 65 are fixedly connected to the side walls of the throwing cavity 66 which are far away from each other, the dust removing rod 63 is fixedly connected to one end of the centrifugal spring 65 which is close to each other, six dust removing cleaning blocks 67 are fixedly connected to the outer peripheral surface of the dust removing rod 63, the moving block 23 is in threaded connection with the outer peripheral surface of the lifting screw 16, the dust removing cleaning box 24 is fixedly connected to the right end of the moving block 23, the spray pipe 21 is fixedly connected to one end of the dust removing cleaning box 24 which is far away from each other from the upper end and the lower end, a spray opening 22 with a right opening is formed in the spray pipe 21, when the dust removing kernel 60 is pushed into the cooling dust removing cavity 12 on the left side, the supporting rotating shaft 62 rotates to drive the lifting screw 16 and the transverse bevel gear 15 to rotate, and further drive the reverse threaded block, the reverse threaded block 17 and the centrifugal rod 19 move close to each other, when the centrifugal rod 19 moves close to each other, the swinging block 26 is driven to swing at the moment, so as to drive the centrifugal throwing rod 64, the centrifugal spring 65, the dedusting rod 63 and the dedusting cleaning block 67 to swing, the dedusting rod 63 and the dedusting cleaning block 67 are thrown under the action of centrifugal force, the dedusting cleaning block 67 further performs dedusting treatment on the peripheral surface of the dedusting core 60, the dedusting cleaning box 24 is started at the moment, and a small amount of cleaning liquid in the dedusting cleaning box 24 is filled into the nozzle 22 so as to perform cleaning and dedusting operation on the dedusting core 60, so that the aim of cleaning is further fulfilled.

Beneficially, a supporting frame 100 is fixedly connected to the lower end of the placing plate 53, a transmission shaft 68 is rotatably connected to the inner circumferential surface of the supporting frame 100, a left bevel gear 61 is fixedly connected to the left end of the transmission shaft 68, the upper end of the left bevel gear 61 is engaged with the right end of the transverse bevel gear 15, an engaging bevel gear 73 is fixedly connected to the right end of the transmission shaft 68, a first rotating shaft 52 is rotatably connected to the right side wall of the cooling dedusting cavity 12, a side bevel gear 54 is fixedly connected to the left end of the first rotating shaft 52, a driving pulley 59 is fixedly connected to the outer circumferential surface of the driving shaft 57, two sliding grooves 55 with downward openings are arranged in the placing plate 53, the two sliding grooves 55 are symmetrically distributed and arranged with the center line of the placing plate 53 as the symmetric center, a moving shaft 70 is rotatably connected to the lower ends of the dedusting core 60 and, a movable belt pulley 71 is fixedly connected to the outer peripheral surface of the movable shaft 70, an engaging belt 56 is rotatably connected between the movable belt pulley 71 and the driving belt pulley 59, when the dust removal core 60 and the cooling core 46 move away from each other, the movable shaft 70, the movable belt pulley 71 and the movable bevel gear 72 are driven to move away from each other, the movable bevel gear 72 on the left side is meshed with the engaging bevel gear 73, the movable bevel gear 72 on the right side is meshed with the side bevel gear 54, at the moment, the driving motor 58 is started to drive the driving shaft 57, the driving belt pulley 59, the movable belt pulley 71 and the engaging belt 56 to rotate, the movable bevel gear 72, the engaging bevel gear 73 and the side bevel gear 54 can rotate, and the engaging bevel gear 73 drives the transmission shaft 68, the driving belt 56, the driving belt, The left bevel gear 61 rotates, and the side bevel gear 54 drives the first rotating shaft 52 to rotate, so that the next step is performed.

Beneficially, a first rotating shaft 36 and a second rotating shaft 44 are rotatably connected to the right side wall of the cooling dedusting cavity 12, a first belt pulley 51 is fixedly connected to the outer peripheral surface of the first rotating shaft 52, a second belt pulley 45 is fixedly connected to the outer peripheral surface of the second rotating shaft 44, a third belt pulley 35 is fixedly connected to the outer peripheral surface of the first rotating shaft 36, a transmission belt 34 is rotatably connected among the third belt pulley 35, the second belt pulley 45 and the first belt pulley 51, four centrifugal expansion springs 47 are fixedly connected to the outer peripheral surface of the second rotating shaft 44, one ends of the centrifugal expansion springs 47 far away from each other are fixedly connected with centrifugal fan blades 49, a temperature sensor 50 is fixedly connected to the left end of the centrifugal fan blades 49, a transverse block 39 is fixedly connected to the front end of the transmission belt 34, two lower spray pipes 40 are connected to the upper end of the transverse block 39 in a contact manner, and the two lower spray pipes 40 are arranged in a bilateral symmetry manner with the central, be equipped with the ascending lower spout 38 of opening in lower spray tube 40, the lower suction block 37 of fixedly connected with in upper end of lower spray tube 40, when first pivot 52 rotates, and then drive first belt pulley 51 the driving belt 34 rotates, the rotation of driving belt 34 and then drive second belt pulley 45 the second pivot 44 rotates, and then drives centrifugal expanding spring 47, centrifugal fan blade 49, temperature-sensing ware 50 rotates, temperature-sensing ware 50 detects cooling kernel 46 temperature, and when cooling kernel 46 is higher in temperature, the second pivot 44 rotational speed is faster, centrifugal expanding spring 47 is elongated under the effect of centrifugal force to make the rotation of centrifugal fan blade 49 can increase wind-force and carry out rapid cooling to cooling kernel 46, when driving belt 34 rotates, horizontal piece 39, The lower nozzle 40 and the lower suction block 37 move to reach the position to be reached, and the transmission belt 34 drives the third belt pulley 35 and the first rotating shaft 36 to rotate for the next cooling treatment.

Beneficially, a moving cavity 33 with an upward opening is arranged on the upper side of the inner core cavity 13, a transverse screw 28 is fixedly connected to the left end of the third belt pulley 35, the transverse screw 28 is rotatably connected to the inside of the left side wall of the moving cavity 33, a transverse block 31 is connected to the outer peripheral surface of the transverse screw 28 in a threaded manner, a dust removing box 32 is fixedly connected to the lower end of the transverse block 31, an upper suction block 29 is fixedly connected to the lower end of the dust removing box 32, an upper nozzle 30 with a downward opening is arranged in the upper suction block 29, a torsion shaft 77 is rotatably connected to the lower side wall of the moving cavity 33 in a threaded manner, a torsion spring 79 is rotatably connected to the inner peripheral surface of the torsion shaft 77 in a threaded manner, a swing plate 78 is fixedly connected to the front end of the torsion spring 79, and when the third belt pulley 35 rotates, the transverse screw 28 is driven to rotate, and at this moment when dust removal case 32 moves to the right, dust removal case 32 right-hand member contact swing board 78 left end, and then drive swing board 78 swings, and then drive torsion shaft 77 the torsional spring 79 rotates, makes dust removal case 32 can be located horizontal piece 39 upside, at this moment inhale down piece 37 down spray tube 40 move to dust removal case 32 downside, inhale up piece 29 with inhale down piece 37 and adsorb each other, start at this moment dust removal case 32, and then with the flush fluid in the dust removal case 32 fill go up spout 30 with to wash in the spout 38 cooling kernel 46 surface.

The following describes in detail the use steps of the apparatus for cooling and dedusting a computer case in an overload state with reference to fig. 1 to 6:

initially, the dust removing box 32, the temperature sensor 50, the driving motor 58 and the dust removing and cleaning box 24 are in a closed state, the tension spring 20 is in a contracted state, the dust removing core 60 and the cooling core 46 are positioned in the core cavity 13, the moving block 23, the dust removing and cleaning box 24 and the spray pipe 21 are in any positions, the side bevel gear 54, the meshing bevel gear 73 and the moving bevel gear 72 are in a disengaged state, the suction block 69 is adsorbed on the upper end of the placing plate 53, the rolling plate 43 is in an extended state, the transverse block 39, the lower spray pipe 40 and the lower suction block 37 are in any positions of the transmission belt 34, the reverse threaded block 17, the centrifugal rod 19, the swinging block 26, the centrifugal swinging rod 64, the centrifugal spring 65, the dust removing rod 63 and the dust removing and cleaning block 67 are in a mutually separated state, and the centrifugal fan blades 49, the temperature sensor 50 and the centrifugal expansion.

When the dust removing inner core 60 and the cooling inner core 46 in the inner core cavity 13 are overheated and have too much dust during use, the driving motor 58 is started, the driving shaft 57 is driven to rotate, the large cam 82 and the small cam 85 are driven to swing, the middle bevel gear 83, the side bevel gear 84 and the front rotating shaft 75 are driven to rotate, the large cam 82 and the small cam 85 drive the dust removing inner core 60 and the cooling inner core 46 to move away from each other, the front rotating shaft 75 rotates to drive the front bevel gear 74, the rear bevel gear 81 and the rear rotating shaft 80 to rotate, the rolling brake roller 86 is driven to rotate, the rolling plate 43 moves upwards rapidly, the suction block 69 stops being adsorbed on the upper end surface of the placing plate 53 when the rolling plate 43 moves upwards, the dust removing inner core 60 and the cooling inner core 46 can be pushed into the cooling dust removing cavity 12 from the inner core cavity 13, and the next cooling and dust removing operations are performed, when the dust removing core 60 and the cooling core 46 move towards the cooling dust removing cavity 12, the tension spring 20 is further stretched, the stabilizing block 42 is kept still, when the driving motor 58 rotates reversely, the large cam 82 and the small cam 85 are further driven to swing reversely, and at the moment, the dust removing core 60 and the cooling core 46 return to the core cavity 13 under the action of the tension spring 20.

When the dust removing core 60 is pushed into the cooling dust removing cavity 12 at the left side, the supporting rotating shaft 62 rotates to drive the lifting screw 16 and the transverse bevel gear 15 to rotate, thereby driving the reverse thread block 17, the moving block 23, the dust-removing cleaning box 24, the spraying pipe 21 and the centrifugal rod 19 to move, the reverse thread block 17 and the centrifugal rod 19 move close to each other, when the centrifugal rod 19 moves close to each other, the swinging block 26 is driven to swing, then the centrifugal swinging rod 64, the centrifugal spring 65, the dust removing rod 63 and the dust removing cleaning block 67 are driven to swing, the dust removing rod 63 and the dust removing cleaning block 67 are swung under the action of centrifugal force, the dust removing cleaning block 67 further removes dust on the outer peripheral surface of the dust removing core 60, at the moment, the dust removing cleaning box 24 is started, and then a small amount of the cleaning liquid in the dust-removing cleaning tank 24 is filled into the spout 22 to clean the dust-removing core 60 for further cleaning.

When the dedusting core 60 and the cooling core 46 move away from each other, the movable shaft 70, the movable belt pulley 71 and the movable bevel gear 72 are driven to move away from each other, the movable bevel gear 72 on the left side is meshed with the meshing bevel gear 73, the movable bevel gear 72 on the right side is meshed with the side bevel gear 54, at this time, the driving motor 58 is started to drive the driving shaft 57, the driving belt pulley 59, the movable belt pulley 71 and the meshing belt 56 to rotate, the movable bevel gear 72, the meshing bevel gear 73 and the side bevel gear 54 can rotate, the meshing bevel gear 73 drives the transmission shaft 68, the left side bevel gear 61 to rotate, the side bevel gear 54 drives the first rotating shaft 52 to rotate, when the first rotating shaft 52 rotates, the first belt pulley 51 and the transmission belt 34 are driven to rotate, the transmission belt 34 rotates to drive the second belt pulley 45 and the second rotating shaft 44 to rotate, and further, The centrifugal fan blades 49 and the temperature sensor 50 rotate, the temperature sensor 50 detects the temperature of the cooling inner core 46, when the temperature of the cooling inner core 46 is higher, the rotating speed of the second rotating shaft 44 is faster, the centrifugal expansion spring 47 is stretched under the action of centrifugal force, so that the rotation of the centrifugal fan blades 49 can increase wind power to rapidly cool the cooling inner core 46, when the transmission belt 34 rotates, the transverse block 39, the lower spray pipe 40 and the lower suction block 37 move to reach a position required to be reached, the transmission belt 34 drives the third belt pulley 35 and the first rotating shaft 36 to rotate for next cooling treatment, when the third belt pulley 35 rotates, the transverse screw 28 is driven to rotate, the transverse block 31 is driven to move rightwards, the dust removing box 32 and the upper suction block 29 are driven to move rightwards, and when the dust removing box 32 moves rightwards, the right end of the dust removing box 32 contacts with the left end of the swinging plate 78, and then the swinging plate 78 is driven to swing, and then the twisting shaft 77 and the torsion spring 79 are driven to rotate, so that the dust removal box 32 can be positioned on the upper side of the transverse block 39, at the moment, the lower suction block 37 and the lower spray pipe 40 move to the lower side of the dust removal box 32, the upper suction block 29 and the lower suction block 37 are mutually adsorbed, at the moment, the dust removal box 32 is started, and then washing liquid in the dust removal box 32 is filled into the upper nozzle 30 and the lower nozzle 38 to wash the outer surface of the cooling core 46.

The invention has the beneficial effects that: the invention can modularly distribute the computer case, and detect the temperature and the cleanness degree in the case in real time, thereby separately processing the cooling area and the dust removal area, and performing separate cooling cleaning and dust removal processing on the two areas by popping the two areas, thereby improving the use efficiency of the whole case and enhancing the utilization rate of the space in the case.

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 (5)

1. The utility model provides a device that computer machine case transships cooling and remove dust, includes quick-witted case, its characterized in that: a cooling dedusting cavity with an upward opening is arranged in the case, a placing plate is fixedly connected to the rear wall of the cooling dedusting cavity, a driving motor is fixedly connected to the lower wall of the cooling dedusting cavity, the upper end of the driving motor is in power connection with a driving shaft, an inner core cavity is arranged in the placing plate, the driving shaft extends upwards into the inner core cavity, the upper end of the driving shaft is rotatably connected to the inner core cavity, two large cams are fixedly connected to the outer peripheral surface of the driving shaft, the two large cams are vertically and symmetrically distributed by taking the horizontal central line of the inner core cavity as a symmetric center, two small cams are fixedly connected to the outer peripheral surface of the driving shaft, the two small cams are vertically and symmetrically distributed by taking the horizontal central line of the inner core cavity as a symmetric center, a stabilizing block is rotatably connected to the outer peripheral surface of the driving shaft, and one end of the stabilizing block, the end, away from the central line of the core cavity, of the left tightening spring is fixedly connected with a dedusting core, the end, away from the central line of the core cavity, of the right tightening spring is fixedly connected with a cooling core, the lower ends of the dedusting core and the cooling core are in sliding connection with the lower wall of the core cavity, the rear ends of the large cam and the small cam are in contact connection with the front end of the dedusting core and the front end of the cooling core, the upper wall of the core cavity is fixedly connected with two support frames, the two support frames are symmetrically distributed and arranged in a left-right mode by taking the central line of the core cavity as a symmetric center, the inner peripheral surfaces of the support frames are rotatably connected with a front rotating shaft, one end, close to each other, of the front rotating shaft is fixedly connected with a side bevel gear, the outer peripheral surface of the, the device comprises a placing plate, a front rotating shaft, a rear rotating shaft, a back rotating shaft, a rolling gate roller, a rolling plate, a sucking block, a rear bevel gear, a front bevel gear and a rear bevel gear, wherein one end of the front rotating shaft, which is far away from the front rotating shaft, is fixedly connected with the front bevel gear, the upper wall of the inner core cavity is fixedly connected with two rear frames, the two rear frames are arranged in bilateral symmetry with the center line of the inner core cavity as a symmetry center, the inner peripheral surface of each rear frame is rotatably connected with the rear rotating shaft, the outer peripheral surface of each rear rotating shaft is fixedly connected with the rolling gate roller, the outer peripheral surface of the rolling gate roller is wound and connected with the rolling plate, the rolling plate extends downwards and is.

2. The device for cooling and dedusting a computer case in an overload way according to claim 1, is characterized in that: a supporting rotating shaft is rotationally connected with the lower wall of the cooling dedusting cavity, a transverse bevel gear is fixedly connected with the outer peripheral surface of the supporting rotating shaft, a lifting screw rod is fixedly connected with the upper end of the transverse bevel gear, two reverse thread blocks are in threaded connection with the outer peripheral surface of the lifting screw rod, the two reverse thread blocks are vertically and symmetrically distributed by taking the horizontal central line of the lifting screw rod as a symmetric center, a stop block is rotationally connected with the upper end of the lifting screw rod, the upper end of the stop block is fixedly connected with the upper wall of the cooling dedusting cavity, a centrifugal cavity with a rightward opening is arranged in the reverse thread block, a centrifugal rod is slidably connected with the inner wall of the centrifugal cavity, a swinging block is rotationally connected with the right end of the centrifugal rod, a centrifugal swinging rod is fixedly connected with one end of the swinging block close to each other, a swinging cavity with, the centrifugal spring is close to one end fixedly connected with dust removal pole each other, six dust removal cleaning blocks of fixedly connected with are cleaned on the dust removal pole outer peripheral face, threaded connection has the movable block on the lifting screw rod outer peripheral face, movable block right-hand member fixedly connected with removes dust and washs the case, remove dust and wash the case and keep away from one end fixedly connected with spray tube from top to bottom each other, be equipped with the right spout of opening in the spray tube.

3. The device for cooling and dedusting a computer case in an overload way according to claim 1, is characterized in that: the lower end of the placing plate is fixedly connected with a supporting frame, the inner peripheral surface of the supporting frame is rotatably connected with a transmission shaft, the left end of the transmission shaft is fixedly connected with a left bevel gear, the upper end of the left bevel gear is meshed with the right end of the transverse bevel gear, the right end of the transmission shaft is fixedly connected with a meshed bevel gear, the right side wall of the cooling dust removal cavity is rotatably connected with a first rotating shaft, the left end of the first rotating shaft is fixedly connected with a side bevel gear, the outer peripheral surface of the driving shaft is fixedly connected with a driving belt pulley, the placing plate is internally provided with two sliding grooves with downward openings, the two sliding grooves are symmetrically distributed and arranged in a left-right mode by taking the central line of the placing plate as a symmetric center, the dust removal inner core and the lower end, an engaging belt is rotatably connected between the movable belt pulley and the driving belt pulley.

4. The device for cooling and dedusting a computer case in an overload way according to claim 1, is characterized in that: a first rotating shaft and a second rotating shaft are rotationally connected to the right side wall of the cooling dust removal cavity, a first belt pulley is fixedly connected to the outer peripheral surface of the first rotating shaft, a second belt pulley is fixedly connected to the outer peripheral surface of the second rotating shaft, a third belt pulley is fixedly connected to the outer peripheral surface of the first rotating shaft, a transmission belt is rotationally connected among the third belt pulley, the second belt pulley and the first belt pulley, four centrifugal expansion springs are fixedly connected to the outer peripheral surface of the second rotating shaft, one ends of the centrifugal expansion springs, which are far away from each other, are fixedly connected with centrifugal fan blades, the left ends of the centrifugal fan blades are fixedly connected with a temperature sensor, a transverse block is fixedly connected to the front end of the transmission belt, two lower spray pipes are in contact connection with the upper end of the transverse block, the two lower spray pipes are arranged in a left-right symmetrical distribution mode by taking the central line of, the upper end of the lower spray pipe is fixedly connected with a lower suction block.

5. The device for cooling and dedusting a computer case in an overload way according to claim 1, is characterized in that: the utility model discloses a nuclear reactor, including the nuclear chamber, third belt pulley left end fixedly connected with horizontal screw rod, horizontal screw rod rotate connect in remove the chamber left side wall in, horizontal screw rod outer peripheral face threaded connection has the sideslip piece, sideslip piece lower extreme fixedly connected with dust removal case, dust removal case lower extreme fixedly connected with updraft ventilator, be equipped with the spout that goes up that the opening is decurrent in the updraft ventilator, it is connected with the axis of torsion to remove the intracavity lateral wall internal rotation, axis of torsion inner peripheral face is connected with the torsional spring, torsional spring front end fixedly connected with swinging plate.

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