CN112578887B

CN112578887B - Auxiliary device for cooling and ash removing of notebook computer

Info

Publication number: CN112578887B
Application number: CN202110064840.4A
Authority: CN
Inventors: 路春艳
Original assignee: Jiangsu Airui Electronic Technology Co ltd
Current assignee: Jiangsu Airui Electronic Technology Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2022-05-20
Anticipated expiration: 2041-01-18
Also published as: CN112578887A

Abstract

The invention discloses an auxiliary device for dissipating heat and removing dust of a notebook computer, which comprises a rack, wherein the left end wall of the rack is fixedly connected with two storage cavities which are symmetrical front and back, the auxiliary device for dissipating heat and removing dust of the notebook computer fixes a computer body through a tail clamping frame and fixes a computer screen by matching with a vacuum chuck, so that the notebook computer can be stably placed on the device to prevent accidental collision, the vacuum chuck can automatically adjust the expansion range of the screen and can be used for screen resting work without people, a gear rack structure is used for reciprocating the fan back and forth by matching with a trigger device, so that a heat dissipation area is enlarged, the heat dissipation efficiency of the computer is improved, meanwhile, the bottom of the computer can be lifted by a hydraulic rod, a cleaning wheel can be matched with a wire wheel to perform bottom dust removal treatment, and the fan is used for collecting dust, the heat dissipation effect of the computer is greatly enhanced.

Description

Auxiliary device for cooling and ash removing of notebook computer

Technical Field

The invention relates to the field of electronic information communication equipment, in particular to auxiliary equipment for heat dissipation and ash removal of a notebook computer.

Background

When the notebook computer is used, components such as an internal CPU (central processing unit) and the like are heated and scalded due to external environment or use operation, a common notebook computer can only be cooled and radiated by an internal fan of the notebook computer, but the radiating efficiency is low, or the notebook computer can be radiated by some auxiliary equipment, such as fan racks, but the internal fans of some fan racks are often fixed, the radiating area at the bottom of the notebook computer is limited, dust generated at the bottom of the notebook computer cannot be treated, and the radiating effect can be reduced.

Disclosure of Invention

The technical problem is as follows: the cooling and heat dissipation can only be carried out by the internal fan of the fan frame, but the heat dissipation efficiency is lower, the internal fans of some fan frames are often fixed, the heat dissipation area at the bottom of the computer is limited, dust generated at the bottom of the computer cannot be treated, and the heat dissipation effect can be reduced.

In order to solve the problems, the embodiment designs an auxiliary device for dissipating heat and cleaning ash of a notebook computer, the auxiliary device for dissipating heat and cleaning ash of the notebook computer comprises a rack, wherein the left end wall of the rack is fixedly connected with two storage cavities which are symmetrical front and back, a fixing device is arranged in each storage cavity and is used for fixing the computer and adjusting a screen, each fixing device comprises two lifting cavities which are symmetrical front and back and are fixedly connected with the right end wall of the rack, the front end surface of each lifting cavity at the back side is slidably connected with a tail clamping frame, the tail clamping frames can rotate in the lifting cavities, the left end wall of each tail clamping frame is slidably connected with a clamping block, a pressure spring is fixedly connected between the upper end surface of each clamping block and the upper end wall of each tail clamping frame, and the upper end wall of the rack is fixedly connected with a working cavity, the upper side end face of the working cavity is fixedly connected with a heat radiating net, the lower side end face of the working cavity is connected with a working motor in a sliding manner, the upper side end face of the working motor is in power connection with a working motor shaft which extends upwards, a heat radiating device is arranged on the working motor shaft and used for computer heat radiation treatment, the upper side end wall of the rack is fixedly connected with a storage cavity, rollers are connected in the storage cavity in a sliding manner, rolling shafts are connected on the rollers in a rotating manner, ash cleaning devices are arranged on the rolling shafts and used for cleaning dust on a computer bottom plate, first thread shafts are arranged in the ash cleaning devices, first auxiliary bevel gears are fixedly connected on the first thread shafts, auxiliary motors are arranged in the fixing devices, auxiliary motor shafts which extend up and down are in power connection with the auxiliary motors, and first bevel gears are fixedly connected on the lower side end faces of the auxiliary motor shafts, the first bevel gear and the first auxiliary bevel gear can be in meshed connection, and the fixing device can transmit power to the dust cleaning device for cleaning through meshed connection of the first bevel gear and the first auxiliary bevel gear.

Preferably, a transmission cavity is fixedly connected to the left end wall of the rack, the left end surface of the transmission cavity is slidably connected with the auxiliary motor, a switching hydraulic cylinder is fixedly connected to the lower end surface of the transmission cavity, a supporting block is fixedly connected to the upper end surface of the switching hydraulic cylinder, the front end surface of the supporting block is fixedly connected with the auxiliary motor, the auxiliary motor is in power connection with the auxiliary motor shaft which extends up and down, a second bevel gear is fixedly connected to the upper end surface of the auxiliary motor shaft, the front end surface of the transmission cavity is in rotating connection with a movable shaft which extends back and forth, a second auxiliary bevel gear is fixedly connected to the movable shaft, the second auxiliary bevel gear and the second bevel gear can be in meshing connection, two rotating tables which are symmetrical back and forth are fixedly connected to the movable shaft, the rotating tables are located in the storage cavity, and a rotating rod is fixedly connected to the rotating tables at the back side, rotate on the dwang and be connected with the bracing piece, bracing piece downside terminal surface with fixedly connected with hydraulic stem between the dwang right-hand member terminal surface, bracing piece right-hand member terminal surface rotates and is connected with vacuum chuck, frame right side end wall fixedly connected with distance sensor, transmission chamber front end terminal surface fixedly connected with removes the chamber, remove intracavity sliding connection and have the carriage release lever, carriage release lever upside terminal surface with fixedly connected with reset spring between the removal chamber upside terminal surface, carriage release lever downside terminal surface fixedly connected with magnet, remove chamber downside terminal surface fixedly connected with electro-magnet, auxiliary motor front end terminal surface fixedly connected with button.

Preferably, the heat dissipation device comprises a working motor which is slidably connected to the lower end surface of the working cavity, the upper end surface of the working motor is in power connection with a shaft of the working motor which extends upwards, a first belt pulley is fixedly connected to the shaft of the working motor, a support plate is rotatably connected to the shaft of the working motor, the support plate is slidably connected to the inner end surface of the working cavity, the lower end surface of the working cavity is in sliding connection with a shaft sleeve, the upper end surface of the shaft sleeve is rotatably connected with an auxiliary shaft which extends upwards, the support plate is rotatably connected to the auxiliary shaft, a first auxiliary belt pulley is fixedly connected to the auxiliary shaft, a first V belt is rotatably connected between the first auxiliary belt pulley and the first belt pulley, movable gears which are symmetrical front and back are fixedly connected to the working motor shaft and the auxiliary shaft, and heat dissipation fans which are symmetrical front and back are fixedly connected to the upper end surface of the working motor shaft and the auxiliary shaft, the front end face and the rear end face of the working cavity are fixedly connected with two ventilation openings which are symmetrical front and back, and the end faces of the inner sides of the ventilation openings are fixedly connected with an air filter screen.

Preferably, a sliding cavity is fixedly connected to the rear end face of the working cavity, a sliding rod is slidably connected to the sliding cavity, a first rack and a second rack are fixedly connected to the front end face of the sliding rod, the first rack and the movable gear are connected in a meshing manner, the second rack and the movable gear are connected in a meshing manner, a first tensioning rope is fixedly connected to the right end face of the second rack, a movement spring is fixedly connected between the right end face of the second rack and the right end face of the working cavity, a blocking block is slidably connected to the rear end face of the sliding cavity, a second tensioning rope is fixedly connected to the rear end face of the blocking block, a push spring is fixedly connected between the rear end face of the blocking block and the rear end face of the sliding cavity, a first pressing block is slidably connected to the front end face of the working cavity, and a first pressing spring is fixedly connected between the front end face of the first pressing block and the front end face of the working cavity, the rear end face of the working cavity is connected with a first pressing block in a sliding mode, the rear end face of the working cavity is connected with a first tensioning rope in a sliding mode, the rear end face of the first pressing block is connected with a second pressing block in a fixed mode, and a first pressing spring is fixedly connected between the rear end face of the first pressing block and the rear end face of the working cavity.

Preferably, the ash removal device is connected including rotating the first spool that just extends right transmission chamber left side terminal surface, fixedly connected with master gear and first spool on the first spool, it is connected with first acting as go-between to rotate on the first spool, frame left side end wall fixedly connected with motion chamber, the motion chamber is located transmission chamber right side, motion chamber left side terminal surface rotates and is connected with the second spool that extends right, fixedly connected with pinion and second spool on the second spool, the pinion with the master gear meshing is connected, it is connected with the second acting as go-between to rotate on the second spool, second spool right side terminal surface fixedly connected with second band pulley, fixedly connected with dust absorption chamber in the frame, dust absorption chamber right side terminal surface rotates and is connected with the fan blade axle that extends right, fan blade axle right side terminal surface fixedly connected with second auxiliary band pulley, a second V-shaped belt is rotatably connected between the second secondary belt wheel and the second belt wheel, the left end face of the fan blade shaft is fixedly connected with a dust collection fan, the upper end surface of the dust suction cavity is fixedly connected with a dust suction pipe, the lower end surface of the dust suction cavity is fixedly connected with a recovery pipe, the rolling shaft is fixedly connected with a cleaning wheel, the rolling shaft is rotatably connected with a plurality of dust suction ports, the dust suction pipe is fixedly connected on the dust suction port, the sliding sleeve is rotatably connected on the rolling shaft, the end face of the left side of the sliding sleeve is fixedly connected with the second stay wire, the end face of the right side of the sliding sleeve is fixedly connected with the first stay wire, the upper end wall of the machine frame is fixedly connected with two sliding chutes which are symmetrical front and back and are connected with the storage cavity, but gyro wheel sliding connection be in the spout, frame right side end wall fixedly connected with collects the chamber, collect chamber upside terminal surface fixedly connected with the recovery tube.

The invention has the beneficial effects that: according to the auxiliary equipment for heat dissipation and dust removal of the notebook computer, the computer body is fixed through the tail clamping frame, the vacuum chuck is matched to fix the computer screen, so that the notebook computer can be stably placed on the equipment, accidental collision is prevented, the expansion range of the screen can be automatically adjusted by using the vacuum chuck, the screen can be stopped when the notebook computer is not used by people, the fan is reciprocated back and forth by using the gear rack structure and matching with the trigger device, the heat dissipation area is enlarged, the heat dissipation efficiency of the computer is improved, meanwhile, the bottom of the computer can be lifted by using the hydraulic rod, the cleaning wheels can be matched with the wire wheels to perform bottom dust removal treatment, the fan is used for collecting dust, and the heat dissipation effect of the computer is greatly enhanced.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic overall structure diagram of an auxiliary device for dissipating heat and removing ash of a notebook computer according to the present invention;

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

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 2;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 4;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 1;

fig. 7 is an enlarged view of the structure at "F" of fig. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 7, for the sake of convenience of description, the following orientations are now defined: 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 an auxiliary device for heat dissipation and ash removal of a notebook computer, which is mainly applied to heat dissipation work of the notebook computer and bottom dust removal, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to an auxiliary device for dissipating heat and cleaning ash of a notebook computer, which comprises a frame 11, wherein the left end wall of the frame 11 is fixedly connected with two storage cavities 23 which are symmetrical front and back, a fixing device 101 is arranged in each storage cavity 23, the fixing device 101 is used for fixing the computer and adjusting a screen, the fixing device 101 comprises two lifting cavities 40 which are fixedly connected with the right end wall of the frame 11 and symmetrical front and back, the front end surface of the lifting cavity 40 at the back side is slidably connected with a tail clamping frame 43, the tail clamping frame 43 can rotate in the lifting cavity 40, the left end wall of the tail clamping frame 43 is slidably connected with a clamping block 42, a pressure spring 41 is fixedly connected between the upper end surface of the clamping block 42 and the upper end wall of the tail clamping frame 43, the upper end wall of the frame 11 is fixedly connected with a working cavity 15, and the upper end surface of the working cavity 15 is fixedly connected with a heat dissipation net 39, the working motor 16 is connected to the lower end face of the working cavity 15 in a sliding manner, the upper end face of the working motor 16 is connected to the working motor shaft 38 which extends upwards in a power manner, the working motor shaft 38 is provided with a heat dissipation device 102, the heat dissipation device 102 is used for heat dissipation treatment of a computer, the upper end wall of the rack 11 is fixedly connected with a storage cavity 33, the storage cavity 33 is connected to a roller 31 in a sliding manner, the roller 31 is connected with a rolling shaft 32 in a rotating manner, the rolling shaft 32 is provided with an ash removal device 103, the ash removal device 103 is used for cleaning dust on a computer bottom plate, the ash removal device 103 is internally provided with a first spool 63, the first spool 63 is fixedly connected with a first auxiliary bevel gear 62, the fixing device 101 is internally provided with an auxiliary motor 69, the auxiliary motor 69 is connected with an auxiliary motor shaft 68 which extends up and down in a power manner, and the lower end face of the auxiliary motor shaft 68 is fixedly connected with a first bevel gear 64, the first bevel gear 64 and the first secondary bevel gear 62 can be in meshed connection, and the fixing device 101 can transmit power to the ash cleaning device 103 for cleaning through the meshed connection of the first bevel gear 64 and the first secondary bevel gear 62.

Beneficially, a transmission cavity 65 is fixedly connected to the left end wall of the frame 11, the auxiliary motor 69 is slidably connected to the left end surface of the transmission cavity 65, a switching hydraulic cylinder 61 is fixedly connected to the lower end surface of the transmission cavity 65, a supporting block 70 is fixedly connected to the upper end surface of the switching hydraulic cylinder 61, the auxiliary motor 69 is fixedly connected to the front end surface of the supporting block 70, the auxiliary motor shaft 68 extending up and down is dynamically connected to the auxiliary motor 69, a second bevel gear 67 is fixedly connected to the upper end surface of the auxiliary motor shaft 68, a movable shaft 25 extending back and forth is rotatably connected to the front end surface of the transmission cavity 65, a second bevel gear 66 is fixedly connected to the movable shaft 25, the second bevel gear 66 and the second bevel gear 67 are in meshing connection, and two rotating tables 24 symmetrical back and forth are fixedly connected to the movable shaft 25, the rotating platform 24 is positioned in the storage cavity 23, a rotating rod 26 is fixedly connected to the rotating platform 24 at the rear side, a support rod 27 is rotatably connected on the rotating rod 26, a hydraulic rod 28 is fixedly connected between the lower side end face of the support rod 27 and the right side end face of the rotating rod 26, the right end face of the supporting rod 27 is rotatably connected with a vacuum chuck 29, the right end wall of the frame 11 is fixedly connected with a distance sensor 44, a moving cavity 84 is fixedly connected to the front end face of the transmission cavity 65, a moving rod 86 is slidably connected in the moving cavity 84, a return spring 87 is fixedly connected between the upper end surface of the moving rod 86 and the upper end surface of the moving cavity 84, a magnet 85 is fixedly connected to the lower end face of the moving rod 86, an electromagnet 83 is fixedly connected to the lower end face of the moving cavity 84, and a button 82 is fixedly connected to the front end face of the auxiliary motor 69.

Advantageously, the heat dissipation device 102 includes the working motor 16 slidably connected to the lower end surface of the working chamber 15, the upper end surface of the working motor 16 is connected to the working motor shaft 38, the working motor shaft 38 is fixedly connected to the first pulley 35, the working motor shaft 38 is connected to the support plate 36 in a rotating manner, the support plate 36 is slidably connected to the inner end surface of the working chamber 15, the lower end surface of the working chamber 15 is connected to the sleeve 47 in a sliding manner, the upper end surface of the sleeve 47 is connected to the auxiliary shaft 88 in a rotating manner, the support plate 36 is connected to the auxiliary shaft 88 in a rotating manner, the auxiliary shaft 88 is connected to the first pulley 55 in a rotating manner, the first V-belt 34 is connected between the first pulley 55 and the first pulley 35 in a rotating manner, and the working motor shaft 38 and the auxiliary shaft 88 are connected to the movable gear 17 which is symmetrical in the front and back directions, the upper end faces of the working motor shaft 38 and the auxiliary shaft 88 are fixedly connected with front and back symmetrical heat dissipation fans 37, the front and back end faces of the working cavity 15 are fixedly connected with front and back symmetrical ventilation openings 54, and the inner end faces of the ventilation openings 54 are fixedly connected with air filter screens 52.

Advantageously, a sliding cavity 56 is fixedly connected to the rear end face of the working cavity 15, a sliding rod 57 is slidably connected to the sliding cavity 56, a first rack 18 and a second rack 14 are fixedly connected to the front end face of the sliding rod 57, the first rack 18 and the movable gear 17 are in meshed connection, the second rack 14 and the movable gear 17 are in meshed connection, a first tensioning rope 50 is fixedly connected to the right end face of the second rack 14, a moving spring 89 is fixedly connected between the right end face of the second rack 14 and the right end face of the working cavity 15, a blocking block 58 is slidably connected to the rear end face of the sliding cavity 56, a second tensioning rope 60 is fixedly connected to the rear end face of the blocking block 58, a pushing spring 59 is fixedly connected between the rear end face of the blocking block 58 and the rear end face of the sliding cavity 56, and a first pressing block 46 is slidably connected to the front end face of the working cavity 15, a first touch pressure spring 45 is fixedly connected between the front end face of the first touch pressure block 46 and the front end face of the working cavity 15, the rear end face of the first touch pressure block 46 is fixedly connected with the second tensioning rope 60, the rear end face of the working cavity 15 is slidably connected with a second touch pressure block 48, the rear end face of the second touch pressure block 48 is fixedly connected with the first tensioning rope 50, and a second touch pressure spring 49 is fixedly connected between the rear end face of the second touch pressure block 48 and the rear end face of the working cavity 15.

Beneficially, the ash removing device 103 includes a first spool 63 rotatably connected to the left end face of the transmission cavity 65 and extending rightward, a main gear 71 and a first wire wheel 76 are fixedly connected to the first spool 63, a first pull wire 77 is rotatably connected to the first wire wheel 76, a movement cavity 78 is fixedly connected to the left end wall of the rack 11, the movement cavity 78 is located on the right side of the transmission cavity 65, a second spool 21 extending rightward is rotatably connected to the left end face of the movement cavity 78, a secondary gear 72 and a second wire wheel 73 are fixedly connected to the second spool 21, the secondary gear 72 is in meshing connection with the main gear 71, a second pull wire 75 is rotatably connected to the second wire wheel 73, a second pulley 19 is fixedly connected to the right end face of the second spool 21, a dust suction cavity 74 is fixedly connected to the inside of the rack 11, a fan blade shaft 90 extending rightward is rotatably connected to the end face of the dust suction cavity 74, the right end face of the fan blade shaft 90 is fixedly connected with a second auxiliary belt pulley 91, a second V belt 20 is rotatably connected between the second auxiliary belt pulley 91 and the second belt pulley 19, the left end face of the fan blade shaft 90 is fixedly connected with a dust suction fan 22, the upper end face of the dust suction cavity 74 is fixedly connected with a dust suction pipe 30, the lower end face of the dust suction cavity 74 is fixedly connected with a recovery pipe 13, a cleaning wheel 79 is fixedly connected on the rolling shaft 32, a plurality of dust suction ports 80 are rotatably connected on the rolling shaft 32, the dust suction pipe 30 is fixedly connected on the dust suction port 80, a sliding sleeve 81 is rotatably connected on the rolling shaft 32, the left end face of the sliding sleeve 81 is fixedly connected with a second pull wire 75, the right end face of the sliding sleeve 81 is fixedly connected with a first pull wire 77, two sliding grooves 53 which are symmetrical around the upper end wall of the rack 11 are fixedly connected with, the sliding grooves 53 are connected with the storage cavity 33, the roller 31 is slidably connected in the chute 53, the right end wall of the rack 11 is fixedly connected with a collection cavity 12, and the upper end surface of the collection cavity 12 is fixedly connected with the recovery pipe 13.

The following will describe in detail the use steps of an auxiliary device for dissipating heat and removing ash of a notebook computer with reference to fig. 1 to 7:

to begin with, the turning rod 26 is located in the storage chamber 23, the tail clamping frame 43 is located in the lifting chamber 40, the pressure spring 41 is in a stretched state, the first tensioning cord 50 is in a tensioned state, the second contact pressure spring 49 is in a stretched state, the moving spring 89 is in a compressed state, the first rack 18 meshes with the loose gear 17, the loose gear 17 does not mesh with the second rack 14, the first contact spring 45 is in a stretched state, the second tension rope 60 is in a loosened state, the pushing spring 59 is in a compressed state, the second bevel gear 67 is in mesh with the second pair of bevel gears 66, the first bevel gear 64 is not engaged with the first secondary bevel gear 62, the roller 31 is located in the storage chamber 33, the return spring 87 is in a normal state, and the electromagnet 83 is not energized.

The device starts to work, after a notebook computer is placed on the upper side of the heat dissipation net 39, a person pulls the tail holding frame 43, the tail holding frame 43 slides upwards, the right side of the computer body is placed in the holding block 42, the holding block 42 holds and fixes the computer body through the elastic performance of the pressure spring 41, the auxiliary motor 69 is started, the auxiliary motor 69 drives the auxiliary motor shaft 68 to rotate, the auxiliary motor shaft 68 drives the second bevel gear 67 to rotate, the second bevel gear 67 drives the second bevel gear 66 to rotate, the second bevel gear 66 drives the movable shaft 25 to rotate, the movable shaft 25 drives the rotating table 24 to rotate, the rotating table 24 drives the rotating rod 26 to rotate, the rotating rod 26 leaves the storage cavity 23, and the rotating rod 26 drives the vacuum suction cup 29 to rotate through the connection of the supporting rod 27, the vacuum sucker 29 is abutted to the left side of the computer screen, and the computer screen is fixed by the vacuum sucker 29 in an adsorption manner, so that the notebook computer is integrally fixed by matching with the clamping block 42, and accidental collision and damage are prevented.

After the computer is fixed, the working motor 16 is started, the working motor 16 drives the working motor shaft 38 to rotate, the working motor shaft 38 drives the first belt pulley 35 to rotate, the first belt pulley 35 is connected with and drives the first secondary belt pulley 55 to rotate through the first V-belt 34, the first secondary belt pulley 55 drives the secondary shaft 88 to rotate, then the secondary shaft 88 and the working motor shaft 38 simultaneously drive the heat dissipation fan 37 to rotate, the heat dissipation fan 37 rotates to blow heat to a computer bottom plate, simultaneously the working motor shaft 38 and the secondary shaft 88 simultaneously drive the movable gear 17 to rotate, the movable gear 17 is engaged with the first rack 18, the first rack 18 is fixed, so that the movable gear 17 drives the working motor shaft 38 and the secondary shaft 88 to move backwards, thereby driving the working motor 16 and the shaft sleeve 47 to move backwards, thereby moving the heat dissipation fan 37 backward until the working motor 16 abuts against the second pressing block 48, the second pressing spring 49 becomes compressed, the first tightening rope 50 becomes loose, the moving spring 89 becomes stretched, the moving spring 89 moves the second rack 14 leftward, thereby moving the first rack 18 leftward via the sliding rod 57, the first rack 18 is disengaged from the movable gear 17, the second rack 14 is engaged with the movable gear 17, meanwhile, the sliding rod 57 moves to the blocking block 58, the blocking block 58 enters into the slot in the sliding rod 57, the pushing spring 59 becomes stretched, the second tightening rope 60 becomes stretched, the blocking block 58 blocks the sliding rod 57 to be reset, thereby keeping the second rack 14 engaged with the movable gear 17, the movable gear 17 changes the moving direction to drive the first rack 18 to move forward, so as to drive the heat dissipation fan 37 to move forward, until the shaft sleeve 47 abuts against the first pressing block 46, the first pressing spring 45 becomes a compressed state, the blocking block 58 is pulled by the second tensioning rope 60 to move backward, and the blocking block is separated from the clamping groove in the sliding rod 57, so that the sliding rod 57 moves rightward to be reset under the action of the first tensioning rope 50, the second rack 14 is separated from the movable gear 17, the first rack 18 is re-meshed with the movable gear 17, so as to move the heat dissipation fan 37 backward, and the heat dissipation area is expanded by the forward and backward reciprocating movement of the heat dissipation fan 37 achieved through the first rack 18 and the second rack 14, so as to improve the heat dissipation efficiency of the computer.

The computer screen is fixed by the vacuum chuck 29 in an adsorption way, the movable shaft 25 is utilized to drive the vacuum chuck 29 to rotate, so that the amplitude of the computer screen can be adjusted, the distance sensor 44 detects that no person is in front of the computer for a long time, the electromagnet 83 is started, the magnet 85 is driven to move downwards by magnetic force, the movable rod 86 moves downwards to abut against the button 82, the auxiliary motor 69 is started to drive the vacuum chuck 29 to move downwards, the computer screen is closed to screen, the shortage of electric quantity of the computer is prevented, when the dust is required to be cleaned at the bottom of the computer, the hydraulic rod 28 is started, the hydraulic rod 28 drives the supporting rod 27 to move upwards, the vacuum chuck 29 drives the computer screen to move upwards, the bottom of the computer is lifted, the switching hydraulic cylinder 61 is started, and the auxiliary motor 69 is driven to move downwards by the supporting block 70, the first bevel gear 64 is engaged with the first secondary bevel gear 62, the auxiliary motor 69 is started, the auxiliary motor shaft 68 drives the first bevel gear 64 to rotate, the first bevel gear 64 drives the first secondary bevel gear 62 to rotate, the first secondary bevel gear 62 drives the first spool 63 to rotate, the first spool 63 drives the main gear 71 and the first spool 76 to rotate, the first spool 76 drives the first pull wire 77 to tighten, simultaneously, the main gear 71 drives the secondary gear 72 to rotate, the secondary gear 72 drives the second spool 21 to rotate, the second spool 21 drives the second spool 73 to rotate, the second spool 73 drives the second pull wire 75 to loosen, so that the first pull wire 77 drives the sliding sleeve 81 to move rightwards, thereby driving the cleaning wheel 79 to move rightwards, the roller 31 moves in the chute 53, the cleaning wheel 79 moves to clean the dust at the bottom of the computer, at the same time, the second bobbin 21 drives the second belt wheel 19 to rotate, the second belt wheel 19 drives the second secondary belt wheel 91 to rotate through the second V-belt 20, the second secondary belt pulley 91 drives the fan blade shaft 90 to rotate, the fan blade shaft 90 drives the dust collection fan 22 to rotate, the suction port 80 sucks dust by the negative pressure generated by the rotation of the suction fan 22, and delivers the sucked dust into the suction chamber 74 through the suction pipe 30, and delivers the sucked dust into the collection chamber 12 through the recovery pipe 13 to collect dust, the auxiliary motor 69 is in running fit with the second pull wire 75 and the first pull wire 77, so that the cleaning wheel 79 can reciprocate left and right, thereby reducing dust at the bottom of the computer and greatly enhancing the heat dissipation effect of the computer.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides an auxiliary assembly for heat dissipation deashing of notebook computer, includes the frame, its characterized in that: the wall of the left side of the rack is fixedly connected with two storage cavities which are symmetrical front and back, a fixing device is arranged in each storage cavity and is used for fixing a computer and adjusting a screen, each fixing device comprises two lifting cavities which are fixedly connected with the wall of the right side of the rack and symmetrical front and back, the front end face of each lifting cavity at the back side is slidably connected with a tail clamping frame, each tail clamping frame can rotate in each lifting cavity, the wall of the left side of each tail clamping frame is slidably connected with a clamping block, a pressure spring is fixedly connected between the upper end face of each clamping block and the upper end wall of each tail clamping frame, the wall of the upper side of the rack is fixedly connected with a working cavity, the upper end face of each working cavity is fixedly connected with a radiating net, the lower end face of each working cavity is slidably connected with a working motor, and the upper end face of each working motor is dynamically connected with a working motor shaft which extends upwards, a heat dissipation device is arranged on the shaft of the working motor and used for heat dissipation treatment of a computer, a storage cavity is fixedly connected with the end wall of the upper side of the machine frame, the storage cavity is internally connected with a roller in a sliding way, the roller is rotatably connected with a rolling shaft, the rolling shaft is provided with a dust cleaning device, the dust cleaning device is used for cleaning dust on the bottom plate of the computer, a first spool is arranged in the dust cleaning device, a first auxiliary bevel gear is fixedly connected on the first spool, an auxiliary motor is arranged in the fixing device, the auxiliary motor is connected with an auxiliary motor shaft which extends up and down in a power mode, the lower end face of the auxiliary motor shaft is fixedly connected with a first bevel gear, the first bevel gear and the first auxiliary bevel gear can be in meshed connection, and the fixing device can transmit power to the ash cleaning device for cleaning through meshed connection of the first bevel gear and the first auxiliary bevel gear.

2. The auxiliary device for heat dissipation and ash removal of the notebook computer as claimed in claim 1, wherein: the end wall of the left side of the rack is fixedly connected with a transmission cavity, the end surface of the left side of the transmission cavity is connected with the auxiliary motor in a sliding manner, the end surface of the lower side of the transmission cavity is fixedly connected with a switching hydraulic cylinder, the end surface of the upper side of the switching hydraulic cylinder is fixedly connected with a supporting block, the end surface of the front side of the supporting block is fixedly connected with the auxiliary motor, the auxiliary motor is in power connection with the auxiliary motor shaft which extends up and down, the end surface of the upper side of the auxiliary motor shaft is fixedly connected with a second bevel gear, the end surface of the front side of the transmission cavity is in rotating connection with a movable shaft which extends front and back, the movable shaft is fixedly connected with a second auxiliary bevel gear, the second auxiliary bevel gear and the second bevel gear can be in meshing connection, the movable shaft is fixedly connected with two rotating tables which are symmetrical front and back, the rotating tables are positioned in the storage cavity, and the rotating rods are fixedly connected with the rotating tables at the back side, rotate on the dwang and be connected with the bracing piece, bracing piece downside terminal surface with fixedly connected with hydraulic stem between the dwang right-hand member terminal surface, bracing piece right-hand member terminal surface rotates and is connected with vacuum chuck, frame right side end wall fixedly connected with distance sensor, transmission chamber front end terminal surface fixedly connected with removes the chamber, remove intracavity sliding connection and have the carriage release lever, carriage release lever upside terminal surface with fixedly connected with reset spring between the removal chamber upside terminal surface, carriage release lever downside terminal surface fixedly connected with magnet, remove chamber downside terminal surface fixedly connected with electro-magnet, auxiliary motor front end terminal surface fixedly connected with button.

3. The auxiliary device for dissipating heat and removing dust of the notebook computer as claimed in claim 2, wherein: the heat dissipation device comprises a working motor which is connected to the lower side end face of the working cavity in a sliding manner, the upper side end face of the working motor is in power connection with a working motor shaft which extends upwards, a first belt pulley is fixedly connected to the working motor shaft, a supporting plate is rotatably connected to the working motor shaft and is slidably connected to the inner side end face of the working cavity, a shaft sleeve is slidably connected to the lower side end face of the working cavity, an auxiliary shaft which extends upwards is rotatably connected to the upper side end face of the shaft sleeve, the supporting plate is rotatably connected to the auxiliary shaft, a first auxiliary belt pulley is fixedly connected to the auxiliary shaft, a first V belt is rotatably connected between the first auxiliary belt pulley and the first belt pulley, movable gears which are symmetrical front and back are fixedly connected to the working motor shaft and the auxiliary shaft, and heat dissipation fans which are symmetrical front and back are fixedly connected to the upper side end faces of the working motor shaft and the auxiliary shaft, the front end face and the rear end face of the working cavity are fixedly connected with two ventilation openings which are symmetrical front and back, and the inner side end faces of the ventilation openings are fixedly connected with an air filter screen.

4. The auxiliary device for dissipating heat and removing dust of the notebook computer as claimed in claim 3, wherein: the sliding device is characterized in that a sliding cavity is fixedly connected to the end face of the rear side of the working cavity, a sliding rod is slidably connected to the inside of the sliding cavity, a first rack and a second rack are fixedly connected to the end face of the front side of the sliding rod, the first rack and the movable gear can be connected in a meshed manner, the second rack and the movable gear can be connected in a meshed manner, a first tensioning rope is fixedly connected to the end face of the right side of the second rack, a movement spring is fixedly connected between the end face of the right side of the second rack and the end face of the right side of the working cavity, a blocking block is slidably connected to the end face of the rear side of the sliding cavity, a second tensioning rope is fixedly connected to the end face of the rear side of the blocking block, a pushing spring is fixedly connected between the end face of the rear side of the blocking block and the end face of the rear side of the sliding cavity, a first pressing block is slidably connected to the end face of the front side of the working cavity, and a first pressing spring is fixedly connected to the end face of the front side of the sliding block and the working cavity, the rear end face of the working cavity is connected with a first pressing block in a sliding mode, the rear end face of the working cavity is connected with a first tensioning rope in a sliding mode, the rear end face of the first pressing block is connected with a second pressing block in a fixed mode, and a first pressing spring is fixedly connected between the rear end face of the first pressing block and the rear end face of the working cavity.

5. The auxiliary device for dissipating heat and removing dust of the notebook computer as claimed in claim 4, wherein: the ash removal device comprises a first spool which is rotatably connected to the left end face of the transmission cavity and extends rightwards, a main gear and a first spool are fixedly connected to the first spool, a first pull wire is connected to the first spool in a rotating mode, a movement cavity is fixedly connected to the left end wall of the rack and is located on the right side of the transmission cavity, a second spool which extends rightwards is connected to the left end face of the movement cavity in a rotating mode, an auxiliary gear and a second spool are fixedly connected to the second spool, the auxiliary gear is connected with the main gear in a meshing mode, a second pull wire is connected to the second spool in a rotating mode, a second belt wheel is fixedly connected to the right end face of the second spool, a dust suction cavity is fixedly connected to the inside of the rack, the right end face of the dust suction cavity is rotatably connected with a fan blade shaft which extends rightwards, and a second auxiliary belt wheel is fixedly connected to the right end face of the fan blade shaft, a second V-shaped belt is rotatably connected between the second secondary belt wheel and the second belt wheel, the left end face of the fan blade shaft is fixedly connected with a dust collection fan, the upper end surface of the dust suction cavity is fixedly connected with a dust suction pipe, the lower end surface of the dust suction cavity is fixedly connected with a recovery pipe, the rolling shaft is fixedly connected with a cleaning wheel, the rolling shaft is rotatably connected with a plurality of dust suction ports, the dust suction pipe is fixedly connected on the dust suction port, the sliding sleeve is rotatably connected on the rolling shaft, the end face of the left side of the sliding sleeve is fixedly connected with the second stay wire, the end face of the right side of the sliding sleeve is fixedly connected with the first stay wire, the upper end wall of the machine frame is fixedly connected with two sliding chutes which are symmetrical front and back and are connected with the storage cavity, but gyro wheel sliding connection be in the spout, frame right side end wall fixedly connected with collects the chamber, collect chamber upside terminal surface fixedly connected with the recovery tube.