CN112228732A - Computer information technology heat dissipation storage facilities - Google Patents
Computer information technology heat dissipation storage facilities Download PDFInfo
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- CN112228732A CN112228732A CN202011121227.3A CN202011121227A CN112228732A CN 112228732 A CN112228732 A CN 112228732A CN 202011121227 A CN202011121227 A CN 202011121227A CN 112228732 A CN112228732 A CN 112228732A
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- 230000017525 heat dissipation Effects 0.000 title claims abstract description 51
- 238000005516 engineering process Methods 0.000 title claims abstract description 35
- 235000017166 Bambusa arundinacea Nutrition 0.000 claims description 12
- 235000017491 Bambusa tulda Nutrition 0.000 claims description 12
- 241001330002 Bambuseae Species 0.000 claims description 12
- 235000015334 Phyllostachys viridis Nutrition 0.000 claims description 12
- 239000011425 bamboo Substances 0.000 claims description 12
- 241000883990 Flabellum Species 0.000 claims description 7
- 230000008878 coupling Effects 0.000 claims description 7
- 238000010168 coupling process Methods 0.000 claims description 7
- 238000005859 coupling reaction Methods 0.000 claims description 7
- 238000009434 installation Methods 0.000 claims description 7
- 230000033001 locomotion Effects 0.000 claims description 4
- 230000001360 synchronised effect Effects 0.000 claims description 2
- 238000009827 uniform distribution Methods 0.000 claims description 2
- 238000009826 distribution Methods 0.000 claims 1
- 238000010586 diagram Methods 0.000 description 14
- 238000005265 energy consumption Methods 0.000 description 3
- 238000006073 displacement reaction Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000006870 function Effects 0.000 description 2
- 238000010438 heat treatment Methods 0.000 description 2
- 230000002441 reversible effect Effects 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 238000007792 addition Methods 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 238000001816 cooling Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 238000003756 stirring Methods 0.000 description 1
- 230000007306 turnover Effects 0.000 description 1
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/20—Undercarriages with or without wheels
- F16M11/24—Undercarriages with or without wheels changeable in height or length of legs, also for transport only, e.g. by means of tubes screwed into each other
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/02—Heads
- F16M11/04—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
- F16M11/06—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting
- F16M11/10—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting around a horizontal axis
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/02—Heads
- F16M11/18—Heads with mechanism for moving the apparatus relatively to the stand
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/20—Cooling means
- G06F1/203—Cooling means for portable computers, e.g. for laptops
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Theoretical Computer Science (AREA)
- Computer Hardware Design (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Transmission Devices (AREA)
Abstract
A computer information technology heat dissipation storage device comprises a bottom case, wherein the upper end of the bottom case is hinged with a containing case, the inner wall of the left end of the containing case is provided with a rotatable disc, and the disc can form a structure that the containing case is turned over up and down when rotating; the inner wall of the right end of the containing box is fixedly connected with a square frame, a first supporting plate capable of moving back and forth and moving left and right intermittently is mounted on the inner wall of the square frame, a supporting cylinder capable of swinging circumferentially while rotating is mounted at the upper end of the first supporting plate, four blades uniformly distributed are mounted on the outer side of the supporting cylinder, a rotatable second handle is mounted at the upper end of the supporting cylinder, and a structure that the four blades are turned up and down synchronously can be formed when the second handle rotates; through the fan blade that can rotate limit circumference wobbling, can realize the heat dissipation of multi-angle for the radiating rate.
Description
Technical Field
The invention relates to the technical field of computer information, in particular to a heat dissipation storage device for computer information technology.
Background
As is known, in the working process of a computer, heat is generated by key chips such as an internal central processing unit, a north-south bridge, a display card and the like and key components such as a hard disk, a memory and the like to increase the internal temperature of the computer, and as the chips and components in the computer normally operate to meet certain requirements on the working temperature, the chips and the components are unstable in operation and even damaged when the temperature is too high, so that a heat dissipation system plays a crucial role in the reliable and stable operation of the computer; in a conventional heat dissipation system of a notebook computer, heat generated by a heating element in a host is generally conducted to heat dissipation fins by using heat pipes, and the heat is dissipated by heat convection between a fan and the heat dissipation fins, so as to reduce the temperature of the heating element and achieve the purpose of cooling and heat dissipation; because the heat dissipation performance of the notebook is limited, a heat dissipation device is needed to assist the notebook to accelerate the heat dissipation, but the existing heat dissipation device can only dissipate the heat of the local part of the notebook, and has uneven heat dissipation, poor effect and the like; a computer information technology heat dissipation storage device is designed to solve the above mentioned problems.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides the heat dissipation storage equipment of the computer information technology, which can assist the notebook to carry out accelerated heat dissipation, can carry out large-area and multi-angle heat dissipation, has uniform heat dissipation and high efficiency, and effectively solves the problems that the notebook can only be locally cooled, the heat dissipation is not uniform, the effect is poor and the like.
In order to solve the problems, the invention adopts the technical scheme that:
a computer information technology heat dissipation storage device comprises a bottom case, wherein the upper end of the bottom case is hinged with a containing case, the inner wall of the left end of the containing case is provided with a rotatable disc, and the disc can form a structure that the containing case is turned over up and down when rotating; hold case right-hand member inner wall fixedly connected with square frame, but square frame inner wall is installed and is moved the first backup pad that removes about intermittent type nature while the limit back-and-forth movement, but first backup pad upper end is installed and is rotated limit circumference wobbling support section of thick bamboo, four evenly distributed flabellums are installed to the support section of thick bamboo outside, rotatable second handle is installed to support section of thick bamboo upper end, can constitute the structure that four flabellums overturn from top to bottom in step when the second handle rotates.
Preferably, a motor is fixedly connected to the left side of the lower end surface of the containing box, a driving bevel gear is fixedly connected to the front end of the motor, a rotatable first handle is mounted on the left side of the lower end of the containing box, a first threaded rod is fixedly connected to the center of the right end surface of the first handle, first threaded cylinders are respectively engaged with the left side and the right side of the outer surface of the first threaded rod, first connecting rods inclined towards the inner side of the upper end are respectively hinged to the upper ends of the outer surfaces of the first threaded cylinders, a first base is hinged to the upper ends of the two first connecting rods, the first base is fixedly connected to the lower end surface of the containing box, a U-shaped seat is rotatably connected to the right end of the first threaded rod, a first driven bevel gear matched with the driving bevel gear is rotatably connected to the inner wall of the upper end of, the first small rotating shaft is connected to the center of the first driven bevel gear in a sliding mode, the first small rotating shaft is connected to the inner wall of the containing box in a rotating mode, the second small rotating shaft is connected to the center of the second driven bevel gear in a sliding mode, and the second small rotating shaft is connected to the lower end of the containing box in a rotating mode.
Preferably, the upper end of the outer surface of the first small rotating shaft is fixedly connected with a first steering bevel gear, the front side of the upper end of the first steering bevel gear is meshed with a second steering bevel gear, the center of the second steering bevel gear is fixedly connected with a worm, the lower end of the worm is meshed with a worm gear, the worm gear is coaxially and fixedly connected with a disc, a long connecting rod is hinged to the non-circle center position of the surface of the left end of the disc, and the lower end of the long connecting rod is hinged to the inner wall of the bottom box.
Preferably, the lower end of the outer surface of the second small rotating shaft is fixedly connected with a third steering bevel gear, the right side of the lower end of the third steering bevel gear is meshed with a fourth steering bevel gear, the center of the fourth steering bevel gear is fixedly connected with a first telescopic rod, the front end of the outer surface of the first telescopic rod is fixedly connected with a fifth steering bevel gear, the right side of the front end of the fifth steering bevel gear is meshed with a sixth steering bevel gear, the center of the sixth steering bevel gear is fixedly connected with a second telescopic rod, the front end of the outer surface of the second telescopic rod is fixedly connected with a seventh steering bevel gear, the upper side of the front end of the seventh steering bevel gear is meshed with an eighth steering bevel gear, the center of the eighth steering bevel gear is fixedly connected with a first rotating shaft, and the first rotating shaft is rotatably connected to the.
Preferably, the inner walls of the front end and the rear end of the first supporting plate are respectively connected with first guide rods in a sliding manner, the first guide rods are respectively connected with the inner wall of the square frame in a sliding manner, the middle part of the outer surface of the first rotating shaft is fixedly connected with a cross, the outer side of the lower end surface of the cross is fixedly connected with an incomplete inner gear ring, the outer side surface of the incomplete inner gear ring is fixedly connected with an incomplete outer gear ring, the left side and the right side of the inner wall of the square frame are respectively connected with first straight racks matched with the incomplete outer gear ring in a sliding manner, the lower end surfaces of the two first straight racks are connected; the middle of the surface of the lower end of the cross is fixedly connected with an incomplete straight gear, the surface of the upper end of the first supporting plate is rotatably connected with a first straight gear matched with the incomplete straight gear and an incomplete inner gear ring, the lower end of the first straight gear is coaxially and fixedly connected with a driving plate, the front end of the driving plate is meshed with a grooved pulley, the inner wall of the center of the grooved pulley is fixedly connected with a short shaft, the short shaft is rotatably connected to the inner wall of the first supporting plate, the lower end of the outer surface of the short shaft is fixedly connected with a second straight gear, the front end of the second straight gear is meshed with a second straight rack, the second straight rack is slidably connected to the inner wall of the square frame, the surface of the lower end of.
Preferably, the upper end of the outer surface of the first rotating shaft is rotatably connected with a second supporting plate, the inner walls of the front end and the rear end of the second supporting plate are respectively and slidably connected with a second guide rod, the second guide rods are respectively and slidably connected with the inner wall of the square frame, the surface of the upper end of the first rotating shaft is fixedly connected with a crank inclined towards the outer side of the upper end, the inner wall of the crank is rotatably connected with a second rotating shaft, the lower end of the outer surface of the second rotating shaft is fixedly connected with a helical gear, the outer side of the helical gear is engaged with a helical inner gear; both sides are fixedly connected with long backup pad respectively around the second backup pad upper end surface, two long backup pad inner wall rotates and is connected with a square frame, second pivot surface upper end rotates and is connected with a long section of thick bamboo, the difference fixedly connected with third guide arm of long section of thick bamboo surface middle part left and right sides, the third guide arm surface outside rotates respectively and connects at square frame inner wall, a support section of thick bamboo fixed connection is at second pivot upper end surface.
Preferably, the surface of the lower end of the second handle is fixedly connected with a second threaded rod, the second threaded rod is in threaded connection with the inner wall of the upper end of the supporting cylinder, four circular through holes with uniform sections are formed in the outer surface of the supporting cylinder, the inner walls of the circular through holes are respectively in rotary connection with a thick rotating shaft, and the fan blades are respectively and fixedly connected to the outer surfaces of the corresponding thick rotating shafts; second threaded rod lower extreme rotates and is connected with the third straight-teeth rack, the meshing of third straight-teeth rack right-hand member has the third straight-teeth gear, the coaxial rigid coupling of third straight-teeth gear front end has first bevel gear, the meshing of first bevel gear left end rear side has second bevel gear, the meshing of second bevel gear rear end right side has third bevel gear, the meshing of third bevel gear right-hand member front side has fourth bevel gear, fourth bevel gear left side front end meshes with corresponding first bevel gear mutually, thick pivot respectively with the coaxial rigid coupling of corresponding first bevel gear, second bevel gear, third bevel gear and fourth bevel gear.
The invention has novel structure, ingenious conception and simple and convenient operation, and compared with the prior art, the invention has the following advantages:
1. according to the invention, the notebook computer is placed on the inner wall of the groove at the upper end of the containing box, the first handle is rotated by starting the motor, so that the corresponding first driven bevel gear is meshed with the driving bevel gear, the corresponding containing box can be turned upwards, and the corresponding notebook can be turned upwards and downwards due to different personal use habits, so that the height and the gradient of the corresponding notebook can be adjusted according to personal preference.
2. According to the invention, the second driven bevel gear is meshed with the corresponding driving bevel gear by rotating the first handle, so that the corresponding first supporting plate can intermittently move left and right while moving back and forth, and therefore, the corresponding fan blades can intermittently move left and right while moving back and forth, and the fan blades can carry out large-area scanning heat dissipation on the lower end of the notebook.
3. When the first supporting plate moves, the corresponding fan blades can rotate and swing circumferentially at the same time, so that the multi-angle uniform heat dissipation of the fan blades is realized, the hot air is blown more uniformly, and the heat dissipation speed is accelerated.
4. According to the notebook computer, the inclination angles of the fan blades can be adjusted by rotating the second handle, the turnover angles of the four fan blades can be adjusted according to the specific heat dissipation requirement of the notebook computer, and energy consumption caused by excessive heat dissipation of the notebook computer due to excessive friction between the fan blades and air caused by excessive inclination angles of the fan blades can be reduced.
Drawings
Fig. 1 is a schematic overall appearance diagram of a computer information technology heat dissipation storage device according to the present invention.
Fig. 2 is a bottom box internal structure diagram of a computer information technology heat dissipation storage device of the present invention.
Fig. 3 is a structural view of the inside of a storage box of the computer information technology heat dissipation storage device of the present invention.
Fig. 4 is a cross-sectional view of a storage box of a computer information technology heat sink storage device of the present invention.
Fig. 5 is a schematic view of a lower end structure of a containing box of the computer information technology heat dissipation storage device of the present invention.
Fig. 6 is a motor installation diagram of a computer information technology heat dissipation storage device of the present invention.
FIG. 7 is a diagram of a disk mounting of a computer information technology heat sink storage device of the present invention.
Fig. 8 is a schematic diagram of an internal structure of a square rack of a heat dissipation storage device according to the computer information technology of the present invention.
Fig. 9 is a first pivot mounting diagram of a computer information technology heat dissipation storage device of the present invention.
Fig. 10 is a first rack mount view of a computer information technology heat sink storage device of the present invention.
Fig. 11 is a view illustrating an incomplete spur gear installation of a heat dissipation storage apparatus according to a computer information technology of the present invention.
FIG. 12 is a cross mounting diagram of a computer information technology heat sink storage device of the present invention.
Fig. 13 is a fan blade mounting diagram of a computer information technology heat dissipation storage device according to the present invention.
FIG. 14 is a cross-sectional view of a second support plate of a computer information technology heat sink storage device of the present invention.
Fig. 15 is a four-rack mounting diagram of a computer information technology heat dissipation storage device of the present invention.
FIG. 16 is a crank mounting view of a computer information technology heat sink storage device of the present invention.
FIG. 17 is a cross-sectional view of a support cylinder of a computer information technology heat sink storage device of the present invention.
Fig. 18 is a structural view of the inside of a supporting cylinder of a computer information technology heat dissipation storage device according to the present invention.
Fig. 19 is a third spur rack mounting diagram of a computer information technology heat dissipation storage apparatus of the present invention.
Fig. 20 is a third spur gear installation diagram of a computer information technology heat dissipation storage apparatus of the present invention.
Reference numbers in the figures: 1-bottom box, 2-containing box, 3-motor, 4-driving bevel gear, 5-second driven bevel gear, 6-third steering bevel gear, 7-first driven bevel gear, 8-U-shaped seat, 9-fourth steering bevel gear, 10-first threaded rod, 11-first threaded barrel, 12-first connecting rod, 13-first base, 14-first handle, 15-worm, 16-worm gear, 17-disc, 18-long connecting rod, 19-square frame, 20-first steering bevel gear, 21-second steering bevel gear, 22-first telescopic rod, 23-fifth steering bevel gear, 24-sixth steering bevel gear, 25-second telescopic rod, 26-first bearing seat, 27-seventh steering bevel gear, 28-eighth steering bevel gear, 29-first bearing plate, 30-first rotating shaft, 31-cross, 32-incomplete inner gear ring, 33-incomplete straight gear, 34-incomplete outer gear ring, 35-first straight rack, 36-first straight gear, 37-dial, 38-grooved wheel, 39-second straight gear, 40-second bearing plate, 41-second straight rack, 42-second support plate, 43-second guide rod, 44-first support plate, 45-crank, 46-long support plate, 47-second rotating shaft, 48-helical gear, 49-oblique inner gear ring, 50-long cylinder, 51-square frame, 52-third guide rod, 53-support cylinder, 54-second handle, 55-second threaded rod, 56-anti-drop shaft, 57-third straight rack, 58-third straight gear, 59-first bevel gear, 60-second bevel gear, 61-third bevel gear, 62-fourth bevel gear, 63-coarse rotating shaft, 64-fan blade, 65-first guide rod, 66-second small rotating shaft, 67-first small rotating shaft and 68-short shaft.
Detailed Description
The following are specific embodiments of the present invention, and the technical solutions of the present invention will be further described with reference to the drawings, but the present invention is not limited to these embodiments.
As shown in fig. 1-20, the invention provides a computer information technology heat dissipation storage device, which comprises a bottom case 1, wherein the upper end of the bottom case 1 is hinged with a containing case 2, the inner wall of the left end of the containing case 2 is provided with a rotatable disc 17, and the disc 17 can form a structure that the containing case 2 is turned over up and down when rotating; hold case 2 right-hand member inner wall fixedly connected with square frame 19, but square frame 19 inner wall is installed and is moved the first backup pad 44 that removes about intermittent type nature while moving back and forth, but first backup pad 44 upper end is installed and is rotated limit circumference wobbling support cylinder 53, four evenly distributed flabellums 64 are installed to the support cylinder 53 outside, rotatable second handle 54 is installed to support cylinder 53 upper end, second handle 54 can constitute the structure that four flabellums 64 overturn from top to bottom in step when rotating.
As shown in fig. 1-3, 8 and 13, the bottom case 1 is a supporting core of the whole device, a groove is formed in the upper end surface of the containing case 2, the notebook is placed in the groove of the upper end surface of the corresponding containing case 2 and clamped into the inner wall of the groove, and the notebook is placed to fall off, and due to different personal use habits, the corresponding notebook can be turned over up and down by turning over the containing case 2, so that the height and the gradient of the corresponding notebook can be adjusted according to personal preference; the first supporting plate 44 which can move back and forth and intermittently move left and right can drive the corresponding fan blades 64 to move back and forth and intermittently move left and right, so that large-area scanning heat dissipation is carried out on the lower end of the notebook computer, and the supporting cylinder 53 which can rotate and circumferentially swing can drive the corresponding fan blades 64 to rotate and circumferentially swing at the same time, so that multi-angle uniform heat dissipation is realized, hot air is blown more uniformly, and the heat dissipation speed is accelerated; when the inclination angle of the fan blades 64 is changed, the corresponding air displacement and friction loss are also changed; through the four fan blades 64 capable of being turned up and down synchronously, the turning angles of the four fan blades 64 can be adjusted according to the specific heat dissipation requirement of the notebook, so that the energy consumption caused by excessive heat dissipation of the notebook due to the overlarge friction force between the fan blades 64 and air caused by overlarge inclination angle of the fan blades 64 can be reduced.
A motor 3 is fixedly connected to the left side of the lower end surface of the containing box 2, a driving bevel gear 4 is fixedly connected to the front end of the motor 3, a rotatable first handle 14 is installed on the left side of the lower end of the containing box 2, a first threaded rod 10 is fixedly connected to the center of the right end surface of the first handle 14, first threaded cylinders 11 are respectively engaged with the left side and the right side of the outer surface of the first threaded rod 10, first connecting rods 12 inclined towards the inner side of the upper end are respectively hinged to the upper ends of the outer surface of the first threaded cylinders 11, a first base 13 is hinged to the upper ends of the two first connecting rods 12, the first base 13 is fixedly connected to the lower end surface of the containing box 2, a U-shaped seat 8 is rotatably connected to the right end of the first threaded rod 10, a first driven bevel gear 7 matched with the driving bevel gear 4 is rotatably connected to the inner wall of the upper end of the U-shaped seat, the center of the first driven bevel gear 7 is connected with a first small rotating shaft 67 in a sliding mode, the first small rotating shaft 67 is connected to the inner wall of the containing box 2 in a rotating mode, the center of the second driven bevel gear 5 is connected with a second small rotating shaft 66 in a sliding mode, and the second small rotating shaft 66 is connected to the lower end of the containing box 2 in a rotating mode.
As shown in fig. 3-6, the motor 3 is prior art and will not be described again; the outer surface of the second small rotating shaft 66 is rotatably connected with a U-shaped bearing seat, and the U-shaped bearing seat is fixedly connected to the surface of the lower end of the containing box 2; the first small rotating shaft 67 and the first driven bevel gear 7 are in spline connection, and when the first driven bevel gear 7 drives the first small rotating shaft 67 to rotate, the first driven bevel gear 7 can slide on the outer surface of the first small rotating shaft 67; similarly, the second small rotating shaft 66 and the second driven bevel gear 5 are in spline connection, and when the second driven bevel gear 5 rotates, the second small rotating shaft 66 can be driven to rotate, and the second driven bevel gear 5 can slide on the outer surface of the second small rotating shaft 66; the first driven bevel gear 7 and the second driven bevel gear 5 are limited through the first small rotating shaft 67 and the second small rotating shaft 66, so that the U-shaped seat 8 is indirectly limited, and the U-shaped seat 8 only can move up and down; the left end and the right end of the outer surface of the first threaded rod 10 are respectively provided with threads with the same thread pitch and different turning directions at two ends, so that when the first threaded rod 10 rotates, the corresponding two first threaded cylinders 11 can be driven to synchronously move inwards or outwards, and when the first handle 14 rotates, the first handle 14 can drive the first threaded rod 10 to rotate, because the upper ends of the first threaded cylinders 11 are hinged with first connecting rods 12, the upper ends of the first connecting rods 12 are hinged with first bases 13, the first bases 13 are fixedly connected with the inner wall of the containing box 2, the first threaded cylinders 11 can not rotate and can only move leftwards and rightwards, the first threaded rods 10 can synchronously move inwards or outwards through threaded connection, when the first threaded cylinders 11 move inwards, the corresponding first connecting rods 12 can be folded towards the lower ends of the inner sides, and when the lower ends of the first connecting rods 12 are folded towards the inner sides, the corresponding first threaded rods 10 can be driven to move downwards, the first threaded rod 10 can drive the corresponding U-shaped seat 8 to move towards the lower end when moving towards the lower end, and the corresponding first driven bevel gear 7 can be meshed with the corresponding driving bevel gear 4 when the U-shaped seat 8 moves towards the lower end, so that the corresponding first driven bevel gear 7 can rotate; in the same way, when the two first thread cylinders 11 move outwards, the corresponding second driven bevel gear 5 and the drive bevel gear 4 are engaged, so that the corresponding second small rotating shaft 66 rotates.
The upper end of the outer surface of the first small rotating shaft 67 is fixedly connected with a first steering bevel gear 20, the front side of the upper end of the first steering bevel gear 20 is meshed with a second steering bevel gear 21, the center of the second steering bevel gear 21 is fixedly connected with a worm 15, the lower end of the worm 15 is meshed with a worm wheel 16, the worm wheel 16 is fixedly connected with a disc 17 in a coaxial mode, a long connecting rod 18 is hinged to the non-circle center position of the surface of the left end of the disc 17, and the lower end of the long connecting rod 18 is hinged to the inner wall of.
As shown in fig. 4 or 7, the front end and the rear end of the outer surface of the worm 15 are respectively and rotatably connected with a bearing seat, the bottom end of the bearing seat is fixedly connected with the inner wall of the containing box 2, the centers of the worm wheel 16 and the disc 17 are fixedly connected with a rotating shaft, and the rotating shaft is rotatably connected with the inner wall of the containing box 2; when the driving bevel gear 4 is meshed with the first driven bevel gear 7, rotation of the first small rotating shaft 67 is achieved, rotation of the first small rotating shaft 67 drives the corresponding first steering bevel gear 20 to rotate, rotation of the first steering bevel gear 20 drives the corresponding second steering bevel gear 21 to rotate through meshing, rotation of the second steering bevel gear 21 drives the worm 15 to rotate, rotation of the worm 15 drives the worm wheel 16 to rotate through meshing, rotation of the worm wheel 16 drives the corresponding disc 17 to rotate, rotation of the disc 17 enables the disc 17 to move up and down under hinging with the corresponding long connecting rod 18, so that the corresponding containing box 2 is turned over up and down, and due to the fact that the worm wheel 16 and the worm 15 have a one-way self-locking function, when the disc 17 stops at any position, the position of the containing box 2 of the long connecting rod 18 is fixed, and the transmission direction is not reversible.
The lower end of the outer surface of the second small rotating shaft 66 is fixedly connected with a third steering bevel gear 6, the right side of the lower end of the third steering bevel gear 6 is meshed with a fourth steering bevel gear 9, the center of the fourth steering bevel gear 9 is fixedly connected with a first telescopic rod 22, the front end of the outer surface of the first telescopic rod 22 is fixedly connected with a fifth steering bevel gear 23, the right side of the front end of the fifth steering bevel gear 23 is meshed with a sixth steering bevel gear 24, the center of the sixth steering bevel gear 24 is fixedly connected with a second telescopic rod 25, the front end of the outer surface of the second telescopic rod 25 is fixedly connected with a seventh steering bevel gear 27, the upper side of the front end of the seventh steering bevel gear 27 is meshed with an eighth steering bevel gear 28, the center of the eighth steering bevel gear 28 is fixedly connected with a first rotating shaft 30, and the first rotating shaft 30 is.
As shown in fig. 8-9, the first telescopic rod 22 is composed of a first inner rod and a first outer cylinder, the first inner rod is slidably connected to the inner wall of the first outer cylinder, and the first outer cylinder and the first inner rod are in spline connection, and can serve as a rotating shaft to rotate and can extend and retract left and right; the outer surface of the first outer barrel is rotatably connected with a bearing seat, and the bottom end of the bearing seat is fixedly connected to the lower end surface of the containing box 2; the second telescopic rod 25 is composed of a second inner rod and a second outer cylinder, the second inner rod is connected to the inner wall of the second outer cylinder in a sliding mode, the second inner rod and the second outer cylinder are in spline connection and can serve as rotating shafts to rotate and stretch back and forth, the outer surface of the second outer cylinder is connected with a first bearing seat 26 in a rotating mode, and the first bearing seat 26 is connected to the surface of the lower end of the square frame 19 in a sliding mode; the right end of the outer surface of the first inner rod is rotatably connected with a triangular bearing seat, and the other end of the triangular bearing seat is rotatably connected with the outer surface of the second outer cylinder, so that when the second telescopic rod 25 moves left and right, the corresponding first inner rod is driven to slide left and right, and the fifth steering bevel gear 23 is always meshed with the sixth steering bevel gear 24; the front end of the outer surface of the second inner rod is rotatably connected with a triangular bearing seat, and the other end of the triangular bearing seat is rotatably connected with the outer surface of the first rotating shaft 30; the triangular bearing seats are used for driving the corresponding second inner rods to slide back and forth when the first rotating shafts 30 move back and forth, and enabling the corresponding seventh steering bevel gears 27 and the corresponding eighth steering bevel gears 28 to be always meshed; by engaging the second driven bevel gear 5 with the corresponding driving bevel gear 4, when the motor 3 is started, the corresponding second driven bevel gear 5 can be rotated, the second driven bevel gear 5 rotates to drive the second small rotating shaft 66 to rotate, the second small rotating shaft 66 rotates to drive the corresponding third steering bevel gear 6 to rotate, the third steering bevel gear 6 rotates to drive the corresponding fourth steering bevel gear 9 to rotate through engagement, the fourth steering bevel gear 9 rotates to drive the first telescopic rod 22 to rotate, the first telescopic rod 22 rotates to drive the fifth steering bevel gear 23 to rotate, the fifth steering bevel gear 23 rotates to drive the sixth steering bevel gear 24 to rotate through engagement, the sixth steering bevel gear 24 rotates the second telescopic rod 25 and the seventh steering bevel gear 27 to rotate, the seventh steering bevel gear 27 rotates to drive the eighth steering bevel gear 28 to rotate through engagement, rotation of the eighth bevel steering gear 28 rotates the first shaft 30, thereby transmitting force to the first shaft 30.
The inner walls of the front end and the rear end of the first supporting plate 44 are respectively connected with first guide rods 65 in a sliding manner, the first guide rods 65 are respectively connected with the inner wall of the square frame 19 in a sliding manner, the middle part of the outer surface of the first rotating shaft 30 is fixedly connected with a cross 31, the outer side of the lower end surface of the cross 31 is fixedly connected with an incomplete inner gear ring 32, the outer side surface of the incomplete inner gear ring 32 is fixedly connected with an incomplete outer gear ring 34, the left side and the right side of the inner wall of the square frame 19 are respectively connected with first straight racks 35 matched with the incomplete outer gear ring 34 in a sliding manner, the lower end surfaces of the two first straight racks 35 are respectively connected with; an incomplete straight gear 33 is fixedly connected to the middle of the surface of the lower end of the cross 31, a first straight gear 36 matched with the incomplete straight gear 33 and the incomplete annular gear 32 is rotatably connected to the surface of the upper end of the first supporting plate 44, a driving plate 37 is coaxially and fixedly connected to the lower end of the first straight gear 36, a grooved pulley 38 is meshed with the front end of the driving plate 37, a short shaft 68 is fixedly connected to the inner wall of the center of the grooved pulley 38, the short shaft 68 is rotatably connected to the inner wall of the first supporting plate 44, a second straight gear 39 is fixedly connected to the lower end of the outer surface of the short shaft 68, a second straight gear 41 is meshed with the front end of the second straight gear 39, the second straight gear 41 is slidably connected to the inner wall of the square frame 19, a second bearing plate 40 is slidably connected to the surface of.
As shown in fig. 8-12, the first guide rod 65 limits the position of the first support plate 44, so that the first support plate 44 can only slide left and right on the outer surface of the first guide rod 65, and the first guide rod 65 is slidably connected to the inner wall of the square frame 19, so that the first support plate 44 can move back and forth, left and right on the inner wall of the square frame 19; the first bearing plate 29 is used for limiting two first straight racks 35 to be matched with the corresponding incomplete outer gear rings 34 all the time and not to be separated; namely, the second bearing plate 40 is used for realizing that the second spur rack 41 is always meshed with the corresponding second spur gear 39 and is not separated; the centers of the first straight gear 36 and the drive plate 37 are fixedly connected with a rotating shaft which is rotatably connected with the inner wall of the first support plate 44; when the incomplete straight gear 33 and the incomplete inner gear ring 32 rotate, the corresponding first straight gear 36 can rotate forwards and backwards in a reciprocating manner by being meshed with the corresponding first straight gear 36; when the first rotating shaft 30 rotates, the cross 31 is driven to rotate, the cross 31 rotates to drive the corresponding incomplete inner gear ring 32 and the incomplete straight gear 33 to synchronously rotate, when the incomplete inner gear ring 32 rotates, the incomplete outer gear ring 34 rotates to reciprocate through the first straight gear rack 35 meshed with the left end and the right end, so that the corresponding first rotating shaft 30 and the corresponding first supporting plate 44 reciprocate back and forth, meanwhile, the incomplete inner gear ring 32 and the incomplete straight gear 33 are matched with the first straight gear 36, the corresponding first straight gear 36 reciprocates and rotates forwards and backwards, the first straight gear 36 reciprocates and forwards, the dial 37 reciprocates and forwards to stir the grooved pulley 38 to reciprocate forwards and backwards intermittently, the grooved pulley 38 reciprocates and forwards to drive the second straight gear 39 to reciprocate intermittently and forwards and backwards, the second spur gear 39 intermittently reciprocates in a forward and reverse manner, and the corresponding short shaft 68 intermittently moves left and right in a reciprocating manner under the meshing action of the second spur gear 41, namely, the first support plate 44 intermittently reciprocates in a left and right manner.
The upper end of the outer surface of the first rotating shaft 30 is rotatably connected with a second supporting plate 42, the inner walls of the front end and the rear end of the second supporting plate 42 are respectively and slidably connected with a second guide rod 43, the second guide rods 43 are respectively and slidably connected with the inner wall of the square frame 19, the surface of the upper end of the first rotating shaft 30 is fixedly connected with a crank 45 inclined towards the outer side of the upper end, the inner wall of the crank 45 is rotatably connected with a second rotating shaft 47, the lower end of the outer surface of the second rotating shaft 47 is fixedly connected with a helical gear 48, the outer side of the helical gear 48 is engaged with a helical inner gear ring 49, and the; both sides are long backup pad 46 of fixedly connected with respectively around the second backup pad 42 upper end surface, two long backup pad 46 inner wall rotates and is connected with a square frame 51, 47 surface upper ends of second pivot rotate and is connected with a long section of thick bamboo 50, 50 surface middle part left and right sides of a long section of thick bamboo fixedly connected with third guide arm 52 respectively, the connection is rotated respectively in the square frame 51 inner wall in the third guide arm 52 surface outside, support a section of thick bamboo 53 fixed connection is on second pivot 47 upper end surface.
As shown in fig. 13-16, the second guide rod 43 limits the position of the second support plate 42, so that the second support plate 42 can slide left and right on the inner wall of the second guide rod 43 and can move back and forth along with the second guide rod 43; the installation diagram of the square frame 51, the crank 45, the second rotating shaft 47 and the long cylinder 50 is shown in fig. 15, and the installation diagram has the functions that when the crank 45 rotates, the corresponding second rotating shaft 47 can be driven to do circumferential swing, and when the second rotating shaft 47 does circumferential swing, the corresponding long cylinder 50 can be driven to do circumferential swing, so that the square frame 51 supports and limits the long cylinder 50 to do circumferential swing and can drive the corresponding square frame 51 to swing; because the second rotating shaft 47 makes a circular motion, the helical gear 48 at the lower end of the second rotating shaft 47 makes a circular motion along with the second rotating shaft 47, and the helical gear 48 can make the helical gear 48 rotate under the engagement of the helical inner gear ring 49, so that the corresponding second rotating shaft 47 rotates, and when the second rotating shaft 47 rotates, the corresponding supporting cylinder 53 is driven to rotate; when the first rotating shaft 30 moves forward, backward, leftward and rightward, the corresponding second supporting plate 42 is driven to move, so that the corresponding supporting cylinder 53 moves forward, backward, leftward and rightward; when the first rotating shaft 30 rotates, the corresponding crank 45 is driven to rotate, and the crank 45 rotates to drive the first rotating shaft 30 to rotate circumferentially, so that the corresponding supporting cylinder 53 rotates while swinging circumferentially.
The surface of the lower end of the second handle 54 is fixedly connected with a second threaded rod 55, the second threaded rod 55 is in threaded connection with the inner wall of the upper end of the supporting cylinder 53, four circular through holes with uniform distribution are formed in the outer surface of the supporting cylinder 53, the inner walls of the circular through holes are respectively and rotatably connected with a thick rotating shaft 63, and the fan blades 64 are respectively and fixedly connected to the outer surfaces of the corresponding thick rotating shafts 63; second threaded rod 55 lower extreme rotates and is connected with third straight rack 57, third straight rack 57 right-hand member meshing has third straight gear 58, the coaxial rigid coupling of third straight gear 58 front end has first bevel gear 59, the meshing of first bevel gear 59 left end rear side has second bevel gear 60, the meshing of second bevel gear 60 rear end right side has third bevel gear 61, the meshing of third bevel gear 61 right-hand member front side has fourth bevel gear 62, fourth bevel gear 62 left side front end meshes with corresponding first bevel gear 59 mutually, thick pivot 63 respectively with the coaxial rigid coupling of corresponding first bevel gear 59, second bevel gear 60, third bevel gear 61 and fourth bevel gear 62.
As shown in fig. 17 to 20, the upper end surface of the third spur rack 57 is fixedly connected with an anti-drop shaft 56, the anti-drop shaft 56 is rotatably connected to the inner wall of the second threaded rod 55, and the anti-drop shaft 56 is used for preventing the third spur rack 57 from being separated from the second threaded rod 55; the installation and engagement diagrams of the first bevel gear 59, the second bevel gear 60, the third bevel gear 61 and the fourth bevel gear 62 are shown in fig. 19, and the centers of the first bevel gear, the second bevel gear, the third bevel gear and the fourth bevel gear are fixedly connected with rotating shafts which are fixedly connected with the inner walls of the corresponding thick rotating shafts 63, so that when one of the bevel gears rotates, the other meshed bevel gears can be driven to synchronously rotate, the rotating directions of the symmetrical bevel gears are opposite, and the purpose of synchronously rotating the corresponding thick rotating shafts 63 and the fan blades 64 is realized; the corresponding air displacement is changed by changing the inclination angle of the fan blades 64; through rotating second handle 54, second handle 54 rotates and then can drive corresponding second threaded rod 55 and rotate, second threaded rod 55 rotates and then can reciprocate through threaded connection, then can drive corresponding third spur rack 57 and reciprocate when second threaded rod 55 reciprocates, third spur rack 57 reciprocates and then can mesh corresponding third spur gear 58 and rotate, third spur gear 58 rotates and then can make corresponding first bevel gear 59 rotate, first bevel gear 59 rotates and then can drive corresponding second bevel gear 60 through meshing and coaxial rigid coupling, third bevel gear 61, fourth bevel gear 62 and thick pivot 63 synchronous revolution, thereby realize flabellum 64 rotation, change inclination.
When the notebook computer storage box is used, a notebook computer is placed on the inner wall of the groove at the upper end of the storage box 2, the first handle 14 is rotated by the starting motor 3, the corresponding first driven bevel gear 7 is meshed with the driving bevel gear 4, the corresponding storage box 2 can be turned upwards, due to different personal use habits, the corresponding notebook computer can be turned upwards and downwards, and the height and the gradient of the corresponding notebook computer can be adjusted according to personal preference; the second driven bevel gear 5 is meshed with the corresponding driving bevel gear 4 by rotating the first handle 14, so that the corresponding first supporting plate 44 can intermittently move left and right while moving back and forth, the corresponding fan blades 64 can intermittently move left and right while moving back and forth, and the fan blades 64 can perform large-area scanning heat dissipation on the lower end of the notebook; when the first supporting plate 44 moves, the corresponding fan blades 64 can rotate and circumferentially swing at the same time, so that the fan blades 64 can uniformly dissipate heat at multiple angles, hot air can be uniformly blown, and the heat dissipation speed is increased; by rotating the second handle 54, the inclination angle of the fan blades 64 can be adjusted, the turning angles of the four fan blades 64 can be adjusted according to the specific heat dissipation requirement of the notebook, and the energy consumption caused by excessive heat dissipation of the notebook due to excessive friction between the fan blades 64 and the air caused by excessive inclination angle of the fan blades 64 can be reduced.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.
Claims (7)
1. The utility model provides a computer information technology heat dissipation storage facilities, includes under casing (1), its characterized in that: the upper end of the bottom box (1) is hinged with a containing box (2), the inner wall of the left end of the containing box (2) is provided with a rotatable disc (17), and the disc (17) can form a structure that the containing box (2) is turned over up and down when rotating; hold case (2) right-hand member inner wall fixedly connected with square frame (19), but first backup pad (44) that removes about square frame (19) inner wall installation limit back-and-forth movement limit intermittent type nature, but first backup pad (44) upper end is installed and is rotated limit circumference wobbling support cylinder (53), four even flabellum (64) of distribution are installed in support cylinder (53) outside, rotatable second handle (54) are installed to support cylinder (53) upper end, can constitute the structure of four flabellum (64) synchronous upsets from top to bottom when second handle (54) rotate.
2. A computer information technology heat dissipating storage device as claimed in claim 1 wherein: a motor (3) is fixedly connected to the left side of the surface of the lower end of the containing box (2), a driving bevel gear (4) is fixedly connected to the front end of the motor (3), a rotatable first handle (14) is installed on the left side of the lower end of the containing box (2), a first threaded rod (10) is fixedly connected to the center of the surface of the right end of the first handle (14), first threaded cylinders (11) are respectively meshed to the left side and the right side of the outer surface of the first threaded rod (10), first connecting rods (12) inclined towards the inner side of the upper end are respectively hinged to the upper ends of the outer surfaces of the first threaded cylinders (11), a first base (13) is hinged to the upper ends of the two first connecting rods (12), the first base (13) is fixedly connected to the surface of the lower end of the containing box (2), a U-shaped seat (8) is rotatably connected to the right end of the first threaded rod (10), a first driven bevel, u-shaped seat (8) lower extreme inner wall rotates to be connected with drive bevel gear (4) matched with second driven bevel gear (5), first driven bevel gear (7) center department sliding connection has first little pivot (67), first little pivot (67) rotate to be connected and hold case (2) inner wall, second driven bevel gear (5) center department sliding connection has second little pivot (66), second little pivot (66) rotate to be connected and hold case (2) lower extreme.
3. A computer information technology heat dissipating storage device as claimed in claim 2, wherein: the outer surface upper end of the first small rotating shaft (67) is fixedly connected with a first steering bevel gear (20), the front side of the upper end of the first steering bevel gear (20) is meshed with a second steering bevel gear (21), the center of the second steering bevel gear (21) is fixedly connected with a worm (15), the lower end of the worm (15) is meshed with a worm wheel (16), the worm wheel (16) is coaxially and fixedly connected with a disc (17), the non-circle center position of the surface of the left end of the disc (17) is hinged with a long connecting rod (18), and the lower end of the long connecting rod (18) is hinged to the inner wall of the bottom box (1).
4. A computer information technology heat dissipating storage device as claimed in claim 2, wherein: the lower end of the outer surface of the second small rotating shaft (66) is fixedly connected with a third steering bevel gear (6), the right side of the lower end of the third steering bevel gear (6) is meshed with a fourth steering bevel gear (9), the center of the fourth steering bevel gear (9) is fixedly connected with a first telescopic rod (22), the front end of the outer surface of the first telescopic rod (22) is fixedly connected with a fifth steering bevel gear (23), the right side of the front end of the fifth steering bevel gear (23) is meshed with a sixth steering bevel gear (24), the center of the sixth steering bevel gear (24) is fixedly connected with a second telescopic rod (25), the front end of the outer surface of the second telescopic rod (25) is fixedly connected with a seventh steering bevel gear (27), the upper side of the front end of the seventh steering bevel gear (27) is meshed with an eighth steering bevel gear (28), and the center of the eighth steering bevel gear (28) is fixedly connected with a, the first rotating shaft (30) is rotatably connected to the inner wall of the first supporting plate (44).
5. A computer information technology heat dissipating storage device as claimed in claim 4 wherein: the inner walls of the front end and the rear end of the first supporting plate (44) are respectively connected with first guide rods (65) in a sliding mode, the first guide rods (65) are respectively connected with the inner wall of the square frame (19) in a sliding mode, the middle of the outer surface of the first rotating shaft (30) is fixedly connected with a cross (31), the outer side of the lower end surface of the cross (31) is fixedly connected with an incomplete inner gear ring (32), the outer side surface of the incomplete inner gear ring (32) is fixedly connected with an incomplete outer gear ring (34), the left side and the right side of the inner wall of the square frame (19) are respectively connected with first straight racks (35) matched with the incomplete outer gear ring (34) in a sliding mode, the lower end surfaces of the two first straight racks (35) are respectively connected with a first bearing plate; the middle part of the surface of the lower end of the cross (31) is fixedly connected with an incomplete straight gear (33), the surface of the upper end of the first supporting plate (44) is rotatably connected with a first straight gear (36) matched with the incomplete straight gear (33) and an incomplete inner gear ring (32), the lower end of the first straight gear (36) is coaxially and fixedly connected with a driving plate (37), the front end of the driving plate (37) is meshed with a grooved pulley (38), the inner wall of the center of the grooved pulley (38) is fixedly connected with a short shaft (68), the short shaft (68) is rotatably connected with the inner wall of the first supporting plate (44), the lower end of the outer surface of the short shaft (68) is fixedly connected with a second straight gear (39), the front end of the second straight gear (39) is meshed with a second straight rack (41), the second straight rack (41) is slidably connected with the inner wall of the square frame (19), and the surface, the other end of the second bearing plate (40) is rotatably connected to the outer surface of the short shaft (68).
6. A computer information technology heat dissipating storage device as claimed in claim 4 wherein: the upper end of the outer surface of the first rotating shaft (30) is rotatably connected with a second supporting plate (42), the inner walls of the front end and the rear end of the second supporting plate (42) are respectively connected with a second guide rod (43) in a sliding manner, the second guide rods (43) are respectively connected with the inner wall of the square frame (19) in a sliding manner, the upper end surface of the first rotating shaft (30) is fixedly connected with a crank (45) inclined towards the outer side of the upper end, the inner wall of the crank (45) is rotatably connected with a second rotating shaft (47), the lower end of the outer surface of the second rotating shaft (47) is fixedly connected with a helical gear (48), the outer side of the helical gear (48) is meshed with a helical inner gear ring (49; second backup pad (42) upper end surface front and back both sides respectively fixedly connected with long backup pad (46), two long backup pad (46) inner wall rotates and is connected with a square frame (51), second pivot (47) surface upper end rotates and is connected with a long section of thick bamboo (50), the difference fixedly connected with third guide arm (52) of a long section of thick bamboo (50) surface middle part left and right sides, third guide arm (52) surface outside rotates respectively and connects at square frame (51) inner wall, a support section of thick bamboo (53) fixed connection is at second pivot (47) upper end surface.
7. A computer information technology heat dissipating storage device as claimed in claim 1 wherein: the surface of the lower end of the second handle (54) is fixedly connected with a second threaded rod (55), the second threaded rod (55) is in threaded connection with the inner wall of the upper end of the supporting cylinder (53), the outer surface of the supporting cylinder (53) is provided with four circular through holes with uniform distribution, the inner walls of the circular through holes are respectively and rotatably connected with a thick rotating shaft (63), and the fan blades (64) are respectively and fixedly connected with the outer surfaces of the corresponding thick rotating shafts (63); second threaded rod (55) lower extreme rotates and is connected with third straight rack (57), third straight rack (57) right-hand member meshing has third straight gear (58), the coaxial rigid coupling of third straight gear (58) front end has first bevel gear (59), first bevel gear (59) left end rear side meshing has second bevel gear (60), second bevel gear (60) rear end right side meshing has third bevel gear (61), third bevel gear (61) right-hand member front side meshing has fourth bevel gear (62), fourth bevel gear (62) left side front end meshes with corresponding first bevel gear (59), thick pivot (63) respectively with corresponding first bevel gear (59), second bevel gear (60), third bevel gear (61) and fourth bevel gear (62) coaxial rigid coupling.
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| CN113031731A (en) * | 2021-03-16 | 2021-06-25 | 泰山学院 | Computer information technology heat dissipation storage facilities |
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Effective date of registration: 20220228 Address after: 250000 2-2511, Aosheng building, 1166 Xinluo street, Jinan area, China (Shandong) pilot Free Trade Zone, Jinan City, Shandong Province Applicant after: Leiyin cloud computing (Shandong) Co.,Ltd. Address before: No. 409, fangyizhai village, cizhouzhai Township, Hua county, Anyang City, Henan Province Applicant before: Liu Hongqian |
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Denomination of invention: A Computer Information Technology Heat Dissipation Storage Device Effective date of registration: 20230920 Granted publication date: 20220315 Pledgee: Qilu Bank Co.,Ltd. Jinan Science and Technology Innovation Financial Center Branch Pledgor: Leiyin cloud computing (Shandong) Co.,Ltd. Registration number: Y2023980057820 |