CN113791681A

CN113791681A - Base with good heat dissipation effect for self-throwing ball type notebook computer

Info

Publication number: CN113791681A
Application number: CN202110889393.6A
Authority: CN
Inventors: 张旭
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-04
Filing date: 2021-08-04
Publication date: 2021-12-14

Abstract

The invention discloses a self-throwing ball type base for a notebook computer with good heat dissipation effect, which belongs to the technical field of heat dissipation of a notebook computer base, realizes that when the temperature of the notebook computer is overhigh through the triggering effect of a heated expansion ball, not only hot air in the notebook computer can be exchanged through a heat dissipation fan, but also external air can be blown into the notebook computer after being cooled, so that the heat dissipation effect and the efficiency of the notebook computer can be greatly improved, meanwhile, refrigeration liquid can be continuously supplemented based on the principle that air meets cold and condenses, so that the air humidity in the base is reduced, and the reacted refrigeration magnetic ball can be magnetically attracted and fixed, on one hand, the refrigeration magnetic ball can be prevented from rolling around, on the other hand, the evaporation of water in the refrigeration magnetic ball can be accelerated, so that when the temperature of the notebook computer is overhigh again, the crystallized refrigeration magnetic ball can be preferentially thrown into the refrigeration liquid, and the cooling effect of the refrigeration magnetic ball can be better played, and the continuous effectiveness of the refrigeration effect is also ensured.

Description

Base with good heat dissipation effect for self-throwing ball type notebook computer

Technical Field

The invention relates to the technical field of heat dissipation of notebook bases, in particular to a self-throwing ball type notebook base with a good heat dissipation effect.

Background

A notebook computer, called notebook for short, also called portable computer, hand-held computer, palm computer or laptop, features small size. Compared with a desktop computer, the portable notebook computer is a small-sized portable personal computer, generally weighs 1-3 kilograms, and has the current development trend that the notebook computer is smaller and smaller in size, lighter and lighter in weight and stronger in function. Besides a keyboard, a touch pad or a touch point is also arranged as positioning equipment, and the notebook computer and the desktop computer are different in portability and have different requirements on capacities of a main board, a CPU (central processing unit), a memory, a display card, a hard disk and the like, and the current notebook computer is divided into different trends according to the application, so that the notebook computer tends to be used in daily office and movies; the commercial book tends to be stable, low in power consumption and longer in endurance time; the household notebook has good performance and high cost performance, and the game book is specially used for catering to the outgoing game of a small number of people; the fever level configuration has good entertainment experience effect, low price and unsatisfactory battery endurance time.

To improve the portability of the notebook, most of the notebook is thin and much inferior to the conventional computer in heat dissipation, so that a heat dissipation base is usually disposed under the notebook to improve the service life of the notebook.

The existing notebook computer heat dissipation base usually adopts a fan to dissipate heat, however, the fan can only increase the air flow between the inside of the notebook computer and the outside, and when the ambient temperature around the notebook computer is too high, the heat dissipation effect of the fan is greatly reduced, so that a self-throwing ball type notebook computer base with good heat dissipation effect is provided.

Disclosure of Invention

1. Technical problem to be solved

Compared with the existing notebook base, the design not only can automatically play a remarkable role in cooling the air temperature in the absorption base when the temperature of the notebook is too high, remarkably improves the heat dissipation effect of the notebook, but also can restore the refrigeration ball when the notebook is restored to the normal temperature, thereby achieving the purpose of recycling.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A base for a self-throwing ball type notebook computer with a good heat dissipation effect is characterized in that a water drop storage cylinder and a refrigeration magnetic ball are additionally arranged on the base of the notebook computer in the prior art, the water drop storage cylinder comprises a hard cone cylinder, the lower end of the hard cone cylinder is fixedly connected with a hemispherical soft membrane, refrigerant liquid and magnetic powder are filled in the water drop storage cylinder, the refrigeration magnetic ball comprises a refrigeration spherical shell, a plurality of uniformly distributed permeation pores are formed in the side wall of the refrigeration spherical shell, a semipermeable membrane is fixedly connected in the permeation pores, a temperature conduction membrane is arranged in the refrigeration spherical shell, and saltpeter powder is filled between the temperature conduction membrane and the refrigeration spherical shell; when the notebook temperature was too high, through the trigger action of thermal energy hemisphere, made inside refrigerating fluid and the magnetic powder of a water droplet deposit section of thick bamboo spill over, produced a refrigeration effect after meeting water to dissolve based on the saltpeter, made the refrigerating fluid that spills over freeze gradually, had the cooling effect to inspiratory air, improved its radiating effect greatly.

Furthermore, the lower side wall of the thermal expansion hemisphere is fixedly connected with a thermal insulation hard shell, the thrust guide rod is fixedly connected with the thermal insulation hard shell, the thermal insulation hard shell can prevent the temperature in the base from influencing the expansion of the thermal expansion hemisphere, the thrust guide rod can be pushed more stably when the thermal expansion hemisphere expands, and the deformation size is reduced.

Further, a section of thick bamboo is deposited to water droplet includes a stereoplasm awl section of thick bamboo, a stereoplasm awl section of thick bamboo lower extreme fixedly connected with hemisphere mantle can make the thrust guide arm utilize a stereoplasm awl section of thick bamboo to drive the contact of the lower lateral wall of hemisphere mantle and base body to the deformation that makes the hemisphere mantle produce overflows its inside refrigerating fluid and magnetic powder to concave surface bullet membrane surface.

Further, the elasticity hybrid board includes the two-way board of elasticity, the awl is connected to two silica gel of the two-way board of elasticity lateral wall fixed connection, two the equal fixedly connected with capillary rocker in awl upper end is connected to silica gel, the plectane is swayd to capillary rocker upper end fixedly connected with, two spacing horizontal poles of a stereoplasm awl section of thick bamboo inside wall fixedly connected with can make magnetic powder and refrigerant liquid mix, avoid magnetic powder to cause a large amount of deposits and can't spill over to the concave surface elastic membrane on.

Further, the ventilation rack includes a plurality of support fine plates that crisscross the setting each other, two it has all dug the ventilation hole to support fine plate crossing, and after refrigerating fluid freezes gradually, the air gets into the base internal cooling through base body's through-hole, blows into again and dispels the heat in the notebook, and the hydrone in the hot-air is simultaneously with ice contact back condensation for the drop of water of size greatly, has reached a effect that lasts the replenishment for refrigerating fluid.

Further, thorn ball is transferred to temperature sensing magnetism deposits in a wretched state including a plurality of magnetic of chiseling on refrigeration spherical shell, the inside temperature sensing adjustment ball that is provided with of temperature conduction membrane, a plurality of regulation ejector pins of fixedly connected with on the temperature sensing adjustment ball, the magnetic is deposited in a wretched state inside fixedly connected with and is transferred the magnetic film, and adjusts the ejector pin and transfer magnetic film fixed connection, refrigeration spherical shell is close to and is transferred magnetic film department and all inlays and have arc magnet, and adjusts the ejector pin and run through the arc magnet setting, and after the refrigeration, the temperature sensing adjustment ball shrinks gradually, and the magnetic film is transferred in a wretched state in the pulling for the magnetic is deposited in a wretched state inside and is attracted magnetic powder on every side, and the magnetic powder of dense ramie gathers together, has improved the magnetic force of refrigeration magnetic ball.

Further, the inside fixedly connected with magnetic ventilation board of base body, the thrust guide pole runs through the setting of magnetic ventilation board, the magnetism is inhaled to the bar of a plurality of evenly distributed of lateral wall fixedly connected with under the magnetic ventilation board, resumes the temperature back at the notebook, contracts gradually through the thermal energy hemisphere, makes the two-way board of elasticity rebound downwards, resumes deformation promptly.

Further, the thrust guide pole is located magnetic ventilation board below fixedly connected with adhesion push pedal, restores the deformation back when the concave surface plays the membrane, and the concave surface plays the membrane and inhales the distance between the magnetism with the bar and shortens, and refrigeration magnetic ball that has magnetic force adsorbs to adhesion push pedal downside, waits for the inside air-dried crystallization of refrigeration magnetic ball.

Furthermore, two soft films are fixedly connected inside the refrigeration spherical shell, two conveying bent channels are formed in the refrigeration spherical shell and are communicated with the magnetic powder storage tank and the soft films, and the liquid magnetism isolating body is filled inside the soft films, so that the magnetic force of the refrigeration spherical shell can be gradually reduced in the crystallization process of the refrigeration magnetic ball, and the refrigeration spherical shell can be preferentially put into use next time.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) the scheme generates a refrigerating effect by reacting the refrigerating magnetic ball with water, thereby realizing that when the use temperature of the notebook is overhigh, hot air in the notebook can be exchanged through the heat radiation fan, and the outside air can be blown into the notebook after being cooled, so that the heat radiation effect and the efficiency of the notebook can be greatly improved, and simultaneously, the heat radiation effect and the efficiency of the notebook can be greatly improved, and based on the principle of air and condensation, the continuous supplement can be carried out on refrigerating liquid, the air humidity absorbed into the base is reduced, the damage to the notebook caused by moisture is reduced, meanwhile, the refrigerating magnetic ball after the refrigerating reaction can be fixed magnetically through strip-shaped magnetic absorption, on one hand, the base can be prevented from inclining to enable the refrigerating magnetic ball to roll around, on the other hand, the crystallization speed of the refrigerating magnetic ball can be enhanced, and simultaneously when the temperature of the notebook is overhigh again, the crystallized refrigerating magnetic ball can be preferentially put into the refrigerating fluid, so that the refrigerating effect of the refrigerating magnetic ball is better exerted, and the continuous effectiveness of the refrigerating effect is also ensured.

(2) The lower side wall of the thermal expansion hemisphere is fixedly connected with the thermal insulation hard shell, the thrust guide rod is fixedly connected with the thermal insulation hard shell, the thermal insulation hard shell can prevent the temperature in the base from influencing the expansion of the thermal expansion hemisphere, the thrust guide rod can be pushed more stably when the thermal expansion hemisphere expands, and the deformation size is reduced.

(3) The water drop storage cylinder comprises a hard conical cylinder, the lower end of the hard conical cylinder is fixedly connected with a hemispherical flexible membrane, and the thrust guide rod can be in contact with the lower side wall of the base body by driving the hemispherical flexible membrane through the hard conical cylinder, so that the refrigerant liquid and the magnetic powder inside the hemispherical flexible membrane are overflowed to the surface of the concave elastic membrane through deformation generated by the hemispherical flexible membrane.

(3) Elasticity hybrid board includes the two-way board of elasticity, the awl is connected to two silica gels of lateral wall fixed connection on the two-way board of elasticity, the equal fixedly connected with capillary rocker in awl upper end is connected to two silica gels, the plectane is swayd to capillary rocker upper end fixedly connected with, two spacing horizontal poles of stereoplasm awl section of thick bamboo inside wall fixedly connected with, refrigeration magnetic ball is including refrigeration spherical shell, dig the infiltration pore that has a plurality of evenly distributed on the refrigeration spherical shell lateral wall, the inside fixedly connected with pellicle in infiltration pore, the inside temperature conduction membrane that is provided with of refrigeration spherical shell, it has the niter powder to fill between temperature conduction membrane and the refrigeration spherical shell, the two-way board of elasticity is obtaining the hindrance back of lateral wall under the base body, rebound upwards rapidly, it sways to drive simultaneously sways the plectane, make magnetic powder and refrigeration liquid mix, avoid magnetic powder to cause a large amount of deposits and can't spill over to the concave surface elastic membrane.

(4) The ventilation rack includes the thin board of a plurality of supports that crisscross setting each other, and two support thin board intersections all excavate the ventilation hole, and after refrigerating fluid freezes gradually, the air gets into the base internal cooling through the through-hole of base body, blows into again and dispels the heat in the notebook, and the hydrone in the hot-air simultaneously and ice contact postcondensation are the drop of water of size greatly, have reached a effect that lasts the replenishment for refrigerating fluid.

(5) The temperature-sensing magnetic regulating thorn ball comprises a plurality of magnetic powders chiseled on a refrigeration ball shell, a vinasse is stored in the magnetic powders, a temperature-sensing regulating ball is arranged inside a temperature conduction membrane, a plurality of regulating ejector rods are fixedly connected to the temperature-sensing regulating ball, the magnetic powders are stored in the vinasse, a magnetic regulating membrane is fixedly connected to the magnetic powders, the ejector rods and the magnetic regulating membrane are fixedly connected, the refrigeration ball shell is adjacent to the magnetic regulating membrane and is all inlaid with an arc magnet, the regulating ejector rods penetrate through the arc magnet to be arranged, after refrigeration, the temperature-sensing regulating ball gradually shrinks, the magnetic regulating membrane is pulled, the magnetic powders around the vinasse are attracted in the magnetic powders, the magnetic powders of dense hemp are gathered together, and the magnetic force of the refrigeration magnetic ball is improved.

(6) The inside fixedly connected with magnetic ventilation board of base body, the thrust guide arm runs through the setting of magnetic ventilation board, the magnetism is inhaled to the bar of a plurality of evenly distributed of lateral wall fixedly connected with under the magnetic ventilation board, after the notebook resumes the temperature, the thermal energy hemisphere contracts gradually, and pulling thrust guide arm makes concave surface bullet membrane resume deformation, the hemisphere mantle resumes deformation and inhales back with the part refrigeration liquid and the magnetic powder on the concave surface bullet membrane simultaneously, and the two-way board of pulling elasticity contacts with spacing horizontal pole, make the two-way board of elasticity bounce-back downwards, resume deformation promptly.

(7) The thrust guide arm is located magnetic ventilation board below fixedly connected with adhesion push pedal, restores the deformation back when the concave surface bullet membrane, and the distance between the magnetism is inhaled to concave surface bullet membrane and bar shortens, and refrigeration magnetism ball that has magnetic force adsorbs to adhesion push pedal downside, waits for the inside air-dry crystallization of refrigeration magnetism ball.

(8) The inside fixedly connected with two soft membranes of refrigeration spherical shell, it has two defeated bends to open in the refrigeration spherical shell, and defeated bend all deposits in a wretched state and soft membrane with the magnetic and communicate mutually, and soft membrane is inside to be filled with liquid magnet that separates, can reduce the magnetic force of refrigeration spherical shell gradually in refrigeration magnetic ball crystallization process, makes its preferential input when using next time.

Drawings

FIG. 1 is a front cross-sectional view of the present invention;

FIG. 2 is an enlarged view of a thermally expanding hemispherical portion of the present invention;

FIG. 3 is a top external view of the portion of the ventilated net mount of the present invention;

FIG. 4 is a schematic view of the construction of a water droplet cartridge portion according to the present invention;

FIG. 5 is a schematic structural view of the elastomeric mixing plate portion of the present invention;

FIG. 6 is a schematic view of the structure of the refrigeration magnetic ball part of the present invention;

FIG. 7 is an enlarged view taken at A in FIG. 6;

FIG. 8 is a diagram showing the state of the refrigeration magnetic ball of the present invention after sucking magnetic powder;

FIG. 9 is a diagram showing a state after crystallization of the refrigerating magnetic sphere of the present invention;

FIG. 10 is a view showing the operation of the present invention in cooling air;

FIG. 11 is a diagram illustrating the operation status of the inside of the base after the temperature of the notebook computer is reduced.

The reference numbers in the figures illustrate:

1 base body, 2 heat radiation fan, 3 temperature conduction plate, 4 heat expansion hemisphere, 41 heat insulation crust, 5 heat transmission rod, 6 thrust guide rod, 7 concave elastic film, 8 connecting cylinder, 9 water drop storage cylinder, 91 hard cone cylinder, 92 hemisphere soft film, 10 elastic mixing plate, 101 elastic bidirectional plate, 102 silica gel connecting cone, 103 capillary rocker, 104 swing circular plate, 105 limit cross bar, 11 connecting hair rod, 12 refrigerating fluid, 13 magnetic powder, 14 refrigeration magnetic balls, 141 refrigeration ball shells, 142 infiltration pores, 143 semipermeable membranes, 144 temperature conduction membranes, 145 saltpeter powder, 15 magnetic ventilation plates, 16 bar-shaped magnetic attraction, 17 adhesion push plates, 18 temperature-sensitive magnetic regulation puncture balls, 181 magnetic powder storage tanks, 182 temperature-sensitive regulation balls, 183 regulation ejector rods, 184 magnetic regulation membranes, 185 arc magnets, 186 soft membranes, 187 transportation curves, 188 liquid isolation magnets, 19 ventilation net racks, 191 support fine plates and 192 ventilation holes.

Detailed Description

In this embodiment 1, the technical solution will be clearly and completely described in conjunction with the disclosed drawings, so that the purpose, technical solution and beneficial effects of the embodiments of the present disclosure will be more clear. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" and similar words are intended to mean that the elements or items listed before the word cover the elements or items listed after the word and their equivalents, without excluding other elements or items. "upper", "lower", "inside", "outside", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Example (b):

referring to fig. 1-7, a self-casting ball type base for a notebook computer with good heat dissipation effect, a plurality of heat dissipation fans 2 are installed on the upper side wall of a base body 1, a plurality of through holes are drilled on the side wall of the base body 1, a plurality of temperature conduction plates 3 are installed on the upper side wall of the base body 1, thermal expansion hemispheres 4 are fixedly connected to the upper side inner wall of the base body 1 below the plurality of temperature conduction plates 3, a temperature transmission rod 5 is fixedly connected between the temperature conduction plates 3 and the thermal expansion hemispheres 4, when the notebook computer is at an excessively high use temperature, the temperature is transmitted to the thermal expansion hemispheres 4 through the conduction of the temperature conduction plates 3 and the temperature transmission rods 5, so that the thermal expansion hemispheres 4 gradually expand, a thrust guide rod 6 is installed on the lower side wall of the thermal expansion hemispheres 4, a ventilation net rack 19 is fixedly connected inside the base body 1, and a plurality of concave elastic membranes 7 are fixedly connected inside the ventilation net rack 19, concave surface elastic film 7 center department is pegged graft and is had connecting cylinder 8, a section of thick bamboo 9 is deposited to 8 lower extreme fixedly connected with water drops of connecting cylinder, thrust guide arm 6 runs through 8 fixedly connected with elastic mixing plate 10 of connecting cylinder, and elastic mixing plate 10 is located the water drop and deposits a section of thick bamboo 9 inside, two connection hair poles 11 of fixedly connected with between thrust guide arm 6 and the connecting cylinder 8, the water drop is deposited a section of thick bamboo 9 inside and is filled with refrigerant liquid 12 and magnetic powder 13, a plurality of refrigeration magnetic balls 14 have been placed on concave surface elastic film 7, refrigeration magnetic ball 14 internally mounted has temperature sensing magnetism to transfer thorn ball 18.

Referring to fig. 1-2, the lower side wall of the thermal expansion hemisphere 4 is fixedly connected with a thermal insulation hard shell 41, and the thrust guide rod 6 is fixedly connected with the thermal insulation hard shell 41, the thermal insulation hard shell 41 can not only prevent the expansion of the thermal expansion hemisphere 4 from being affected by the temperature in the base, but also can enable the thrust guide rod 6 to be pushed more stably when the thermal expansion hemisphere 4 expands, so as to reduce the size of deformation, the thrust guide rod 6 is pushed by the thermal insulation hard shell 41, and the thrust guide rod 6 pushes the connecting cylinder 8, so that the concave elastic membrane 7 is concave downwards.

Referring to fig. 4, the water drop storage cylinder 9 includes a hard conical cylinder 91, a hemispherical soft film 92 is fixedly connected to the lower end of the hard conical cylinder 91, and the thrust guide rod 6 can drive the hemispherical soft film 92 to contact with the lower sidewall of the base body 1 by using the hard conical cylinder 91, so that the refrigerant liquid 12 and the magnetic powder 13 mixed therein are overflowed to the surface of the concave elastic film 7 by the deformation of the hemispherical soft film 92.

Referring to fig. 5, the elastic mixing plate 10 includes an elastic bidirectional plate 101, two silica gel connection cones 102 fixedly connected to the upper side walls of the elastic bidirectional plate 101, capillary rockers 103 fixedly connected to the upper ends of the two silica gel connection cones 102, a rocking circular plate 104 fixedly connected to the upper ends of the capillary rockers 103, two limiting cross rods 105 fixedly connected to the inner side walls of the hard cone cylinder 91, and the elastic bidirectional plate 101 rebounds upward rapidly after being blocked by the lower side wall of the base body 1 and drives the rocking circular plate 104 to rock at the same time, so that the magnetic powder 13 is mixed with the refrigerant liquid 12, and the phenomenon that the magnetic powder 13 is precipitated in a large amount and cannot overflow onto the concave elastic membrane 7 is avoided.

Referring to fig. 6, the refrigeration magnetic ball 14 includes a refrigeration spherical shell 141, a plurality of permeation pores 142 are uniformly distributed on a side wall of the refrigeration spherical shell 141, a semipermeable membrane 143 is fixedly connected inside the permeation pores 142, a temperature conduction membrane 144 is arranged inside the refrigeration spherical shell 141, saltpeter powder 145 is filled between the temperature conduction membrane 144 and the refrigeration spherical shell 141, and after the refrigeration magnetic ball 14 contacts the refrigerant liquid 12, a refrigeration effect is generated based on dissolution of saltpeter in water, so that the overflowing refrigerant liquid 12 is gradually frozen.

Referring to fig. 3, the ventilation rack 19 includes a plurality of supporting thin plates 191 staggered with each other, and ventilation holes 192 are cut at the staggered positions of the two supporting thin plates 191, referring to fig. 10, after the refrigerant liquid 12 is gradually frozen, air enters the base through the through holes of the base body 1 to be cooled, and then is blown into the notebook to dissipate heat.

Referring to fig. 7, the temperature-sensitive magnetic bayonet ball 18 includes a plurality of magnetic powder storage slots 181 drilled on the refrigeration ball shell 141, a temperature-sensitive adjusting ball 182 is disposed inside the temperature-sensitive film 144, a plurality of adjusting rods 183 are fixedly connected to the temperature-sensitive adjusting ball 182, a magnetic adjusting film 184 is fixedly connected to the magnetic powder storage slots 181, the adjusting rods 183 are fixedly connected to the magnetic adjusting film 184, the refrigeration ball shell 141 is embedded with an arc-shaped magnet 185 near the magnetic adjusting film 184, and the adjusting rods 183 penetrate through the arc-shaped magnet 185, after refrigeration, the temperature-sensitive adjusting ball 182 gradually contracts to pull the magnetic adjusting film 184, so that the magnetic powder storage slots 181 attract the surrounding magnetic powder 13, referring to fig. 8, the dense hemp magnetic powder 13 are gathered together, and the magnetic force of the refrigeration magnetic ball 14 is improved.

Referring to fig. 2, a magnetic ventilation board 15 is fixedly connected inside the base body 1, the thrust guide rod 6 is arranged to penetrate through the magnetic ventilation board 15, a plurality of bar-shaped magnets 16 which are uniformly distributed are fixedly connected to the lower side wall of the magnetic ventilation board 15, after the temperature of the notebook is recovered, the thermal expansion hemisphere 4 gradually contracts, the thrust guide rod 6 is pulled to enable the concave elastic membrane 7 to recover deformation, meanwhile, the hemisphere soft membrane 92 recovers deformation to suck back part of the refrigerant liquid 12 and the magnetic powder 13 on the concave elastic membrane 7, and the elastic bidirectional plate 101 is pulled to be in contact with the limiting cross rod 105, so that the elastic bidirectional plate 101 rebounds downwards, namely, the deformation is recovered.

Referring to fig. 2, the thrust guide rod 6 is fixedly connected to an adhesion push plate 17 below the magnetic ventilation plate 15, and when the concave elastic membrane 7 recovers deformation, the distance between the concave elastic membrane 7 and the bar-shaped magnet 16 is shortened, referring to fig. 11, the refrigeration magnetic ball 14 with magnetic force is adsorbed to the lower side of the adhesion push plate 17 to wait for air drying and crystallization inside the refrigeration magnetic ball 14.

Referring to fig. 6-7, two flexible films 186 are fixedly connected inside the refrigeration spherical shell 141, two conveying curved channels 187 are drilled in the refrigeration spherical shell 141, and the conveying curved channels 187 are both communicated with the magnetic powder storage tank 181 and the flexible films 186, the flexible films 186 are filled with the liquid-state magnetism isolating bodies 188, so that a large amount of heat can be released in the crystallization process of the refrigeration magnetic balls 14, the temperature-sensitive regulation balls 182 are continuously expanded by the heat, the magnetism regulating films 184 are pushed by the regulation ejector rods 183 in the expansion process, referring to fig. 9, when the magnetism regulating films 184 bulge, the liquid-state magnetism isolating bodies 188 inside the flexible films 186 are transmitted to the lower sides of the magnetism regulating films 184 through the conveying curved channels 187 by pressure, so as to reduce the magnetism of the refrigeration magnetic balls 14, when the temperature of the notebook is too high next time, the refrigeration magnetic balls 14 are pushed downwards by the thrust guide rod 6 driven by the expansion of the thermal expansion hemisphere 4, and the distance between the crystallized refrigeration magnetic balls 14 and the strip-shaped magnetism absorption 16 is larger and larger, finally fall over the concave elastic film 7 to react with water again, and the non-crystallized refrigerating magnetic balls 14 are still adsorbed on the lower side wall of the adhesion push plate 17 due to the magnetic force of the magnetic powder 13 to wait for crystallization.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. The utility model provides a base for ball formula notebook of throwing certainly that radiating effect is good, includes (1), its characterized in that: the heat dissipation fan comprises a base body (1), wherein a plurality of uniformly distributed heat dissipation fans (2) are mounted on the side wall of the base body (1), a plurality of through holes are formed in the side wall of the base body (1), a plurality of temperature conduction plates (3) are arranged on the side wall of the base body (1), thermal expansion hemispheres (4) are fixedly connected to the upper side inner wall of the base body (1) below the temperature conduction plates (3), temperature conduction rods (5) are fixedly connected between the temperature conduction plates (3) and the thermal expansion hemispheres (4), thrust guide rods (6) are arranged on the lower side wall of the thermal expansion hemispheres (4), a ventilation net rack (19) is fixedly connected to the inside of the base body (1), a plurality of concave elastic membranes (7) are fixedly connected to the inside of the ventilation net rack (19), a connecting cylinder (8) is inserted in the center of the concave elastic membranes (7), and a water drop storage cylinder (9) is fixedly connected to the lower end of the connecting cylinder (8), thrust guide arm (6) run through connecting cylinder (8) fixedly connected with elasticity mixing plate (10), and elasticity mixing plate (10) are located the water droplet and deposit a section of thick bamboo (9) inside, two fixedly connected with down feather poles (11) between thrust guide arm (6) and connecting cylinder (8), the water droplet deposits a section of thick bamboo (9) inside packing has refrigerating fluid (12) and magnetic powder (13), a plurality of refrigeration magnetic ball (14) have been placed on concave surface elastic film (7), refrigeration magnetic ball (14) internally mounted has temperature sensing magnetism to transfer thorn ball (18).

2. The base for the self-pitching ball type notebook computer with good heat dissipation effect according to claim 1, is characterized in that: the lower side wall of the thermal expansion hemisphere (4) is fixedly connected with a thermal insulation hard shell (41), and the thrust guide rod (6) is fixedly connected with the thermal insulation hard shell (41).

3. The base for the self-pitching ball type notebook computer with good heat dissipation effect according to claim 1, is characterized in that: the water drop storage cylinder (9) comprises a hard conical cylinder (91), and a hemispherical soft film (92) is fixedly connected to the lower end of the hard conical cylinder (91).

4. The base for the self-pitching ball type notebook computer with good heat dissipation effect according to claim 1, is characterized in that: elasticity hybrid board (10) are including two-way board of elasticity (101), two awl (102), two are connected to two silica gel that lateral wall fixed connection was gone up to two-way board of elasticity (101) the equal fixedly connected with capillary rocker (103) in silica gel connection awl (102), circular plate (104) are swayd to capillary rocker (103) upper end fixedly connected with, two spacing horizontal pole (105) of stereoplasm awl section of thick bamboo (91) inside wall fixedly connected with.

5. The base for the self-pitching ball type notebook computer with good heat dissipation effect according to claim 1, is characterized in that: refrigeration magnetism ball (14) are including refrigeration spherical shell (141), it has a plurality of evenly distributed's infiltration pore (142) to cut on refrigeration spherical shell (141) lateral wall, the inside fixedly connected with pellicle (143) in infiltration pore (142), refrigeration spherical shell (141) inside is provided with temperature conduction membrane (144), it has niter powder (145) to fill between temperature conduction membrane (144) and refrigeration spherical shell (141).

6. The base for the self-pitching ball type notebook computer with good heat dissipation effect according to claim 1, is characterized in that: ventilation rack (19) include a plurality of support thin board (191) that set up each other crisscross, two it all excavates ventilation hole (192) to support thin board (191) intersection.

7. The base for the self-pitching ball type notebook computer with the good heat dissipation effect according to claim 5, is characterized in that: the thorn ball is transferred to temperature sensing magnetism (18) is including digging a plurality of magnetic powder on refrigeration spherical shell (141) and deposit lees (181), temperature conduction membrane (144) inside is provided with temperature sensing regulation ball (182), a plurality of regulation ejector pins (183) of fixedly connected with are gone up in temperature sensing regulation ball (182), the magnetic powder is deposited lees (181) inside fixedly connected with and is transferred magnetic film (184), and adjusts ejector pin (183) and transfers magnetic film (184) fixed connection, refrigeration spherical shell (141) are close to and transfer magnetic film (184) department and all inlay arc magnet (185), and adjust ejector pin (183) and run through arc magnet (185) and set up.

8. The base for the self-pitching ball type notebook computer with good heat dissipation effect according to claim 1, is characterized in that: base body (1) inside fixedly connected with magnetic ventilation board (15), thrust guide pole (6) run through magnetic ventilation board (15) and set up, magnetism (16) are inhaled to a plurality of evenly distributed's of magnetic ventilation board (15) lower side wall fixedly connected with bar.

9. The base for the self-pitching ball type notebook computer with good heat dissipation effect according to claim 1, is characterized in that: the thrust guide rod (6) is fixedly connected with an adhesion push plate (17) below the magnetic ventilation plate (15).

10. The base for the self-pitching ball type notebook computer with the good heat dissipation effect according to claim 5, is characterized in that: the refrigerating spherical shell (141) is fixedly connected with two soft films (186) inside, two conveying bends (187) are chiseled in the refrigerating spherical shell (141), the conveying bends (187) are communicated with the magnetic powder storage groove (181) and the soft films (186), and the soft films (186) are filled with liquid-state magnetism isolating bodies (188).