CN112029330B - Skin-imitated swinging fluff heat dissipation coating - Google Patents

Abstract

The invention discloses a skin-imitated swinging villus heat dissipation coating, which belongs to the technical field of coatings, can realize that heat absorbed by a coating body from a system is concentrated through a heat collection ball innovatively, then the heat is conducted to the outside through a double-effect heat dissipation composite rod, an air supply base ball is extruded by utilizing the characteristic that a thermal expansion wrapping sleeve is subjected to thermal expansion, air in the air supply base ball is extruded into the double-effect heat dissipation composite rod, a pulling midspan air bag rod is inflated and expanded to be hardened so as to drive the double-effect heat dissipation composite rod to integrally stand up, the pulling midspan air bag rod is forced to slowly leak air to the outside based on the magnetic attraction effect, on one hand, the pulling midspan air bag rod is forced to soften and fall down again, the swinging action can be realized so as to improve the dust accumulation phenomenon, the air flow near the coating body can be accelerated, on the other hand, the heat on the inner double-effect heat dissipation composite rod is taken away through the air leakage process, the heat dissipation effect of the coating body is obviously improved.

Description

Skin-imitated swinging fluff heat dissipation coating

Technical Field

The invention relates to the technical field of coatings, in particular to a skin-imitated swinging fluff heat dissipation coating.

Background

Coating is a solid continuous film obtained by one-time coating, and is a thin layer of plastic applied to a substrate of metal, fabric, plastic, etc. for the purpose of protection, insulation, decoration, etc. The coating material can be in a gas state, a liquid state or a solid state, and the type and the state of the coating material are generally determined according to the substrate needing to be sprayed.

The heat dissipation coating is a special coating for improving the heat dissipation efficiency of the surface of an object and reducing the temperature of a system, and enhances the heat dissipation performance of the object by improving the radiation efficiency (especially improving the infrared radiation efficiency) of the surface of the object. Has low cost and simple implementation. The radiation heat dissipation cooling coating is directly constructed on the surface of an object to be cooled, can radiate heat on the object to the atmospheric space at the infrared wavelength of 8-13.5 microns, reduces the surface and internal temperature of the object, and is obvious in heat dissipation and cooling. The heat dissipation of the coating is not affected by surrounding media, and the heat dissipation of the coating can be used in a vacuum environment. The coating can increase the performances of self-cleaning property, insulating property, corrosion resistance, water resistance, acid and alkali resistance and the like while achieving radiation cooling.

However, the existing heat dissipation coating often causes the reduction of heat dissipation effect due to the problems of dust deposition and the like after being used for a period of time, and only relies on the heat dissipation coating to dissipate heat, so that the effect is often poor.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a skin-imitated swinging villus heat dissipation coating which can realize the innovative embedding of heat collection balls distributed in an array in a coating body for concentrating the heat absorbed by the coating body from a system, then conducts the heat to the outside through a double-effect heat dissipation composite rod, utilizes the characteristic that a thermal expansion wrapping sleeve is subjected to thermal expansion to extrude the air supply base ball, extrudes the air in the air supply base ball into the double-effect heat dissipation composite rod, inflates and expands a pulling mid-span air bag rod in the pulling heat conduction rod to cause the pulling mid-span air bag rod to be hardened so as to drive the double-effect heat dissipation composite rod to integrally stand up, forces the pulling mid-span air bag rod to slowly leak air to the outside based on the magnetic attraction effect, on one hand, causes the pulling mid-span air bag rod to be softened and fall down again, can realize the swinging action to improve the dust accumulation phenomenon, and can accelerate the air flow near the coating body, thereby improve heat transfer effect, on the other hand takes away the heat on the compound stick of economic benefits and social benefits heat dissipation from inside through this process of gas leakage, further accelerates the air current when improving the radiating effect, is showing the radiating effect who promotes the coating body.

2. Technical scheme

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

A skin-imitated swinging villus heat dissipation coating comprises a coating body, wherein a plurality of heat collection balls which are uniformly distributed are embedded and connected in the coating body, the heat collecting ball is of a hollow structure, an air supply base ball is connected in the heat collecting ball, a thermal expansion wrapping sleeve is connected between the air supply base ball and the inner wall of the heat collecting ball, a double-effect heat dissipation composite rod is connected at the upper end of the air supply base ball, and the double-effect heat dissipation composite rod penetrates through the heat collection ball and extends to the outer side of the coating body, one end of the double-effect heat dissipation composite rod, which is far away from the heat collection ball, is connected with a magnetic counterweight ball, the double-effect heat dissipation composite rod comprises a heat conduction base rod, a traction heat conduction rod and a heat exchange heat conduction rod which are sequentially connected, the heat conduction base rod is connected with the air supply base ball, the traction heat conduction rod is embedded on the heat collection ball, and the heat-conducting rods are drawn to cross the inner side and the outer side of the heat-collecting ball, and the heat-exchanging heat-conducting rods are positioned on the outer side of the heat-collecting ball.

Furthermore, the pulling mid-span air bag rods with the same length are embedded and connected in the pulling heat conducting rods, the heat conducting base rods are of tubular structures and are communicated with the air supply base balls, the air supply base balls are extruded by utilizing the characteristic that the thermal expansion wrapping sleeves are subjected to thermal expansion, gas in the air supply base balls is extruded to enter the double-effect heat dissipation composite rods, the pulling mid-span air bag rods in the pulling heat conducting rods are inflated and expanded, the pulling mid-span air bag rods are enabled to be hardened to drive the double-effect heat dissipation composite rods to integrally stand, and the heat exchange effect between the pulling heat conducting rods and the air is improved.

Further, the pulling midspan air bag rod comprises a bi-pass air bag rod and a pair of flaring rings connected with two ends of the bi-pass air bag rod, a distance control stay wire is inserted in the bi-pass air bag rod, two ends of the distance control stay wire are respectively connected with an upper common air isolating balloon and a lower magnetic air isolating balloon, and the lower magnetic air isolating ball is positioned at one side close to the heat conducting base rod, based on the magnetic attraction effect of the magnetic counterweight ball on the lower magnetic air isolating ball, under the driving action of the distance control pull wire, the lower magnetic air isolating ball seals one end of the bi-pass air bag rod, and the upper common air isolating ball moves out of the bi-pass air bag rod to realize the opening of the other end, then the drawing mid-span air bag rod is forced to slowly leak air to the heat exchange heat conduction rod, so that the drawing mid-span air bag rod is promoted to soften and fall down again, the swing action can be realized to improve the dust deposition phenomenon, and the air flow near the coating body can be accelerated, thereby improving the heat exchange effect.

Further, go up ordinary air separation balloon and magnetism air separation balloon size down and keep unanimous, and with keep interference fit between the bi-pass gasbag stick, the accuse is acted as go-between a bit less than the length of bi-pass gasbag stick, and the length difference keeps unanimous with the radius of last ordinary air separation balloon, can realize that ordinary air separation balloon and magnetism air separation balloon down open one end to the one end of bi-pass gasbag stick and seal the effect.

Furthermore, lower magnetism separates balloon and magnetism counter weight ball and all adopts magnetic material to make, thermal-arrest ball upper end covers and is connected with the magnetic screen membrane, and the magnetic screen membrane is used for shielding the magnetic field effect of magnetism counter weight ball, realizes keeping apart the magnetism that magnetism counter weight ball applyed to lower magnetism separates the balloon when the compound stick of economic benefits and social benefits heat dissipation falls down.

Furthermore, a main ventilation fine flow channel and a plurality of sub ventilation fine flow channels communicated with the main ventilation fine flow channel are arranged in the heat exchange heat conduction rod, an air sealing ball is connected to an opening of each sub ventilation fine flow channel, air leaked from the midspan air bag rod to the heat exchange heat conduction rod is pulled, the air is shunted from the main ventilation fine flow channel and the sub ventilation fine flow channels and flows through the main ventilation fine flow channel and the sub ventilation fine flow channels to take away internal heat, on one hand, the heat dissipation effect of the heat exchange heat conduction rod can be improved, on the other hand, the flowing speed of nearby air can be further accelerated, and the air sealing ball plays a role in controlling the opening and closing of the sub ventilation fine flow channels, so that ventilation can be realized, heat dissipation can be realized, and meanwhile, dust blockage can be avoided.

Furthermore, the air sealing ball comprises a heat dissipation tennis ball and a plurality of air sealing surface flaps covering the outer surface of the heat dissipation tennis ball, the air sealing surface flaps are distributed in an annular array and completely cover the heat dissipation tennis ball, a thermal shrinkage wire is embedded and connected in the air sealing surface flaps, the heat dissipation tennis ball can accelerate the heat dissipation effect of the heat exchange heat conduction rod and the air, a framework is provided for supporting, the air sealing surface flaps play a role in sealing the heat dissipation tennis ball, the heat dissipation tennis ball is prevented from being opened under a normal state to cause a large amount of dust accumulation and blockage, the thermal shrinkage wire is used for sensing heat and then triggering shrinkage action, the air sealing surface flaps are driven to deform and shrink synchronously, partial exposure of the heat dissipation tennis ball is realized, and the air in the sub-ventilation thin runner can flow out at the moment.

Furthermore, the thermal shrinkage wire drawing is arranged along the distribution direction of the vertical air seal surface flaps and is made of a material which shrinks when exposed to heat.

Furthermore, be connected with the heat conduction stick between the adjacent heat collection ball, and the heat conduction stick runs through heat collection ball and extends to the inboard and be connected with heat conduction base rod, the heat conduction stick outer end is connected with many evenly distributed's heat conduction silk, and the heat conduction stick not only can be connected the heat collection ball as a whole and become the net shape to play the reinforcement reinforcing effect to the coating body, improve mechanical strength and prevent by external force damage, can improve thermal distribution on the coating body simultaneously, thereby more abundant concentrated heat is to the heat collection ball on, the heat conduction silk is used for assisting the heat conduction stick to absorb this internal heat of coating, and improves the bonding effect of heat conduction stick and coating body.

Furthermore, the heat conduction base rod and the heat exchange heat conduction rod are both made of hard heat conduction materials, and the traction heat conduction rod is made of flexible heat conduction materials.

3. Advantageous effects

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

(1) the scheme can realize the innovative embedding of the heat collecting balls distributed in an array in the coating body, is used for concentrating the heat absorbed by the coating body from a system, then conducts the heat to the outside through the double-effect heat dissipation composite rod, utilizes the characteristic that the heat expansion wrapping sleeve is subjected to thermal expansion to extrude the air supply base ball, extrudes the air in the air supply base ball into the double-effect heat dissipation composite rod, inflates and expands the drawing midspan air bag rod in the drawing heat conduction rod to cause the drawing midspan air bag rod to be hardened to drive the heat dissipation composite rod to integrally stand up, forces the drawing midspan air bag rod to slowly leak air to the outside based on the magnetic attraction effect, on one hand, causes the drawing midspan air bag rod to soften and fall down again, can realize the swinging action to improve the dust accumulation phenomenon, can accelerate the air flow near the coating body, thereby improving the heat exchange effect, on the other hand, the heat on the inner double-effect heat dissipation composite rod is dissipated through the air leakage process, the air flow is further accelerated while the heat dissipation effect is improved, and the heat dissipation effect of the coating body is remarkably improved.

(2) The drawing mid-span air bag rods with the same length are embedded and connected in the drawing heat conduction rods, the heat conduction base rods are of tubular structures and are communicated with the air supply base balls, the air supply base balls are extruded by utilizing the characteristic that the thermal expansion wrapping sleeves are subjected to thermal expansion, gas in the air supply base balls is extruded to enter the double-effect heat dissipation composite rods, the drawing mid-span air bag rods in the drawing heat conduction rods are inflated and expanded, the drawing mid-span air bag rods are hardened to drive the double-effect heat dissipation composite rods to integrally stand, and the heat exchange effect between the drawing mid-span air bag rods and the air is improved.

(3) The dragging midspan air bag rod comprises a bi-pass air bag rod and a pair of opening rings connected to two ends of the bi-pass air bag rod, a distance control pull wire is inserted into the bi-pass air bag rod, two ends of the distance control pull wire are respectively connected with an upper common air separation ball and a lower magnetic air separation ball, the lower magnetic air separation ball is located on one side close to the heat conduction base rod, based on the magnetic attraction effect of the magnetic counterweight balls on the lower magnetic air separation ball, and under the transmission effect of the distance control pull wire, the lower magnetic air separation ball seals one end of the bi-pass air bag rod, the upper common air separation ball is moved out of the bi-pass air bag rod to realize the opening of the other end, then the dragging midspan air bag rod is forced to slowly leak the heat exchange heat conduction rod, the dragging air bag rod is made to soften and fall down again, the swinging action can be realized to improve the dust accumulation phenomenon, and the air flow near the coating body can be accelerated, so that the heat exchange effect is improved.

(4) The sizes of the upper common air isolating ball and the lower magnetic air isolating ball are kept consistent, the upper common air isolating ball and the lower magnetic air isolating ball are in interference fit with the two-way air bag rod, the distance control stay wire is slightly shorter than the length of the two-way air bag rod, the length difference is kept consistent with the radius of the upper common air isolating ball, and the effect that the upper common air isolating ball and the lower magnetic air isolating ball open one end of the two-way air bag rod can be achieved.

(5) Lower magnetism separates balloon and magnetism counter weight ball and all adopts magnetic material to make, and the thermal-arrest ball upper end covers and is connected with the magnetic screen membrane, and the magnetic screen membrane is used for shielding the magnetic field effect of magnetism counter weight ball, realizes keeping apart the magnetism effect of magnetism counter weight ball to lower magnetism and separating the balloon and exert when the compound stick of economic benefits and social benefits heat dissipation falls down.

(6) The heat exchange heat conducting rod is internally provided with a main ventilation fine flow channel and a plurality of branch ventilation fine flow channels communicated with the main ventilation fine flow channel, the opening of each branch ventilation fine flow channel is connected with an air sealing ball, gas leaked in the heat exchange heat conducting rod in the drawing midspan air bag rod is shunted and flows through the main ventilation fine flow channel and the branch ventilation fine flow channels to take away internal heat, on one hand, the heat dissipation effect of the heat exchange heat conducting rod can be improved, on the other hand, the flowing speed of nearby air can be further accelerated, the air sealing ball plays a role in controlling the opening and closing of the branch ventilation fine flow channels, the ventilation can be realized, the heat dissipation is met, and meanwhile, the dust blockage can be avoided in a closed mode.

(7) The air sealing ball comprises a heat dissipation tennis ball and a plurality of air sealing surface flaps covering the outer surface of the heat dissipation tennis ball, the air sealing surface flaps are distributed in an annular array and completely cover the heat dissipation tennis ball, a thermal shrinkage wire is embedded and connected in the air sealing surface flaps, the heat dissipation tennis ball can accelerate the heat dissipation effect of a heat exchange heat conduction rod and gas, a framework is provided for supporting, the air sealing surface flaps play a role in sealing the heat dissipation tennis ball, the blockage caused by accumulation of a large amount of dust due to the fact that the heat dissipation tennis ball is opened under a normal state is avoided, the thermal shrinkage wire is used for sensing heat and then triggering shrinkage action, the air sealing surface flaps are driven to deform and shrink synchronously, partial exposure of the heat dissipation tennis ball is achieved, and at the moment, the gas in the sub-ventilation fine flow channel can flow out.

(8) The thermal shrinkage wire drawing is arranged along the distribution direction vertical to the air seal surface flaps and is made of a material which shrinks when exposed to heat.

(9) Be connected with the heat conduction stick between the adjacent thermal-arrest ball, and the heat conduction stick runs through the thermal-arrest ball and extends to the inboard and be connected with heat conduction base rod, the heat conduction stick outer end is connected with many evenly distributed's heat conduction silk, the heat conduction stick not only can be connected thermal-arrest ball for a whole and become the dictyosome, thereby play the reinforcement reinforcing effect to the coating body, improve mechanical strength and prevent by external force damage, thermal distribution nature on the coating body can be improved simultaneously, thereby more abundant concentrated heat is to the thermal-arrest ball on, the heat conduction silk is used for assisting the heat conduction stick to absorb this internal heat of coating, and improve the combination effect of heat conduction stick and coating body.

(10) The heat conduction base rod and the heat exchange heat conduction rod are both made of hard heat conduction materials, and the traction heat conduction rod is made of flexible heat conduction materials.

Drawings

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

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic structural view of a heat collecting ball part according to the present invention;

FIG. 4 is a schematic diagram of a pulling mid-span balloon rod according to the present invention;

FIG. 5 is a schematic structural view of the balloon of the present invention in a closed state;

FIG. 6 is a schematic structural view of the present invention with the airtight ball opened;

FIG. 7 is a schematic structural view of the dual-effect heat dissipation composite rod of the present invention in a partially swung state.

The reference numbers in the figures illustrate:

1 coating body, 2 heat collection balls, 3 heat conduction rods, 4 heat conduction wires, 5 double-effect heat dissipation composite rods, 51 heat conduction base rods, 52 traction heat conduction rods, 53 heat exchange heat conduction rods, 6 magnetic counterweight balls, 7 magnetic shielding films, 8 traction mid-span air bag rods, 81 double-pass air bag rods, 82 upper common air separation balloons, 83 opening rings, 84 lower magnetic air separation balloons, 85 distance control pull wires, 9 air sealing balls, 91 heat dissipation tennis balls, 92 air sealing surface flaps, 93 heat shrinkage drawing wires, 10 minute ventilation fine flow channels, 11 heat expansion wrapping sleeves and 12 air supply base balls.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-2, a skin-imitated swinging fluff heat dissipation coating comprises a coating body 1, a plurality of uniformly distributed heat collection balls 2 are embedded and connected in the coating body 1, the heat collection balls 2 are of a hollow structure, air supply base balls 12 are connected in the heat collection balls 2, a heat expansion wrapping sleeve 11 is connected between the air supply base balls 12 and the inner walls of the heat collection balls 2, a double-effect heat dissipation composite rod 5 is connected to the upper ends of the air supply base balls 12, the double-effect heat dissipation composite rod 5 penetrates through the heat collection balls 2 and extends to the outer side of the coating body 1, and a magnetic counterweight ball 6 is connected to one end, far away from the heat collection balls 2, of the double-effect heat dissipation composite rod 5.

Be connected with heat conduction stick 3 between adjacent thermal-arrest ball 2, and heat conduction stick 3 runs through thermal-arrest ball 2 and extends to the inboard and be connected with heat conduction base rod 51, the 3 outer ends of heat conduction stick are connected with many evenly distributed's heat conduction silk 4, heat conduction stick 3 not only can be connected thermal-arrest ball 2 as a whole and become the dictyosome, thereby play the reinforcement reinforcing effect to coating body 1, improve mechanical strength and prevent by external force damage, can improve thermal distribution nature on coating body 1 simultaneously, thereby more abundant concentrated heat is to thermal-arrest ball 2 on, heat conduction silk 4 are used for assisting heat conduction stick 3 to absorb the heat in the coating body 1, and improve heat conduction stick 3 and coating body 1's combination effect.

Referring to fig. 3, the dual-effect heat dissipation composite rod 5 includes a heat conduction base rod 51, a pulling heat conduction rod 52 and a heat exchange heat conduction rod 53 connected in sequence, the heat conduction base rod 51 is connected to the air supply base ball 12, the pulling heat conduction rod 52 is embedded on the heat collection ball 2, the pulling heat conduction rod 52 spans the inner side and the outer side of the heat collection ball 2, and the heat exchange heat conduction rod 53 is located on the outer side of the heat collection ball 2.

The heat conducting base rod 51 and the heat exchange heat conducting rod 53 are both made of hard heat conducting materials, and the drawing heat conducting rod 52 is made of flexible heat conducting materials.

The same-length drawing midspan air bag rods 8 are embedded and connected in the drawing heat conduction rods 52, the heat conduction base rods 51 are of tubular structures and are communicated with the air supply base ball 12, the air supply base ball 12 is extruded by utilizing the characteristic that the thermal expansion wrapping sleeve 11 expands when heated, air in the air supply base ball 12 is extruded to enter the double-effect heat dissipation composite rods 5, the drawing midspan air bag rods 8 in the drawing heat conduction rods 52 are inflated and expanded, the drawing midspan air bag rods 8 are made to harden to drive the double-effect heat dissipation composite rods 5 to integrally stand, and the heat exchange effect between the drawing heat conduction rods and the air is improved.

Referring to fig. 4, the pulling midspan air bag rod 8 includes a two-way air bag rod 81 and a pair of flaring rings 83 connected to two ends of the two-way air bag rod 81, a distance control pulling wire 85 is inserted into the two-way air bag rod 81, two ends of the distance control pulling wire 85 are respectively connected with an upper common air-separating balloon 82 and a lower magnetic air-separating balloon 84, the lower magnetic air-separating balloon 84 is located at one side close to the heat conduction base rod 51, based on the magnetic attraction of the magnetic counterweight ball 6 to the lower magnetic air-separating balloon 84, and under the driving action of the distance control pulling wire 85, the lower magnetic air-separating balloon 84 seals one end of the two-way air bag rod 81, and the upper common air-separating balloon 82 moves out of the two-way air bag rod 81 to open the other end, and then the pulling midspan air bag rod 8 is forced to slowly leak air to the heat exchange heat conduction rod 53, so as to cause the pulling midspan air bag rod 8 to "soften" and fall down again, thereby realizing a swinging action to improve the dust accumulation phenomenon and accelerating the air flow near the coating body 1, thereby improving the heat exchange effect.

The sizes of the upper common air-separating balloon 82 and the lower magnetic air-separating balloon 84 are kept consistent, the upper common air-separating balloon 82 and the lower magnetic air-separating balloon 84 are in interference fit with the bi-pass air bag rod 81, the distance control pull wire 85 is slightly shorter than the length of the bi-pass air bag rod 81, the length difference is kept consistent with the radius of the upper common air-separating balloon 82, and the effect that the upper common air-separating balloon 82 and the lower magnetic air-separating balloon 84 close one open end of the bi-pass air bag rod 81 can be achieved.

Lower magnetism separates balloon 84 and magnetism counterweight ball 6 and all adopts magnetic material to make, and the cover of collection ball 2 upper end is connected with magnetic screen membrane 7, and magnetic screen membrane 7 is used for shielding the magnetic field effect of magnetism counterweight ball 6, separates magnetism that magnetism counterweight ball 6 applyed to lower magnetism separates balloon 84 and inhale the effect when realizing falling at double-effect heat dissipation composite rod 5.

The heat exchange heat conduction rod 53 is internally provided with a main ventilation fine flow channel and a plurality of sub ventilation fine flow channels 10 communicated with the main ventilation fine flow channel, the opening of each sub ventilation fine flow channel 10 is connected with an air sealing ball 9, gas leaked from the midspan air bag rod 8 to the heat exchange heat conduction rod 53 is pulled, the gas is distributed and flows through the main ventilation fine flow channel and the sub ventilation fine flow channels 10 to take away internal heat, on one hand, the heat dissipation effect on the heat exchange heat conduction rod 53 can be improved, on the other hand, the flowing speed of nearby air can be further accelerated, the air sealing balls 9 play a role in controlling the opening and closing of the sub ventilation fine flow channels 10, the ventilation can be realized, the heat dissipation can be realized, and meanwhile, the dust blockage can be avoided.

Referring to fig. 5-6, the air sealing ball 9 includes a heat dissipating tennis ball 91 and a plurality of air sealing surface flaps 92 covering the outer surface of the heat dissipating tennis ball 91, the air-tight surface flaps 92 are distributed in a ring-shaped array and completely cover the heat dissipation tennis ball 91, the heat shrinkage wire 93 is embedded and connected in the air-tight surface flaps 92, the heat dissipation tennis ball 91 can accelerate the heat dissipation effect of the heat exchange heat conduction rod 53 and the air, meanwhile, the framework is provided for supporting, the air seal surface flap 92 plays a role in sealing the heat dissipation tennis ball 91, the heat dissipation tennis ball 91 is prevented from being blocked due to accumulation of a large amount of dust when being opened in a normal state, the heat shrinkage wire 93 is used for sensing heat and then triggering shrinkage action, and the air seal surface flap 92 is synchronously driven to deform and shrink, the heat dissipation tennis ball 91 is partially exposed, at this time, the gas in the sub-ventilation thin runner 10 can flow out, the heat shrinkage wire 93 is arranged along the distribution direction perpendicular to the air seal surface flaps 92, and the heat shrinkage wire 93 is made of a material which shrinks when being heated.

When the heat-insulating composite rod is used, the heat collecting ball 2 collects heat in the coating body 1, then the heat is transferred to the heat-conducting base rod 51 through the heat-conducting rod 3, the heat expansion wrapping sleeve 11 is heated and expanded to extrude the air-supplying base ball 12 to release internal gas, the gas enters the drawing midspan air bag rod 8 in the drawing heat-conducting rod 52 to promote the drawing midspan air bag rod 8 to be hardened and straightened, so that the integral 'standing' of the double-effect heat-radiating composite rod 5 is realized, the magnetic field of the magnetic counterweight ball 6 at the moment can reach the lower magnetic air isolating ball 84 through the shielding effect of the magnetic shielding film 7 to generate magnetic attraction effect on the magnetic counterweight ball, the lower magnetic air isolating ball 84 seals the lower end of the double-effect air bag rod 81, the upper common air isolating ball 82 opens the upper end of the double-effect air bag rod 81, the gas in the double-effect air bag rod 81 gradually flows out to enter the main ventilation fine flow channel in the heat-exchange heat-conducting rod 53 and then is dispersed to the sub ventilation fine flow channels 10 with the internal heat-exchange heat-conducting rod 53, and heat exchange is carried out between the air sealing ball 9 and the outside, the pulling mid-span air bag rod 8 starts to soften again along with continuous deflation of the pulling mid-span air bag rod 8, the double-effect heat dissipation composite rod 5 is integrally inclined, the magnetic shielding film 7 shields the magnetic counterweight ball 6 again, the lower magnetic separation ball 84 is moved downwards to be opened under the air pressure action of the air supply base ball 12, the upper common separation ball 82 seals the double-effect air bag rod 81, in the process, the external air reversely enters the air supply base ball 12 through the double-effect heat dissipation composite rod 5 to be supplemented, and the swinging action of the double-effect heat dissipation composite rod 5 can be realized continuously.

The invention can realize the innovative embedding of the heat collection balls 2 distributed in an array in the coating body 1, which are used for concentrating the heat absorbed by the coating body 1 from the system, then conducting the heat to the outside through the double-effect heat dissipation composite rod 5, extruding the air supply base ball 12 by utilizing the characteristic of thermal expansion of the thermal expansion wrapping sleeve 11, extruding the air in the air supply base ball 12 into the double-effect heat dissipation composite rod 5, inflating and expanding the drawing mid-span air bag rod 8 in the drawing heat conduction rod 52 to cause the drawing mid-span air bag rod 8 to be hardened and drive the double-effect heat dissipation composite rod 5 to integrally stand up, forcing the drawing mid-span air bag rod 8 to slowly leak to the outside based on the magnetic attraction effect, on one hand, causing the drawing mid-span air bag rod 8 to be softened and fall down again, realizing the swinging action to improve the dust accumulation phenomenon, accelerating the air flow near the coating body 1, thereby improving the heat exchange effect, on the other hand, the heat on the double-effect heat dissipation composite rod 5 is taken away from the inside through the air leakage process, the air flow is further accelerated while the heat dissipation effect is improved, and the heat dissipation effect of the coating body 1 is remarkably improved.

The above are merely preferred embodiments 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 (10)

1. The utility model provides an imitative skin formula wobbling nature fine hair heat dissipation coating, includes coating body (1), its characterized in that: the coating comprises a coating body (1), wherein a plurality of uniformly distributed heat collecting balls (2) are embedded in the coating body (1), the heat collecting balls (2) are of a hollow structure, an air supply base ball (12) is connected in the heat collecting balls (2), a heat expansion wrapping sleeve (11) is connected between the air supply base ball (12) and the inner wall of the heat collecting balls (2), a double-effect heat dissipation composite rod (5) is connected to the upper end of the air supply base ball (12), the double-effect heat dissipation composite rod (5) penetrates through the heat collecting balls (2) and extends to the outer side of the coating body (1), one end, far away from the heat collecting balls (2), of the double-effect heat dissipation composite rod (5) is connected with a magnetic counterweight ball (6), the double-effect heat dissipation composite rod (5) comprises a heat conduction base rod (51), a traction heat conduction rod (52) and a heat exchange heat conduction rod (53) which are sequentially connected, the heat conduction base rod (51) is connected with the air supply base ball (12), the traction heat conduction rod (52) is embedded in the heat collecting balls (2), and the drawing heat conduction rods (52) cross the inner side and the outer side of the heat collection ball (2), and the heat exchange heat conduction rods (53) are positioned on the outer side of the heat collection ball (2).

2. The skin-like oscillating fluff heat dissipating coating of claim 1, wherein: the drawing mid-span air bag rods (8) with the same length are embedded and connected in the drawing heat conducting rods (52), and the heat conducting base rods (51) are of tubular structures and are communicated with the air supply base balls (12).

3. The skin-like oscillating fluff heat dissipating coating of claim 2, wherein: drawing midspan gasbag stick (8) are including bi-pass gasbag stick (81) and a pair of flaring ring (83) of connecting in bi-pass gasbag stick (81) both ends, bi-pass gasbag stick (81) interpolation is equipped with the accuse and separates line (85), the accuse is separated line (85) both ends and is connected with ordinary separating balloon (82) and magnetism down and separates balloon (84) respectively apart, and magnetism separates balloon (84) and is located the one side that is close to heat conduction base stick (51) down.

4. The skin-like oscillating fluff heat dissipating coating of claim 3, wherein: go up ordinary air separating balloon (82) and magnetism air separating balloon (84) size keep unanimous down, and keep interference fit between bi-pass gasbag stick (81), distance control stay wire (85) is a little shorter than the length of bi-pass gasbag stick (81), and the length difference keeps unanimous with the radius of last ordinary air separating balloon (82).

5. The skin-like oscillating fluff heat dissipating coating of claim 4, wherein: the lower magnetic separation ball (84) and the magnetic counterweight ball (6) are both made of magnetic materials, and the upper end of the heat collection ball (2) is connected with a magnetic shielding film (7) in a covering mode.

6. The skin-like oscillating fluff heat dissipating coating of claim 5, wherein: the heat exchange heat conduction rod (53) is internally provided with a main ventilation thin flow passage and a plurality of sub ventilation thin flow passages (10) communicated with the main ventilation thin flow passage, and the openings of the sub ventilation thin flow passages (10) are connected with air sealing balls (9).

7. The skin-like oscillating fluff heat dissipating coating of claim 6, wherein: the air sealing ball (9) comprises a heat dissipation tennis ball (91) and a plurality of air sealing surface flaps (92) covering the outer surface of the heat dissipation tennis ball (91), the air sealing surface flaps (92) are distributed in an annular array and completely cover the heat dissipation tennis ball (91), and heat shrinkage drawing wires (93) are embedded and connected in the air sealing surface flaps (92).

8. The skin-like oscillating fluff heat dissipating coating of claim 7, wherein: the thermal shrinkage drawing wires (93) are arranged along the distribution direction of the vertical air seal surface flaps (92), and the thermal shrinkage drawing wires (93) are made of materials which shrink when exposed to heat.

9. The skin-like oscillating fluff heat dissipating coating of claim 1, wherein: adjacent be connected with heat conduction stick (3) between heat collection ball (2), and heat conduction stick (3) run through heat collection ball (2) and extend to the inboard and be connected with heat conduction base rod (51), heat conduction stick (3) outer end is connected with many evenly distributed's heat conduction silk (4).

10. The skin-like oscillating fluff heat dissipating coating of claim 1, wherein: the heat conduction base rod (51) and the heat exchange heat conduction rod (53) are both made of hard heat conduction materials, and the traction heat conduction rod (52) is made of flexible heat conduction materials.

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