TWM242990U - Flat type heat sink with vacuum temperature superconducting - Google Patents

Description

M242990 C7 ______D7 V. Creation Instructions C 1) [Creation area] This creation is about a radiator, especially a flat-plate vacuum temperature superconducting radiator that can transmit quickly. [Description of Know-how] According to the prior art, the effective transfer of energy has always been a problem, and the conductivity of the materials used has limited the transfer efficiency; for example, the "heat pipe" principle is used for heat transfer today. The first picture of Spring Reading 'a traditional heat pipe 1 has a closed loop 12 covered by an inner surface 11 and a working fluid injected into the closed loop 2 when the working fluid 13 is excited by a thermal energy, A liquid-to-liquid phase change will occur, that is, the working fluid 13 will absorb heat at one end of the heat pipe 1 to heal hair, and the working fluid 13 will release heat at the other end of the heat pipe 1 to form condensation, and heat transfer can be obtained. Effect. Although, the traditional heat pipe 1 has better heat transfer efficiency than a metal rod (its thermal conductivity can reach 100 times that of steel and metal, but the heat pipe 1 requires "circulating convection" of the liquid / steam carrier. Due to temperature limitation, the axial heat conduction speed of heat pipe 1 is limited by the latent heat of liquid evaporation in one step, and it is in the "cycle transition speed" of liquid and gaseous state. In addition, heat pipe 1 is r cycle in essence, because The inability to fully retain heat and loss to the atmosphere will result in "heat loss", which reduces heat transfer efficiency. In addition, in the field of tape machines, multifunctional or high-speed processing speeds are expected. The output of semiconductors such as CPUs With the increase of the heating value, the heat dissipation performance of the heat exchanger becomes inadequate. [Creation Summary] This paper size applies the Chinese National Standard (CNS) A4 specification (210x 297 mm). Page 3 & Difficulty 13 is now determined; the gaseous state is turned into cold gold), the convective heat-type electricity between the body and the body is dispersed M242990 ci ____D7 V. Creation Instructions (2) Therefore, Aim is to provide a rapidly dispersible tablet type vacuum heat sink temperature superconductivity. Therefore, the flat-type vacuum temperature superconducting heat sink of this creation is set on a hair temperature source, which includes a temperature superconducting heat transfer body attached to the hair temperature source, and a heat source and (2) A temperature-collecting sheet of a temperature superconducting temperature-conducting body, and a heat-conducting paste coated on two opposite sides of the temperature-collecting sheet. The temperature superconducting temperature-conducting body is a flat hollow cavity. The hollow cavity includes an inner surface and an outer surface, and a vacuum-tight container defined by the inner-surface coating, and a temperature-superconducting container filled in the vacuum-tight container. Temperature medium, temperature superconducting heat-transfer medium forms a layer of temperature-conducting heat-transfer medium on the inner surface of the vacuum-tight container; when the heat source generates heat, it can quickly transfer / m degree superconducting heat-transfer body's peripheral surface, And the surface area exposed to the air by the temperature superconducting heat transfer is in contact with the air for heat exchange and heat dissipation. [Simplified description of the drawing] Other features and advantages of this creation will be clearly understood in the following detailed description of the preferred embodiment with reference to the drawing. In the drawing: The first picture is a conventional heat pipe Combined cross-sectional view showing that the working fluid of the heat pipe produces a phase change from liquid to gaseous state; the second figure is a block diagram of a preferred embodiment of the flat-plate vacuum temperature superconducting radiator of the present invention; the second figure is the preferred embodiment One is a schematic diagram, which illustrates that a steel temperature-collecting sheet is installed between the temperature superconducting heat transfer body and a temperature source; the fourth figure is an integrated view of the temperature superconducting heat transfer body of one of the preferred embodiments; The transfer room in this room is more flexible than the inside M242990 C7 __________D7 _ V. Creation instructions (3) Figure 5: Figure 4 A sectional view of the temperature superconducting heat transfer body; Figure 6 is the preferred A usage diagram of the embodiment illustrates that the temperature superconducting heat transfer body is used on a laptop; and a seventh diagram is a schematic diagram of the use of the preferred embodiment, illustrating that the temperature superconducting heat transfer body can be used as The pen The top and back plates and base of the notebook computer. [Detailed description of the preferred embodiment] Referring to the second and fourth figures, a preferred embodiment of the creative flat-plate vacuum temperature superconducting radiator is mounted on a hair temperature source 4, which can be For example, a central processing unit (CPU), an integrated circuit chip (Ic), a module, etc. are specially designed for heating; in this example, the heating source 'source 4 is a central processing unit; the device It includes a temperature superconducting heat transfer body 5 installed on the hair temperature source 4, a gathering temperature 6 ′ installed between the hair temperature source 4 and the temperature superconducting heat transfer body 5, and an appropriate amount of coating. The thermal paste 7 or the thermally conductive glue thermally conductive sheet on the two opposite sides of the temperature-collecting sheet 6 'in this example, the temperature-collecting sheet 6 is made of copper or a metal heat-conducting material' and similar elements mentioned below are They are denoted by the same reference numerals. As shown in Figures 3 and 5, the temperature superconducting temperature-conducting body 5 is a flat hollow cavity with a suitable thickness. In this example, the material of the hollow cavity may be Ming steel metal or alloy metal or ceramic / glass / Graphite / thermally conductive plastic and other materials with good thermal conductivity. It can be made into L-shape, inverted U-shape or V-shape, depending on the shape of the computer case exposed outside; the traditional heat pipe 1 is “circulating convection” in essence, so there is no change design mentioned above. The temperature superconducting temperature-conducting body 5 includes a mounting surface 51 that can be mounted on a heating end surface of the heating source 4, a groove surface 52 opposite to the mounting surface 51, and a number of the grooves. Surface 5 2 is recessed downward to form a reinforcing structure and a cavity

The size of this paper is in accordance with the Chinese National Standard (CNS) A4 (210 x 297 mm). Page 5 M242990 C7. ___________D7 5. Creation Instructions (4) The groove 53 of the gap is pressed against the hollow cavity by the bottom of the groove 53 The inner surface 54 of the body prevents the hollow cavity from being flat or angularly deformed and maintains a certain cavity clearance during vacuum suction. The hollow cavity includes an inner surface 54 and an outer surface 55, a vacuum-tight container 56 defined and covered by the inner surface 54, and a temperature superconducting heat-transfer medium filled in the vacuum-tight container 56. The closed chamber 56 is a temperature superconducting heat transfer body formed by a hollow cavity filled with a temperature superconducting heat transfer medium and vacuum-sealed. It is specifically stated here that the temperature superconducting heat transfer medium includes at least one selected from the group consisting of sodium peroxide, sodium oxide, beryllium oxide, manganese sesquioxide, aluminum dichromate, calcium dichromate, boron oxide, and dichromate. And a combination thereof; and at least one selected from the group consisting of initiation of oxidation, sesquioxide, beryllium oxide, chromic acid, gill carbonate, rhodium oxide, copper oxide, me-titanium, potassium dichromate, boron oxide, dichromic acid Calcium, manganese dichromate, aluminum dichromate, dichromate, and combinations thereof; and at least one selected from the group consisting of denatured germanium oxide, potassium dichromate, denatured oxide, sodium dichromate, silver dichromate, Monocrystalline silicon, beryllium oxide, thorium chromate, boron oxide, sodium peroxide, me-titanium, a metal dichromate, and a combination of these compounds; the foregoing compounds are mixed according to the appropriate formulation ratio and a specific process to form a temperature over Conductive temperature transfer medium. In practice, before the temperature superconducting heat transfer medium is injected, the vacuum-tight container 5 6 is passivated and cleaned and dried, so that the inner peripheral surface of the vacuum-tight container 5 6 forms a capillary surface. Then, the temperature superconducting heat transfer medium is injected (or filled) into the vacuum-tight container 56 and sealed by vacuum suction. The temperature superconducting heat-transfer medium forms capillarity after being vaporized by heat and adheres to the vacuum-tight container. A temperature overpass is formed on the inner surface of the chamber 5 and 6. The paper size is applicable to Chinese National Standard (CNS) A4 (21Gx 297 mm) --- ~ Page 6 M242990 C7

The temperature-conducting heat-transfer medium layer 57; when the temperature exceeds the value of Dao flexion, the heat transfer medium is in the temperature range, and the temperature is too high. Forward expansion vibration transmission (non-transmission), knife generation box pull, * ... Anpai, cyclic convection heat transfer of traditional heat pipe principle, especially the thermal molecular characteristics of this case b ^ A 疋 is constant and does not spread Running backward or back), the farther the excitation temperature is from the window, hole, and moving frequency generated by the source 4, the higher the energy generated by the source 4 | Xunlian Conduction Recognize a cloth> The temperature of the kitchen surface of the kitchen superconducting heat transfer body 5 and achieve the uniform temperature effect. And — _ Here, the kitchen superconducting heat transfer medium In this example, Yuan Wang uses inorganic elements to prepare

The working fluid is effective enough to suppress the generation of hydrogen and tritium molecules, there will be no explosion conditions (I,.,. ^ ^, One,…, explosion danger) 'and the formation of a non-discharge, or (..., no, no pollution , No rot residue). When in use, the temperature is higher than the temperature of the hawthorn, and the field temperature is high, and the heat transfer coefficient of the plate 5 can be used to make the hair temperature source 4, the field and the surface of the plate. And the temperature of the peripheral surface of the temperature superconducting temperature-conducting body 5 is quickly reached, and it is matched with the temperature-concentrating sheet 6 installed between the hair temperature source 4 and the temperature-conducting temperature-conducting body 5 and coated on the temperature The heat-conducting paste 7 on the two opposite sides of the sheet 6 can further accelerate the temperature effect of the temperature source 4 and the temperature superconducting heat-conducting body 5; and it is important to take advantage of the flatness of the temperature superconducting heat-conducting body 5 The structure has the advantage of not occupying space, plus the shape change described above, and the surface area of the temperature superconducting temperature-conducting body 5 exposed to the air and air contact for heat exchange and heat dissipation. If this creation is applied to a notebook computer 8, the temperature superconducting temperature-conducting body 5 can be made into the shape of the top back plate 8 j or the base 82 of the notebook computer 8 as shown in the sixth and seventh figures (ie, the temperature The superconducting temperature-conducting body 5), and includes a drum chain unit 9 (as shown in Fig. 7) that is connected to the top meniscus 81 and the base body 82; when in use, when the heat source 4 (ie, the CPU) is generating When working at high temperature, you can use this temperature to exceed the paper size and apply the Chinese National Standard (CNS) A4 specification (210x 297 mm) page 7. M242990 C7-~ -------- D7 ____ V. Creation instructions (6), = The large peripheral surface area of the heat transfer body 5 quickly dissipates. The surface of the hair temperature source 4 is the same as μ, or a hinge unit 9 can be used to transfer the heat of the wheel to the temperature superconducting heat transfer body 5 to make the hair temperature. The high heat of the source 4 is dissipated to the temperature superconducting temperature-conducting bodies 5 and 5, and the peripheral surface of the temperature-generating body 4 in contact with the air is enlarged to obtain the effect of natural convection and diffuse temperature of the air. Here's the test report produced by Yanuo Superconducting Technology Co., Ltd. (ie, the applicant's service company), as shown in Appendix I. A superconducting Mingping f and a general aluminum flat plate were placed in hot water and observed. Its heat conduction efficiency and the temperature change of various parts of the surface of Zhou Chen. Comparing the test results of the two, it can be seen that the heat conduction efficiency of the superconducting aluminum plate is much higher than that of ordinary aluminum plates, and the conduction efficiency, and the temperature of the peripheral surface of the superconducting aluminum plate is almost uniform and has a uniform temperature. The effect is different from that of the general aluminum flat plate. Each position on the surface of the ring will cause a large temperature drop due to the different distances of contact with hot water. Compared with the flat-type temperature superconducting heat transfer bodies 5 and 5, After being heated, it can quickly transfer the heat temperature to its peripheral surface and reach the average temperature effect, which is different from the regret of "heat loss" caused by the convection and convection temperature of the traditional heat pipe 1. Therefore, the flat-type temperature superconducting heat transfer in this case The body 5 and 5 will have the practical effect of achieving effective cooling faster than the traditional heat pipe i. See Annex II for the actual superconducting rods filled with the superconducting temperature-conducting medium of the creative temperature (recommended use method. · Put 10 (rc hot water and ice water close to 0) in different cups. Then, put one end of the superconducting rod into the cup, and touch the other end with your hand to instantly feel the gross heat or cold; Note: This superconducting rod conducts heat quickly inside, and then transmits heat through the metal shell, the metal itself The thermal conductivity is slower.) This paper scale is applicable to China National Standards (CNS) Standard 4 (21 × 297 public shame) — ____________ Page 8 M242990 C7 D7 V. Creation Instructions (7) The advantages of the "type vacuum temperature superconducting radiator" can be summarized as follows: 1. The temperature superconducting temperature conducting bodies 5 and 5 of this creation with #good paper conduction efficiency will cause the temperature emitted by the heat source 4 to spread rapidly. To the temperature of the entire inner and outer peripheral surface of the superconducting temperature-conducting body 5 and 5 ′, and the temperature of the surface temperature of the hair temperature source 4 and the peripheral surface temperature of the superconducting temperature-conducting body 5 and 5 are quickly reached to cool down Effect 2 • When the temperature is superconducting When the peripheral surface temperature of 5, 5 and the surface temperature of the hair temperature source 4 quickly reach an agreement, the surface area of the part exposed to the air through the temperature superconducting heat transfer body 5, 5 'is enlarged to expand the hair temperature source 4 The heat exchange surface area where the thermal energy is in contact with the air, the temperature superconducting heat transfer medium can cause the thermal molecules to transmit in a constant forward and expanding manner along the inside of the hollow cavity in all directions, and via this temperature superconducting heat transfer body 5, 5, The contact surface with air dissipates heat, so that the surface temperature of the heating source 4 does not form a cumulative increase. Without the traditional heat pipe 1, the working fluid 1 3 is used to perform the liquid / steam carrier cycle on the heat transfer effect of IL. The shortcomings are poor; therefore, the creation of the flat-plate vacuum thermoacoustic superconducting radiator can greatly improve the "heat loss" of the traditional heat pipe 1, and it has the characteristics of quickly achieving effective cooling, so that the hair source 4 operates &Quot; 3 · The temperature superconducting temperature-conducting body 5 and 5 of this creation can be designed into L-shaped, inverted U-shaped or V-shaped according to practical needs; this is beyond the reach of traditional heat pipe 1. However, , The picture disclosed above Show that this is just one example of this case. 'For anyone who is familiar with the skill of this case, it is based on the spirit of this case.

M242990 C7 D7 V. Creation description (8) Equivalent modifications or changes made in the domain shall be covered by the scope of patent application described in this case. Attachment 1: Test report produced by Arnold Superconducting Technology Co., Ltd. (It has been filed in the revised version of the new patent specification filed on February 19, 1992). Attachment 2 · One "physical superconducting rod" in physical form (has been archived in the revised version of the new patent specification proposed on February 19, 1992). This paper size applies to China National Standard (CNS) A4 (210x 297 mm) Page 10 M242990 C7 D7 V. Creative Instructions C 9) For tube number: hot standard t— β— report 1 yuan t

In-plane IX 1X 12 Closed loop 13 Working fluid This creative part: 4 Temperature source 5 Temperature superconducting heat transfer body 5, Temperature superconducting heat transfer body 51 Installation surface 52 Groove surface 53 Groove 54 Inner surface 55 Outside 56 Vacuum-tight chamber 57 Temperature superconducting heat-transfer medium layer 6 Thermal film 7 Thermal paste 8 Notebook computer 81 Top and back plate 82 Base body 9 Hinging unit This paper size applies to China National Standard (CNS) A4 (210x 297 mm) (Centi) p. 11

Claims (1)

M242990 1 · A flat-plate vacuum temperature superconducting heat sink, which can be installed on a temperature source and includes: / BZL degree superconducting heat transfer body, which is a flat hollow cavity, and the middle two cavity includes an inner surface and An outer surface, and a vacuum-tight container defined by the inner surface coating, and a temperature superconducting heat-transfer medium filled in the vacuum-tight container, the temperature-superconducting heat-transfer medium forming an inner surface of the vacuum-tight container A temperature superconducting temperature-transmitting medium layer; a temperature-collecting sheet installed between the hair temperature source and the temperature-superconducting temperature-conducting body; and a thermal paste applied on two opposite sides of the temperature-collecting sheet; When the heat source generates heat, it can generate constant forward expansion vibration by transferring thermal energy of the danameter level of the temperature superconducting heat transfer medium layer to the surface of the peripheral ring of the S degree superconducting heat transfer body. The surface area of the temperature superconducting heat transfer body exposed to the air is in contact with the air for heat exchange and heat dissipation. 2 · According to the flat-type vacuum temperature superconducting heat sink described in item 1 of the scope of the patent application, wherein the temperature superconducting heat transfer body includes a mounting surface mounted on the temperature source, and a A groove surface is provided, and a plurality of grooves are formed from the groove surface, and the groove bottom is in contact with the inner surface of the hollow cavity to form a reinforcing structure and maintain a certain cavity clearance of its periphery. This paper size applies to China National Standard (CNS) A4 (210x 297 mm) page 12.