TWI267618B - Process of a thin-plate heat pipe and the products - Google Patents

Abstract

The invention is about process of a thin-plate heat pipe. This process is to divide a designated metal thin plate into two equally corresponding heat dissipation areas. Those two areas need to be punched into chambers with cavity, then folded and welded together to keep the sealing area tightly. A thin-plate heat pipe with a cavity inside is ready to use. It is due to this integrity forming of the heat pipe that the corresponding two identical heat dissipation areas will be precise and both secondary operation and material will be saved.

Description

1267618 Λ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, For the combination, after the two regions are brought together, the edges are finely combined to obtain a hybrid heat pipe with a hollow chamber. [Prior Art] - Please refer to the first! As shown in the figure, it is the No. 5 No. of Taiwan Patent Notice, which is a manufacturing method of thin-plate heat pipe. The test of the lining metal includes the following steps: Cutting the thin plate: cutting the two metal thin plates into a relatively combinable-upper a thin plate and a lower sheet, · coating the following material: coating the bonding material at the opposite peripheral edge of the any-thin plate; bonding the thin plate: making the upper thin plate without the lower thin plate - forming a thin plate assembly having a hollow chamber; connecting the thin plate: pouring Then, the material is sealed to the upper thin plate; filling and degassing operation: in the thin plate assembly, the cavity fills the working fluid, and the degassing makes the hollow chamber appear true; and the sealing operation is performed. Through the above-mentioned manufacturing method, a thin-plate type heat pipe can be obtained, comprising: a thin plate assembly body, comprising a corresponding upper-upper plate and a lower-lower plate, and the middle and the outer side defined by the upper thin plate and the lower thin plate are covered a lower plate having a plurality of penetrating sides, and the (four) plate has an outer ring portion located at a periphery of the upper plate, a convex portion formed by the outer ring portion, and a plurality of corresponding holes in the lower plate a block, the protrusion has a Γ 细 细 四 四 四 四 肃 肃 肃 肃 肃 , , 肃 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 12 In the cavity of the thin plate assembly. The above-mentioned method and the thin-plate heat pipe produced by the method can make the heat-dissipating area larger than the conventional heat-dissipating tube and can make the thickness thinner, but the following disadvantages are eliminated: 1. Because the eight systems are up and down The separate sheets are relatively sealed. Therefore, when cutting, it must be 'cut twice, wasting time. 2. Because the upper and lower sheets are separate and independent, therefore, they must be very precise when they are combined, _ 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易 易The 'situation' must be done by means of a counterpoint or by doing a counterpoint to the county. SUMMARY OF THE INVENTION The outline of the invention: The inventor's lack of implementation of the law, the research of Qian Xin, further developed the method of thin-plate heat pipe forming and its finished product, in addition to saving time and cost. The present invention provides a method for forming a thin-plate heat pipe, which mainly divides a metal sheet of a predetermined area into two opposite heat-dissipating regions, and the area of the heat-dissipating region is equal to, etc., and In the equal-scattering field or in the heat-dissipating area, the tree-forming method is used to punch out the outer cavity, and then the two heat-dissipating areas are folded in half, after welding, or other means, such heat dissipation The edge of the area is tightly combined, so that 'in the manufacturing process, the heat-dissipating area is simple and accurate because of the _ plate type thermal guide system-body forming', which is simpler and more convenient than the conventional method, and does not need Cut twice, which in turn saves costs. Still another object of the present invention is to provide a method for forming a (4) plate scale f, which, while forming a hollow chamber, presses a portion of the hollow chamber portion inwardly, so that the region is recessed 1267618, and the metal sheet is reinforced. strength. A further object of the present invention is to provide a thin plate type heat pipe having a hollow body which is formed by folding a metal sheet in a folded state, and a hollow chamber is provided in the hollow body. The fluid is injected, and the fluid has the characteristics of heat vaporization and cold reduction, and is used for heat dissipation, so that it is not easy to leak, and the thickness is much thinner than the conventional heat pipe. [Embodiment] The present invention is a method for forming a thin-plate type heat pipe, please refer to the figures 2, 3, and 4, which is a wealth-making, and the financial charm is a certain area of the Jinlin board 1 〇JJ down', the metal sheet 1Q is divided into two opposite heat-dissipating regions, and the two heat-dissipating regions are separated by a partition η, and the heat-dissipating regions of the two areas are separated by the partition line u. Further, in the heat dissipating region, the cavity chamber 12' is protruded outward by the hetero-molding method. In the embodiment, more than one reading is performed, and part of the towel recording chamber 12 is stamped and stamped. In the concave portion 13 of the (four) depression, the depth of the hollow chamber 12 of the scale recess 13 is shallow (as shown in Fig. 4), as the strength of the sheet metal 10 is enhanced. When the heat-dissipating area is folded in half, the cavity 12 in the heat-dissipating area is formed into a accommodating space (as shown in FIG. 4) for the fluid to pass through, and the middle touch 12 is placed There is a metal mesh 2Q (as shown in Fig. 4), or a groove (10) is not provided at the edge of the inner wall, and the flow of the wire is smoothed by the metal mesh 20 or the ditch. Then, in the matter of the tenderness, the welding of the butterfly is __he is in the same as the 1 4 figure '(4)' Remuneration - her 4, the sharp red hollow room =, then reduce the butterfly, shoot 12 in the middle of the street _14 draw After the second ritual is removed, the fluid is injected into the intermediate chamber a from the tube body 14. Finally, the finished product made by the above method has a hollow body, and the hollow system is made of a metal. The thin plate 10 is folded in half, and a hollow chamber 12 is disposed in the hollow body. The hollow chamber 12 is provided with a metal mesh 20, or a groove is formed in the inner wall of the hollow chamber 12, and the hollow chamber 12 is provided. There is a fluid in the middle, and the flow system is used for heat dissipation. In addition, the hollow chamber 12 is provided with one or more recessed portions 13' which are recessed inwardly for strengthening the strength of the metal sheet, so that it is not easy to leak, and The thickness is also much thinner than conventional heat pipes (as shown in Figures 4, 6, and 7). In summary, the "sheet forming method and the finished product of the thin plate type heat pipe" of the present invention have great use value in the production and industry, and can improve various disadvantages of the conventional technology, and can improve the efficiency in use. In combination with practicality, it fully meets the requirements of the invention patent, which is an ideal creation. Therefore, Shen•Xin people filed an invention patent application with the bureau in accordance with the provisions of the Patent Law, and requested that the patent be granted as soon as possible. Will. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the structure of a product manufactured by a conventional method. Figure 2 is a schematic view of the manufacturing process of the present invention. φ Fig. 3 is a schematic view of the finished product according to an embodiment of the invention. - Figure 3A is a schematic perspective view of a finished product according to an embodiment of the present invention. Figure 4 is a schematic cross-sectional view showing an embodiment of the present invention. Fig. 4A is an enlarged schematic cross-sectional view showing an embodiment of the present invention. Figure 4B is another enlarged cross-sectional view showing an embodiment of the present invention. Figure 5 is a schematic view of the finished product of another embodiment of the present invention. Figure 6 is a schematic cross-sectional view showing another embodiment of the present invention. Figure 7 is a perspective view of the finished product of the present invention. 1267618 [Description of main component symbols] 'Metal sheet 10 - Center line 11 Middle chamber 12 Concave 13 Tube 14 - Metal mesh 20 10

Claims (1)

1267618 X. Patent application scope: 1. A method for forming a thin-plate heat pipe, which mainly comprises the following steps: cutting a metal sheet of a suitable area, and dividing the thin metal plate into two equal areas by a partition line The heat dissipating area is formed by punching a hollow space in one of the heat dissipating regions, and then folding the two heat dissipating regions together, and sealing the heat dissipating regions except the outer portion of the hollow region. 2. The method of forming a thin-plate heat pipe according to claim 1, wherein a portion of the chamber is stamped with a recess that is inwardly recessed, and the depth of the recess is smaller than that of the hollow chamber. A gap is formed and has the strength to strengthen the metal sheet. 3. The method of forming a thin-plate heat pipe according to claim 1, wherein the plate can be provided with a pipe body at the edge, so that the gas or fluid can be vacuumed and injected into the hollow chamber. The tube body enters and exits, and after the fluid is filled, the tube body can be sealed to prevent the outside air from entering. 4. The method of forming a thin-plate heat pipe according to claim 1, wherein the inner wall of the cavity is provided with a groove. 5. The method of forming a thin-plate heat pipe according to claim 1, wherein a metal mesh is placed in the cavity. 6· a method for forming a thin-plate heat pipe, which mainly comprises the following steps: cutting a metal sheet of a suitable area, and separating the thin metal plate into two heat-dissipating areas of equal area by a partition line; 'The hollow chamber is flushed in the heat-dissipating areas; 1267618 _ two heat-dissipating areas are folded together, and the heat-dissipating areas are tightly joined together except for the edge portions outside the hollow area. 7. The method of forming a thin-plate heat pipe according to claim 6, wherein the cavity is there. The Ρτ? region is surrounded by a recess that is inwardly recessed, and the depth of the recess is deeper than that of the hollow chamber, and a void is formed between the domains to serve as a reinforcing metal sheet. 8. The method for forming a thin-plate heat pipe according to the six-piece method, wherein the metal thin plate can be installed at the edge - the pipe body, so that the hollow chamber is subjected to vacuuming and fluid injection work, the gas body Or the fluid can be in and out of the pipe body, and after the fluid is filled, the pipe body can be sealed to prevent the outside air from entering. 9. The method of forming a thin-plate heat pipe according to claim 6, wherein the inner wall of the cavity is provided with a groove. 10. The method of forming a thin-plate heat pipe according to claim 6, wherein a metal mesh is placed in the cavity. A thin-plate type heat pipe having a hollow body, the hollow system is formed by folding a metal sheet, and a hollow chamber is provided in the hollow body, and the hollow chamber is filled with a fluid. The flow system is used for heat dissipation. In addition, the hollow chamber is provided with one or more concave portions recessed inwardly for reinforcing the strength of the metal thin plate. 12. The thin plate heat pipe of claim 11, wherein the cavity is provided with a metal mesh. 13. The thin plate heat pipe of claim 11, wherein the inner wall of the cavity is provided with a groove. 12