TWM334311U - Assembly structure of plate-type heat-conducting element - Google Patents

Description

M334311 VIII, new description: [New technology field] This creation is about the plate-type heat-conducting components of the people according to the needs of the fresh-spoken shrine, special offer refers to a kind of furnace and furnace expansion H degree or area, and it Plate-type thermal element structure of the attachment. ",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, (4) There are different shapes and structures such as tube type and plate type, but due to the limitation of process and material strength, the (tube type) tube diameter or (plate type) width and its limitation, therefore, if there is a large tube The application requirements of the diameter or the width and the area, the two large-scale (four) above-mentioned complex tubular or plate-type heat-conducting components are combined and connected to meet the requirements of large heat conduction conditions. The plate-type heat-conducting element 52 is not provided with a plurality of (parallel-extending) accommodating spaces 5 1 1 and 5 2 1 (flow paths), and is disposed in the accommodating space 5, 52 The flow medium sighs a heat transfer medium fluid 丄2, 522, which can utilize the heat transfer medium & body 512, 522 in the accommodating space 511, 521 (flow path) of the pair f, so that the plate type heat conduction element 5 1 , 5 2 produces a hot material effect; and if there is a greater visibility or area In the case of demand, the combined form is coated with a heat-conducting material i to cover a plurality of independent plate-type heat-conducting elements 51 and 52 (two-plate heat-conducting elements are shown in the figure, and may be used in practical applications. If necessary, the outer side is such that the plurality of plate-type heat-conducting elements 5 i, 5 2 can be positioned to be joined by their edges, and the width or area of the plate can be used to form a change in application and meet different needs. Environment H is a combination of the 5 Q package and the number of heat-reducing elements 51 and 52, which not only increases the material cost, but also makes it difficult to avoid the processing of the M334311. High, the sturdy shirt sounds its economic benefits and product competitiveness. Severe creative pieces turn to the above shortcomings of reading and closing the money, ^ people are riding the shortcomings to study the difference, finally have [new content] Wang Ben's main creation The purpose is to provide a plate-type heat-conducting group, which can be laterally expanded and expanded as needed to increase the overall width and application range of the whole. You have another purpose - to provide a combination structure of plate-type heat-conducting elements, Tian, can be $ Want In addition, the surface is combined with heat dissipation or other changes in the application. The third is to provide the combination structure of the heat-conducting elements, and the conventional combined structure can reduce the components. Quantity, and simplify the group breaking process, in order to effectively reduce the production cost. qt creation in order to achieve the above purposes and functions, the technical means adopted: = number of plate-shaped heat-conducting element body, set in the body of each heat-conducting element Having at least one accommodating space, (10) a heat sinking fluid of the heat sink; wherein: each of the heat conducting element bodies is provided with corresponding protrusions and grooves at least at two opposite side edges, wherein the groove has a small opening, The convex _ has the same cross-sectional shape. According to the above structure, the body of the towel heat element has at least a plurality of groove grooves at the longitudinal direction of the table, and at least the outer member can be inlaid with the corresponding joint protrusion. As for the detailed structure, application principle, function and effect of the creation, a complete understanding can be obtained by referring to the following description according to the drawings: [Embodiment] As shown in Fig. 1, it is a combination of the expansion and expansion of the heat conduction element of the board. The main structure of the structure and its absence are as described above and will not be repeated here. M334311 ^ to 4 is the structure of the first embodiment of the present invention and its application situation ^ It is obvious that 'this creation is mainly composed of a plurality of plate-like body parts 1 , wherein the heat conduction elements are A plurality of accommodating spaces 13 (flow paths) extending in parallel in the axial direction are disposed therein, and an appropriate amount of the heat-conducting medium “body 131 ′ is respectively accommodated therein, and opposite sides of the respective heat-conducting elements are respectively provided to be opposite to each other. The protrusion 1 2 and the groove 1 1, wherein the groove i; L is a forward-opening car and a 1 piece (such as a dovetail groove), and the protrusion 2 has a groove similar to the groove The cross-sectional shape of the crucible' each heat-conducting element body i at least - the front side is provided with a plurality of flat

The shape, the 'σ σ groove 14 (which may be a dovetail shape or other different shape), can be formed by the combination of the convex portion 2 1 of the plurality of heat-dissipating pieces 2 with their corresponding sides (the same sectional shape) Combine. In practical applications, each of the heat-conducting element bodies 1 can be coupled to each other through the two sides of the ridges 1 2 and the grooves 1 1 to form an overall lateral width or area, and expand: the requirements of the system and enhance the heat dissipation effect In use, and at least a part of the surface of the heat-conducting element body 1 is in contact with the heat source, and the heat-conductive medium fluid 131X is heated to generate convection characteristics in the accommodating space 13, and the heat-conducting element body 1 can be thermally conductive. The heat of the heat source is dissipated to the outside via the heat dissipation staggers 2. The fifth and sixth figures are the structure of the second embodiment of the present invention. As shown in the two figures, it is known that the heat-conducting element body 1 is removed from the joint groove 104 having a plurality of circular cross-sections on the surface, and the rest. The structure of each part is the same as that of the heat-conducting element body ,, and the heat-dissipating fins 20 are provided with the same corresponding shape of the convex protrusions 2 一侧 on one side edge, and the combined convex parts 2 〇L are combined with the grooves 1 〇 4 The heat dissipating fins 2 are formed to have the same bonding effect as the heat conducting element body 10. =: The figure of the third embodiment is the structure of the third embodiment of the present invention. As shown in the two figures, the structure of the third embodiment of the present invention mainly includes: the heat conducting element body 3, the inserting strip 4, etc. M334311 1 = ^, middle 2 The heat-conducting element body 3 is internally provided with a heat-conducting medium fluid 3 3 ^ each set 3 ' and a corresponding convex rod 3 groove 31 ' is respectively provided on the two outer side edges and is provided with a plurality of grooves on the side thereof The parallel-extending scatter-sheet 3 5 body molding or the structure of the foregoing embodiments is separately combined), and the heat-transfer element ^3 is further divided into a Wei-number combination _34, and each of the joint grooves 3 is respectively provided with a corresponding one. The inner convex portion 3 4 2 and the _ groove 341 are inserted into the cross-sectional shape of the coupling groove 34_, and are respectively provided with convex portions on the two side sides, and the outer grooves 42 respectively correspond to the inner grooves 34. When the inner convex portion 3 4 ^ ' extends the domain strip 4 to the coupling groove 34, the relative position of the outer handle 4 3 4 1 and the outer groove 4 2 and the inner convex portion 3 4 2 can be utilized. If the strip 4 is exposed outside the joint groove 34, the light source body 5 (or other heat source) may be disposed, so that the heat energy generated by the strip 4 may be inserted into the strip 4, Thermal element body 3 The heat-dissipating fins 35 are externally diverged; in the plug, the heat-dissipating fins 35 may be coupled to the groove corresponding to the front side of the heat-conducting element body 3 by means of the two sides (as described in the foregoing: The method is to form a combination, and at the same time, the inserting strip 4 has a cross-sectional shape of δ _, so that the channel can be respectively applied to the heat dissipation 3 5 and the insert strip 4 The combination can effectively simplify the structure of the body and improve the application changes. ν, in the structure of each embodiment, the heat dissipation is 2 (or 20) except that the whole material is also made of graphite, and the graphite material has excellent transverse material characteristics, and can be more excellent. Heat application form. / month = above, we can see that the combination structure of the plate-type heat-conducting elements does have the expandable visibility or area', and combined with heat dissipation or other devices, it has industrial applicability, novelty and Progressive. >, but the above is only one of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention to M334311. That is, the equivalent changes and modifications made by the scope of the patent application for this creation are covered by the scope of the creation patent. M334311 [Simple description of the diagram] Figure 1 shows the combined structure diagram of the expansion and expansion of the plate-type heat-conducting elements. Fig. 2 is an exploded view showing the structure of the first embodiment of the present creation. Figure 3 is a combined sectional view of the first embodiment of the present creation. Fig. 4 is a schematic view showing the application of the first embodiment of the present creation. Fig. 5 is a structural exploded view of the second embodiment of the present creation. Fig. 6 is a sectional view showing the combination of the second embodiment of the present creation. Figure 7 is an exploded view of the third embodiment of the present creation. Figure 8 is a combined sectional view of a third embodiment of the present creation. [Description of main component symbols] 1, 10, 3.. Heat-conducting element body 11____ Groove 12···. Concave 13, 33.... accommodating space 131, 331... heat-conductive medium fluid 14, 104, 34··· combined with the grooves 2, 20, 35..... heat-dissipating fins 2...201...in combination with the convex portion 31··..the groove 32··..the convex 341.....the inner groove 342. .. Inner convex part 4··· .. Inserting strip 41··. External convex part 42··. External groove 5··· .. Light source body M334311 50____ Jacket V 51, 52.. .. plate-type heat-conducting elements 511, 521... accommodating spaces 512, 522... heat-conductive medium fluid

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Claims (1)

M334311 Nine, the scope of application for patents····································································· The heat conductive medium fluid is characterized in that: the heat conducting element body is provided with a convex and a groove which can be oppositely connected. 2. The composite structure of the plate-type heat-conducting tree according to the invention of claim 1, wherein the engaging groove has a small forward opening, and the tenon has a sectional shape similar to the concave groove. . 3: If you apply for the plate-type heat-conducting component planting structure of the first or second type, the groove is the dovetail groove, and the tenon is a dovetail. 4. If Shen Shen specializes in the combination structure of the plate-type heat-conducting elements of the first or second item, the body of the scale heat is at least finely provided with a coupling groove for the external component to be embedded with the corresponding combined convex portion. Combine. 5. The composite structure of a plate-type heat-conducting element according to claim 3, wherein the coupling groove has a smaller forward opening and the outer member has a similar sectional shape to the convex portion. VIII. 6. If the application of the paste item is in the form of a plate-like lead-down combination structure, the groove system extends parallel to each other. Λ 7. If the combined structure of the plate-type heat-conducting elements described in Item 5 is applied, the groove system is extended in parallel with each other. 8. The combination of the plate-type heat-conducting elements according to claim 3, wherein the external component is selected from at least one of a heat sink fin, a heat source body or a light source body. Λ 9. The composite structure of the plate-type heat-conducting element according to the fourth aspect of the invention, wherein the external component is selected from at least one of a heat-dissipating film, a heat source body or a light source body towel. 10. The composite structure of the plate-type heat-conducting element according to the above-mentioned (4), wherein the external component is selected from at least one of a heat sink fin, a heat source body or a light source body. 11. The composite structure of a plate-type heat-conducting element according to claim 6, wherein the external component is selected from one of a heat dissipating fin, a heat source body, and a light source body. 12. The composite structure of a plate-type heat-conducting element according to claim 8, wherein the heat-dissipating fin is made of graphite. 13