TW432246B - Method and apparatus for manufacturing liquid crystal display - Google Patents

Abstract

A shock absorbing layer (12) is attached to a pressurization surface (10a) of a fixed plate (10), and a fluid pressurization clamping apparatus (30) is disposed so as to be opposed to the pressurization surface of the fixed plate. This fluid pressurization clamping apparatus is a frame type rigid body having a pressure chamber (30a) in the central portion thereof, and the pressure chamber communicates with an air supply system via an air feed port (30b) and an air feed pipe (33). A seal frame (31) is fixed on a circumferential portion of an upper side surface of the pressure chamber. A transparent window (32) is pasted on a lower side surface of the pressure chamber, the lower side of the pressure chamber being closed with this transparent window. A liquid crystal panel (20) is held between the fixed plate and fluid pressurization pressure chamber and pressurized, and the light from an ultraviolet ray application lamp (40) is applied to the liquid crystal panel through the transparent window and pressure chamber, whereby an un-solidified seal material disposed between two base plates constituting the liquid crystal panel is solidified.

Description

M432246 5. Description of the new type: [Technical field to which the new type belongs] [0001] A heat dissipation module, especially a heat dissipation module that achieves rapid integration by achieving plastic deformation by applying pressure to the structure. [[ Prior Art 3 [0002] The current heat dissipation device and heat dissipation module are composed of multiple heat dissipation components that are matched with each other. These heat dissipation components are heat pipes, heat sinks, heat dissipation bases and other components. It is fixed by welding, but if the heat dissipation component made of aluminum material is to be welded, it not only needs to be welded by special welding work, but its processing cost is relatively increased. In addition, some manufacturers use screws and other fixing elements to fix and fix these heat-dissipating elements, but the fixing elements can only be screw-locked for some heat-dissipating elements (such as heat-dissipating fin groups and heat-dissipating bases), but not for heat pipes. The method directly fixes and fixes by means of screw locks. In addition, there are also industry tests to fix the heat sink fins and the base by a tight fit, but the tight fitting construction process is likely to cause the heat sink fins or the base to rupture and increase the defect rate. Therefore, the conventional technology has the following disadvantages : 1. Higher cost; 2. Consumption of man-hours; 3. Higher defect rate. [New content] [0003] So, in order to solve the shortcomings of the above-mentioned conventional technology, the main purpose of this creation is to provide a heat dissipation module that can be quickly assembled to reduce production costs. 10120416 ^^^^ * A〇101 Page 3 of 15 1012013425-0 M432246 In order to achieve the above purpose, the creative department provides a heat dissipation module, which includes: a heat dissipation fin group and a base; the heat dissipation fin One side of the sheet group has at least one hem, and the hem has at least one joint portion; the base has at least one fastening portion, which is arranged corresponding to the aforementioned joint portion, and the fastening portion must be buckled with the aforementioned hem. The heat dissipation module created through this creation can greatly reduce the assembly time of the heat dissipation module and reduce the production cost. [Embodiment] [0004] The above-mentioned purpose of this creation and its structural and functional characteristics will be described in accordance with the preferred embodiments of the drawings. Please refer to Figures 1, 2, and 3, which are three-dimensional / 7 solutions and combinations and combined sectional views of the first embodiment of the creative heat sink module. As shown in the figure, the heat sink module 1 includes: a heat sink A fin group U and a base 12; the heat dissipating fin group 11 has at least one folding edge 丨 i on one side, and the folding edge 111 has at least one joint portion 1111; The base 12 has at least one fixing portion 121 corresponding to the aforementioned joint portion 1111, and the fixing portion 121 must be fastened to the aforementioned folded edge 111. The base 12 has a first side 122 and a second Side 123, the fixing portion 121 is disposed on the first side 122, and the fixing portion 121 has at least a first extension end 1211, and the first extension end 1211 is a free end by the connection portion 21 One end is extended in a direction opposite to the base 丨 2, and the first extension end 1211 is extended and pressed against the folded edge ui. Please refer to FIG. 4, which is a combined sectional view of the second embodiment of the creative cooling module. Part of the structure of this embodiment is the same as the first embodiment described above. 10120416 ^ MSfe will not be repeated here, but this implementation The difference between the example and the first embodiment is that the connecting portion 121 further has a second extension end 12i2, the A0101 page 4 of 15 1012013425-0 M432246 first and second extension ends 1211, 1212 Formed by one of the free ends of the connecting portion 121 extending in a direction opposite to the base 12, respectively, when the first extension end 1211 and the second extension end 1212 are subjected to waste force to produce plastic deformation, The first extended end 1211 and the second extended end 1212 are respectively bent to suppress the fold 1U of the heat dissipation fin group 11. Please refer to FIG. 5 ′, which is a combined cross-sectional view of the third embodiment of the creative cooling module. Part of the structure of this embodiment is the same as that of the first embodiment described above, so it will not be repeated here, but this embodiment and the foregoing The difference between the first embodiment is that the base 12 further has a first end 124 and a second end 125, and the first extension end 1211 of the connection portion 121 is disposed at the first and second ends 124, respectively. , 125 'when pressure is applied to the first extension end 1211 to cause plastic deformation', the first extension end 1211 bends and clamps the flange 111 of the heat dissipation fin group 11. Please refer to FIG. 6 ′, which is a three-dimensional exploded view of the fourth embodiment of the creative cooling module. Part of the structure of this embodiment is the same as the first embodiment described above, so it will not be repeated here, but this embodiment and The difference between the foregoing first embodiment is that the heat dissipation module 1 further has at least one heat pipe 13 and a groove 126. The heat pipe 13 has a heat absorption end 131 and a heat radiation end 132. The groove 126 is provided in The second side 123 of the base 12, the heat-absorbing end 131 is accommodated in the groove 126, and the heat-dissipating end 132 runs through the heat-dissipating fin group 11 »Please refer to FIG. The fifth embodiment of the module is a schematic diagram of a heat sinking Korean chip set. Part of the structure of this embodiment is the same as the first embodiment. Therefore, it will not be repeated here, but the difference between this embodiment and the first embodiment is the same. The heat dissipation fin group n is formed by stacking a plurality of heat dissipation fins Ua on each other ', and the heat dissipation fins 11a have buckles 1012013425-0 10120416 # on each side of the single number A01〇l page 5 of 15 M432246 part 112 ′ and fastens another heat sink fin 1 a to each other through the fastening part 112 Access. The structure of the heat dissipation module created through this creation can shorten the assembly man-hours of the heat dissipation module and complete the assembly without additional welding, thereby greatly reducing the manufacturing cost of the heat dissipation module. [Schematic description] [0005] FIG. 1 is a three-dimensional exploded view of the first embodiment of the creative heat dissipation module. A three-dimensional combined view of an embodiment. A three-dimensional sectional view of an embodiment. A combined sectional view of the three embodiments. Sectional view

Figure 2 is the third part of the creative cooling module. Figure 3 is the fourth part of the creative cooling module. Figure 5 is the sixth part of the creative cooling module. The figure is a combined sectional view of the fourth embodiment of the creative cooling module. The seventh figure is a schematic diagram of the cooling fin group of the fifth embodiment of the creative cooling module. [Description of Symbols of Main Components] [0006] Cooling module 1 Cooling fin group 11 Cooling fin 11a Flanging 111 Bonding portion 1111 Base 12 Fixing portion 121 First extension end 1211 Second extension end 1212 First side 122 10120416 ^ Green number A0101 Page 6 of 15 1012013425-0 M432246 Second side 123 First end 124 Second end 125 Groove 126 Heat pipe 13 Heat absorbing end 1 31 Radiating end 132

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Claims (1)

M432246 6. Scope of patent application: 1. A heat sink module, comprising: a heat sink fin group with at least one hem on one side, the hem has at least one joint; a base with at least one connection The portion is provided correspondingly to the aforementioned joint portion, and the fastening portion is buckled against the aforementioned folded edge. 2. The heat dissipation module according to item 1 of the scope of patent application, wherein the base has a first side and a second side, the connection portion is disposed on the first side, and the connection portion has At least one first extension end, the first extension end is extended to buckle the hem. 3. The heat dissipation module according to item 2 of the scope of the patent application, wherein the connection portion further has a second extension end, and the first and second extension ends are respectively oriented by the connection portion as one of the free ends. Instead, the base is formed by extending in the direction. 4. The heat dissipation module according to item 2 of the scope of the patent application, wherein the base further has a first end and a second end, and the first extension ends of the connection portions are respectively disposed at the first, Both ends. 5. The heat dissipation module according to item 2 of the scope of the patent application, which further has at least one heat pipe and a groove, the heat pipe has a heat absorption end and a heat dissipation end, and the groove is provided in the first part of the base. On both sides, the heat absorption end is accommodated in the groove, the heat radiation end is accommodated in the groove, and the heat radiation end penetrates the heat radiation fin group. 6. The heat dissipation module according to item 1 of the scope of patent application, wherein the heat dissipation fin group is formed by stacking a plurality of heat dissipation fins on each other, and the heat dissipation fins each have a buckle portion on each side. 10120416 ^^^^ A〇101 Page 8 of 15 1012013425-0