TWM413302U - Thermal pressing apparatus - Google Patents

Description

M413302 V. New description: [New technical field] [0001] The present invention relates to a hot rolling press apparatus, in particular to a hot rolling press apparatus for manufacturing a double-sided polyimine metal foil laminated board. [Prior Art 3 [0002] Flexible Printed Circuit (FPC), also known as a flexible copper foil substrate, after exposure, development, and etching, 'getting the desired design of the circuit wire' can be used as an electronic product for current signal transmission. medium. Soft printed circuit boards are characterized by three-dimensional wiring, and are more flexible, light, thin, and short. They are also called flexible printed circuit boards. The related products are roughly divided into single-panel, double-panel and multi-layer boards. Because FPC has the characteristics of light, thin, short, flexible, anti-static, low power consumption, and can be changed according to space design, in today's electronic technology and communication products, it emphasizes light, short, and tortuous. The trend of 'soft printed circuit board application market is increasing, and has a huge market potential' such as notebook computers, folding mobile phones, LCD flat panel displays, digital cameras, cameras, CD players, etc., all need to apply soft board materials. [0003] The most important raw material for flexible printed circuit boards is Flexible Copper Clad Laminate (FCCL), and the substrate can be distinguished as a three-layer soft soft copper enamel substrate (3L-CCL depending on whether or not it contains an adhesive). ) and two-layer flexible copper foil substrate (2L-fed) without glue. The three-layer flexible copper foil substrate (3L-CCL) has a poor performance in some performance items due to the inclusion of an adhesive, such as dimensional stability. In terms of heat resistance, there are many restrictions on the application. The two-layer soft copper foil substrate (2L-FCCL) without glue is not only in dimensional stability and heat resistance, but also has the fine line preparation ability in the form number A0101 page 4/19 pages M413.302. Compared with the adhesive substrate, it has better line resolution, heat resistance, good dimensional stability, electrical characteristics, resistance to tortuosity and reliability, and also enhances the application range of FPC products. [0004] The conventional method for preparing a polyimide polyimide double-sided copper foil laminate is mainly to respectively wind a copper fg and a thermoplastic polyimide film on a supply wheel set, and then paste the two copper foils separately. It is combined with the upper and lower surfaces of the thermoplastic polyimide film. Then, after being adjusted and aligned by the guide wheel set, the hot roller set is entered, and the polyimine double-sided copper foil laminate is formed by hot rolling. However, since the thickness of the copper foil and the thermoplastic polyimide film in the conventional polyimide polyimide double-sided copper laminate is very thin, the surface temperature of the hot roller group is at least under high tension operation. Above 280 °C, the cold film material directly contacts the high-temperature copper foil of the upper and lower layers, which will cause internal stress due to the thermal expansion effect. Therefore, as long as there is a slight difference in stress, the metal foil and the thermoplastic polyimide film may wrinkle. In addition, the direct adhesion of the cold film material to the copper foil is less than that of the hot film material that has reached the Tg point. Please refer to the first figure, which is a schematic structural view of a conventional hot rolling press 100. In the first figure, before the metal foils 111, 113 and the thermoplastic polyimide film 112 are subjected to the hot rolling process, the metal foils 111, 113 are preheated by the hot air nozzles 131, 132 to shrink The temperature difference between the metal foils 111, 113 and the heat roller groups 141, 142 is slightly increased in the adhesion force. However, this conventional hot rolling apparatus still has a disadvantage in that indirect heating through the copper foil consumes energy, increases the cost, and increases the temperature difference between the metal foil 111, 113 and the thermoplastic polyimide film 112, resulting in a larger Internal stress is more likely to produce wrinkles. Form No. A0101 Page 5 of 19 M413302 [0006] In order to improve and solve the above-mentioned shortcomings, the author has devoted himself to researching and using the application of theory, and finally proposed a creation that is reasonable in design and effective in improving the above-mentioned defects. [New content] [0007] The purpose of the present invention is to provide a hot rolling press device, which can accelerate the softening of the thermoplastic polyimide layer by heating means, increase the speed of production, and increase the double-sided polyimine metal. The peel strength (peel-strength) and temperature resistance of the foil laminate. A temperature-controlled chamber is also installed to prevent the temperature from dropping too fast, which causes the double-sided polyimine metal foil laminate to rapidly shrink to form lines and internal stress. [0008] In order to achieve the above object of the present invention, a hot rolling press apparatus for manufacturing a double-sided polyimine metal foil laminated board, the first aspect of the hot rolling press apparatus includes: first Feeding wheel, second feeding wheel, hot pressing roller set and heating device. The first supply wheel is configured to output a first single-sided polyimine metal enamel layer, and a surface of the first single-sided polyimine metal pig laminate is coated with a polyimide layer; a feeding wheel for outputting a second single-sided polyimine metal foil laminated board, the surface of one of the second single-sided polyimine metal foil laminated sheets is coated with a polyimide layer; the hot pressing roller set And pressing the first single-sided polyimine metal foil laminate and the second single-sided polyimide metal foil laminate to form a double-sided polyimide metal foil laminate; and a heating device, Before entering the hot press roller set, the polyimine layer coated on the surface of the first single-sided metal foil laminate and the second single-sided polyimide film laminate is heat-treated. [0009] In the first aspect of the present invention, before the hot pressing roller set, a heating device is added to face the first single-sided polyimine metal foil laminated board and the form number A0101. Page 19 M413302 The second poly-imine layer on the single-sided polyimine metal foil laminate is subjected to local heat treatment. Then, for the first single-sided polyimine metal foil laminated board and the second single-sided polyimide metal foil laminated board produced by coating, two single-sided polyimine groups are set by hot pressing roller set The polyimides in the metal foil laminate are thermally bonded to each other to form a double-sided polyimide foil metal laminate. [0010] In a second aspect of the present invention, a temperature control chamber may be further disposed, wherein the plurality of temperature control regions may be separated by a plurality of partitions, and the thermal energy of the temperature control regions may be The temperature control zone is provided by electrothermal or by externally blowing hot nitrogen gas, and the purpose of externally blowing nitrogen gas is to prevent oxidation of the metal foil. The temperature of the temperature control zones is set to be inversely proportional to the distance from the hot roller set. [0011] The third aspect of the hot rolling press apparatus of the present invention is used for manufacturing a double-sided polyimine metal foil laminated board, and the hot rolling press apparatus comprises: a first feeding wheel and a second feeding wheel , the third feeding wheel, the hot pressing roller set and the heating device. The first feeding wheel is for outputting the first metal foil; the second feeding wheel is for outputting the polyimide film; the third feeding wheel is for outputting the second metal foil; and the hot pressing roller group is used The first metal foil, the polyimide film and the second metal foil are pressed together; and the heating device is heated to face the polyimide film before entering the hot-pressing roller group. [0012] With the implementation of the present invention, at least the following advancements can be achieved: [0013] 1. Reduce the problem of wrinkles and fine lines on the surface of the product. 2. Improve the temperature resistance of the product. [0014] In order to enable any skilled artisan to understand the technical content of the present invention and implement it according to Form No. A0101, page 7 / 19 pages M413302, and according to the contents disclosed in the specification, the scope of the patent application and the drawings, any familiarity The related objects and advantages of the present invention will be readily understood by those skilled in the art, and the detailed features and advantages of the present invention are described in detail in the embodiments. [Embodiment] [0015] First, please refer to the second drawing, which is a schematic view showing the structure of the hot rolling press apparatus of the first embodiment of the present invention. In the second aspect, a hot roll press apparatus 200 for manufacturing a double-sided polyimide film laminate comprises a first supply wheel 221 for outputting a first single-sided polyimide film laminate 211, a surface of one of the first single-sided polyimine metal foil laminates 211 is coated with a polyimide layer; and a second supply wheel 223 is used for outputting a second single-sided polyimide metal foil laminate. 213, a surface of one of the second single-sided polyimine metal foil laminates 213 is coated with a polyimide layer; and the hot-pressing roller sets 241 and 242 are used for pressing the first single-sided polyimine metal foil layer. The plate 211 and the second single-sided polyimide film laminate 213 heat-bond the first single-sided polyimide foil laminate 211 to the second single-sided polyimide foil laminate 213 Forming a double-sided polyimine metal foil laminate 251; and two heating devices 231, 232, facing the first single-sided polyimide metal foil laminate 211 and the first before entering the hot roller group 241, 242 The polyimine on the two-sided polyimine metal foil laminate 213 is subjected to heat treatment 〇 «· [0016] In order to accelerate the thermoplastic polyimide layer Softening, increasing the speed of production, and increasing the peel strength and temperature resistance of the double-sided polyimine metal foil laminate, as shown in the second figure, in the first single-sided polyimine Metal foil laminate 211 and second single-sided polyimide film No. A0101 Page 8 / 19 pages M413302 Metal foil laminate 213 enters hot pressing roller set 241, 242, and two heating devices 231, 232 are added A single-sided polyimide film laminate 211 and a polyimide layer (not shown) of the second one-side polyimide foil laminate 213 are subjected to local heat treatment. The heating device 231, 232 can be a high temperature gas or a device capable of providing radiant heat energy, such as an infrared radiant heater, a ceramic plate radiant heater or a quartz tube radiant heater, and the temperature of the heating device is controlled at 150 ° C to 1500 ° Between C. The temperature of the hot press roller set is controlled between 150 ° C and 400 ° C and the operating pressure is 5 to 200 kN. By the local heating treatment of the polyimine layer by the above heating means, the temperature difference between the metal film material and the hot-pressing roller group can be reduced to reduce the wrinkles caused by the temperature difference. [0017] In addition, please refer to the third drawing, which is a schematic structural view showing the hot rolling press apparatus of the second embodiment of the present invention. In the third figure, the hot-pressing roller sets 311, 312 can be disposed in a temperature control chamber 310. The temperature control chamber 310 can be separated by a plurality of partitions, that is, a first partition plate 341 and a second partition plate 342. The third partition 343, the fourth partition 344, the fifth partition 345, and the sixth partition 346 are separated by a plurality of temperature control regions (the first region 316, the second region 318, and the third region 320), and are temperature-controlled. The thermal energy of the regions 316, 318, 320 may be provided by each of the temperature control regions 316, 318, 320 electrically or externally via a hot nitrogen supply port, ie, a first hot nitrogen supply port 331, a second hot nitrogen supply port 332, The three hot nitrogen gas supply ports 333, the fourth hot nitrogen gas supply port 334, the fifth hot nitrogen gas supply port 335, and the sixth hot nitrogen gas supply port 336 are supplied with hot nitrogen gas, and the external nitrogen gas is blown in order to prevent oxidation of the metal foil. The temperature of the temperature control zones 316, 318, 320 will be inversely proportional to the distance from the set of hot press rollers 311, 312, such as shown in the third figure, the first zone 316, the second form number A0101, page 9 / 19 pages, M413302 The zone 318 and the third zone 320 are 80%, 60%, and 40% of the temperatures of the hot-pressed roller sets 311, 312, respectively. The laminated plate 321 which is heated and bonded by the hot-pressing roller sets 311 and 312 can be gradually cooled by the temperature set in the temperature control zone, and when the temperature-controlled room is contacted with the room temperature, wrinkles are not generated due to excessive temperature difference. [0018] The heat-adhesive roller set 311, 312 heat-bonded laminated board 321 can pass through at least one of the conveying wheels disposed in the temperature control chamber 310. For example, the present embodiment uses six conveying wheels, that is, the first conveying material. The wheel 351, the second delivery wheel 352, the third delivery wheel 353, the fourth delivery wheel 354, the fifth delivery wheel 355, and the sixth delivery wheel 356 are transported. [0019] In addition, please refer to the fourth drawing, which is a schematic structural view showing the hot rolling press apparatus of the third embodiment of the present invention. In contrast to the two-axis feeders of the second and third figures, the present invention further provides a three-axis feed hot roll press apparatus. In the fourth figure, the hot roll press apparatus 400 for manufacturing a double-sided polyimine metal foil base plate comprises: a first supply wheel 421 for outputting the first metal foil 411; and a second supply wheel 422 For outputting the polyimide film 412; the third supply wheel 423 for outputting the second metal foil 413; and a hot pressing roller set for pressing the first metal foil 411, the polyimide film 412 and The second metal foil 413 and the two heating devices 431 and 432 are heated to face the polyimide film 412 before entering the hot-pressing roller groups 441 and 442. The heating devices 431 and 432 may be high-temperature gases or may provide radiant heat. The device can be, for example, an infrared radiant heater, a ceramic plate radiant heater or a quartz tube radiant heater, and the temperature of the heating devices 431, 432 is controlled between 150 ° C and 1500 ° C. The temperature of the hot press roller sets 441, 442 is controlled between 150 ° C and 400 ° C and the operating pressure is 20 to 200 kN. The polyimine film 412 is partially applied by the heating means 431, 432. Form No. A0101 Page 10 of 19 [0020] M413.302 [0021] [0022]

[0025] [0026]

[0028] [0028] The heat treatment, (1) can reduce the temperature difference between the metal film material and the hot press roller set 441, 442 to reduce the wrinkles caused by the temperature difference; (2) the removable polyimide film 412 Moisture on the water to improve product quality. With the implementation of the present invention, at least the following advancements can be achieved: 1. The problem of wrinkles and fine lines on the surface of the product is reduced. Second, improve the temperature resistance of the product. The above description is only the preferred embodiment of the present invention, and is not intended to limit the scope of the patent of the present invention. Other equivalent variations of the patent spirit of the present invention are intended to fall within the scope of the patent of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS The first figure shows a schematic structural view of a conventional hot rolling press. The second drawing shows a schematic view of the structure of the hot rolling press of the first embodiment of the present invention. The third drawing shows a schematic view of the structure of the hot rolling press apparatus of the second embodiment of the present invention. The fourth figure is a schematic view showing the structure of the hot rolling press apparatus of the third embodiment of the present invention. [Main component symbol description] 100 hot rolling press machine 111 metal foil 112 polyimine film 113 metal foil 131 hot air nozzle form number A0101 page 11 / total 19 pages M413302 132 hot air nozzle 141 hot roller set 142 hot roller set 200 Hot Rolling Pressing Apparatus 211 First Single-Sided Polyimide Metal Foil Laminate 213 Second Single-Sided Polyimide Metallic Foil 221 First Feeding Wheel 223 Second Feeding Wheel 231 Heating Device 232 Heating Device 241 Hot Pressing Roller set 242 hot pressing roller set 251 double-sided polyimine metal foil laminated board 300 hot rolling press equipment 310 temperature control room 311 hot pressing roller set 312 hot pressing roller set 316 first zone 318 second zone 320 third zone 321 double-sided polyimine metal foil laminate 326 temperature measuring device 331 first hot nitrogen gas supply port 332 second hot nitrogen gas supply port 333 third hot nitrogen gas supply port 334 fourth hot nitrogen gas supply port form number A0101 page 12 / 19 pages M413.302 335 fifth hot nitrogen supply port 336 sixth hot nitrogen supply port 341 first partition 342 second partition 343 third partition 344 fourth partition 345 fifth partition 346 sixth partition 352 second delivery wheel 353 third delivery wheel 354 fourth delivery wheel 355 Feeding wheel 356 sixth conveying wheel 400 hot rolling press equipment 411 first metal foil 412 polyimine film 413 second metal foil 421 first supply wheel 422 second supply wheel 423 third supply wheel 431 Heating device 432 Heating device 441 Hot pressing roller set 442 Hot pressing roller set 451 Double-sided polyimine metal foil laminated form No. A0101 Page 13 of 19

Claims (1)

M413302 VI. Patent application scope: 1. A hot rolling press device for manufacturing a double-sided polyimine metal foil laminated board, the hot rolling press apparatus comprising: a first feeding wheel for outputting one a first single-sided polyimine metal foil laminated board, the first single-sided polyimine metal foil laminated board is coated with polyimine on one surface thereof; and a second feeding wheel is used to output a second a single-sided polyimine metal foil laminated board, the surface of one of the second single-sided polyimine metal foil laminated sheets is coated with polyimide; a hot pressing roller set for pressing the first single side a polyimide metal foil laminated board and the second single-sided polyimine metal foil laminated board; and a heating device facing the first single-sided polyimine metal foil before entering the hot pressing roller set The laminate and the polyimide of the second single-sided polyimine metal foil laminate are heat treated. % The hot rolling press apparatus of claim 1, wherein the temperature of the heating device is controlled between 150 ° C and 1 500 ° C. The hot rolling press apparatus of claim 1, wherein the heating means is a means for supplying a high temperature gas. The hot rolling press apparatus of claim 1, wherein the heating means is a means for providing radiant heat energy. The hot rolling press apparatus of claim 4, wherein the heating device is an infrared radiant heater, a ceramic plate radiant heater or a quartz tube radiant heater. The hot rolling press apparatus of claim 1, wherein the temperature of the hot press roller set is controlled between 150 ° C and 400 ° C. 100208950 Form No. A0101 Page 14 of 19 1002029466-0 M413302 7. The hot rolling press apparatus of claim 1 wherein the hot press roller set operates at a pressure of 20 to 200 kN. 8. The hot rolling press apparatus of claim 1, further comprising a temperature control chamber that separates the plurality of temperature control regions by a plurality of partitions. 9. The hot rolling press apparatus of claim 8 wherein the thermal energy of the temperature control zones is provided by each of the temperature control zones. 10. The hot rolling press apparatus of claim 8, wherein the thermal energy of the temperature control zone is supplied by externally blowing hot nitrogen gas. 11. The hot rolling press apparatus of claim 8, wherein the temperature of the temperature control zone is inversely proportional to the distance from the hot roller set. 12. The hot rolling press apparatus of claim 8, wherein the temperature control chamber is provided with at least one feed wheel. 13 . A hot rolling press apparatus for manufacturing a double-sided polyimine metal foil laminated board, the hot rolling press apparatus comprising: a first feeding wheel for outputting a first metal foil; a second supply wheel for outputting a polyimide film; a third supply wheel for outputting a second metal foil; and a hot pressing roller group for pressing the first metal foil, the poly The ruthenium imide film and the second metal foil; and a heating device heat the surface of the polyimide film before entering the hot-pressing roller group. 14. The hot rolling press apparatus of claim 13, wherein the temperature of the heating device is controlled between 150 ° C and 1500 ° C. 100208950 Form No. A0101 Page 15 of 19 1002029466-0