TWI333816B - Supporting device and method for manufacturing double surfaces mounted printed circuir board using the same - Google Patents

Description

1333816 IX. Description of the Invention: [Technical Field] The present invention relates to a circuit board manufacturing technology, and more particularly to a carrying device and a method for manufacturing a double-sided mounting circuit board using the same. [Prior Art] With the development of electronic products in the direction of miniaturization and diversification of functions, the circuit board which is one of the key components of electronic products is also from Rigid Printed Circuit Board (RPCB) and flexible circuit board (Flexible). Printed Circuit Board, FPCB) is moving toward the Rigid and Flexible Printed Circuit Board (RFPCB). The combination of a hard and a hard circuit board refers to the combination of a rigid circuit board and a flexible circuit board, and utilizes the rigidity of the rigid circuit board and the thinness and flexibility of the flexible circuit board to meet the development requirements of miniaturization and diversification of electronic products. . Therefore, in recent years, various circuit board manufacturing technologies and related technologies of mounting components, especially the combination of soft and hard circuit board manufacturing technology and related technologies for hard and soft board bonding and mounting components, have been extensively studied. Please refer to Ganasan, JR, etc. Chip on chip (COC) and chip on board (COB) assembly on flex rigid printed circuit assemblies published in January 2000 in IEEE Transactions on Electronics Packaging Manufacturing, volume: 23, Issue: 1, page: 28-31 o Double-sided mounting rigid circuit board is usually formed by slotting directly, that is, before mounting the component on the rigid circuit board, firstly, the opposite V-shaped groove is formed on the opposite surfaces of the rigid board empty board. After mounting on the opposite surfaces of the rigid circuit board, the rigid circuit board substrate is used to separate the brittleness into a single double-sided mounting rigid circuit board along the v-shaped groove. The double-sided mounting flexible circuit board is flexible because the substrate is flexible. Therefore, the manufacturing method of the double-sided mounting rigid circuit board is not applicable, and the manufacturing of the double-sided mounting flexible circuit board is usually performed by a punching method, that is, directly The flexible circuit board of the surface mount component is punched into a single double-sided mounting flexible circuit board. Since the substrate of the rigid circuit board often contains glass fibers, the direct punching type cannot break the glass fiber, and therefore, the manufacturing method of the double-sided mounting flexible circuit board is not suitable. The manufacturing method of the rigid circuit board for mounting components Of course, it is not suitable for the fabrication of soft and hard bonded circuit boards for mounting components. Therefore, there are mainly two methods for forming and forming a double-sided mounting soft and hard circuit board in actual production. In the first method, the milling cutter of the molding machine firstly forms a micro-joining point on the empty board of the hard and soft board, and then performs the double-sided mounting component, and finally cuts the soft and hard board along the micro-joining point by laser. Get a single double-sided mount hard and soft combination board. The second method is to directly perform the double-sided mounting component directly on the empty board of the soft-hard combination circuit board, and then directly form the double-sided mounting soft and hard bonding circuit board by using the milling cutter of the molding machine. Double-sided mounting of hard and soft board. However, the first production method has higher precision, but the production efficiency is lower, and the production cost is higher, which is not suitable for mass production. The second method, although the production efficiency is significantly improved, the cost is significantly reduced, but the molding machine is on the molding machine. The brush for dust removal and the sharp knife for plastic molding directly contact the product, which easily damages the mounting components on the circuit board, and thus affects the production quality of the double-sided mounting soft and hard circuit board. 8 1333816 In view of the above, the present invention provides a carrying device and a method for manufacturing a double-sided mounting circuit board by using the same, which is suitable for manufacturing various double-sided mounting circuit boards, thereby effectively reducing the manufacturing cost of the double-sided mounting circuit board. It is necessary to improve the production efficiency and quality of the double-sided printed circuit board. SUMMARY OF THE INVENTION Hereinafter, a carrying device and a method of manufacturing a double-sided mounting circuit board using the same will be described by way of embodiments.

The carrying device is configured to carry a double-sided mounting circuit board, the carrying device includes a first avoiding device and a second avoiding device, wherein the first avoiding device is provided with a plurality of first grooves and is provided with a plurality of first locks The second avoidance device is provided with a plurality of second recesses and is provided with a plurality of second locking structures corresponding to the first locking structure, and the first avoiding device is relatively engaged with the second avoiding device And fixing the double-sided mounting circuit board to the first avoiding device and the second avoiding by the cooperation of the first groove and the second groove and the locking of the first locking structure and the second locking structure Between bit devices. The manufacturing method of the double-sided mounting soft-hardened circuit board comprises the steps of: providing a circuit board to be mounted on both sides, comprising a first mounting surface and a second mounting surface opposite to the first mounting surface Inserting the first component and the second component on the first mounting surface and the second mounting surface to form a double-sided mounting circuit board; placing the double-sided mounting circuit board in the first-avoidance I and Between the two evasions, the first escaping device and the second escaping device are relatively engaged, and the first locking structure of the first escaping device and the second escaping structure of the second escaping device The lock is fixed; the first avoidance device for the relative lock and lock is set. The 9th 1313816 second avoidance device is fixed to the molding machine'. The double-sided mounting circuit board is formed by the molding machine. The carrying device of the technical solution and the method for manufacturing the double-sided mounting circuit board by using the device have the following advantages: the carrying device utilizes the first avoiding device and the second avoiding device matched with the first avoiding device, so that The double-sided mounting circuit board can be flat and fixed, which can effectively improve the molding precision of the double-sided mounting circuit board and can effectively protect the mounting components mounted on the circuit board and prevent damage of the mounting components. [Embodiment] Hereinafter, a bearing device provided by the present technical solution and a method for manufacturing a double-sided mounting circuit board using the same will be further described in detail with reference to the accompanying drawings and embodiments. In the following, the carrier device provided by the present technical solution will be described by taking a soft-hardened circuit board blank board as a double-sided mounting soft and hard combined circuit board as an example. Of course, the carrying device provided by the technical solution and the manufacturing method of the double-sided mounting circuit board using the same are also applicable to the fabrication of other types of circuit boards such as a rigid circuit board and a flexible circuit board. Referring to FIG. 1 and FIG. 2 together, the present embodiment provides a soft-hardened circuit board 1 待 to be mounted on a conductive line, and includes a first mounting surface 1 〇 1 and a first mounting surface The second mounting surface is 1〇2. The hard and soft bonding circuit board ^0 includes two hard and soft bonding circuit board units n, and each of the soft and hard bonding circuit board units 11 can be formed into a single soft and hard bonding circuit board product. Of course, the hard and soft combination circuit board 1G may also include more than one hard and soft combination circuit board unit 1333816 11. The hard and soft circuit board 10 is further provided with fixing holes 103 for subsequent molding and fixing. In the embodiment, the four fixing holes 103 are formed at the four corners of the hard and soft bonding circuit board 10. Each of the soft and hard circuit board units 11 of the hard and soft circuit board 10 can respectively mount the first component 12 and the second component 13 opposite to the first mounting surface 101 and the second mounting surface 102 to make a soft and hard combination. The circuit board 10 becomes a double-sided mounting soft-hardened circuit board 10a. As shown in FIG. 2, each of the double-sided mounting soft and hard bonding circuit boards 10a includes two double-sided mounting soft and hard bonding circuit board units 11a, so that each of the hard and soft bonding circuit board units 11a can be formed into A single double-sided mounting of hard and soft board products. Of course, the number, shape and size of the first component 12 and the second component 13 may be the same or different. The number, shape and size of the first component 12 and the second component 13 to which each of the soft and hard circuit board units 11 are mounted may be the same or different. In order to facilitate mass production in actual production, in this embodiment, the number, shape and size of the first component 12 and the second component 13 which are attached to each of the soft and hard circuit board units 11 are the same. The number, shape and size of the first component 12 mounted on the first mounting surface 101 and the second component 13 mounted on the second mounting surface 102 are different. Please refer to FIG. 3 and FIG. 4 , which are the carrying device 20 provided in the embodiment, which is used for carrying the double-sided mounting soft and hard circuit board 10 a. The carrier device 20 includes a first avoidance device 21 and a second avoidance device 22 that cooperates with the first avoidance device 21. The shape of the first avoidance device 21 can be designed according to actual needs. In this embodiment, the first avoidance device 21 has a rectangular shape and has a first surface 211 and a second surface 212 opposite to the first surface 211. From the first surface 211 to the 11 1333816, the first plurality of recesses 213 are opened inside the first avoiding device 21 and a plurality of first locking structures 214 are provided. A plurality of positioning structures 215 are opened from the second surface 212 to the inside of the first escaping device 21. The plurality of first recesses 213 are for receiving the plurality of first elements 12 mounted on the first mounting surface 101 of the hard and soft circuit board 10. The number, opening position, shape and size of the first recesses 213 correspond to the plurality of first elements 12. In order to facilitate the pick-and-place of the first component 12, the first recess 213 may be slightly larger in size than the corresponding first component 12. In this embodiment, since the shape of the first component 12 is a rectangular parallelepiped shape, the first recess 213 is also a rectangular recess, and the first component 12 can be received in the first recess 213. The plurality of first locking structures 214 are configured to lock the second avoiding device 22 that cooperates with the first avoiding device 21 to the first avoiding device 21. The first locking structure 214 is not limited in its opening position, and can be opened at any position where the first surface 211 does not coincide with the first recess 213. In this embodiment, the first escaping device 21 and the second escaping device are locked together by the positioning pin type fixing member 23, and therefore, the first locking structure 214 is fixed to the soft and hard circuit board 10. The hole structure 103 and the fixing member 23 are matched to each other, and the first surface 211 and the second surface 212 may not penetrate the holes of the first surface 211 and the second surface 212, and preferably do not penetrate the first surface 211 and the second surface. Hole in surface 212. The plurality of first locking structures 214 can be circular holes, square holes, elliptical holes or other irregularly shaped holes. Preferably, in the embodiment, the first escaping device 21 defines four circular holes as the first locking structure 214, and the four first locking structures 214 are respectively opened on the rectangular first escaping device 21 At the four corners, and corresponding to the hard and hard circuit board 10 12 1333816. The fixing hole 103. Of course, depending on the manner in which the first avoidance device 21 and the second avoidance device 22 are locked together, the first locking structure 214 may have other structures. The plurality of positioning structures 215 are configured to fix the first escaping device 21 to the molding machine. Since the positioning structure 215 is generally matched with the positioning pin of the molding machine, the plurality of positioning structures 215 can be through the first surface 211 and the second. The surface 212 may also be a hole structure that does not penetrate the first surface 211 and the second surface 212. Preferably, the hole is not penetrated through the first surface 211 and the second surface 212. Thus, the formed positioning pin is not inserted into the positioning structure. The 215 protrudes from the first surface 211 to jack up the circuit board placed on the first surface 211. The position of the plurality of positioning structures 215 is not limited, and may be opened at any position where the second surface 212 does not communicate with the first recess 213 and the first locking structure 213. Preferably, in the present embodiment, the first escaping device 21 has four circular holes as positioning structures 215, and the plurality of positioning structures 215 are disposed at the center of the first escaping device 21 at a four-corner distribution. The second escaping device 22 is matched in shape and size to the first escaping device 21, and has a rectangular shape. The second escaping device 22 has a third surface 221 and a fourth surface 222 opposite to the third surface 221 . A plurality of second grooves 223 are opened from the third surface 221 to the inside of the second avoiding device 22, and a plurality of second locking structures 224 are provided. The plurality of second recesses 223 are for receiving the plurality of second elements 13 mounted on the second mounting surface 102 of the hard and soft circuit board 10. The number, opening position, shape and size of the second recesses 223 correspond to the plurality of second elements 13. In order to facilitate the pick-and-place of the second component 13, the size of the second recess 223 may be 13 1333816 which is slightly larger than the size of the corresponding second component 13. In this embodiment, since the shape of the second component 13 is a rectangular parallelepiped shape, the second recess 223 is also a rectangular parallelepiped groove, so that the second component 13 can be properly received in the second recess 223. The plurality of second locking structures 224 are configured to cooperate with the plurality of first locking structures 214 to cooperate with the first avoiding device 21 and the second avoiding device 22 to lock. The second second locking structure 224 is not limited in its opening position, and can be opened at any position where the third surface 221 does not coincide with the second recess 223. In this embodiment, the first locking device 21 and the second avoiding device are locked together by the fixing pin 23 of the positioning pin type. Therefore, the second locking structure 224 is fixed to the first locking structure 214 and fixed. The through hole structure of the piece 23 is matched to the third surface 221 and the fourth surface 222 hole. The plurality of second locking structures 224 can be circular holes, square holes, elliptical holes or other irregularly shaped holes. Of course, according to the manner in which the first avoiding device 21 and the second avoiding device 22 are locked together, the second locking structure 214 can also be other structures that cooperate with the first locking structure. The first avoiding device 21 and the second avoiding device 22 are interlocked with each other, and the double-sided mounting soft and hard circuit board 10a can be fixed between the first avoiding device 21 and the second avoiding device 22 Make molding. Specifically, the first surface 211 of the first avoidance device 21 and the third surface 221 of the second avoidance device 22 are relatively engaged, so that the first avoidance device 21 and the second avoidance device 22 pass the first locking device. The 214 and the second locking device 224 are interlocked with each other. The carrying device 20 provided by the technical solution carries the double-sided mounting soft and hard 1333816. The method for manufacturing the combined circuit board l〇a includes the following steps. In the first step, a hard and soft combined circuit board 10 is provided. A soft-hardened circuit board 10 is provided, which is a soft-hardened circuit board 10 to be double-sidedly mounted on a conductive line, and includes a first mounting surface 101 and a second mounting surface 102. . The hard and soft bonded circuit board 10 includes two hard and soft bonded circuit board units 11, and each of the hard and soft combined circuit board units 11 can be formed into a single hard and hard bonded circuit board product. In the second step, the first component 12 and the second component 13 are respectively attached to the first mounting surface 101 and the second mounting surface 102 to form a double-sided mounting circuit board 10a. In this embodiment, first, The first mounting surface 101 of the hard and soft combination circuit board 10 mounts the first component 12. Referring to FIG. 5, the first component 12 is mounted on the first mounting surface 101 of each of the flexible and hard-bonding circuit board units 11 of the hard and soft circuit board 10. The mounting process can be automatically performed on the surface mounter. Next, the soft and hard circuit board 10 to which the first component 12 is attached is placed on the first avoidance device 21, and then the second component 13 is placed on the second mounting surface 102 of the hard and soft circuit board 10. Thereby, the double-sided mounting soft and hard bonding circuit board 10a is formed. Referring to FIG. 4 and FIG. 6, the soft and hard bonding circuit board 10 on which the first component 12 is attached is placed on the first avoidance device 21 such that the first component 12 is correspondingly located in the first recess 213. At this time, the first escaping device 21 serves as a carrying device, and carries the step of mounting the second component 13 on the second mounting surface 102 by carrying the soft-hardened circuit board 10 on which the first component 12 is mounted. 1333816 Cheng can be automatically completed on the surface mounter. Upon completion of the mounting, a double-sided mounting soft and hard bonded circuit board 10a is formed which includes two double-sided mounting soft and hard bonded circuit board units 11a. In the third step, the double-sided mounting circuit board 10a is placed between the first avoidance device 21 and the second avoidance device 22. In this embodiment, referring to FIG. 4 and FIG. 7 , the third surface 221 of the second avoidance device 22 is opposite to the first surface 211 of the first avoidance device 21 , and the second avoidance device 22 is placed on The double-sided mounting soft and hard circuit board 10a is such that the second component 13 of the double-sided mounting soft and hard bonding board 10a is located in the second recess. The first locking structure 214, the fixing hole 103 and the second locking structure 224 are inserted and fixed by the fixing member 23, and the second fastening device 22 that is relatively engaged is fixedly coupled with the first avoiding device 21. At this time, the double-sided mounting soft-hard bonding board 10a is fixed between the first avoiding device 21 and the second avoiding device 22. In the fourth step, the double-sided mounting soft and hard circuit board unit $11a is formed into a single double-sided mounting soft and hard circuit board product by using the molding machine 30. Referring to FIG. 8 , the first avoidance device 21 and the second avoidance device 22 that are locked together are placed on the machine table 31 of the molding machine 30 , and are fixed to the first avoidance device 21 and the second avoidance device 22 . The double-sided mounting soft and hard bonding circuit board unit 11a is subjected to molding processing. First, the positioning pin 301 of the machine table 31 is inserted into the positioning structure 215 of the first escaping device 21, so that the first escaping device 21 and the second escaping device 22 that are engaged with the locking are fixed to the machine table 31. Next, the milling cutter 302 of the molding machine 30 is used for milling along the edge of each of the double-sided mounting soft and hard circuit board units 11a. During the milling molding process, the milling cutter 302 16 1333816 is directly milled first. The avoidance device 21. The double-sided mounting soft and hard circuit board 10a and the second avoidance device 22 form a single double-sided mounting soft and hard circuit board product. After the milling is completed, remove the double-sided mounting soft and hard board product. The first component 12 and the second component 13 are protected by the first avoidance device 21 and the second avoidance device 22, and the components of the milling cutter 302 and other molding machines 30 do not contact the first component 12 and the second component 13, The forming precision of the double-sided mounting circuit board can be effectively improved, and the first component 12 and the second component 13 can be effectively protected to prevent damage of the first component 12 and the second component 13. In summary, the present invention has indeed met the requirements of the invention patent, and has filed a patent application according to law. However, the above description is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application of the present invention. Equivalent modifications or variations made by persons skilled in the art in light of the present invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a top plan view of a soft-hardened circuit board provided by an embodiment of the present technical solution. 2 is a side view of the double-sided mounting component of the soft-hardened circuit board of FIG. 1 in the embodiment of the present technical solution. Figure 3 is a perspective view of a carrier device provided by an embodiment of the present technical solution. Figure 4 is a cross-sectional view of the carrier device of Figure 3 in accordance with an embodiment of the present technology. FIG. 5 is a schematic view showing the first component mounted on the first mounting surface of the soft-hardened circuit board of FIG. 1 according to the embodiment of the present invention. 17 1333816 FIG. 6 is an embodiment of the present technical solution. The soft and hard bonded circuit board of FIG. 1 is placed on the first mounting surface and placed on the first escaping device to mount the second component on the second mounting surface. Schematic diagram. FIG. 7 is a schematic diagram of a double-sided mounting circuit board provided by an embodiment of the present technical solution between a first avoidance device and a second avoidance device. Fig. 8 is a schematic view showing a molding machine double-sided mounting circuit board provided by an embodiment of the present invention. • [Main component symbol description] Soft and hard board 10 Double-sided mounting soft and hard board l〇a Soft and hard board unit 11 Double-sided mounting soft and hard board unit 11a First mounting surface 101 Two mounting surface 102 first element 12 second element 13 fixing hole 103 carrying device 20 first avoiding device 21 second avoiding device 22 fixing member 23 first surface 211 second surface 212 18 1333816 first groove 213 A locking structure 214 positioning structure 215 third surface 221 fourth surface 222 second groove 223 second locking structure 224 molding machine 30 machine 31 positioning pin 301 milling cutter 302 19

Claims (1)

XJ338l6 X. Patent application scope: I A carrying device 'for carrying a double-sided mounting circuit board, the carrying device comprises a first avoiding device and a second avoiding device, the first avoiding device is provided with a plurality of first recesses The slot is provided with a plurality of first locking structures. The second avoiding device is provided with a plurality of second recesses and is provided with a plurality of first locking structures corresponding to the first locking structure, the first avoiding device and The second escaping device is relatively fastened, and is matched by the cooperation of the first groove and the second groove and the first locking structure and the second locking structure for fixing the double-sided mounting circuit board to the _ Between the first avoidance device and the second avoidance device. 2. The carrier device of claim 2, wherein the double-sided sticker circuit board comprises a first mounting surface and a second surface opposite the first mounting surface. Corresponding to the first component mounted on the first mounting surface for receiving the first component, the second recess corresponding to the second component mounted on the second mounting surface for receiving the second component . 3. The carrier device described in item 4 of the patent of In 4, the towel, The first device includes a first surface and a first surface of the disk and a second surface opposite to the surface of the disk. The second groove is opened from the first surface to the inside of the first avoidance device, and the first and the second machine are ― The fourth surface opposite to the surface, the plurality of first grooves are opened from the third surface to the inside of the first-shoulder D-avoidance device, and the first surface and the second surface are relatively engaged. b Application material (4) The third rhyme of the lock structure is from the first 矣 1 /, A, the complex surface is configured to the inside of the first escaping device, and the second locking structure is through the third ^ ^ surface and The through-hole of the four surfaces is said to have a plurality of fixing members, and the first one is used to cooperate with the first 20 13.33816 locking structure and the second locking structure for the first fastening of the relative fastening. The bit device and the second avoidance device are interlocked with each other. 5. The carrier device of claim 4, wherein the first locking structure is a through hole structure penetrating the first surface and the second surface. 6. The load-bearing device of claim 5, wherein the first-level avoidance device is provided with a plurality of positioning structures for the machine of the first carrier device. , wind 7 · as claimed in the scope of claim 6 (4), the complex positioning structure is a hole structure formed from the inside of the first surface avoidance device of the second surface phase, and is used on the machine table of the molding machine The locating pins cooperate to set the first load to the machine of the molding machine. A method for manufacturing a double-sided mounting circuit board, comprising the steps of: providing a circuit board to be mounted on both sides, comprising a first surface of the sticker and a second mounting surface of the first mounting surface; Mounting the second component on the first and second mounting surfaces to form a double-sided mounting circuit board. The double-sided mounting circuit board is placed on the first-avoidance device and the second avoidance device. Between the devices, the first avoiding device and the second avoiding device are relatively fastened, and the first locking structure of the first avoiding device is locked with the second locking of the second avoiding device. The first-avoiding device and the second-avoiding device that are relatively locked and locked are set in the molding machine, and the double-sided mounting circuit board is molded by the molding machine. The method of manufacturing the square piece and the flute of the double-sided mounting circuit board according to item 8 of the patent scope of the patent--the second mounting surface of the first mounting surface and the second mounting surface respectively form a double-sided The step of mounting the circuit board includes: mounting the first component on the x-mount; placing the circuit board 21 1333816 on which the first component is mounted on the first avoidance device such that the first component is located in the first avoidance device A second component is placed on the second mounting surface in the first recess. 10. The method of manufacturing a double-sided mounting circuit board according to claim 9, wherein the molding machine is formed by a milling cutter. twenty two