TW201143955A - High-speed hot press machine and method thereof - Google Patents

Abstract

The purpose of the present invention is to provide a high-speed hot press machine and method thereof, which can match a movable pulse hot press module, improve manufacturing process and increase productivity per unit of time. The technical means includes a machine platform, a conveyor belt mechanism, a hot press module, a dolly mechanism and an operation system. It is characterized in that the hot press module is constituted by the superposition of, from the bottom to the top, a pulsed hot press electrode, a cooling module, a horizontal adjustment module, an actuator module and a transformer module. The dolly mechanism is constituted by: two relative parallel vertical bearing rails, respectively disposed at two sides of the top of the machine; a number of horizontal shifting rails, corresponding to each hot press module, disposed between said vertical bearing rails; a number of horizontal shifting devices, disposed between the connection point of each horizontal shifting rail and each vertical bearing rail; a number of vertical shifting devices, disposed between the connection point of each hot press module and each horizontal shifting rail, wherein each hot press module is hung under the horizontal shifting rail.

Description

201143955, the invention relates to: [Technical field of the invention] The present invention relates to a high-speed hot press and its application [previous technology], ~ ' ° the new era of the news is coming, the information age is leading us to the technology fashion, with The ever-changing communication products, driving, and making personal computers 'personal communication systems, number

Sales worldwide have increased year after year. Electric eel, several products to find mouth and mouth = plus on the weight = board to integrate different electronic parts, the electronic production of the production of the year =: two carry! Electronics production: , and mobile communication products, recent & : ' Dan, Xi Gong, the trend toward reliability and low prices

The circuit design of the electronic products must also be integrated into the integration. X text to the impact of ultra-thin electronic products 'touching the electronic exhibition' more and more electronic products connected, need to use multi-pin, because ^ ^ use space, subject to great restrictions, where LCD monitor, pen = \t machine, etc.' must be in a limited space, let the connection between the boards = a very important role. Also, the soft circuit board becomes hot = the machine is widely used in industrial flexible circuit boards (fine p wall d

Ircuit, FPC) > f ^fe(Printed Circuit Board,PCB)ft - H Lai Cai's electricity is unique, the machine is divided into = = which is also a hot press, which is highly valued, its cooling is fast, temperature control Accurate, can weld more points on the f stack by the side; there is a pressure effect after the material is connected, so it can ensure that the balance of each solder joint 201143955 'will not appear uneven, and achieve high yield of the product. For the hot press, the precise and rapid heating temperature, the production temperature in one second, the heat time in the (four) and the like, the control function of the rapid rise and fall production, the production is more straight and the dish is Therefore, the W aspect can be multi-stage temperature setting function, 3 can be = welding _ paste like returning to the job fine; and the temperature can be controlled (4) ”, the basic and the transfer problem can ensure the product quality; in addition, the ίί中降降When the temperature rises, the pulse heating system can accurately grasp the productivity efficiency between 无% without temperature, etc. And the pulse type hot press can be used for the temperature curve of the error-free soldering, which is different for the diversified products. The coronation makes the surrounding '!m: degree requirement, while the partial and short time %2, ΐ to the heat effect' can quickly heat up and keep = 疋 ^ 皿 ^, to ensure the product yield, not warm The manufacturing time is shortened. The left total ~ a table production mouth [invention content] First, the problem to be solved: The aforementioned traditional pulse hot press, there are the following problems. r fine pulse type machine hot pressing die Group, because the overall material is bad, 杈, and The low degree makes the whole hot-pressing module too large, cumbersome and difficult to transfer, so if the pre-production of the complex will also increase the traditional pulse program: =5 and because of a traditional pulse Type hot press, only == non-movable fiber group' so the production line will be stretched, reduced to fin, how to make the hot thermostat of the pulse hot press shrink, the module heat can be heated-returning, It is one of the purposes of the present invention to reduce the cost and shorten the production line and the production capacity. 2. The adjustment and use of the traditional pulsed heat display When the line needs to be replaced, it takes a lot of time, so that the increase of 201143955 is even more procrastinating to the production time, and it is easy to miss the opportunity. In view of this, how to make the pulse hot press easy to adjust and use, to short-term production line women and coffee and bribes, to fight for, this is the second purpose of this improved. 3. Although the traditional pulse type hot press is used, the overall production process is much larger than the smoothness of production, and it is necessary to invest a lot of cost and manpower, and the heat per unit is too long, resulting in a long __ The increase in production capacity does not affect the product's product f and price, which is not conducive to the improvement of product competitiveness. In view of this, how to make the production process streamlined and smoother, reduce costs and manpower, reduce the heat press time per unit, and enhance product competitiveness, has become the third purpose of improvement. 2. Technical means of the present invention: The object of the present invention is to provide a high-speed button machine and a method for applying the same, which can be combined with a movable pulse heat-pressing module, which can improve the process and improve the production capacity per unit time. In order to solve the foregoing problems and achieve the object of the present invention, the technical means of the present invention relates to the technical means of the implement, and is a high-speed hot press, comprising: /, a machine (1); a conveyor belt mechanism (2) on the inner bottom side of the table (1); at least one disposed in the machine table (1) at the top side of the conveyor belt mechanism (2), a modular hot-pressing module (3) ); one is disposed at the top side end of the hot pressing module (3), is connected with each hot pressing module (3), and can drive the hot pressing module (3) to perform the simultaneous or separate form of χ, γ axial (χ, Υ) displacement or rotation of the moving mechanism (4); and a set in the machine (1) 'can control the conveyor belt mechanism (2), the hot pressing module (3) and the moving mechanism (4) operation Operating system (5); 201143955 is characterized in that: a pulse type hot pressing module (3) is a hot pressing electrode (31) which is arranged in a stack from bottom to top; one is arranged on the hot pressing electrode ( 31) an external heat dissipation module (32); a horizontal adjustment module (33) at the top of the shai heat dissipation module (32); - a top end of the horizontal adjustment module (10) capable of driving the hot pressing electrode (31), heat dissipation module (32) and a horizontal adjustment module (33) for performing a z-axis (an actuation module (34) for imaginary displacement; and a top end of the actuation module (34), and the hot-pressed electrode ( 31) The electric transformer module (35) is composed of; the moving mechanism (4) is composed of two longitudinal bearing rails (41) which are oppositely arranged on the top side of the machine table (1); at least one corresponding to each hot pressing The module (3) is disposed between the longitudinal bearing rails (41) and is capable of being displaced between the longitudinal bearing (41) and traversing the movable rail (42) connected to the hot pressing module (3); The traverse device (43) capable of driving the traverse (42) and the Y-axis (γ) movement is disposed at each of the angular orbits (42) and the longitudinal bearing (41); and Several are placed at the junction of each hot pressing module (3) and the horizontal moving road (42), and each hot pressing module (3) is suspended below the transverse moving road (41), and can drive the heat The pressure module (3) is composed of a longitudinal displacement device (44) for performing X-axis (X) movement and/or z-axis (Z) rotation. According to the high-speed hot press described above, the conveyor belt mechanism (2) ) is made by two opposite sides of the top surface of the bottom side of the machine (1) a support frame (21) having a C-shaped surface and opposite end sides; two outer cover plates (22) respectively disposed on the open end side of the support frame (21) and closed; one set on the two support frames (21) at the side of the 'driver (50) can be moved to the 201143955 positioning of the front conveyor belt (23); one is placed between the two support frame (21) on the other side, and the front conveyor belt ( 23) connected, which can drive the tray (50) input by the front conveyor belt (23), and the displacement to the positioned rear conveyor belt (24); one is disposed at one side between the two support frames (21), and Connecting to the front conveyor belt (23) a front side motor (25) capable of driving the front conveyor belt (23); and a front side between the two support frames (21), and the rear conveyor belt (24) Connect the rear side motor (26) that can drive the rear conveyor belt (24). According to the high-speed hot press described above, the heat dissipation module (32) can be connected to a high-pressure gas source (500) outside the heat-pressing module (3); and the heat-dissipating module (32) is a first heat dissipating block (321); a second heat dissipating block (322) disposed at a rear end of the first heat dissipating block (321) at a pitch; one disposed on the first heat dissipating block (321) At the bottom side of the second heat dissipating block (322), a king gate shape is provided, and a positioning component (324) for holding the fixed pulse type hot pressing electrode (31); and a first heat dissipating block (321) and The top side of the second heat dissipating block (322) can be connected to both and connected to the level adjusting module (33) for modular mounting of the positioning plate (325); the first heat dissipating block (321) And the X-axis (X) in the second heat-dissipating block (322) are respectively provided with a plurality of longitudinal holes (326) arranged in parallel and stacked; and the first heat-dissipating block (321) and the second heat-dissipating block The Y-axis (Y)' in (322) is respectively provided with a plurality of front and rear holes (327) arranged in parallel and interlaced with the longitudinal holes (326); and the first heat-dissipating block (321) and the second Inside the heat sink block (322) The Z-axis (Z)' is respectively provided with a plurality of vertical through holes (328) arranged in parallel, at the intersection of the longitudinal holes (326) and the front and rear holes (327); by the longitudinal holes (326), before and after The three-dimensional structure of the tunnel (327) and the vertical through-hole (328) 201143955 allows the first heat-dissipating block (321) and the second heat-dissipating block (322) to exhibit a porous hollow shape. The hot pressing module (3) volume, the heat-reducing module (3) heat-dissipating efficiency, and the modular setting of the hot-pressing module (3). According to the high-speed hot press described above, the horizontal adjustment module (33) is composed of a base (331) having a first positioning groove (331A) disposed on the top surface of the base in the Y-axis (Y), and a slot (331B) distributed around the periphery of the base, the slot (331B) of the slot is provided with a bolt hole (331C), and a small fish eye hole (331D) is disposed adjacent to the slot; a top cover (332), Having a second positioning groove (332A) disposed on the bottom surface of the top cover and corresponding to the first positioning groove in the X-axis (X), and a plurality of second positioning grooves (332A) disposed on the periphery of the top cover and corresponding to the base cutting groove (331B) The slot (332B), the slot of the top cover slot (332B) is provided with a bolt hole (332C), and is disposed vertically symmetrically with the base fisheye hole (331D) at a slot adjacent to the slot (332B). Small fish eye hole (332D); an angle adjusting unit (333) is horizontally disposed by a horizontal plate (333A) disposed between the base (331) and the top cover (332), and an X-axis (X) The upper crossbar (333D) of the plate and the top cover is combined with a lower crossbar (333E) which is sandwiched by the horizontal plate and the base in the Y-axis (Y), so that the base (331) and the top cover (332) Keep a space between (d) The upper horizontal plate (333A) has a fourth positioning groove (333C) symmetrically disposed with the second positioning groove (332A), and the horizontal plate (333A) has a first positioning groove (331A). The third positioning groove (333B) symmetrically arranged in the upper and lower directions is used for the above-mentioned upper and lower two horizontal bars (333, 8331) to be respectively introduced and positioned; the two-pitch adjusting unit (334, 334,) is interposed (331) Between the periphery and the periphery of the top cover (332)' and each of the spacing adjustment units (334, 334'), having two respectively spanning the base slot (331B) and the top cover slot (332B), and being vertically symmetrical a further connection block (334A, 334B), and a screw (334F, 334G) threaded through the two connection blocks (334A, 334B); and a plurality of elastic expansion elements (335), each elastic expansion element ( 314) Both ends 201143955 are respectively inserted into the stopper bolts (335A, 335B) to be introduced into the base bolt hole (331C) and the top cover bolt hole (332E), so that the elastic expansion element (335) is opposite to the base (331) and the top cover (332) generating a contraction pull; by adjusting the two-pitch adjustment unit (334, 334') separately, let the angle adjust Means (333) can pivot as' changes the base (331) before and after about an angle, and be positioned. According to the high-speed hot press described above, the horizontal adjustment module (33) is composed of a base (331) having a first positioning groove (331A) disposed on the top surface of the base in a γ-axis (γ), and a number a slot (331B) distributed in the corner of the base, the slot (331B) is provided with a bolt hole (331C), and a screw hole (331G, 331H) is arranged around the base (331); (332) having a second positioning groove (332A) disposed on the bottom surface of the top cover and corresponding to the first positioning groove in the X-axis (X), and a plurality of positioning grooves (332A) distributed in the top cover angle and being cut with the base ( 331B) correspondingly arranged slot (332B), the top cover slot (332B) slot wall is provided with a bolt hole (332C); an angle adjusting unit (333) is provided by a base (331) and a top cover ( 332) between the horizontal plate (333A), an X-axis (X) is clamped by the horizontal plate and the top cover (333D), a Y-axis (γ) is sandwiched by the horizontal plate and the base The lower horizontal rod (333E) is formed such that a distance (d) is left between the base (331) and the top cover (332), and the horizontal plate (333A) has a top and a second positioning groove (332A) thereon. Symmetrical setting of the fourth a horizontal groove (333C), and a horizontal positioning plate (333A) has a third positioning groove (333B) disposed symmetrically with respect to the first positioning groove (331A), thereby providing the upper and lower cross bars (33, 333])) respectively introduced positioning; two stop screws (334F, 334G), screw through the screw holes (331G, 331H) of the base (331) and then 'receive the bottom surface of the top cover (332); and several elastic Telescopic element (335) 'The ends of each elastic expansion element (335) are respectively inserted into the stoppers (335A, 335B) to be respectively embedded in the bolt holes of the base slot (331B) and the top cover slot (332B) (331C, 332E), the elastic expansion 201143955 is #335), the base (the top cover (332) is used to produce the splicing guide; the angle adjustment is adjusted by adjusting the two stop screws (334F, 334G) respectively. The unit (333) serves as a pivot to change the front and rear angles and the position of the base (331). ^. According to the high-speed hot press described above, the actuation module (34) is formed by a horizontal and a five-week die. a set of (33) top-mounted grain push plates (341); to J a guide rod (341A) disposed on a side of the top end face of the positioning push plate (341); and disposed at the top end of the positioning push plate (341) The cover is placed outside the guide rod (341A) and connected to the AC pressure module (35) for guiding and positioning the U-shaped positioning block (342) for the guide rod (341A); The U-shaped positioning block (342) can drive the positioning push plate (341) in the z-axis (z), the reciprocating displacement of the pneumatic actuator (343); one of the positioning push plates (341) and u The positioning block (342) can be configured to prevent the positioning push plate (3 41) from striking the u-shaped positioning block (342) and the limiting block (344). According to the above-mentioned high-speed hot press, the actuating module (34) further has two bottom=ends respectively screwed on one side of the u-shaped positioning block (342), and the top side end and the variable pressure mode The bottom end of the group (35) is connected to the fixed arm (345) for connecting the actuation module (34) and the transformer module (35), and the outer side of each of the fixed arms (345) is provided with a A sub-fixing arm (345A) that is vertically screwed to the center of the fixed arm (345) and that allows the fixed arm (345) to have a T-shape. According to the high speed hot press described above, the transformer module (35) is a bottom connecting plate (351) which is screwed to the top end of the actuating module (34); and is connected to the bottom end of the vertical shifting device (44). a top connecting plate (352); a plurality of support rods (353) disposed between the bottom connecting plate (351) and the top connecting plate (352); a screwing fixed to the bottom connecting plate (351), the top connecting plate Between the (352) and the support rod (353), the thermocompression electrode (31) and the operating system (5) are electrically connected to each other, and can provide 10 201143955 hot-pressed electrode (31) operating power supply to control the operation of the transformer (354) And a plurality of screws are disposed outside the bottom connecting plate (351) and the top connecting plate (352), and can be used for protection: the module side plate (355) for the presser (354). According to the above-described high-speed hot press, the longitudinal bearing rail (41) and the traverse rail (42)' are one of the following: a crucible rigid obstruction, a c-shaped rigid obedience, an l-shaped rigid rail, and a V-shaped rigidity. The obedience and the τ-shaped rigid trajectory; and the two opposite ends of the two longitudinal bearing rails (41) are respectively provided with a longitudinal positioning rod (45) capable of connecting the two longitudinal supports (41), and longitudinally bearing the rail ( In both ends of the 41), there are respectively provided a limiting protrusion (46) which can avoid the traverse rail (42) from being separated from the longitudinal bearing rail (41). According to the high speed hot press described above, the traverse device (43) is a support plate (431) connected to the traverse track (42); ', ' a set of 肷δ and 泫 泫 板 431 The top side is capable of abutting the top horizontal wall top side of the longitudinal rail (41) and is capable of driving the traverse rail (42), the longitudinal support (41) as the track, and the Υ axial direction ( γ) traverse drive wheel set (432) for upper displacement; 'at least one of the support plates (431) is disposed on a side surface, is disposed in parallel with the traverse drive wheel set (432), and is capable of abutting the longitudinal direction The bottom side of the lower horizontal wall 9 of the bearing rail (41) to cooperate with the detecting drive wheel set W32), and the traverse device (43) to clamp the vertical supporting wheel (433) positioned on the longitudinal bearing rail (41); At least one top support block (436) disposed at a junction of the support plate (431) and the traverse track (42); and at least one of the joints between the support plate (431) and the traverse track (42) The bottom support block (437) is composed of. According to the high-speed hot press described above, the support plate (4) 1) of the traverse device (43) adjacent to the operating system (5) is further provided with at least a vertical arrangement with the miscible drive wheel set (432) and can A transverse single guide wheel (434) that abuts the longitudinal rail (4)) corresponding to the inner side of the vertical wall. 201143955 According to the high-speed hot press described above, the support plate (431) of the traverse device (43) remote from the operating system (5) is further provided with at least one perpendicular to the traverse drive wheel set (432). The lateral double guide wheel (435) is arranged to be able to abut the inner side of the vertical wall of the longitudinal bearing rail (41). According to the high-speed hot press described above, the vertical shifting device (44) is a horizontal connecting plate (441) disposed on the top surface of the transformer module (35) and connected thereto; the two are respectively vertically disposed on the horizontal connecting plate (441), the vertical side plates (442) at opposite sides;

The two groups are respectively embedded in the top end side of the corresponding horizontal connecting plate (441) to be able to abut the upper horizontal bottom side of the transverse moving path (42), and can be used to drive the vertical displacement device (44) to The traverse lane (42) is a rail, a longitudinally-shifting drive wheel set (443) displaced in the X-axis (X); one is disposed on the bottom side of the horizontal connecting plate (441), and the longitudinally-moving drive wheel set ( 443) a longitudinal double guide wheel (444) disposed vertically and capable of abutting the inner side of the vertical wall of the longitudinal bearing rail (41); ^ two sets are disposed between the vertical side plates (442) and the two vertical side plates (442) connected, capable of abutting the top horizontal side of the horizontal thief (42) and matching the longitudinal movement

a drive wheel set (443), a longitudinal shifting device (44) for holding a support wheel set (445) positioned on the traverse track (42); and a sleeve connection in sequence to position the longitudinal shifting device (44) a connecting shaft (4) for connecting the transformer module (35) at the top of the transformer module (35), a positioning bearing (10) for connecting the horizontal connecting plate (441) to the positioning ring _set (4), and - Can be used for positioning bearings with a positioning cap (446). According to the high-speed machine of the Shanglai high-speed machine, the bottom side end surface of the slab (431) of the slanting (4) and the slanting (4) of the system (4) is further provided with a longitudinal plate (47); and a central plate (47) is provided for Positioning the positioning device 12 201143955 for the traverse traverse (42) and the horizontal connecting plate (441) of the vertical shifting device (44), adjacent to the two vertical side plates (442), respectively, respectively, a positioning hot pressing module is provided (3) Positioning pin (48) for rotating the angle. According to the above-mentioned high-speed hot press, the hot-pressing module further comprises a parallel χ axial direction (X), a cushioning material mold having a cushioning material strip (4 〇) disposed outside the actuating module (34). In the group (36), the buffer material module (36) enables the buffer material strip (4〇) to be overheated to the pressure electrode (31) in the X-axis (X); and the buffer material module (36) is a hollow seat body (361) coupled to the actuation module (34) and the transformer module (35);

a motor device (362) disposed at a top end of the hollow seat body (361), between the motor device (362) and the seat side plate (361Β), and disposed coaxially with the motor device (362Α); one disposed in the hollow seat a transmission device (363) at the rear end of the body (361) and driven by the motor device (362); a feeding device (364) provided at the front end of the hollow seat body (361) and providing a buffer material band (4〇), weaving The belt (10) _ end will be clamped (10)) to drive the feeding device (364) to operate; at least two belt brake members 065) respectively coupled to the foot plates (361C, 361D), the (four) part (365) The cushioning material strip (40) is pressed when the upper group (3) is actuated to prevent the cushioning material strip (4〇) from loosening; and at least two of the soils are respectively coupled with the long rod (_,) to make the cushioning material (10) Combined with the above-mentioned hot surface group (3) and the distance-preserving material belt (10), the hollow seat body (361) is at the front and rear ends of the side plate (361Α, 继) and each of the hanging feet (361C) 361D), and the two legs (361C, 3_ are respectively pivotally connected with a long rod (361F, 361G) with an adjustment function. According to the high-speed money machine, the training set (10) ), the drive shaft (10) A) of the seat side plate (361B), the transmission (363B) driven by the drive shaft and driven by the turntable (lion) of the motor mount (362), the shaft is set on the transmission 13 201143955 shaft shaft a first rotating wheel (363C) at the end, a strut (363H) coupled to the seat side plate (361B) and spaced apart from the transmission shaft, and a first pressing member (3631) perpendicularly extending the strut' The pressure is placed at the end of the first press-fit member and can be pressed against the first wheel: (363J). According to the high speed hot press described above, the feeding device (364) has a fixed rotating shaft (364A) disposed on the seat side plate (361B), and a locking rotating shaft (364C) disposed on the opposite side plate (361A) of the seat body, a feeder (364G) sandwiched between the fixed rotating shaft (364A) and the locking shaft (364C) to provide a cushioning material belt (364), and a coupling to the seat side plate (361B) and a fixed rotating shaft ( 364A) Deceleration and stop shaft brake (364H); φ Female τ brake (365) has a horizontal axis (365A) with one end connected to the plate surface of the leg plate (36ic, 361D), and one set connected to the horizontal axis. The second revolver (365B) of the end, the arm that is connected to the horizontal axis (365〇; one end of the aforementioned arm (365C) is clamped to the moon ί, the k-axis (365A) and the other arm end is opposite to the second revolver ( 365B) Parallel, and a small pressing piece (365D) is vertically inserted at the arm end of the έ海; and each material ▼ guiding piece (366) has a horizontal axis with one end connected to the surface of the foot plate and the 361G) (366Α) ), - a third runner (366 Β) that is attached to the other end of the horizontal axis. According to the high-speed hot press described above, the side plate of the hollow seat body (361) is provided with a (361Α, 361Β) plate surface, a window (361Η) capable of revealing the internal structure, and a plurality of the wire feeding device (10) and the feeding material are provided. The shaft of the device (364) lies on the smooth bearing shaft (3611), and on the inner surface of each side plate (361Α, 361Β), there is further provided a connecting block (361J) capable of connecting the actuating module (34), so that The actuation module (34) can be coupled to the transformer module (35) through the connection block (361J). In order to solve the foregoing problems and achieve the object of the present invention, the technical means of the present invention, in terms of method, is a process application method of a high-speed hot press, which comprises: preparing steps: providing-feeding device (touch, capable of sequentially inputting a processing component (10) consisting of a circuit board (2 〇), and 14 201143955 at least: a flexible circuit board (10); providing a aligning device (9) 设) provided at the discharge end of the feeding device (j〇〇), The portion of the flexible circuit board (3G) that is intended to be combined with the circuit board (20) can be placed at a corresponding predetermined position on the circuit board (10) and placed on the tray (50).

Providing at least one of the at least one press (10) G) disposed at the discharge end of the aligning device (2〇〇) as described in the request item, capable of combining the aforementioned flexible circuit board (10) with the portion to be fed to the circuit board (20) , combined with the circuit board (2 〇) for hot pressing; and & provided - at the discharge end of the last-stage high-speed hot press (10), the discharge device capable of outputting the processed component (10) (働Process steps: Step 1: Start the high-speed hot press (300); Step 2: Start the adjustment process and adjust the clock f (8) of each rolling module (3) in the high-speed hot press (300). The electrode (3)) direction and the hot soil electrode (31) are horizontal, so that the hot pressing electrodes (31) of the hot pressing modules (3) can be respectively aligned with the corresponding flexible circuit board (10), predetermined and the circuit board (10) Combining the second step. Start the preparatory process, start the feeding device (1〇〇), the alignment device (200), and the discharging device (4〇〇); Step 4: Start the feeding alignment process, By means of the feeding device (10), the parts of the combination of the X-Saki (10) 'money-to-recording (10)) and the practicable circuit board (30) pre-distance Wei-Board (10) are sequentially input, Place it on the corresponding pre-turn position on the circuit board (10) and place it on the corresponding tray (5〇); Step 5·· Start the hot pressing process, complete the alignment processing component (10), and the tray (50)- From the alignment device (10), the conveyor belt mechanism (2) that passes through the high-speed hot press (10) does not enter the high-speed button (10), and in the high-speed hot press (paste), begins to sequence to each heat-difficult group (3) Below, the rotation molds are started to operate in sequence. Finally, all the hot pressing modules (3) are started to be parallel processed, 15 201143955 so that each of the flexible circuit boards (10) can be corresponding to the predetermined position on the circuit board (10). , to produce a stable combination of hot pressing; 6, the sixth step: start the discharge process, complete the processing component of the hot pressing process (1〇), and the tray (50) - the conveyor belt of the high-speed hot press (3〇〇) The mechanism (2), the output to the discharge device is transferred to the job placement through the discharge device (10)). According to the above-mentioned process application method of the high-speed hot press, the alignment device (200) is one of the following: ~ automatic alignment machine (2_) 'can pass the automatic machine county, the aforementioned flexible circuit board (10) The portion combined with the circuit board (10) is placed at a corresponding predetermined position on the (20); the manual alignment station (2_) 'can manually and manually combine the aforementioned soft electric circuit board (10) with the circuit board (10) The portion is placed at a corresponding predetermined position on the circuit board (20); and the third step of the processing step can further include - depending on the processing requirements of the processing button 1), whether to select the high pressure The machine (period) of the stamping die (3) on the 'additional buffer material module (10), or without the buffer material module (36), to convert the process, let the module (3) to test the processing component (10) steps. Second, according to the efficacy of the previous technology: 丄·Lin Ming's focus 'for the hot-pressing module designed by the modular model, the large-scale improvement, the thermo-compression module is miniaturized, lighter, and the function is not only And slightly improved 'so can cooperate with the mobile mechanism, practice the pulse; the seesaw, and the mobility is different from the traditional pulse hot press, and because there are one or several hot pressing modules on the two, and It is possible to make each group, the pressure electrode portion 'corresponding to, and correspondingly, the soft portion to face the portion that is intended to be combined with the circuit board, so that the present invention can replace multiple conventional pulse types. The hot press machine can be used to include the traditional pulse type hot county, most of the heat i' and because of the number of flexible circuit boards and circuit boards (four), it is timed by a large number of 16 201143955 The error is reduced to the lowest, so iΓ's _ 'test each unit of hot pressing _, improve the unit production process, in order to win business opportunities, and can reduce the overall cost, manpower and non-performing rate, production and competitiveness. The present invention, the heat-dissipating module made of a porous hollow-shaped design, allows the invention to be used for the second generation, but also for the heat dissipation, and the three-dimensional, front and rear tunnels, and the vertical through-holes of the present invention. The chemical frame can be formed, and the private county and the heat sink block are all presented with a porous hollow shape.

: u Strictly remove the rapid temperature, the process time of the called dragging the body, ° effective reduction of the clothing, reduce costs, improve the efficiency of production; at the second ' 'more can be the air block It is built between the first and second heat-dissipating blocks, and is directly cooled by the ιίdi-, two heat-dissipating blocks and the ship's electrodes. When the air is not blown, the straw is heated by the first and second heat-dissipating blocks. Excess heat source, sucking up 2 waiting for blowing, 'continuously passing the excess _, through the principle of fluid heat exchange, rapid heat dissipation, can quickly absorb the residual heat of the hot pressing electrode, protect the safety of the equipment; Another aspect, because the hot pressing electrode cools down The speed is greatly improved 曰a, so the process time is reduced, the productivity is increased, and although the volume is reduced, the size of the mountable hot-pressing electrode is constant, and the standard of the group design can be achieved. The first aspect of the horizontal adjustment module is formed by modularizing the base, the top cover, the angle adjusting unit, the pitch adjusting unit, and the elastic stretching element, thereby reducing the volume of the device and Increase or decrease according to demand The components are both economical and economical; a. By combining the above-mentioned angle adjusting unit and the horizontal plate, respectively, with the upper and lower crossbars, the tilting direction of the hot pressing electrode can be clearly divided into x-axis and γ. The axial direction is used for the operator to adjust the detail in stages, and the above-mentioned pressure electrode can be aligned in the horizontal or inclined posture to align the object to be welded; and the two-pitch adjustment unit is combined with four elastic expansion elements. In addition to the 17 201143955 system, the four screws are easier to understand and can save time, and can be contracted and pulled by the same axial elastic expansion element after the base is adjusted to tilt toward the X-axis or Y-axis. 4. In the present invention, the second aspect of the horizontal adjustment module is provided by arranging the base=slot and the top cover at the corners, and changing the original base to the screw hole. Simplifying the _ 彡 彡 关 单元 , , , , , , , , , , 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 简化 止 止 止 止 止 单元 单元 单元 单元 单元 单元 单元 单元. ^ 5. In the present invention, the cushioning material module is designed by modular design, so that the hollow seat body, the motor device, the transmission device, the feeding device, the material belt braking member and the material belt guiding the lubricating piece, the component parts, in addition to the In addition to reducing the size, it can also be easily disassembled and assembled. The transmission 1 is equipped with a feeding device, which can increase the size range of the buffer material band that can be applied. This can reduce the chance of replacing internal components when updating different tapes. Replacement time; wherein the first rotating wheel of the transmission device and the implementation of the pressing and pressing wheel can be used for clamping the buffer material, so that the head end of the material does not need to be engaged with the first rotating wheel, so that the transmission device can be When the motor device is driven, the material feeding device is indirectly driven through the __ material, and the feeding device is continuously supplied. In addition, it is wrong to set a flexible shaft which can be elastically moved to the feeding device. With the fixed shaft and the clamp feeder, when the material I is replaced, the card shaft can be pulled open, so that the feeder can be quickly removed, the strip is exhausted, and the new feed can be loaded. After that, the card shaft is pushed back to quickly engage the feeder, so that the operator can pull out the head end of the material, and clamp it at the moving device; on the other hand, at the rear end of the hollow body, Adding a container to recover the used tape without re-winding in the transmission device, so that the components of the transmission device can be used without being replaced, and more convenient for disassembly and assembly; Invented the cushioning material module, by using the runner, the middle 18 201143955 is the neck portion, and gradually expands from the center to the both ends, and a retaining ring is arranged at each end edge of the runner. This is implemented to prevent the cushioning material from causing lateral drift when passing through the runner and to guide the tape. [Embodiment] The following is a detailed description of the following embodiments of the present invention: FIG. 1 is a perspective view of the present invention, and FIG. 2 is a perspective exploded view of the present invention. FIG. 6 is a perspective exploded view of the hot pressing module of the present invention. The figure discloses a high-speed hot press, which comprises: a machine (1), which is provided by a frame (11) and a plurality of pieces on the frame (11). a machine door (12); a conveyor belt mechanism (2) not on the inner bottom side of the machine (1); at least one of the machine (1) is located in the conveyor belt mechanism (2) The top side end, the modular hot pressing module (3); one is disposed at the top side end of the hot pressing module (3), is connected with each hot pressing module (3), and can drive the hot pressing module ( 3) a moving mechanism (4) for simultaneously or separately forming a χ, γ axial (Χ) (位移, Υ) displacement or rotation; and a device disposed in the machine (1) capable of controlling the conveyor belt mechanism ( 2), an operating system (5) operated by the hot pressing module (3) ® and the moving mechanism (4); characterized in that: the hot pressing module (3) is a stacked one by one from bottom to top a pulsed hot pressing electrode (31); a heat dissipating module (32) disposed outside the hot pressing electrode (31); a horizontal adjusting module (33) disposed at a top end of the heat dissipating module (32); The top of the horizontal adjustment module (33) can drive the hot pressing electrode (31), the heat dissipation module (32) and the level The whole module (33) is configured to perform an axial (Ζ) reciprocating displacement actuation module (34); and a first end of the actuation module (34) is electrically connected to the hot pressing electrode (31) 19 The transformer module (35) of 201143955 is composed; and the 5H moving mechanism (4) is composed of two parallel bearing rails (41) which are oppositely arranged on the top side of the machine d); The traverse rails (42) disposed between the longitudinal rails (1) and capable of being displaced between the longitudinal rails (41) and movably connected to the hot stamping modules (3) ); ^Several of each traverse track (42), connected to each longitudinal bearing (41) = 'can drive the traverse (42), y-axis (γ) movement traverse (43 And several are arranged at the junction of each hot pressing module (3) and the traverse track (42), and let each j core Μ (3) hang under the traverse track (41), and Wei drives each hot pressing The module is composed of a longitudinal displacement device that performs X-axis (X) movement and/or ζ axial (Ζ) rotation. /^中,', the overall use of modular design, can be increased or decreased according to the convenience of function, reduce j to increase machine design flexibility, and through the use of stacked modular design "', I mode = (3) ' Greatly improved, the thermocompression module (3) is miniaturized, lighter weight = force not only, but also reduced, but slightly improved, so it can cooperate with the mobile mechanism to practice the mobility of the pulsed hot pressing module (3) In the hot press, secondly, because the hot press module (3) of the high speed hot press (300) of the present invention is reduced and extremely assembled, the high speed hot press of the present invention is enabled. The module 'automatic transmission mode through the conveyor belt mechanism (2), to each hot stamping mold station press 'in unit time' simultaneously complete multiple hot pressing points 'per unit sewing time, low cost and miscellaneous production line In addition, the high-speed hot press (300) of the present invention can be easily adjusted and used through the cooperation of the hot pressing module (3) and the moving structure (4), and can further reduce the process switching line and * ° Hard time, in order to verify the production and difficulty, and strive for business opportunities. 201143955 The group (3) can cooperate with the moving mechanism (4) to implement the mobility of the pulsed hot pressing module (3), which is different from the traditional pulse type hot press, and because it can be on one machine (1) By moving the mechanism (4), one to several hot pressing modules (3) are arranged, and the hot pressing electrodes (31) of each set of hot pressing modules (3) can be respectively corresponding to and correspondingly On the flexible circuit board, and at the same time facing the part that is intended to be combined with the circuit board, the high-speed hot press (3〇〇) of the present invention can replace the conventional pulse type hot press, and the high speed of the present invention On the hot press (3〇〇), it can include most of the hot-pressing process in the traditional pulsed hot press process, and because of the number of alignments between the flexible circuit board and the board, it is much more streamlined and more capable. In the above, the actuation module (34) is a positioning push plate (341) connected to the top surface of the horizontal adjustment module (33); a guide rod (341A) disposed on a side of the top end surface of the positioning push plate (341); - a top end of the positioning push plate (341) is disposed on the guide The rod (10) A) is externally connected to the transformer module (35) for guiding and positioning the guide block (342) for the guide rod (341A); - disposed in the u-shaped positioning block (10), capable of driving the rod Positioning push plate (341) φ in 2 axial (Z), reciprocating displacement pneumatic actuator (343); - between ^ plate (341) and u-shaped positioning block (342), can be used to avoid positioning The push plate (341) strikes the u-shaped positioning block (342) (4) and the limiting block (composed; and the actuation module (10) further has two bottoms_minutes disposed on the (10) clamping block (342) - the outer side, and the top side end is connected to the bottom end of the transformer module (3)) for the aforementioned actuation pool (10) and the surface module ((10)), and the outer side of each of the fixed arms (10) is further provided with a vertical 』Set = fixed arm (10)) in the center, the fixed arm (10) can be in the shape of a T-shaped auxiliary arm (345A); the other variable pressure H module (35) is - and the top of the actuation module (34) The bottom connecting plate (351) of the screw 21 201143955; a top connecting plate (352) axially connected to the bottom end of the longitudinal shifting device (44); the plurality of screws are not connected to the bottom connecting plate (351) and the top connecting plate (352) Supporting rod (353); a screw is fixed to the bottom connecting plate (351), top Between the board (352) and the support 杈=(353), which is electrically connected to the hot pressing electrode (31) and the operating system (5), and can provide a power source for controlling the operation of the hot pressing electrode (31) (354) And a plurality of screws are disposed outside the bottom connecting plate (351) and the top connecting plate (352), and can be composed of a module side plate (355) for protecting the pressure receiving device (354). Through the implementation of the modularization and miniaturization of the actuation module (suppression) and the transformer clamp module (35), the upper thermocompression electrode (31) and the heat dissipation module (3 magic, horizontal adjustment mode) are matched. After the group (33), the effect of a modular hot-pressing module (3) can be truly achieved, and it can be easily installed and disassembled. In addition, not only can it immediately know where the P is early, so it is easy to find it early. And it can be replaced there, it is very convenient to maintain, production and subsequent maintenance, can be better than the traditional pulse hot press. Figure 3 shows the three-dimensional schematic diagram of the conveyor belt mechanism of the present invention, as shown in Figure 4. The figure shows the three-dimensional exploded view of the conveyor belt mechanism of the present invention. The figure shows that the conveyor belt mechanism (2) is respectively disposed on the opposite sides of the top surface of the inner bottom side of the machine table (d) a support frame (21) having a c-shape and a relatively closed end side; two outer cover plates (22) which are not closed on the open end side of the shai support frame (21); The side of the two support frames (21) can drive the tray (50) to be displaced to the positioned front conveyor belt (23); one of the two supports (21) at the other side, and connected to the front conveyor belt (23), can drive the tray (5 〇) input by the front conveyor belt (23), the rear conveyor belt (24) displaced to; s is again on the side between the two trusses (21) of the 5 hai, and is connected with the front conveyor belt (μ) 22 201143955 '(4) the front side motor (25) that moves the front conveyor belt (23); The support frame (2)) (4)-mine, and the rear conveyor belt (24), is connected to a rear side motor (26) capable of driving the belt (24), wherein the conveyor belt mechanism (2) In addition to being able to facilitate the installation of the wire of the invention, the production line can be operated continuously, and the monthly blk% can be changed according to the needs of the product, the production process can be modified, the real automated production can be improved, and the production efficiency can be improved. FIG. 7 is a perspective view of the heat dissipation module of the present invention, and FIG. 8 is a perspective exploded view of the heat dissipation module of the present invention, and FIG. 9 is a perspective cross-sectional view of the heat dissipation module of the present invention. The heat dissipation module (32) is further connected to a surface pressure gas source (5〇〇) outside the heat pressing module (3); The heat dissipating module (32) is composed of a first heat dissipating block (321); a second heat dissipating block (322) disposed at a rear end of the first heat dissipating block (321) at a pitch; The first heat dissipation block (321) and the bottom surface of the second heat dissipation block (322) are disposed in a gate shape, and can be used for holding a positioning component (324) for the fixed pulse type hot pressing electrode (31); The first heat dissipating block (321) and the top surface of the second heat dissipating block (322) are connected to each other and connected to the horizontal adjusting module (33) for the positioning plate for modular mounting. (325); the first heat dissipation block (321) and the X axial direction (X) in the second heat dissipation block (322) are respectively provided with a plurality of longitudinal holes (326) arranged in parallel and stacked; a heat dissipating block (321) and a Y axis (Y) in the second heat dissipating block (322) are respectively provided with a plurality of front and rear holes (327) arranged in parallel and interlaced with the longitudinal holes (326); The first heat dissipating block (321) and the Z axial direction (Z) in the second heat dissipating block (322) are respectively arranged in a plurality of parallel arrangement, and the longitudinal holes (326) 23 201143955 are interlaced with the front and rear holes (327). a vertical through hole (328); the first heat dissipation block (321) and the second heat dissipation block are disposed by the three-dimensional structure of the longitudinal hole (326), the front and rear holes (327), and the vertical through hole (328) (322), Wang Wang showed a porous hollow setting form, which reduced the volume of the hot pressing module (3), improved the heat-dissipating efficiency of the hot-pressing module (3), and modularized the hot-pressing module (3) The goal. Wherein, the first heat dissipation block (321) and the second heat dissipation block (322) adopt a porous hollow design to rationalize the overall heat collecting effect, and the first heat dissipation block (321) and the second heat dissipation block (322) The mechanism, which heats up the excess heat source of the electrode (31), absorbs upward, and can be added through the three-dimensional structure of the longitudinal tunnel (326), the front and rear tunnels (327), and the vertical through-hole Lu (327) to increase the first heat-dissipating block. (321) and the heat dissipating area of the second heat dissipating block (322), allowing the air to continuously flow, so that the heat is quickly taken away, so that the temperature of the hot pressing electrode (31) can be greatly improved, and can be shortened. In the time, reduce the temperature to loot: below, in order to facilitate subsequent operations, so it can reduce the processing time, further increase the production capacity, and can quickly gather heat, but also need to quickly dissipate heat, and not generate heat. The problem of destruction. In the above, the positioning component (324) is formed by a first l-shaped card block (324A) disposed at a bottom side of the second heat dissipating block (322); and a bottom portion of the first heat dissipating block (321) The side surface is adjacent to the side of the first L-shaped card block (324A), and the other side is opposite to the door shape, and can cooperate with the first l-shaped card block (324A) for clamping and fixing a second L-shaped block (324B) for the pulsed hot-pressed electrode (31); and the adjacent side of the 'first L-shaped block (324A) and the second L-shaped block (324B) At the same place, a plurality of electrode positioning holes (324C) are arranged separately. Wherein, the positioning component (324) is designed to be bent at a 90-degree angle, so that the size of the invention can be reduced without affecting the shock-proof size of the hot-pressed electrode (31), and although the volume is reduced, the hot-pressurizable can be installed. The size of the electrode (31) is constant and does not adversely affect the range of use of the present invention. 24 201143955 In the above, between the top end of the first heat dissipation block (321) and the top end of the second heat dissipation block (322), an air guiding block body (32A) is disposed, and the air guiding block body (32A) is inside. The air guiding channel (32B) is arranged in a criss-crossing manner, and the air guiding channel (32B) is adjacent to the center of the first heat-dissipating block (321), and further has a parallel to the top of the first heat-dissipating block (321). a gas inlet port (32C) into which a gas input from a high-pressure gas source (500) is introduced, and the gas guiding channel (32B) is adjacent to each end of the first heat-dissipating block (321), and is respectively provided with the guide a first air guiding channel (32D) connected to the air channel (32B), and another air guiding channel (32B) adjacent to each end of the second heat releasing block (322), and respectively provided with a communication channel (32B) The second air guiding hole #32 (32E), and the center of the air guiding channel (32B), respectively, are respectively disposed perpendicular to the top surface of the first heat dissipation block (321), located in the first air guiding channel (32D) and the first Between the two air guiding channels (32E), the gas input from the high pressure gas source (5 〇〇) can be directed to the central air guiding channel (32F) at the hot pressing electrode (31). In the above, the first and second heat dissipating blocks (321, 322) and the air guiding block body (32A) are respectively provided with a corresponding one for holding the positioning air guiding block body (32A). One or two fixing grooves (321A, 322A); and the first heat-dissipating block (321) corresponding to the air-inlet inlet hole (32C), further provided with a high-pressure gas source (500), capable of high-pressure gas source (500) a gas inlet (321C) to which the input gas is introduced, and a first heat dissipation block (321) corresponding to the first air guiding holes (32D), and a vertical heat dissipation block (321) Each longitudinal channel (326), a first vertical heat dissipation channel (321B) for directly cooling the first heat dissipation block (321), and the second heat dissipation block (322) corresponding to each of the second air conduction channels (32E) And a second vertical diverging channel (322B) for vertically connecting the longitudinal holes of the second heat dissipating block (322) for cooling the second heat dissipating block (322). Produce the 'through the air guiding block (32A), using the first air guiding channel (32D), the second air guiding channel (32E) and the central air guiding channel (32F), can directly directly The two heat-dissipating blocks (321, 322) and the hot-pressing electrode (31) are cooled, and under the premise of 25 201143955, the active heat dissipation [shown in FIG. 9] is performed to effectively and quickly control. The temperature, together with the excess heat source, is discharged through the principle of fluid heat father replacement, and the heat dissipation is fast, and the hot pressing electrode (31) residual heat can be quickly absorbed to protect the safety of the equipment. Secondly, in order to distribute the airflow evenly into the first and second heat-dissipating blocks (321, 322), the first and second hanging holes on the first and second heat-dissipating blocks (321, 322) and the heat-dissipating channel (321B, The setting of 322B) allows the gas input from the high-pressure gas source (5〇〇) to flow quickly to carry away the temperature. On the other hand, the central air guiding channel (32F) is mainly for the hot pressing electrode (31). Blowing and cooling, but at the same time can take away the heat on the adjacent surface of the first and second vertical heat dissipation channels (321, 322) [as shown in g φ], therefore, through the above-mentioned setting method, it can truly achieve rapid cooling. effect. At least one outer side surface of the first heat dissipating block (321) and the second heat dissipating block (322) is further arranged from top to bottom, stacked, and has a plurality of heat dissipating grooves (228) capable of increasing the heat dissipating area. ). The three-dimensional structure arrangement through the longitudinal tunnel (326), the front and rear tunnels (327), and the vertical through holes (327) has already greatly increased the heat dissipation effect of the hot-pressing module (3) of the present invention, but cooperates with it. After the first and second heat-dissipating blocks (321, 322) are disposed on the side of the heat-dissipating groove (329), although the heat absorption is reduced, the shadow is not loud, but the heat-dissipating area is increased, but the first one is made. The heat dissipation effect of the two heat-dissipating blocks (321, 322) can be further improved, which can be beneficial to the rapid cooling and temperature rise of the system. The above-mentioned 'the positioning plate (325) is further provided with a plurality of connection holes (325Α) for connecting with the horizontal adjustment module (33), and a plurality of heat dissipation blocks for the first and second heat dissipation blocks ( 321, 322) Positioning holes for connection (325Β). Among them, the setting of the connecting hole (325Α) can be easily and quickly connected with the horizontal adjusting module (33), and the positioning hole (325Β) can be easily disassembled. The real hot pressing module (3) of the present invention is real. It can achieve a modular effect, making the original 26 201143955 complex system easy to complete, and can increase its applicable range. In summary, through the implementation of the heat recording module (32), the monthly pressure module (3) can not only have a better heat dissipation effect, a smaller volume, but also a group setting. The applicability of the invention is improved, and the utility model is superior to the traditional pulse-type secret machine, so that the overall bribe is diversified, and the utility model has more practical and practical use. FIG. 10 is a perspective view of the horizontal adjustment module of the present invention, and FIG. 11 is a perspective exploded view of the horizontal adjustment module of the present invention.

The figure shows that the horizontal adjustment module (33) is composed of a base (331) having a first positioning groove (331A) disposed on the top surface of the base in the Y-axis (Y), and a plurality of distributions. The groove around the base (331B) 'The slot of the aforementioned slot (331B) is provided with a bolt hole (331C), and a small fish eye hole (331D) is arranged adjacent to the slot; ##一顶盍(332)' has a second positioning groove (332A) disposed on the bottom surface of the top cover and corresponding to the third clamping groove in the X-axis (X), and a plurality of slits disposed on the periphery of the top cover and corresponding to the base cutting groove (331B) The groove (332B), the top cover grooving (332B) groove, the bolt hole (332 〇, and the small fish eye arranged in the upper and lower symmetry of the small fish eye hole (331D) in the adjacent groove (332B) groove Hole (332D); angle grading unit (333) is a horizontal plate (333A) disposed between the base (331) and the top cover (332), and a horizontal plate (χ) is horizontally and horizontally The upper cross bar (3) 3D) and the Μ axial direction (Υ) of the cover are composed of a horizontal bar and a lower cross bar (333 Ε) of the bottom wire, so that a space is reserved between the base (331) and the top cover (332) ( d> while the aforementioned horizontal plate (333Α) a fourth positioning groove (333C) disposed symmetrically with respect to the second positioning groove (332α), and a third positioning of the horizontal plate (333Α) having a top and bottom symmetry with the first positioning groove (331Α) The groove (333Β)' is used to respectively introduce the positioning of the upper and lower crossbars (333A, 333D;); the two pitch adjusting units (334, 334,) are located around the periphery of the base (331) and the top cover (332). Between each, each pitch adjusting unit (334, 334') has two connecting blocks (334A) respectively spanning the base slot (331B) and the top cover slot (332B)' and being arranged up and down 27 201143955 334B), and a screw (334F, 334G) threaded through the two connection blocks (334A, 334B); and a plurality of elastic expansion elements (335), each of which is inserted into the two ends of the elastic expansion element (335) The bolts (335A, 335B) are introduced into the base bolt hole (331C) and the top cover bolt hole (332E) to form a contraction pull of the elastic expansion element (335) against the base (331) and the top cover (332). By adjusting the two-pitch adjustment unit (334, 334') separately, the angle adjustment unit (333) can be used as The pivot axis is used to change the front and rear angles of the base (331) and to be positioned. The base (331) is disposed around the first positioning slot (331A), and is provided with a plurality of repairing firmware (T) locking heat dissipation modules. a fisheye hole (331E) and a small positioning hole (331F) of (32); the top cover (332) is provided with a plurality of perforations corresponding to the base fisheye hole (331E) around the second positioning groove (332A) ( 332E), and a plurality of locking holes (332F) and small positioning holes (332G) for locking the firmware (T) locking actuation module (34). Therefore, the base and the heat dissipation module, the top cover and the actuation module are not collided with each other during the hot pressing operation, and can be more closely matched. Next, on both sides of each of the connecting blocks (334A, 334B), screw holes (334C, 334D) for engaging the above-mentioned base with the small fisheye holes (331F, 332F) of the top cover are respectively provided. In this way, the base grooving and the top cover grooving can be provided with a connecting block for stopping the screw screwing. Furthermore, each side of the horizontal adjustment module (33) is respectively provided with a baffle (336), and the top edge of each baffle (336) is provided for the fastener to be used for locking the top cover ( 332) a side perforation (336A), and a bottom handle of the baffle (336) is provided for guiding a handle (337), and the handle (337A) of the handle (337) is inclined with the base (331) a tilting displacement notch (336B); each side of the top cover (332) is provided with a side locking hole (332H) for guiding the locking member (T); and each side of the base (331) is provided The handle (337A) for the handle (337) is introduced into the positioned side positioning hole (3311). The level adjusting device is used for protection by setting the baffle, except 28 201143955 免 免 免 免 免 免 免 免 免 免 免 免 免 免 免 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽 纽Whether there is a second or deformation between the top cover and the top cover, the decking II is covered by the top cover _, so that it is transported to avoid the interference of the base tilting movement, and also by adding a defect at the bottom edge. It is used as the handle of Dingxian Road. It will not be affected by the movement of the base. ', Ya Neng will fix the horizontal or inclined wire of the base, giving the base displacement and shaking and avoiding the parts to be welded where the welding head cannot be aligned. . Secondly, the bottom edge of the baffle (336) can be further provided with a corresponding base slot (331Β) for adjusting the long gap (336C) of the slot stop screws (334F, 334G). Since the adjustment portion of the stop payment _ is located in the concave portion of the connecting block, and the groove is spliced by the base, the long groove is provided at the slot of the base plate of the broadcast board, so that the worker can extend the tool with the tool. Adjust the degree of the stop screw in the slot. Further, the first positioning slot (331A), the second positioning slot (332A), the third positioning slot (333B), and the fourth positioning slot (333C) can be one of the following, a strip groove, a strip An inner concave groove. In the embodiment, the plurality of positioning grooves are strip-shaped concave corners and grooves, and the concave shape is a shape in the designated groove, but in the embodiment, the shape is triangular, and can also be square, pentagon, and six. The angled to polygonal yoke allows the upper and lower crossbars to roll smoothly even after they are inserted into the groove. FIG. 12 is a perspective view of another horizontal adjustment module according to the present invention. FIG. 13 is a perspective exploded view of another horizontal adjustment module according to the present invention. The figure shows that the horizontal adjustment module (33) is composed of a base (331) having a first positioning groove (331A) disposed on the top surface of the base in a γ-axis (γ), and a plurality of a slot (331B) of the corner of the base, a slot hole (331C) is provided in the slot of the slot (331B), and a screw hole (331G, 331H) is arranged around the base (331); a top cover (332), Having a second positioning groove (332A) disposed in the X-axis (X) on the bottom surface of the top cover and corresponding to the first positioning groove is distributed in the top cover angle 隅 and corresponding to the base slot (331B) The grooving (332B), the top cover is cut 29 201143955, the groove (332B) is provided with a bolt hole (332C); an angle adjusting unit (333) is provided by the base (331) and the top cover (332) Between the horizontal plate (333A), an upper crossbar (333D) that is sandwiched by the horizontal plate and the top cover in the X-axis (X) - the Y-axis (γ) is sandwiched by the horizontal plate and the base The crossbar (333E) is configured to maintain a distance (d) between the base (331) and the top cover (332), and the horizontal plate (333A) has a top and bottom symmetry with the second positioning groove (332A). Fourth positioning slot (333C), and the horizontal positioning plate (333A) has a third positioning groove (333B) disposed symmetrically with respect to the first positioning groove (331A), thereby providing the respective upper and lower cross bars (333A, 333D) Import positioning; a stop screw (334F, 334G), threaded through the screw hole 331 (331G, 331H) of the base (331), and then against the bottom surface of the top cover (332); and a plurality of elastic expansion elements (335 ), two ends of each elastic expansion element (335) are respectively inserted into the stoppers (335A, 335B) to be respectively embedded in the above-mentioned base slots (331B) and the top cover slots (332B) of the bolt holes (331C, 332E) The elastic expansion element (335) is formed by shrinking and pulling the base (331) and the top cover (332); by adjusting the two stop screws (334F, 334G) separately, the angle adjustment unit (333) is used as The pivot is used to change the front and rear angles of the base (331) and position them. The base (331) is disposed around the first positioning slot (331A), and is provided with a plurality of fisheye holes (331E) and small positioning holes (331F) for locking the heat-dissipating module (32). The top cover (332) is provided with a plurality of perforations (332E) corresponding to the base fisheye hole (331E) and a plurality of locking device (T) locking actuation modules around the second positioning groove (332A) ( 34) The keyhole (332F) and the small positioning hole (332G). Secondly, each side of the horizontal adjustment module (33) is respectively provided with a baffle (336), and the top edge of each baffle (336) is provided for the locking device (τ) to be used for locking the top cover. (332) a side perforation (336A)' and a second perforation (336D) for guiding the handle (337A) of the handle (337) at the bottom edge of the baffle (336); the top cymbal (332) Each side is provided with a side lock hole 30 for the lock fastener (τ) to be inserted into the lock 201141855 (332H); each side of the base (331) is provided with a handle (337A) for guiding the handle (337) Side positioning hole (331). The horizontal adjustment module is replaced by a second perforation by replacing the notch and the long notch structure of the raft, and the baffle is more resistant to foreign matter from entering than the previous embodiment. Further, the handle (337) is sleeved with a spacer (337β) at the handle (337Α), and a handle (337C) for preventing the touch is provided at the handle of the handle (337). A loosening of the base is caused by the addition of a safety key at the handle handle to prevent accidental contact. - further, the first positioning groove (331 Α), the second positioning groove (332 Α), the third positioning groove (333 Β), and the fourth positioning groove (333 〇, can be the following - a strip-shaped concave concave groove. Therefore, after the upper and lower two horizontal bars are embedded in the groove, the strength can still be sturdy. As shown in FIG. 19, the three-dimensional illustration of the moving mechanism of the present invention with the hot pressing module is shown in FIG. The three-dimensional exploded view of the moving mechanism of the present invention, as shown in FIG. 21, shows the read-disappearance m 22 of the horizontal miscellaneous mismatch of the operating system of the present invention, which is shown as the age of the traverse device away from the operating system. ', as shown in Fig. 23, is a schematic exploded perspective view of the longitudinal shifting assembly of the present invention. The figure shows that the longitudinal support (4) and the transverse pure passage (10) are for the lower t: _' lung, sexual obedience, Rigid 迢, T-shaped rigid trajectory; two vertical Γ, Γ (41) and traverse (42) 'and H-shaped rigid track ^ select, the moon 匕 under limited cut area and weight limit, The two opposite ends of the larger negative two longitudinal supports (41) are respectively provided with a longitudinal positioning rod (45) capable of connecting = direction, and the longitudinal direction _^ 22: It can avoid the traverse rail passing through the facing positioning rod (45), allowing the longitudinal bearing rail (4)), and the 31 201143955 to be stable, stable, and not easy to shake, and the overall rigidity performance is further improved. The limiting studs (46) are arranged to avoid the material and the operation of the core, thereby causing the traverse rail (42) to be separated from the longitudinal bearing rails (41), thereby causing the present invention to create obstacles and major work safety problems. The traverse device (43) is a support plate (431) connected to the traverse track (10); a set of drums are disposed in the top end side of the support plate (431) to abut the longitudinal support rail ( 41) below the horizontal wall top side 'and can be used to drive the traverse track (4), the longitudinal bearing (41) domain, and the yaw drive wheel set (432) for the Y axis (7) (10); The support plate (431)-side is parallel with the traverse drive wheel set (432), and can be placed against the lower horizontal wall and the side of the longitudinal support rail (μ) to match the traverse The drive wheel set (432), the traverse device W3) clamps a vertical support wheel (433) positioned on the longitudinal bearing rail (41); at least - is disposed on the support plate #431 (431) and the traverse track (4) a top support block (436); and at least - a bottom support block (437) disposed at a junction below the branch (431) without a transfer path (4), wherein the traverse device (10) can be stabilized The branch traverses the track # (42), and stably drives the traverse track (10) displacement, which can avoid the occurrence of displacement inaccuracy or the problem of inability to move. In addition, the above-mentioned adjacent operating system (5) The supporting plate of the shifting device (43) is further provided with at least a vertical wall corresponding to the traverse and crane wheel set (432) and δ and 'against the top longitudinal support (4)) The lateral side of the lateral soap guide wheel (434); the side of the slab (431) of the traverse device (43) remote from the operating system (5) is further provided with at least one perpendicular to the traverse drive wheel set (4) 2) The shape of the sub-capacity to the top of the longitudinal bearing (41) of the horizontal double-lead 32 of the cross-cutting money plane 201143955 round (435) 〇 Among them, because the position of the traverse skirt (43) is different, but different The positioning effect requires 'so through different lateral single-guide wheels (10)) or lateral double-guide wheels (435) to achieve the goal of meeting the installation benchmark. Further, the bottom side end surface of the slab (431) of the traverse device (43) adjacent to the operating system (5) is further provided with a longitudinal plate (6); and "inserted in the center of the longitudinal plate (47) for positioning the traverse a positioning bolt (48) for the rail (42); wherein, through the arrangement of the longitudinal plate (47) and the positioning bolt (48), it can ensure that the traverse device (43) does not become external because of the external force, and the traverse The track (cutting and moving, causing the problem of improper hot pressing. The vertical displacement device (44) is a horizontal connecting plate (441) which is disposed on the top surface of the transformer module (35) and connected thereto; Vertically disposed on the horizontal connecting plate (441) and the opposite side edges of the vertical side plate (442); the two groups are respectively embedded in the top end side of the corresponding horizontal connecting plate (4 4 丨), which can be abutted The traverse of the upper horizontal wall bottom side of the road (42), and can be used to drive the vertical displacement device (44), to traverse the track (42) as a track, and to the X-axis (the sinusoidal displacement of the longitudinally-driven drive wheel set) (443); • one is disposed on the bottom side of the horizontal connecting plate (441), and is disposed perpendicularly to the longitudinal driving wheel set (443) and can abut the vertical wall corresponding to the longitudinal bearing (41) a longitudinal double guide wheel (444) on the side; two sets are disposed between the vertical side plates (442) and connect the two vertical side plates (442) to abut the top horizontal top side of the traverse track (42) and can Cooperating with the longitudinal drive wheel set (443), allowing the longitudinal displacement device (44) to clamp the support wheel set (445) positioned on the traverse track (42); and sequentially arranging the connection to move the longitudinal displacement device ( 44) A connecting rotating shaft (449) for connecting the transformer module (35) at the top of the transformer module (35), a positioning ring plate (448) for connecting the horizontal connecting plate (441), and a positioning ring plate (448) It can be used to connect the rotating shaft 33 201143955 (449) positioning bearing (447) for positioning, and a positioning cap (446) for positioning bearing (447) positioning. Through the vertical displacement device (44), The stable connection supports the hot pressing module (3), and stably drives the displacement of the hot pressing module (3) to avoid the occurrence of displacement inaccuracy or the problem of inability to move. The level of the vertical displacement device (44) The connecting plate (441) is adjacent to the two vertical side plates (442), and is further provided with a positioning bolt (48) for positioning the hot pressing module (3) for rotating the angle. Through the setting of the positioning pin (48), when the hot pressing module (3) needs to be rotated, the positioning pin (48) can be rotated, and the positioning pin (48) φ can be positioned to fix the hot pressing. The module (3) ensures that the hot pressing module (3) does not rotate again, so that the invention is more convenient to use and has a wider application range. As shown in Fig. 14, the hot pressing module of the present invention is further provided. FIG. 16 is a perspective exploded view of a cushioning material module of the present invention, and FIG. 17 is a perspective view of a cushioning material stack of the present invention. FIG. 8 is a perspective exploded view of the cushioning material module of the present invention. The figure shows that the thermocompression module (3) further comprises a parallel χ axial direction (χ), a buffer material mold having a buffer material strip (4 〇) spanned outside the actuation module (34). Group (36), the buffer material module (36) can make the buffer material strip (4 〇), the axial direction is overheated to the pressure electrode (31); and the buffer material module (36) is made up of a hollow base body (361) connected to the movable module (34) and the transformer module (35); a motor device (362) disposed at the top end of the hollow seat body (361), and the motor device (362) and the seat side plate ( Between the 361Β) and a disk (362Α) coaxial with the motor device; - at the rear end of the hollow seat (361) and by the motor device (36 moving device (363); 34 201143955 bud Z in the hollow body ( 361) _ and the feeding material of the cushioning material strip (10) === _ the head end will be thinly _) clamped (10)f less than two strip brakes respectively connected to the upper plate (361C, 361D)) (10) 5) will tighten when the above-mentioned hot turning group (3) is actuated, and the material belt (40) will be protected from the buffer material band (4〇); and at least two of the long rods (361F, 361G) are respectively connected. , make the buffer material j (4〇? and the upper pressure (3) The belt guide of the protection distance. 66) The group of the hollow body (361) is placed on the side plate (361A, 3_, the front and rear ends, 邛, each of the hanging boards (361C, 361D) ), and the two legs (36) X, 361d) are respectively pivotally connected with a regulating rod (361F, 361G);

Further, the transmission device (363) has a transmission shaft (363A) disposed on the side plate (361B) of the seat body, a drive plate (the drive shaft is pierced by the drive shaft and moved by the turntable (362Α) τ|γ of the motor device (362) ( 363B), a first rotating wheel (363C) provided at the shaft end of the transmission shaft, a support rod (36) connected to the side plate of the seat body (361Β) and spaced apart from the transmission shaft, and a first vertical piercing support rod a pressing member (3β3ΐ), a pressing wheel (363) disposed at an end of the first pressing member and capable of pressing the first rotating wheel; and - the feeding device (364) has a side plate disposed on the seat body ( a fixed rotating shaft (364A) of 361B), a locking rotating shaft (364C) disposed on the opposite side plate (361A) of the seat body, a clamped between the fixed rotating shaft (364A) and the locking rotating shaft (364C) to provide cushioning a material feeder (364) feeder (364G), and a shaft brake member (364H) coupled to the seat side plate (361B) and decelerating and stopping the fixed shaft (364A); each belt brake member (365) has One end is connected to the horizontal axis (365A) of the plate surface of the leg plate (361C, 361D), one set is connected to the second rotating wheel (365β) at the other end of the horizontal axis, and one is connected to the horizontal axis. The arm (365C); one end of the aforementioned arm (365C) clamps the horizontal axis (365Α) and the other arm end is parallel with the second wheel (365Β), and a small pressure is vertically inserted at the arm end. Assembly (365D); and 35 201143955 The master tape guide (366) has a horizontal axis (366A) with one end attached to the surface of the foot plate (36iF, evil 1G), and a set of third rotation connected to the other end of the horizontal axis. The wheel (366B); + the side plate (361A, 361B) of the hollow seat body (361) is provided with a window (361H) capable of an if road, a °卩 structure, and a plurality of transmissions (363) and The shaft of the feeding device (10)) rotates the compliant bearing shaft (3611), and on the inner surface of each side plate (361A, 361B), a connecting block (361J) capable of connecting the swaying module (34) is further provided. The actuation module (μ) can be connected to the transformer core set (35) through the connection block (gw j).

Among them, the foot plates (361C, 361D) are provided with rails (361E) for adjusting the height of the long rods (361F, 361G). This is to facilitate the adjustment of the distance between the cushioning material and the hot stamping module. == 'The feeder (364G) is an empty cylinder with a buffer material strip (4〇) wound around the outer tube; the feed material is passed over the empty tube of the towel to facilitate the corresponding pressing plate of the rotating shaft and the fixed rotating shaft The platen is clamped.

The carding shaft (364C) has a laterally-transmissive seat side plate (361a) = a tube (3_, a coaxial guide through the outer tube (_) and a reciprocating movable stem 4E), and a movable rod disposed on the movable rod (364E) the end presses against the pressure plate (clear) on the side of the feeder (364G); thereby enabling the card to be read and able to move over, so as to quickly remove the consumed belt, After loading the new feeder, the retracting shaft is pushed back to fix the feed miscellaneous speed, so that the operator's head end of the Rai iij material is not fixed at the transmission. Further, at the opposite end of the fixed rotating shaft (364A), a corresponding pressing plate (364B) is provided to cooperate with the pressing plate (364D) of the clamping shaft (364), thereby clamping the feeding material to the empty tube The two sides 'send the suspension to the seat towel and supply the thorn belt*. Further, the rotating fixing frame (3641) and the shaft brake member (364H) are connected by the seat side plate (361B). Set the movable rod (364J) of the fixed frame and the wheel set (364K) at the bottom of the activity 36 201143955. This allows the feeder to decelerate and stop to avoid waiting. The use of the machine to the other side of the rotation On the other hand, the first, second and third runners (縦, 365B, 366B) are b-shaped runners, the center of the runner is the neck (363d), and the central neck is f to the two & The tip expansion 'and the both ends of the runner are provided with - dry ^ (363E'3F) ' and a shaft hole (363g) is axially penetrated in the runner for the introduction of =: thereby preventing The cushioning material belt produces a lateral fluttering when passing through the wheel and can guide the tape.

The runner (363C) can be engaged with a press-fit wheel (3J), the press-wheel (363J) (four) fine-rotating wheel-shaped shuttle-shaped runner, the center of the press-wheel (363J) is raised Department (363K) 'From the central part to the two ends gradually converges' and runs through the runner (four) to the general (363L) for the transfer; through the press wheel with the runner' except for the secret tight cushioning material _ to prevent the belt from loosening outside' also facilitates the belt of cushioning material to indirectly drive the feeder to continuously supply a new length of material. And the end of the small pressing member (365D) is provided with a pressing block (365E) capable of pressing the second rotating wheel (365B). Thereby, the pressure block is clamped to the second rotating wheel to clamp the buffer material belt, so that the material is located between the belt brake and the transmission device, and the section between the belt brake and the feeding device, and is not hot pressed. When the module is driven down, it is taken to avoid the reversal of the first reel. In addition, the buffer material module (36) can be provided with a container (367) for recovering a buffer material tape (4〇) at the rear end of the hollow seat body (361). This makes it easier to recycle the used tape without having to wind it again. Further, the side wall of the container (367) has a long sloping plate (367A) structure into which a buffer material tape (4 〇) is introduced, and at the top end of the long slant plate (367A), it can be suspended from the hollow seat body (361). Hooked buckle edge (367B). The container is passed through the long sloping plate to guide the tape into the interior to prevent scattering and to pass through the hooked rim of the top of the long sloping plate for ease of disassembly and assembly. 37 201143955 Figure 24 is a diagram showing the adjustment of the hot-pressing module of the present invention, as shown in the figure (4) The process of the (4) speed keying machine = the schematic block diagram of the pairing machine. The method of using the pressure field, the brief block diagram when using the manual alignment station, such as =27 is not the flow block diagram and diagram of the manufacturing method of the high-speed hot press of the present invention. The figure shows that, for the process application method of the high-speed hot press, the bean comprises: a preparation step [A]: / providing a feeding device (100), which can be sequentially input by a circuit board (2〇), and At least one flexible circuit board (3 〇) consisting of a processing component (1 〇) [a 1 ]; 2 provides a aligning device (2 〇〇) provided at the discharge end of the feeding device (100), which can be described a flexible circuit board (3〇) is intended to be combined with the circuit board (2〇), placed on the corresponding predetermined position on the circuit board (20), and placed on the corresponding tray (5〇') [A2]; k for at least one high-speed hot press (3〇〇) disposed at the discharge end of the alignment device (2〇〇) as described in claim 1, the predetermined flexible circuit board (3〇) can be predetermined with the circuit The combined part of the board (20) is combined with the circuit board (2〇) [A3]; and a discharge end provided at the last high-speed hot press (3〇〇) is provided, and the processing is completed. The processing unit (1〇〇) output discharge device (4〇〇) [A4]; Process step [B]: Step 1: Start high-speed hot press (3〇〇) [Β1]; Know the second step: Start the adjustment process and adjust the high speed The position of the hot pressing electrode (31) of each hot pressing module (3) in the press (300), the direction of the hot pressing electrode (31), and the level of the hot pressing electrode (31), so that the hot pressing modules (3) The hot pressing electrodes (μ) can respectively correspond to the corresponding soft circuit board (30), and the combination with the circuit board (2〇) [B2]; The third step: start the preliminary process, start the feeding The device (100), the alignment device (200), and the discharge device (4〇〇) [B3]; , 38 201143955, the first step of the feed registration process is started by feeding the feed ((10)) The bit device (_, the part that combines the circuit board (20) of the flexible circuit board library is placed on the corresponding position on the circuit board (2〇), and placed on the tray (5G) (10); ^Start the hot pressing process, complete the alignment of the guard component (ig), and the support ^ = device (fine), through the high-speed hot press _ delivery =, continuous input to the South speed hot press (10)), The high-speed hot press (3〇〇) moves to the lower part of each hot-pressing module (3), so that the hot-pressing modules (3) are sequentially operated. Finally, all the hot-pressing modules (3) are started, and parallel machining is started.

The circuit board (10) can be combined with the predetermined position on the circuit board (10) to produce a stable thermocompression bonding effect [B5]; the sixth step: starting the discharging process and completing the hot pressing process component 〇〇), The conveyor belt mechanism (2) of the high-speed hot press is output to [Β6ί 透娜娜(_) 'Na to the predetermined place where the general hot pressing process is carried by the machine conveyor belt to each heat The station's matching machine is equipped with a hot-pressing seat module, which is adjusted on the machine table to the J-point and the pressure-pressing machine. The opposite head is pressed. For example, the single-hot pressing process There are four places, the predetermined flexible circuit board is pressed, and the traditional single-welding pulse type hot press machine works, the pressing time is 15 seconds, so the total need is secret, between the materials, if using = f hot pressing Machine (10)), when the device has 4 clock modules (3), the time can be shortened to 15/4=3.75 seconds with the application method of the front panel, and the speed can be achieved. As a result, because of the high-speed hot press (3〇〇) of the present invention, a plurality of heat_groups (3) are shoveled on a single machine, and the conveyor belt mechanism (2) is used to pass through the type= to each hot-pressing module (3). , in the unit time, in the unit time, with the completion of multiple points, the effect of parallel processing, to achieve the goal of reducing the heat per unit hot surface ^ 39 201143955, in addition, because the present invention, is a high speed of the present invention The hot press (300), in conjunction with a aligning device (2 〇〇), or a series of high speed hot presses (300) of the present invention, cooperates with a aligning device (2 〇〇), by means of this application It can shorten the time of alignment, shorten the production cycle, improve the efficiency of production, and reduce the non-performing rate and enhance the competitiveness of products. In the above, the alignment device (2〇〇) is one of the following: an automatic alignment machine (200A) capable of pre-twisting the flexible circuit board (30) with the circuit board through an automated mechanical device (2)结合) the combined portion is placed at a corresponding predetermined position on the circuit board (20); the manual alignment station (200B) can manually reserve the aforementioned flexible circuit board (30) with the circuit board (2)结合) the combined portion is placed at a corresponding predetermined position on the circuit board (20); and the third step of the processing step can further include - depending on the processing requirements of the processing component (10), whether or not On the hot-pressing module (3) of the high-speed hot press (3〇〇), a buffer material module (36) or a buffer material module (36) is not added to convert the process and allow the hot stamping die. Group (3) applies to the step of the processing component (1〇). Among them, by using different alignment devices (2〇〇), such as: automatic alignment machine (200A) or manual alignment station (2_), the process application method of the high-speed problem machine of the invention can meet the requirements of all manufacturers. There is no need to worry about changing the high-speed hot press (300) of the present invention, which requires a large crane production line, which leads to an increase in additional cost. After the micro-correction and the running-in, the production can be started immediately. Secondly, because the hot-pressing module (3) of the high-speed hot press (300) of the present invention has a sturdy design, it is very convenient and fast to be replaced immediately when it is required to perform conversion between different processes. 'No need to be careful to delay the production cycle problem, the county invented the high-speed machine process time method, can be applied to different hot presses to 'effectively expand the scope of application of the invention, reduce manufacturers to replace the old The doubts have greatly increased the industrial applicability of the present invention. " It can be known from the above that the setting of the high-speed hot-storage machine (3〇〇) of the present invention can eliminate the various shortcomings of the 201143955 conventional pulse-type hot press, and can improve the overall productivity and efficiency, and is now the pulsed heat. Among the presses, the most modular, rationalized and economical pulsed hot press' is combined with its high-speed hot press process application method to become the most efficient, versatile and industrially usable high-speed hot press. And its application methods. The embodiment of the present invention is described in detail with reference to the embodiments shown in the drawings, and the features of the present invention are in accordance with the requirements of the invention and the progressive requirements. EXAMPLES, however, the present invention is defined by the scope of the invention, and therefore, the second embodiment is consistent with the intention of the present invention. <化, as long as it is within the scope of the scope of this creation patent

41 201143955 [Simplified illustration of the drawings] Fig. 1 is a perspective view of the present invention. Figure 2 is a perspective exploded view of the present invention. Figure 3 is a perspective view of the conveyor belt mechanism of the present invention. Figure 4 is a perspective exploded view of the conveyor belt mechanism of the present invention. Figure 5 is a perspective view of the hot stamping module of the present invention. Fig. 6 is a perspective exploded view of the hot press module of the present invention. Figure 7 is a perspective view of the heat dissipation module of the present invention. FIG. 8 is a perspective exploded view of the heat dissipation module of the present invention. 9 is a schematic perspective cross-sectional view of a heat dissipation module of the present invention. Lutu 10: A perspective view of the horizontal adjustment module of the present invention. Figure 11 is a perspective exploded view of the horizontal adjustment module of the present invention. Figure 12 is a perspective view of another level adjustment module of the present invention. Figure 13 is a perspective exploded view of another level adjustment module of the present invention. Figure 14 is a perspective view of another heat press module of the present invention. Figure 15 is a perspective exploded view of another heat press module of the present invention. Figure 16 is a perspective perspective view of a cushioning material module of the present invention. Figure 17 is a perspective view of the cushioning material module of the present invention. Figure 18 is a perspective exploded view of the cushioning material module of the present invention. ® Figure 19 is a perspective view of the moving mechanism of the present invention when it is combined with a hot pressing module. Figure 20 is a perspective exploded view of the moving mechanism of the present invention. Figure 21 is a perspective exploded view of the traverse device of the present invention adjacent to the operating system. Figure 22 is a perspective exploded view of the traverse device of the present invention remote from the operating system. Figure 23 is a perspective exploded view of the longitudinal displacement device of the present invention. Fig. 24 is a perspective view showing the three-dimensional implementation of the heat press module of the present invention. Fig. 25 is a schematic block diagram showing the process application method of the high-speed hot press of the present invention, using the automatic alignment 42 201143955 machine. Fig. 26 is a schematic block diagram showing the process application method of the high-speed hot press of the present invention, using a manual alignment station. Figure 27 is a flow chart showing the process application method of the high speed hot press of the present invention. [Main component symbol description]

1 Machine 36 Cushioning material module 11 Rack 361 Hollow seat 12 Machine door 361 (A, B) Side plate 2 Conveyor belt 361 (C, D) Foot plate 21 Support frame 361E Lucky leg 22 Cover plate 361 (F , G) Long rod 23 Front conveyor belt 361H Window 24 Rear conveyor belt 3611 Oblique by 25 Front side motor 361J Connection block 26 Rear side motor 362 Motor unit 3 Hot-pressing module 362A Turntable 31 Hot-pressing electrode 363 Transmission unit 32 Heat-dissipating module 363A Drive shaft 321 First heat sink block 363B Drive disc 321A First fixing groove 363C First wheel 321B First vertical heat dissipation channel 363D Neck portion 321C Air inlet 363 (E, F) Stop ring 322 Second heat sink block 363G Axis Hole 322A Second fixing groove 363H Strut 322B Second vertical heat dissipation channel 3631 First pressing member 324 Positioning assembly 363J Pressing wheel 43 201143955 324A First L-shaped block 363K Secret part 324B Second L-shaped block 363L Axial hole 324C Electrode positioning hole 364 Feeding device 325 Positioning plate 364A Fixed rotating shaft 325A Lianhu 364B Corresponding pressure plate 325B Positioning hole 364C Carding shaft 326 Longitudinal hole 364J) Outer tube 327 Front and rear? Ut 364E movable rod 328 vertical through hole 364F pressure plate 329 heat dissipation groove 364G feeder 32A air guiding block 364H shaft brake member 32B air guiding passage 3641 fixing frame 32C air inlet 孑 Lit 364J movable rod 32D first air guiding passage 364JC wheel set 32E Second air guiding channel 365 Material belt brake 32F Central air guiding 365A Horizontal axis 33 Horizontal adjustment module 365B Second #1备331 Base 365C Arm 331A First positioning groove 365D Small pressing piece 331B Notch 365E Clamping block 331C bolt hole 366 belt guide 331D small fish eye hole 366A horizontal axis 331E fish eye hole 366B third wheel 331F small positioning hole 367 container 331 (G Ή) screw hole 367A long slant plate 3311 side positioning hole 367B hook shape Buckle edge 332 top cover 4 moving mechanism

44 201143955

332A 2nd positioning groove 41 Longitudinal bearing rail 332B Grooving 42 Transverse movement leg 332C Bolt hole 43 Transverse device 332D Small fish eye scorpion L 431 Branch slab 332E Perforation 432 Buying drive drive group 332F Keyhole 433 Vertical support Wheel 332G Small positioning hole 434 Horizontal single guide wheel 332H Side lock hole 435 Horizontal double guide wheel 333 Angle adjustment unit 436 Top support block 333A Horizontal plate 437 Bottom support piece 333B Third positioning groove 44 Vertical displacement device 333C Fourth positioning groove 441 Horizontal connection plate 333D on tree drought 442 vertical side plate 333E under tree drought 443 vertical movement drive group 334, 334' spacing adjustment unit 444 longitudinal double guide wheel 334 (A, B) connection block 445 branch 7? 漱 group 334 (C, D Screw hole 446 Positioning cap 334 (F, G) Stop screw 447 Positioning carriage 335 Elastic expansion element 448 Positioning ring plate 335 (A, B) Impact bolt 449 Connection shaft 336 Buckle 45 Longitudinal positioning rod 336A Perforation 46 Limit Position stud 336B Notch 47 Longitudinal plate 336C Long notch 48 Positioning pin 336D Second perforation 5 Operating system 337 Handle XX Axial 337A Stem YY Axial 45 201143955 337B Gasket 337C Safety key 34 Actuation mode 341 positioning tearing reverse 341A guide rod 342 u-shaped positioning block 343 pneumatic actuator 344 limit block 345 fixed arm 345A auxiliary fixed arm 35 transformer module 351 top connecting plate 352 bottom connecting plate 353 support rod 354 transformer 355 module side plate z 10 20 30 40 50 100 200 200A 200B 300 400 500 Z axial lock spacing

Processing component circuit board flexible circuit board buffer material with tray feeding device aligning device automatic aligning machine manual aligning station high speed hot press discharging device rain pressure air source AA1 Α 2 · preparation step provides a feeding device, can be scaled into - a processing component circuit board consisting of a magnetic circuit board, and at least one soft

A3 仏 于 α 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在According to Item 1, the idle heat press machine disposed at the discharge end of the alignment device can combine the portion of the flexible circuit board that is predetermined to be combined with the circuit board ,4, and is combined with the circuit board to provide a final setting. The discharge end of the high speed hot press can be 46 201143955 B B1 B2 B3 B4

B5

B6 Finished processing component output processing process step ^ Start high-speed hot press start 5 weeks of the whole process 'adjustment · high reading Le section drag & ^ A 彳 _ each thermocompression module thermal piezoelectric "also direction and Hot and thin electricity, let each die = pressure, 嶙 _ _, the corresponding soft board 'scheduled part of the rapid surface process combined with the board, start into the general arrangement, the alignment device, the 盥 discharge device The part of the : 4: ΓΓ 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 预定 ΐ ΐ ΐ ΐ冓, the constant input machine, in the high-speed heat display, start = square, the module starts (10) action, the most rigorous processing, so that each - a flexible circuit board, the corresponding board on the road board inspection The result of the hot pressing pressure starts the discharging process, and the processing component of the surface process is completed, and the output is sent to the discharging device: through the discharge and the predetermined placement.

Claims (1)

201143955 VII. Patent application scope: 1. A high-speed hot press, comprising: a machine platform (1); a conveyor belt mechanism (2) disposed on the bottom surface of the bottom side of the machine platform (1); at least one device In the machine (1), at the top side of the conveyor belt mechanism (2), the modular hot pressing module (3); one at the top side of the hot pressing module (3), and each hot pressing The module (3) is connected and can drive the hot pressing module (3) to perform a moving mechanism (4) of simultaneous or separate X, γ axial (Y) (X, Y) displacement or rotation; An operating system (5) disposed in the machine (1) capable of controlling the operation of the conveyor belt mechanism (2), the hot pressing module (3) and the moving mechanism (4); characterized in that: a pulse type is set The δHai hot wedge group (3) is a hot pressing electrode (31) stacked in order from bottom to top; a heat dissipating module (32) disposed outside the hot pressing electrode (31); The horizontal adjustment module (33) at the top of the module (32). The top of the horizontal module (33) can (4) the front pressure electrode (々) U group (32) and level adjustment module (10), an actuation module (34) for reciprocating displacement of the shaft axis (2); and a top end of the actuation module (10) and electrically connected to the hot dust electrode (8) The connected alternating pressure β module (35) is composed; the top end structure (4) is a longitudinal support (41) which is disposed on the side of the machine (1) in parallel with two parallel opposites; (1) corresponds to each of the clock modes respectively. Group (3), set the distance between the longitudinal bearing rail and the secret bearing rail (4)), and connect with the hot surface group (3), the traverse rail (42), and each longitudinal rail (4)). ), it y-plane (7) lie traverse device 48 201143955 (43); and several are placed at the junction of each hot-press module (3) and the traverse track (42), and let each hot-press module (3 The suspension is suspended below the traverse rail (41), and can be driven by each of the hot pressing modules (3), the X-axis (X) movement, and/or the z-axis (7) rotation of the vertical displacement device (4). 2. The high-speed hot press according to claim 1, wherein the conveyor belt mechanism (2) is disposed on opposite sides of the top surface of the inner bottom side of the machine base, and is horizontally cut. a support frame (21) having a C-shaped shape and a closed end side; two outer seed plates respectively disposed on the open end side of the support frame (21) and closed (22); 1 is disposed on the two One side of the support frame (21) can drive the tray (5〇) to be displaced to the positioned front conveyor belt (23); one is disposed at the other side between the two support frames (21), and is transported with the front The belt (23) is connected to the 'tray (50) input by the front conveyor belt (23), and the rear conveyor belt (24) displaced to the positioning; one is disposed at the side between the two support frames (21) And connected to the front conveyor belt (23), the front side motor (25) capable of driving the front conveyor belt (23); and one disposed at the other side between the two support frames (21) The conveyor belt (24)* is connected to a rear motor (26) that can drive the rear conveyor belt (24). 3. The high-speed hot press according to claim 1, wherein the heat dissipation module (32) is further connected to a high-pressure gas source (5〇〇) disposed outside the heat-pressing module (3). The heat dissipation module (32) is composed of a first heat dissipation block (321); a second heat dissipation block (322) disposed at a rear end of the first heat dissipation block (321) at a pitch; The first heat dissipating block (321) and the bottom surface of the second heat dissipating block (322) are arranged in a gate shape, and can be used for holding the positioning component (324) for the fixed pulse type hot pressing electrode (31); And 49 201143955 is disposed on the top side of the first heat dissipating block (321) and the second heat dissipating block (322), and can be connected to both and connected to the horizontal adjusting module (33) for modular installation. a positioning plate (325); the first heat-dissipating block (321) and the X-axis (X) in the second heat-dissipating block (322) are respectively provided with a plurality of parallel-arranged and stacked longitudinal holes (326); The first heat-dissipating block (321) and the Y-axis (Y) in the second heat-dissipating block (322) are respectively provided with a plurality of front and rear holes (327) arranged in parallel and interlaced with the longitudinal holes (326). ) And the first heat dissipating block (321) and the Z axial direction (Z)' in the second heat dissipating block (322) are respectively arranged in a plurality of parallel arrangement, located in the longitudinal hole (326) φ and the front and rear holes (327) Vertical through holes (328) at the intersection; the first heat dissipation block (321) and the second heat dissipation are provided by the three-dimensional structure arrangement of the longitudinal holes (326), the front and rear holes (327), and the vertical through holes (328) The block (322) presents a porous cavity-shaped arrangement form to reduce the volume of the heat-pressing module (3), to the heat-pressing module (3), and to heat-modulate the module (3). )The goal. . 4. The high-speed hot press according to claim 1, wherein the horizontal adjustment module (33) is a base (331) having a Y-axis (γ) disposed on a top surface of the base. The first positioning groove (331A) and the plurality of slots (331B) distributed in the periphery of the base are provided with a bolt hole (331C) in the groove of the slot (331B), and a small fish eye hole is arranged adjacent to the slot. (331D); a top cover (332) having a second positioning groove (332A) disposed on the bottom surface of the top cover and corresponding to the first positioning groove in an X-axis (X), and a plurality of distribution holes (332A) distributed around the top cover a slot (332B) corresponding to the base slot (331B), the slot of the top cover slot (332B) is provided with a bolt hole (332C), and is disposed adjacent to the slot at a slot adjacent to the slot (332B) The fisheye hole (331D) is a fisheye hole (332D) which is vertically symmetrical; an angle adjusting unit (333) is a horizontal plate (333A) provided between the base (331) and the top cover (332). , an X-axis (X) is composed of a horizontal plate and a top cover 50 201143955 ^ upper cross bar (lion), a y-axis (γ) is a horizontal plate and a bottom wire combined with a lower cross bar (333 Ε) To make the base (331 Between the top cover (332) and the top cover (332), a distance (=)' is left on the horizontal plate (333 Α), and has a fourth positioning groove (333C) symmetrically disposed above and below the second positioning groove (332α), and the horizontal plate (333Α) below, having a third positioning groove (333Β) disposed symmetrically with respect to the first positioning groove (331Α), thereby providing the upper and lower two horizontal bars (333A, 333D) respectively into the positioning position; The spacing adjustment unit (334, 334') is interposed between the periphery of the base (331) and the periphery of the top cover (332), and each of the spacing adjustment units (334, 334,) has two slits respectively spanning the base ( 331B) a connecting block (334A, 334B) symmetrical with the top cover (332B), and a stop screw (334F, 334G) threaded through the two connecting blocks (334A, 334B); Elastic expansion and contraction elements (335), and two ends of each elastic expansion element (335) are inserted into the stopper bolts (335A, 335B) to be introduced into the base bolt holes (33lc) and the top bolt holes (332E) to make the elastic The telescopic element (335) is formed by shrinking and pulling the base (331) and the top cover (332); Unit (334, 334,), so that the angle adjusting unit (333) can be used as a pivot to change the base (331) and after about before angle, and be positioned. 5. The high speed hot press according to claim 1, wherein the horizontal adjustment module (33) is a base (331) having a gamma axial direction ([gamma]) disposed on a top surface of the base. a first positioning groove (331A) and a plurality of slots (331B) distributed in the corner of the base. The slot of the slot (331B) is provided with a bolt hole (331C), and a screw hole is arranged around the base (331). (331G, 331H); a top cover (332) having a second positioning groove (332A) disposed on the bottom surface of the top cover and corresponding to the first positioning groove in the X-axis (X), and a plurality of distribution holes on the top cover a slot (332B) corresponding to the base slot (331B), and a slot hole (332C) in the slot of the top cover slot (332B); an angle adjustment unit (333) is provided by a a horizontal plate (333A) between the base (331) and the top cover 51 201143955 (332), an upper crossbar (333D) in which the X-axis (X) is lost by the horizontal plate and the top cover, and a Y-axis It is composed of (Y) a lower crossbar (333E) sandwiched by the horizontal plate and the base, such that a distance (d) is left between the base (331) and the top cover (332), and the horizontal plate (333A) has a The second positioning described above (332A) a fourth positioning groove (333C) symmetrically disposed above and below, and a horizontal positioning plate (333A) having a third positioning groove (333B) disposed symmetrically with respect to the first positioning groove (331A), thereby providing the foregoing The upper and lower crossbars (333A, 333D) are respectively introduced into the positioning; the second stop screws (334F, 334G) are screwed through the screw holes (331G, 331H) of the base (331), and then the top cover (332) a bottom surface; and a plurality of elastic expansion elements (335), each end of each elastic expansion element (335) is separately inserted into the stoppers (335A, 335B) to be respectively embedded in the base slots (331B) and the top cover In the bolt holes (331C, 332E) of the slot (332B), the elastic expansion and contraction member (335) is formed by contracting and pulling the base (331) and the top cover (332); respectively, by adjusting the two stop screws (334F) 334G), the angle adjusting unit (333) is used as a pivot to change the front and rear angles of the base (331) and to position them. 6. The high speed hot press according to claim 1, wherein the actuating module (34) is a positioning push plate (341) connected to a top surface of the horizontal adjusting module (33); · at least one guide rod (341A) disposed on a side of the top end surface of the positioning push plate (341); one disposed on a top end surface of the positioning push plate (341), sleeved outside the guide rod (341A), and a transformer mold The group (35) is connected to a u-shaped positioning block (342) for guiding and positioning the guiding rod (private 1A); and is disposed in the u-shaped positioning block (342) to drive the positioning pushing plate (341) a pneumatic actuator (343) that reciprocates in the z-axis (z); - is disposed between the positioning push plate (341) and the u-shaped positioning block (342) to prevent the positioning push plate (341) from colliding with u The positioning block (342) (4) and the limiting block (344) are formed; 52 201143955 and the actuating module (34)' has two bottom side ends respectively screwed on the 1_shaped positioning block (342) One side outside, and the top side end is connected to the transformer module (35) to provide a fixing arm (345) for connecting the actuation module (34) and the transformer module (35), and each of the other The outer side of the fixed arm (345) is further provided with a vertical screw setting = Fixed arm (10)) towel center, _ above fixed arm (10) fixed ^ (345A); ^ The other transformer module (35) is a bottom connecting plate (351) screwed to the top end of the actuation module (34); ^ (353) a top connecting plate (352) axially coupled to the bottom end of the longitudinal shifting device (44); a plurality of support rods disposed between the bottom connecting plate (351) and the top connecting plate (352) are screwed and fixed to the foregoing The bottom connecting plate (351), the top connecting plate (352), and the supporting function (353) are electrically connected to the hot pressing electrode (31) and the operating system (5), and can provide a working voltage of the hot pressing electrode (31). The transformer (354) for controlling the operation thereof; and the plurality of screws are disposed outside the bottom connecting plate (351) and the top connecting plate (352), and can be composed of a module side plate (355) for protecting the peripheral device (354). 7. The high speed hot press according to claim 1, characterized in that: the longitudinal direction The bearing rail (41) and the traverse rail (42) are one of the following: an H-shaped rigid rail, a c-shaped rigid rail, an L-shaped rigid rail, a v-shaped rigid rail, a τ-shaped rigid rail; and two longitudinal bearing rails ( 41) The two opposite ends are respectively provided with a longitudinal positioning rod (45) capable of connecting the two longitudinal supports (41), and the two ends of the longitudinal bearing rail (41) are respectively provided with a traverse avoidance The traverse device (43) is separated from the limit post (46) of the longitudinal rail (41); and the traverse device (43) is a support plate (431) connected to the traverse rail (42); The group is arranged in the top side of the support plate (431) to abut the top horizontal wall top side of the longitudinal support (41), and can be used for driving the traverse and the longitudinal bearing (41) as the track. a traversing drive wheel set 53 (432) for gamma axial (γ) displacement; (432); 201143955 (10) f less - set in the Wei (431) L loping drive wheel set (432) in parallel Shaped, and can be placed against the lower horizontal wall bottom side of the longitudinal support (6) 'sew the horizontal_moving wheel set (432), the miscellaneous (10) woman is positioned on the longitudinal support wheel (41) vertical support wheel (433) At least - set in a top support block (436) at the junction of the support plate (431) and the traverse tunnel (42); and at least a bottom support block disposed at a joint below the support plate (431) and the traverse track (10) (437 And the side of the support plate (431) φ of the traverse device (43) adjacent to the operating system (5) is further provided with at least one disposed perpendicular to the traverse drive wheel set (432). And a horizontal single guide wheel (434) corresponding to the inner side of the vertical wall of the longitudinal bearing rail (41); and a side of the support plate of the traverse device (43) remote from the operating system (5) Having at least one transverse double guide wheel (435) disposed perpendicular to the traversing drive wheel set (432) and capable of abutting the vertical wall inner side corresponding to the longitudinal support rail (41); The device (44) is a horizontal connecting plate (441) disposed on the top surface of the transformer module (35) and connected thereto; the two are respectively vertically disposed on the horizontal connecting plate (441) and opposite sides a vertical side plate (442); two sets of oppositely embedded in the top end side of the corresponding horizontal connecting plate (441) are capable of abutting the upper horizontal bottom side of the traversing track (42) And can be used to drive the longitudinal displacement device (44), the longitudinally-shifting drive wheel set (443) displaced in the X-axis (X) by traversing the track (42); one set on the horizontal connecting plate (441) a bottom side, disposed perpendicular to the longitudinal drive wheel set (443), and capable of abutting the longitudinal double guide wheel (444) of the corresponding vertical wall inner side of the longitudinal bearing rail (41); 54 201143955 two sets Between the vertical side plates (442), and connecting the two vertical side plates (442), the top horizontal wall top side of the traverse track (42) can be abutted, and can be matched with the longitudinal driving wheel set (443). The shifting device (44) grips the support wheel set (445) positioned on the traverse track (42); and sequentially sets the connection to position the longitudinal shifting device (44) at the top of the transformer module (35) A connecting shaft (449) for connecting the transformer module (35), a positioning ring plate (448) for connecting the horizontal connecting plate (441), and a positioning bearing for positioning the connecting shaft (449) ( 447), and a positioning cap (446) for locating the bearing (447); • the bottom end of the support plate (431) of the traverse device (43) adjacent to the operating system (5) Further, a longitudinal plate (47); and a positioning bolt (48) for positioning the traverse rail (42) in the center of the longitudinal plate (47); and a horizontal connecting plate of the vertical displacement device (44) (441), adjacent to the two vertical side plates (442), respectively, is provided with a positioning inspection (48) for positioning the hot pressing module (3). 8. The high speed hot press according to claim 1, wherein the hot pressing module (3) further comprises a parallel X-axis (X), spanning the actuation module (34), a buffer material module (36) having a buffer material strip (40), the buffer material module (36) enabling the buffer material strip (40) to overheat the pressure electrode (31) in the X-axis (X); The buffer material module (36) is a hollow seat body (361) connected to the actuation module (34) and the transformer module (35); a motor device disposed at the top end of the hollow seat body (361) ( 362), between the motor device (362) and the seat side plate (361B), and coaxial with the motor device - a turntable (362A); one at the rear end of the hollow seat (361) and driven by the motor device (362) a transmission device (363); a feeding device (364) provided at the front end of the hollow seat body (361) and providing a buffer material band (4), the head end of the buffer material band (40) being driven by the transmission device ( 363) Collapse 55 201143955 to drive the feeding device (364); at least two strip brakes (365) respectively connected to the above-mentioned foot plates (361C, 361D) 'The strip surface member (365) will be hot pressed When the module (3) is activated a strip of material (10) to prevent the buffer strip (10) from loosening; and ', at least two of which are respectively coupled to the long rods (361F, 361G) to hold the cushioning material strip (40) and the thermocompression module (3) a spacing belt guide member (366), the hollow seat body (361) is at the bottom of the front and rear ends of the one side plate (361A, 361B), each of which has a foot plate (361C, 361D), and the two The foot plates (36lc, 361D) are respectively pivotally connected with an adjusting rod (361F, 361G); and the transmission device (363) has a transmission shaft (363A) disposed on the side plate (361B) of the seat body, a drive plate (363B) that is driven by the drive shaft and driven by the turntable (362A) of the motor unit (362), a first rotating wheel (363C) that is disposed at the shaft end of the drive shaft, and a seat side plate (361B) a strut (363H) spaced apart from the drive shaft, a first press-fit member (3631) perpendicularly extending the strut, a press-fit wheel disposed at the end of the first press-fit member and capable of pressing the first reel (363J); the feeding device (364) further has a fixed rotating shaft (364A) disposed on the side plate (361b) of the seat body, and a opposite side plate (361A) disposed on the seat body. a clamping shaft (364C), a feeder (364G) sandwiched between the fixed shaft (364A) and the locking shaft (364C) to provide a cushioning material strip (364), and a seat side A shaft brake member (364H) that is coupled to the fixed plate (3 64A) to decelerate and stop the fixed shaft (3 64A); each belt brake member (365) has a cross portion at one end connected to the surface of the foot plate (361C, 361D) a shaft (365A), a second rotating wheel (365B) connected to the other end of the horizontal axis, and an arm (365C) connected to the horizontal axis; one end of the arm (365C) is clamped to the horizontal axis (365A) The other arm end is parallel to the second rotating wheel (365B), and a small pressing member (365D) is vertically disposed at the arm end; and each tape guiding member (366) has one end coupled to the foot plate ( 361F, 361G) horizontal axis (366A) of the plate surface, a third rotating wheel 56 connected to the other end of the horizontal axis, 201143955 (366B); the side plate (361A, 361B) of the hollow seat (361) a window (361H) capable of displaying the internal structure, and a plurality of shafts for the above-mentioned transmission (363) and the feeding device (364), and a smooth bearing shaft (3611), on each side The inner surface of the plate (361A, 361B) is further provided with a connecting block (361J) for connecting the actuating module (34), so that the actuating module (34) can pass through the connecting block (361J) and the transformer module (35) Connection. 9. A process application method for a high-speed hot press, comprising: preparing steps: providing a feeding device (1〇〇), which can be sequentially input by a circuit board (2〇), and at least one flexible circuit board ( 30) The processing component (1 Q ); A. providing a positioning device (2〇〇) provided at the discharge end of the feeding device (1 〇〇), which can predefine the flexible circuit board (30) The combined portion of the circuit board (2〇) is placed at a corresponding predetermined position on the circuit board (20) and placed on the corresponding tray (other); at least one is provided as described in the request item, The high-speed hot press (300) at the discharge end of the alignment device (2〇〇) can heat-combine the portion of the soft circuit that is intended to be combined with the circuit board (20) and the circuit board (10); A discharge device (4〇〇) capable of outputting the processed component (10) disposed at the discharge end of the last high-speed hot press (3〇〇); process steps: First step: Start the high-speed hot press (3〇〇); “Step 2: Start the adjustment process” Adjust the high-speed hot press (3〇〇) The position of the hot pressing electrode (31) of the thermal module (3), the direction of the hot pressing electrode (31), and the level of the hot pressing strip (31) allow the hot pressing electrodes (31) of each hot pressing module (3) to be The portion of the corresponding flexible circuit board (30), which is intended to be combined with the circuit board (2〇); the third step: starting the preliminary process, starting the feeding device (1〇〇), the alignment device 57 201143955 (200), and discharge device (400); Step 4: Start the feed registration process, start the processing component (10) sequentially through the feeding device (1〇〇;), and pass through the alignment device (2〇〇), the part of the flexible circuit board (30) pre-twisted with the circuit board (2〇) is placed on the corresponding predetermined position on the circuit board (2〇) and placed on the corresponding tray (5) 〇) Step 5: Start the hot pressing process, complete the alignment processing component (10), and support, (50) - at the same position by the alignment device (200), through the high-speed hot press (3〇〇) transport τ柢:Construction (2), continuous input high-speed hot press (3〇〇), in the high-speed hot press (3〇〇), start to move sequentially under each hot-pressing module (3), so that each hot pressing The module starts to operate in sequence, and finally all the hot pressing modules (3) are started to be processed in parallel so that each flexible circuit board (30) can be corresponding to the predetermined position on the circuit board (2〇). Produce a stable hot pressing combination effect; Steps / Steps. Start the discharge process, complete the processing component of the hot pressing process (1〇) 'Conveyor belt mechanism with high speed hot press (300) together with the tray (50) (2) , output to the discharge device (side) to transfer to the predetermined placement through the discharge device (side). 10. The process application method of the high-speed hot press according to claim 9, characterized in that: the alignment device (200) is one of the following: eight automatic alignment machine (10) A), capable of passing through automated machinery Device, the aforementioned softness a portion of the circuit board (10) that is intended to be combined with the f-way board (10) is placed at a corresponding predetermined position on the circuit board (20); "a manual alignment station (2 〇〇 β) can be manually operated by the manual The portion of the flexible circuit board (10) that is intended to be combined with the circuit board (10) is placed at a corresponding predetermined position on the circuit board (20); and in the third step of the process step, it may further include - depending on the processing component) 1Q, and choose whether to install the % punching module (36) or the buffering module (36) in the hot-pressing module of the high-speed hot press (fine), in order to transfer, k-pass, The face mask module (3) is suitable for the step of processing the component (1()).