CN211792277U - FPC forming equipment - Google Patents

Abstract

The utility model discloses a FPC forming device, which comprises a first turntable and a second turntable which are arranged side by side, wherein a feeding device is positioned at one side of the first turntable, the first turntable is sequentially provided with a positioning device, a cleaning device, a shaping device, a film tearing device, a bending and mounting device and a cold pressing device for cold pressure maintaining along the conveying direction of the first turntable, and the second turntable is sequentially provided with a hot pressing device and a detection device along the conveying direction of the second turntable; the first rotary table acts to enable the workpieces on the rotary table to sequentially pass through the positioning device, the cleaning device, the shaping device, the film tearing device, the bending and mounting device and the cold pressing device, then the workpieces are conveyed to the second rotary table by the first rotary table, and the second rotary table acts to enable the workpieces to sequentially pass through the hot pressing device and the detection device. The utility model discloses a FPC former can carry out plastic, dyestripping, bend and paste dress, coldly press, hot pressing and detect the product in proper order, collects various manufacturing procedure's device in an organic whole, has improved product precision, yields and production efficiency greatly.

Description

FPC forming equipment

Technical Field

The utility model relates to an automation equipment technical field especially relates to a FPC former.

Background

The FPC has the characteristics of high wiring density, light weight, thin thickness and the like, and is suitable for various electronic equipment such as mobile phones, notebook computers and the like. The manufacturing process of the FPC is various, in the prior art, independent equipment is generally arranged for each procedure to process each procedure, the production period is long, multiple times of positioning exist, and a produced product has certain errors.

Therefore, there is a need for an FPC molding apparatus that can realize the automatic production of a plurality of processes such as FPC cleaning, bending, and mounting on one apparatus.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a collect wash, bend, paste multichannel processes such as dress in automatic FPC former of an organic whole.

In order to achieve the purpose, the utility model provides FPC forming equipment, which comprises a feeding device and a discharging device which are arranged on a frame, and a first turntable and a second turntable which are arranged side by side, wherein the feeding device is positioned at one side of the first turntable, and the discharging device is positioned at one side of the second turntable; the first rotary disc is sequentially provided with a positioning device for positioning, a cleaning device for cleaning, a shaping device for shaping and positioning, a film tearing device for tearing a protective film, a bending and mounting device for bending and mounting and a cold pressing device for cold pressure maintaining along the conveying direction of the first rotary disc, the conveying device is further arranged between the first rotary disc and the second rotary disc, and the second rotary disc is sequentially provided with a hot pressing device for hot pressure maintaining and a detection device for detection along the conveying direction of the second rotary disc; the first rotary table and the second rotary table are respectively provided with a first jig positioning mechanism for placing a workpiece, the feeding device places the workpiece on the first jig positioning mechanism, the first rotary table acts to enable the workpiece on the first jig positioning mechanism to sequentially pass through the positioning device, the cleaning device, the shaping device, the film tearing device, the bending and mounting device and the cold pressing device, then the workpiece is conveyed to the second rotary table from the first jig positioning mechanism on the first rotary table by the conveying device, the second rotary table acts to enable the workpiece to sequentially pass through the hot pressing device and the detecting device, and finally the workpiece is discharged by the discharging device.

Compared with the prior art, the utility model discloses a FPC former adopts the first tool positioning mechanism of mode conveying of carousel conveying, the successively processing order according to the work piece has set gradually positioner around the first carousel, cleaning device, the shaping device, the dyestripping device, bend and paste dress device and cold press device, the work piece is placed on the first tool positioning mechanism of feeding station by feed arrangement, rotate first carousel, so that the first tool positioning mechanism that has the work piece is in proper order through positioner, cleaning device, the shaping device, the dyestripping device, bend and paste dress device and cold press device. Similarly, the workpieces are conveyed to the first jig positioning mechanism of the second rotary table through the conveying device, the hot pressing device and the detection device are sequentially arranged on the periphery of the second rotary table according to the sequence of the workpieces, the second rotary table is rotated, the workpieces are firstly subjected to hot pressing and then detected, qualified products are detected to be discharged from a good product discharging area of the discharging device, and unqualified products are detected to be discharged from a defective product discharging area of the discharging device. The utility model discloses a FPC former can carry out plastic, dyestripping, bend and paste the dress, coldly press, hot pressing and detect the product in proper order, collects various manufacturing procedure's device in an organic whole, and overall arrangement is compact reasonable, need not fix a position many times, has improved product precision, yields and production efficiency greatly.

Preferably, the positioning device is matched with the first jig positioning mechanism to position and adjust the workpiece placing position on the first jig positioning mechanism, so that the workpiece is matched with each device in the subsequent process to be molded; the first jig positioning mechanism comprises a first positioning component for adjusting the position of a workpiece in a first direction and a second positioning component for adjusting the position of the workpiece in a second direction, the positioning device comprises a first positioning component matched with the first positioning component and a second positioning component matched with the second positioning component, the first positioning component acts to enable the first positioning component to adjust the position of the workpiece in the first direction, and the second positioning component acts to enable the second positioning component to adjust the position of the workpiece in the second direction.

Preferably, the cleaning device comprises a first pressing mechanism and a cleaning structure which are arranged on the rack, and the first pressing mechanism presses the workpiece on the first jig positioning mechanism so that the cleaning structure cleans the workpiece; the cleaning structure comprises a cleaning belt, a first feeding mechanism for feeding the cleaning belt, a cleaning mechanism for cleaning workpieces and a first receiving mechanism for collecting the cleaning belt; the cleaning belt is conveyed to the cleaning mechanism through the first feeding mechanism, the cleaning mechanism cleans the workpiece on the first jig positioning mechanism through the cleaning belt, and the cleaned cleaning belt is recovered through the first material receiving mechanism.

Preferably, the film tearing device comprises a second pressing mechanism and a film tearing structure which are arranged on the rack, and the second pressing mechanism presses the workpiece on the first jig positioning mechanism so that the film tearing structure tears the workpiece; the film tearing structure comprises a clamping mechanism for clamping the workpiece protective film and a rotating mechanism for driving the clamping mechanism to rotate to tear the film, and the rotating mechanism is connected with the clamping mechanism.

Preferably, the first jig positioning mechanism is provided with a bending piece, the bending and mounting device comprises a third pressing mechanism and a bending and mounting structure which are arranged on the rack, and the third pressing mechanism presses the workpiece on the first jig positioning mechanism so that the bending and mounting structure performs bending and mounting on the workpiece; the bending and mounting structure comprises a driving assembly and a first limiting part which are matched with the bending piece, and the driving assembly and the first limiting part are respectively matched with the bending piece so that the bending piece drives a workpiece on the positioning device to be bent and mounted.

Preferably, the cold pressing device comprises a first pressing mechanism, a first counterweight mechanism and a first pulley assembly, wherein the first pressing mechanism and the first counterweight mechanism are arranged on the rack, the first pulley assembly is connected between the first pressing mechanism and the first counterweight mechanism, the first pressing mechanism is pressed on the workpiece on the first jig positioning mechanism by the aid of the first pulley assembly, and the gravity of the first counterweight mechanism acts on the first pressing mechanism.

Preferably, the hot-pressing device comprises a second jig positioning mechanism for placing the workpiece, a protective belt for protecting the workpiece, a hot-pressing structure for hot-pressing the workpiece, a second feeding mechanism for conveying the protective belt, a second receiving mechanism for collecting the protective belt and a fourth material taking mechanism for taking and placing the workpiece; the fourth material taking mechanism picks up the workpiece from the first jig positioning mechanism and places the workpiece on the second jig positioning mechanism, the second feeding mechanism conveys the protective belt to enable the protective belt to cover the workpiece, the hot pressing mechanism acts on the workpiece covered with the protective belt to carry out hot pressing and shaping on the workpiece, and the used protective belt is collected by the second material collecting mechanism.

Preferably, the hot pressing structure includes a second pressing mechanism, a second counterweight mechanism, and a second pulley assembly connected between the second pressing mechanism and the second counterweight mechanism, the second pressing mechanism includes a second pressing assembly and a heating assembly, the heating assembly is used for heating the second pressing assembly, the heated second pressing assembly is pressed on the workpiece on the second jig positioning mechanism, and the second pulley assembly is used for enabling the gravity of the second counterweight mechanism to act on the second pressing assembly for hot pressing and shaping.

Preferably, the detection device comprises a CCD detection structure and a resistance test structure, the CCD detection structure is used for appearance detection of the workpiece, and the resistance test structure is used for resistance test of the workpiece.

Preferably, the feeding device comprises a first material taking mechanism arranged in a sliding manner so as to convey the workpiece from the feeding device to the first turntable; the conveying device is provided with a second material taking mechanism in sliding arrangement so as to convey the workpieces to the second rotary table from the first rotary table, the discharging device comprises a good product discharging area, a defective product discharging area and a third material taking mechanism in sliding arrangement, and the third material taking mechanism is used for conveying the workpieces to the good product discharging area or the defective product discharging area from the second rotary table.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a schematic structural diagram of an FPC molding apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic view of the FPC molding apparatus of fig. 1 from another angle.

Fig. 3 is a schematic view of a further angle of the FPC molding apparatus of fig. 1.

Fig. 4 is a partial structural schematic view of the feeding device in fig. 1.

Fig. 5 is a partial structural schematic view of the positioning device in fig. 1.

Fig. 6 is a schematic structural diagram of the first jig positioning mechanism in fig. 1.

Fig. 7 is a rear view of the first positioning assembly and the second positioning assembly of fig. 6.

Fig. 8 is a schematic structural view of the first positioning member and the second positioning member in fig. 5.

Fig. 9 is a schematic structural view of the bending member in fig. 6.

Fig. 10 is a schematic structural view of the cleaning device and the first jig positioning mechanism in fig. 1.

Fig. 11 is a schematic view of the structure of the cleaning apparatus of fig. 1.

Figure 12 is a schematic view of the construction of the film tearing apparatus of figure 1.

Fig. 13 is a schematic structural view of the bending attachment device in fig. 1.

Fig. 14 is a schematic structural view illustrating the bending member in fig. 13 being respectively engaged with the driving assembly and the first limiting member.

Fig. 15 is a schematic structural view of the cold press apparatus of fig. 1.

Fig. 16 is a schematic view of the fourth take off mechanism of fig. 1.

Fig. 17 is a schematic structural view of the hot press apparatus of fig. 1.

Fig. 18 is a schematic view of the hot press device of fig. 17 at another angle.

Fig. 19 is a partial structural view of the CCD detecting structure of fig. 1.

Fig. 20 is a partial structural schematic diagram of the resistance test structure of fig. 1.

Description of reference numerals:

1000. FPC forming equipment; 1001. a frame;

100. a first turntable; 101. a material tray; 102. a workpiece; 110. a feeding device; 111. a first slide assembly; 112. a second slide assembly; 113. a first material taking mechanism; 114. a first material taking suction nozzle; 120. a positioning device; 121. a first positioning member; 122. a second positioning member; 123. a first cylinder; 130. a cleaning device; 131. a first feeding mechanism; 1311. a first feed roller; 1312. a first guide wheel; 1313. a first elastic member; 1314. a first limit component; 1315. a first motor; 132. a cleaning mechanism; 1321. a detergent container; 1322. a cleaning member; 1323. a second guide wheel; 1324. a second elastic member; 1325. a first fixed seat; 133. a first material receiving mechanism; 1331. a first material receiving roller; 1332. a second motor; 134. a first moving structure; 135. a cleaning belt; 140. a shaping device; 150. a film tearing device; 151. a second pressing mechanism; 152. a gripping mechanism; 153. a rotation mechanism; 154. a second moving structure; 155. a vacuum mechanism; 160. a bending and mounting device; 161. a third material pressing mechanism; 162. a drive assembly; 1621. a drive member; 1622. a third elastic component; 163. a pushing mechanism; 164. a lifting mechanism; 165. a limiting mechanism; 1651. a first limit piece; 1652. a limiting cylinder; 1653. a second limiting component; 170. a cold pressing device; 171. a first pressing mechanism; 172. a first sheave assembly; 173. a first counterweight mechanism; 180. a conveying device;

10. a first jig positioning mechanism; 11. a jig; 12. a first positioning assembly; 1201. a first bevel projection; 13. a second positioning assembly; 1301. a second bevel projection; 14. a recess; 15. bending a piece; 1501. bending the body; 1502. a cam portion; 1503. an avoidance part; 1504. bending the block; 1505. an installation part;

200. a second turntable; 210. a first hot-pressing device; 211. a fourth material taking mechanism; 2111. a material taking sucker; 212. a second pressing mechanism; 2121. a second pressing component; 2122. a heating assembly; 213. a second feeding mechanism; 2131. a second feed roller; 2132. protecting the belt; 2133. a third guide wheel; 214. a second material receiving mechanism; 2141. a second material receiving roller; 215. a second counterweight mechanism; 216. a second jig positioning mechanism; 220. a second hot-pressing device; 230. a CCD detection structure; 231. a CCD camera; 240. a resistance test structure; 241. a first testing mechanism; 2411. a first detecting member; 2412. a third press-fit assembly; 2413. a second cylinder; 242. a second testing mechanism; 2421. a second detecting member; 2422. a fourth press-fit assembly; 2423. a third cylinder; 243. an auxiliary positioning mechanism; 250. a discharging device; 251. a good product discharge area; 252. and a defective product discharge area.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1 to 4, the present invention provides an FPC molding apparatus 1000, which includes a feeding device 110, a discharging device 250, a first turntable 100 and a second turntable 200 disposed on a rack 1001 side by side, wherein the feeding device 110 is disposed on one side of the first turntable 100, and is used for sucking a workpiece 102 on a tray 101 to a first jig positioning mechanism 10 disposed on the first turntable 100. The discharging device 250 is located at one side of the second turntable 200 and is used for discharging the workpiece 102 with the detected forming. Specifically, the first rotating disk 100 is sequentially provided with a positioning device 120 for positioning, a cleaning device 130 for cleaning, a shaping device 140 for shaping and positioning, a film tearing device 150 for tearing a protective film, a bending mounting device 160 for bending mounting, and a cold pressing device 170 for cold pressure maintaining along the conveying direction of the first rotating disk. A transfer device 180 is also provided between the first carousel 100 and the second carousel 200, and the workpieces 102 are transferred from the first carousel 100 to the second carousel 200 by the transfer device 180. The second rotary table 200 is provided with a hot press device for heat pressure maintaining and a detection device for detection in this order along the conveying direction thereof. The first turntable 100 and the second turntable 200 are respectively provided with a first jig positioning mechanism 10 for placing the workpiece 102, and the first turntable 100 and/or the second turntable 200 rotate, so that the first jig positioning mechanism 10 sequentially passes through devices of various procedures along with the rotation of the first turntable 100 and the second turntable 200, and the workpiece 102 is subjected to forming processing of corresponding devices. The feeding device 110 places the workpiece 102 on the first jig positioning mechanism 10, the first rotary table 100 operates to enable the workpiece 102 on the first jig positioning mechanism 10 to sequentially pass through the positioning device 120, the cleaning device 130, the shaping device 140, the film tearing device 150, the bending and mounting device 160 and the cold pressing device 170, then the workpiece 102 is conveyed to the second rotary table 200 from the first jig positioning mechanism 10 on the first rotary table 100 through the conveying device 180, the second rotary table 200 operates to enable the workpiece 102 to sequentially pass through the hot pressing device and the detection device, and finally the workpiece 102 is discharged through the discharging device 250.

After the technical scheme above the adoption, the utility model discloses a FPC former 1000 adopts the mode of carousel conveying to convey first tool positioning mechanism 10, positioning device 120 has set gradually according to the processing order in proper order of work piece 102 around first carousel 100, cleaning device 130, shaping device 140, tear film device 150, bend and paste dress device 160 and cold press device 170, work piece 102 is placed on the first tool positioning mechanism 10 of feeding station by feed arrangement 110, rotate first carousel 100, so that the first tool positioning mechanism 10 that has work piece 102 passes through positioning device 120 in proper order, cleaning device 130, shaping device 140, tear film device 150, bend and paste dress device 160 and cold press device 170. Similarly, the workpiece 102 is conveyed to the first jig positioning mechanism 10 of the second turntable 200 through the conveying device 180 from the first turntable 100, the hot pressing device and the detection device are sequentially arranged around the second turntable 200 according to the sequence of processing the workpiece 102, the second turntable 200 is rotated, so that the workpiece 102 is firstly hot pressed and then detected, qualified products are discharged from the good product discharging area 251 of the discharging device 250, and unqualified products are discharged from the bad product discharging area 252 of the discharging device 250. The utility model discloses a FPC former 1000 can carry out the plastic to the product in proper order, tear the membrane, bend the subsides dress, coldly press, hot pressing and detect, collect various manufacturing procedure's device in an organic whole, and overall arrangement is compact reasonable, need not fix a position many times, has improved product precision, yields and production efficiency greatly.

Referring to fig. 5 to 8, in some alternative embodiments, the positioning device 120 cooperates with the first jig positioning mechanism 10 to position and adjust the position of the workpiece 102 on the first jig positioning mechanism 10, so that the workpiece 102 cooperates with each device for forming in a post-process. The first jig positioning mechanism 10 includes a jig 11 for placing the workpiece 102, and a concave portion 14 for each device to operate the workpiece 102 is formed in the jig 11, so that each device is not blocked when processing the workpiece 102 by providing the concave portion 14. Specifically, the fixture further comprises a first positioning component 12 for adjusting the position of the workpiece 102 in the first direction and a second positioning component 13 for adjusting the position of the workpiece 102 in the second direction, wherein the first positioning component 12 and the second positioning component 13 are both movably and telescopically arranged on the fixing base to position the workpiece 102 on the fixture 11. The first positioning component 12 is connected with a first inclined projection 1201, the first inclined projection 1201 is positioned below the first positioning component 12, the second positioning component 13 is connected with a second inclined projection 1301, and the second inclined projection 1301 is positioned below the second positioning component 13. The first cylinder 123 of the positioning device 120 is activated to push the first positioning member 121 of the positioning device 120 against the inclined surface of the first inclined projection 1201, so that the first positioning assembly 12 adjusts the position of the workpiece 102 in the first direction. Meanwhile, the second positioning element 122 of the positioning device 120 pushes the inclined surface of the second inclined protrusion 1301, so that the second positioning element 13 adjusts the position of the workpiece 102 in the second direction. The positioning device 120 is used to position and adjust the workpiece 102 from the feeding device 110, so that the workpiece 102 on the first fixture positioning mechanism 10 can be accurately positioned, and the subsequent processes can be smoothly processed. It is understood that the second direction is a direction arranged along the jig 11 on the first jig positioning mechanism 10, and the first direction is a direction perpendicular to the second direction on the first jig positioning mechanism 10.

Referring to fig. 10 and 11, in some alternative embodiments, the workpiece 102 is cleaned after the workpiece 102 is positioned, so as to prevent impurities such as dust from affecting the processing precision and the processing effect. The cleaning device 130 includes a first pressing mechanism and a cleaning structure, which are disposed on the rack 1001, and the first pressing mechanism presses the workpiece 102 on the first fixture positioning mechanism 10, so that the cleaning structure cleans the workpiece 102. The cleaning structure comprises a cleaning belt 135, a first feeding mechanism 131 for feeding the cleaning belt 135, a cleaning mechanism 132 for cleaning the workpiece 102, and a first receiving mechanism 133 for collecting the cleaning belt 135; the cleaning belt 135 is sent to the cleaning mechanism 132 by the first feeding mechanism 131, the cleaning mechanism 132 cleans the workpiece 102 on the first jig positioning mechanism 10 by the cleaning belt 135, and the cleaned cleaning belt 135 is recovered by the first material receiving mechanism 133. Specifically, the first feeding mechanism 131 includes a first feeding roller 1311, a first guide wheel 1312, a first elastic component 1313, a first limiting component 1314 and a first motor 1315; the structure of the first material receiving mechanism 133 is similar to that of the first feeding mechanism 131, and the first feeding mechanism 131 and the first material receiving mechanism 133 are symmetrically disposed on two sides of the cleaning mechanism 132. The first motor 1315 of the first feeding mechanism 131 is activated to rotate the first feeding roller 1311 clockwise or counterclockwise, thereby feeding the cleaning belt 135 out of the first feeding roller 1311 and along the plurality of first guide wheels 1312 to the cleaning mechanism 132. The first stop assembly 1314 can prevent the cleaning belt 135 from separating from the feeding track due to excessive sliding amplitude. The first motor 1315 is started and the second motor 1332 is started to rotate the first receiving roller 1331 in a direction opposite to the rotation direction of the first feeding roller 1311, so that the cleaned cleaning belt 135 can be recovered to the first receiving roller 1331. The cleaning mechanism 132 includes a cleaning agent container 1321, a cleaning member 1322, a second guide wheel 1323, a second elastic member 1324, and a first fixing seat 1325. Specifically, the cleaning belt 135 is guided by the first guide wheel 1312 to the second guide wheel 1323, so that the cleaning belt 135 is wound around the cleaning member 1322, and the cleaning agent container 1321 for containing the cleaning agent is obliquely installed on the rack 1001 through the first fixing seat 1325. The detergent container 1321 includes a feeding port through which detergent enters the detergent container 1321, a discharging port connected to the cleaning member 1322, and an air inlet through which air is introduced to flow the detergent in the detergent container 1321 onto the cleaning member 1322, so that the detergent cooperates with the cleaning belt 135 to better clean the workpiece 102. The detergent container 1321 is arranged obliquely for better discharge. In this embodiment, a second elastic component 1324 is disposed on the cleaning device 130 along the feeding direction of the cleaning belt 135, the second elastic component 1324 is connected to the first fixing seat 1325, and a first elastic component 1313 perpendicular to the second elastic component 1324 is further disposed, wherein the first elastic component 1313 is respectively disposed at the first feeding mechanism 131 and the first receiving mechanism 133. The first elastic member 1313 and the second elastic member 1324 are provided to increase the friction of the cleaning belt 135 in the front, rear, left, and right directions, so that the cleaning belt 135 has a certain swing width to better clean the workpiece 102. The cleaning device 130 further includes a first moving structure 134 for moving the cleaning structure back and forth and left and right, and the cleaning structure is moved close to the workpiece 102 at various positions by the first moving structure 134. In this embodiment, the cleaning belt 135 is a dust-free cloth, and the cleaning agent is alcohol, but the cleaning belt 135 and alcohol may be other.

Referring to fig. 1 to 3, the cleaned workpiece 102 passes through the shaping device 140 to shape the flat cable on the workpiece 102 and pre-position the workpiece 102, and the shaping device 140 sucks the flat cable on the workpiece 102 by vacuum suction to shape the flat cable so as to prevent the flat cable from affecting the processing of the subsequent process.

Referring to fig. 12, in some alternative embodiments, the film tearing device 150 includes a second pressing mechanism 151 and a film tearing structure, which are disposed on the rack 1001, and the second pressing mechanism 151 presses the workpiece 102 on the first fixture positioning mechanism 10, so that the film tearing structure tears the workpiece 102. The film tearing structure comprises a clamping mechanism 152 for clamping the protective film of the workpiece 102, and a rotating mechanism 153 for driving the clamping mechanism 152 to rotate the torn film, wherein the rotating mechanism 153 is connected to the clamping mechanism 152. Specifically, the second pressing mechanism 151 includes a pressing component for pressing and a cylinder for driving the pressing component to press. The clamping mechanism 152 of the film tearing device 150 approaches the workpiece 102 through the second moving mechanism 154 and clamps the protective film on the workpiece 102, the rotating mechanism 153 drives the clamping mechanism 152 to rotate to tear off the protective film, and the torn protective film is sucked away through the vacuum mechanism 155, so that the protective film on the clamping mechanism 152 does not affect the film clamping of the next process.

Referring to fig. 13 and 14, in some alternative embodiments, the first jig positioning mechanism 10 is provided with a bending member 15, and the bending member 15 includes a bending body 1501, a cam portion 1502 at one end of the bending body 1501, a bending block 1504 at the other end of the bending body 1501, an avoiding portion 1503 opened on the bending body 1501, and an installation portion 1505 at one side of the cam portion 1502. The cam portion 1502 is rotatably mounted on the positioning device 120, the bending body 1501 is further provided with a mounting portion 1505 at one end of the cam portion 1502, the bending body 1501 is rotatably mounted on the fixed seat through the mounting portion 1505, and the mounting portion 1505 is further provided with a reset piece for enabling the bending piece 15 to always have a reset tendency. The return member is a torsion spring around which the bending member 15 rotates, and when the force of the driving assembly 162 is removed, the torsion spring pulls the member back to the initial position. Specifically, the bending piece 15 is used for bending and mounting the workpiece 102 after the film of the workpiece 102 is torn, the cam portion 1502 is pressed by arranging an arc surface matched with the cam portion 1502, so that the cam portion 1502 rotates around the mounting portion 1505, a limiting member is arranged below the bending block 1504 to limit the movement of the bending block 1504 in the vertical direction, the edge of the bending block 1504, which is in contact with the workpiece 102, is not in contact with the back glue on the workpiece 102, the workpiece 102 is bent, and the cam portion 1502 is continuously pressed after the bending, so that the bending block 1504 continuously moves in the horizontal direction, and the workpiece 102 is mounted on a component to be mounted.

Specifically, the bending and mounting device 160 includes a third pressing mechanism 161 and a bending and mounting structure, which are disposed on the rack 1001, and the third pressing mechanism 161 presses the workpiece 102 on the first jig positioning mechanism 10, so that the bending and mounting structure performs bending and mounting on the workpiece 102. The bending and mounting structure includes a driving assembly 162 and a first limiting member 1651 which are matched with the bending member 15, and the driving assembly 162 and the first limiting member 1651 are respectively matched with the bending member 15, so that the bending member 15 drives the workpiece 102 on the positioning device 120 to be bent and mounted. The driving assembly 162 includes a driving member 1621 engaged with the cam portion 1502, and one end of the driving member 1621 is provided with a third elastic assembly 1622 for buffering. The lifting mechanism 164 drives the plurality of driving assemblies 162 to simultaneously lift up to make the driving member 1621 approach the bending member 15, and the pushing mechanism 163 pushes the driving member 1621 to make the driving member 1621 push against the cam portion 1502, so that the bending member 15 rotates along the mounting portion 1505. The bending machine further comprises a limiting mechanism 165, wherein a first limiting piece 1651 is arranged at a position, close to the bending block 1504, of the limiting mechanism 165, the limiting cylinder 1652 drives the first limiting piece 1651 to ascend to a position, close to the bending block 1504, and a second limiting component 1653 used for limiting the ascending height of the first limiting piece 1651 is further arranged so that the first limiting piece 1651 can not impact the bending piece 15.

Referring to fig. 15, in some alternative embodiments, the workpiece 102 may need to be shaped and pressure-maintained after the workpiece 102 is bent and mounted in the previous process. The cold pressing device 170 includes a first pressing mechanism 171, a first counterweight mechanism 173, and a first pulley assembly 172 connected between the first pressing mechanism 171 and the first counterweight mechanism 173, and the first pulley assembly 172 is used to enable the gravity of the first counterweight mechanism 173 to act on the first pressing mechanism 171, so that the first pressing mechanism 171 presses the workpiece 102 on the first jig positioning mechanism 10. The gravity of the counterweight in the vertical direction is converted into the pressure acting on the workpiece 102 in the horizontal direction through the pulley assembly, so that the first pressing mechanism 171 has sufficient pressure to perform pressure maintaining and shaping on the workpiece 102. Adopt counter weight mechanism to carry out the pressurize, can increase pressure through increasing the balancing weight, reduce the balancing weight and come the reduce pressure, compare with the pressure that the cylinder provided, do not have the unstable condition of atmospheric pressure, the pressure that counter weight mechanism provided is more stable, can not harm work piece 102.

Referring to fig. 16 to 18, in some alternative embodiments, the hot pressing apparatus includes a second jig positioning mechanism 216 for placing the workpiece 102, a protective tape 2132 for protecting the workpiece 102, a hot pressing structure for hot pressing the workpiece 102, a second feeding mechanism 213 for conveying the protective tape 2132, a second receiving mechanism 214 for collecting the protective tape 2132, and a fourth material taking mechanism 211 for taking and placing the workpiece 102. The fourth material taking mechanism 211 picks up the workpiece 102 from the first jig positioning mechanism 10 by the material taking suction cup 2111 and places the workpiece on the second jig positioning mechanism 216, the second feeding mechanism 213 conveys the protective tape 2132 to cover the workpiece 102 with the protective tape 2132, the hot pressing mechanism acts on the workpiece 102 covered with the protective tape 2132 to perform hot pressing and shaping on the workpiece 102, and the used protective tape 2132 is collected by the second material collecting mechanism 214. The workpiece 102 is picked up and placed from the first jig positioning mechanism 10 to the second jig positioning mechanism 216 by the fourth material taking mechanism 211, and the fourth material taking mechanism 211 includes a material taking suction cup 2111 for taking material. The second feeding roller of the second feeding mechanism 213 rotates clockwise or counterclockwise under the action of the power member to convey the protection belt 2132, and meanwhile, the second receiving roller 2141 of the second receiving mechanism 214 rotates under the action of the corresponding power member, and the rotation direction is opposite to that of the second feeding roller. The protective tape 2132 is guided by the third guide wheel 2133 to cover the workpiece 102, so as to prevent the workpiece 102 from being scalded during the hot pressing process. The used protective tape 2132 is guided to the second material receiving roller 2141 by another third guide wheel 2133 to be collected. In this embodiment, the protective tape 2132 is an adhesive tape.

Referring to fig. 16 to 18, in some alternative embodiments, the hot pressing structure includes a second pressing mechanism 212, a second weight mechanism 215, and a second pulley assembly connected between the second pressing mechanism 212 and the second weight mechanism 215, the second pressing mechanism 212 includes a second pressing assembly 2121 and a heating assembly 2122, the heating assembly 2122 is used for heating the second pressing assembly 2121, the heated second pressing assembly 2121 presses the workpiece 102 placed on the second jig positioning mechanism 216 to heat the second pressing assembly 2121, and the heated second pressing assembly 2121 can better perform pressure holding and shaping on the bent and mounted workpiece 102. The gravity of the second weight mechanism 215 acts on the second pressing component 2121 via the second pulley component to perform the thermal press forming. In the present embodiment, four workpieces 102 are placed on each first jig positioning mechanism 10. The second turntable 200 is provided with two hot pressing devices, namely a first hot pressing device 210 and a second hot pressing device 220, the first hot pressing device 210 performs hot pressing on the first workpiece 102 and the third workpiece 102 on the first jig positioning mechanism 10, and the second hot pressing device 220 performs hot pressing on the second workpiece 102 and the fourth workpiece 102 on the first jig positioning mechanism 10. Meanwhile, two groups of hot-pressing structures are arranged on each hot-pressing device, so that the workpiece 102 can have enough time for hot-pressing and shaping, the shaping effect of the workpiece 102 is better, and meanwhile, the production efficiency can be improved.

Referring to fig. 19 and 20, in some alternative embodiments, the detection device includes a CCD detection structure 230 and a resistance test structure 240. The CCD detection structure 230 includes a CCD camera 231, and the appearance of the workpiece 102 is detected by the CCD camera 231. The resistance testing structure 240 is used for resistance testing of the workpiece 102, and the resistance testing structure 240 includes a first testing mechanism 241, a second testing mechanism 242, and an auxiliary positioning mechanism 243. Specifically, the first testing mechanism 241 includes a first detecting member 2411, a third pressing assembly 2412 and a second air cylinder 2413; the second testing mechanism 242 includes a second detecting member 2421, a fourth pressing member 2422 and a third air cylinder 2423. The second cylinder 2413 is operated to press the third press assembly 2412 against the side surface of the workpiece 102, so that the first detecting member 2411 performs resistance detection on the side surface of the workpiece 102. The third air cylinder 2423 is operated to press the fourth press element 2422 against the top surface of the workpiece 102, so that the second probing element 2421 performs a resistance test on the top surface of the workpiece 102. The auxiliary positioning mechanism 243 is used for auxiliary positioning of the workpiece 102 so as to enable the workpiece 102 to perform resistance testing well.

Referring to fig. 1 to 4, in some alternative embodiments, the feeding device 110 includes a first material taking mechanism 113 slidably disposed to transfer the workpiece 102 from the feeding device 110 to the first rotary table 100; the conveying device 180 is provided with a second material taking mechanism in a sliding arrangement to convey the workpiece 102 from the first rotary table 100 to the second rotary table 200, and the discharging device 250 comprises a good product discharging area 251, a bad product discharging area 252 and a third material taking mechanism in a sliding arrangement, so that the workpiece 102 is conveyed from the second rotary table 200 to the good product discharging area 251 or the bad product discharging area 252 by the third material taking mechanism. The first material taking mechanism 113, the second material taking mechanism and the third material taking mechanism are similar in structure. Illustratively, a first sliding assembly 111 moving back and forth and a second sliding assembly 112 moving left and right are arranged on the feeding device 110, the second sliding assembly 112 is arranged on the first sliding assembly 111, the first material taking mechanism 113 is arranged on the second sliding assembly 112, and the first material taking mechanism 113 can move back and forth, left and right through the first sliding assembly 111 and the second sliding assembly 112 so as to take and place materials at a proper position. The first take off mechanism 113 includes a first take off nozzle 114 for picking up the work piece 102.

Compared with the prior art, the utility model discloses a mode that FPC former 1000 adopted the carousel to convey first tool positioning mechanism 10, positioning device 120 has set gradually according to the processing order of the priority of work piece 102 around first carousel 100, cleaning device 130, shaping device 140, dyestripping device 150, bend and paste dress device 160 and cold press 170, work piece 102 is placed on the first tool positioning mechanism 10 of feeding station by feed arrangement 110, rotate first carousel 100, so that the first tool positioning mechanism 10 that has work piece 102 passes through positioning device 120 in proper order, cleaning device 130, shaping device 140, dyestripping device 150, bend and paste dress device 160 and cold press 170. Similarly, the workpiece 102 is conveyed to the first jig positioning mechanism 10 of the second turntable 200 through the conveying device 180 from the first turntable 100, the hot pressing device and the detection device are sequentially arranged around the second turntable 200 according to the sequence of processing the workpiece 102, the second turntable 200 is rotated, so that the workpiece 102 is firstly hot pressed and then detected, qualified products are discharged from the good product discharging area 251 of the discharging device 250, and unqualified products are discharged from the bad product discharging area 252 of the discharging device 250. The utility model discloses a FPC former 1000 can carry out the plastic to the product in proper order, tear the membrane, bend the subsides dress, coldly press, hot pressing and detect, collect various manufacturing procedure's device in an organic whole, and overall arrangement is compact reasonable, need not fix a position many times, has improved product precision, yields and production efficiency greatly.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the claims of the present invention should not be limited thereby, and all the equivalent changes made in the claims of the present invention are intended to be covered by the present invention.

Claims (10)

1. The FPC forming equipment is characterized by comprising a feeding device and a discharging device which are arranged on a rack, and a first turntable and a second turntable which are arranged side by side, wherein the feeding device is positioned on one side of the first turntable, and the discharging device is positioned on one side of the second turntable; the first rotary table is sequentially provided with a positioning device for positioning, a cleaning device for cleaning, a shaping device for shaping and positioning, a film tearing device for tearing a protective film, a bending and mounting device for bending and mounting and a cold pressing device for cold pressure maintaining along the conveying direction of the first rotary table, a conveying device is further arranged between the first rotary table and the second rotary table, and the second rotary table is sequentially provided with a hot pressing device for hot pressure maintaining and a detecting device for detecting along the conveying direction of the second rotary table; the first rotary table and the second rotary table are all provided with first jig positioning mechanisms used for placing workpieces, the feeding device places the workpieces on the first jig positioning mechanisms, the first rotary table acts to enable the workpieces on the first jig positioning mechanisms to sequentially pass through the positioning device, the cleaning device, the shaping device, the film tearing device, the bending and mounting device and the cold pressing device, then the workpieces are conveyed to the second rotary table from the first jig positioning mechanisms on the first rotary table by the conveying device, the second rotary table acts to enable the workpieces to sequentially pass through the hot pressing device and the detecting device, and finally the workpieces are discharged by the discharging device.

2. The FPC molding apparatus of claim 1, wherein the positioning device cooperates with the first jig positioning mechanism to position and adjust a workpiece placement position on the first jig positioning mechanism, so that the workpiece cooperates with each device for molding in a subsequent process; first tool positioning mechanism includes the first locating component of adjusting the work piece position in the first direction and the second locating component of adjusting the work piece position in the second direction, positioner include with first locating component complex first locating component, and with second locating component complex second locating component, first locating component action is in so that first locating component is in adjust in the first direction the position of work piece, the second locating component action is in so that second locating component is in adjust in the second direction the position of work piece.

3. The FPC molding equipment of claim 1, wherein the cleaning device comprises a first pressing mechanism and a cleaning structure, the first pressing mechanism is arranged on the frame, and the first pressing mechanism presses the workpiece on the first jig positioning mechanism, so that the cleaning structure cleans the workpiece; the cleaning structure comprises a cleaning belt, a first feeding mechanism for feeding the cleaning belt, a cleaning mechanism for cleaning workpieces and a first receiving mechanism for collecting the cleaning belt; the cleaning belt is conveyed to the cleaning mechanism through the first feeding mechanism, the cleaning mechanism cleans the workpiece on the first jig positioning mechanism through the cleaning belt, and the cleaned cleaning belt is recovered by the first material receiving mechanism.

4. The FPC molding equipment according to claim 1, wherein the film tearing device comprises a second pressing mechanism and a film tearing structure, the second pressing mechanism is arranged on the frame, and the second pressing mechanism presses the workpiece on the first jig positioning mechanism, so that the film tearing structure tears the workpiece; the film tearing structure comprises a clamping mechanism for clamping the workpiece protective film and a rotating mechanism for driving the clamping mechanism to rotate to tear the film, and the rotating mechanism is connected with the clamping mechanism.

5. The FPC forming equipment according to claim 1, wherein a bending member is disposed on the first jig positioning mechanism, the bending and mounting device includes a third pressing mechanism and a bending and mounting structure disposed on the frame, and the third pressing mechanism presses the workpiece on the first jig positioning mechanism, so that the bending and mounting structure performs bending and mounting on the workpiece; the bending mounting structure comprises a driving assembly and a first limiting part which are matched with the bending part, and the driving assembly and the first limiting part are respectively matched with the bending part, so that the bending part drives a workpiece on the positioning device to be bent and mounted.

6. The FPC forming device of claim 1, wherein the cold pressing device comprises a first pressing mechanism, a first counterweight mechanism and a first pulley assembly, the first pressing mechanism and the first counterweight mechanism are disposed on the frame, the first pulley assembly is connected between the first pressing mechanism and the first counterweight mechanism, and the first pressing mechanism presses a workpiece on the first jig positioning mechanism by the gravity of the first counterweight mechanism acting on the first pressing mechanism.

7. The FPC molding equipment of claim 1, wherein the hot-pressing device comprises a second jig positioning mechanism for placing a workpiece, a protective tape for protecting the workpiece, a hot-pressing structure for hot-pressing the workpiece, a second feeding mechanism for conveying the protective tape, a second collecting mechanism for collecting the protective tape, and a fourth material taking mechanism for taking and placing the workpiece; the fourth material taking mechanism is used for picking up the workpiece from the first jig positioning mechanism and placing the workpiece in the second jig positioning mechanism, the second feeding mechanism conveys the protective belt so that the protective belt covers the workpiece, the hot pressing structure acts on the workpiece covered with the protective belt to carry out hot pressing and shaping on the workpiece, and the used protective belt is collected by the second material collecting mechanism.

8. The FPC molding device of claim 7, wherein the hot pressing structure comprises a second pressing mechanism, a second weight mechanism, and a second pulley assembly connected between the second pressing mechanism and the second weight mechanism, the second pressing mechanism comprises a second pressing assembly and a heating assembly, the heating assembly is used for heating the second pressing assembly, the heated second pressing assembly presses the workpiece on the second fixture positioning mechanism, and the second pulley assembly is used for allowing the gravity of the second weight mechanism to act on the second pressing assembly for hot pressing and shaping.

9. The FPC molding apparatus according to claim 1, wherein the detection device includes a CCD detection structure for appearance detection of the workpiece and a resistance test structure for resistance test of the workpiece.

10. The FPC molding apparatus of claim 1, wherein the feeding device includes a first take-off mechanism in a sliding arrangement to transfer the workpiece from the feeding device to the first turntable; the conveying device is provided with a second material taking mechanism in sliding arrangement so as to convey the workpieces to the second rotary table from the first rotary table, the discharging device comprises a good product discharging area, a defective product discharging area and a third material taking mechanism in sliding arrangement, and the third material taking mechanism is used for conveying the workpieces to the good product discharging area or the defective product discharging area from the second rotary table.

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