CN112707207A

CN112707207A - Winding equipment

Info

Publication number: CN112707207A
Application number: CN202011507122.1A
Authority: CN
Inventors: 周小媛; 吴嘉鸿; 陶志勇; 周均; 王虎; 刘嘉伟
Original assignee: Dongguan Shige Electronics Group Co Ltd
Current assignee: Dongguan Shige Electronics Group Co Ltd
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-04-27
Anticipated expiration: 2040-12-18
Also published as: CN112707207B

Abstract

The invention relates to the technical field of winding equipment of aluminum foil nailing machines, in particular to winding equipment, which comprises a rack and a winding machine head arranged on the rack, wherein the rack is also provided with a feeding mechanism, a cutting mechanism, a rubberizing mechanism and a discharging mechanism; the feeding mechanism comprises a negative aluminum foil feeding assembly, a positive aluminum foil feeding assembly and a paper tape feeding assembly which are sequentially arranged on the periphery of the winding machine head in a surrounding mode; the rack is further provided with a gummed paper sticking device, and the gummed paper sticking device is used for sticking a sticker adhesive tape on the paper tape sent out by the paper tape feeding assembly. The automatic winding and taking-in device is novel in structure, ingenious in design and high in automation degree, effectively achieves automatic winding and taking-in, cutting, rubberizing and discharging of products, can protect the wound products, improves working efficiency and is reliable in structure.

Description

Winding equipment

Technical Field

The invention relates to the technical field of winding equipment of aluminum foil nailing machines, in particular to winding equipment.

Background

The aluminum foil nailing machine is a machine which processes a common guide pin (lead wire) through various procedures and covers the guide pin with an aluminum foil, and in order to be matched with different products, the aluminum foil nailing machine is always dedicated to continuously improving the performance and the structure of the products in the development process so as to meet the requirements of different customers. The structure of the aluminum foil nailing machine in the prior art is complex, some procedures are still manually assisted, the automatic winding and storage of products are difficult to realize, finished products are conveyed out, and the working efficiency of winding equipment of the aluminum foil nailing machine in the prior art is low.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides winding equipment which is novel in structure, ingenious in design and high in automation degree, effectively realizes automatic winding, storage, cutting, rubberizing and discharging of products, can protect the wound products, improves the working efficiency and is reliable in structure. .

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides winding equipment which comprises a rack and a winding machine head arranged on the rack, wherein the rack is also provided with a feeding mechanism, a cutting mechanism, a rubberizing mechanism and a discharging mechanism, and the feeding mechanism, the cutting mechanism, the rubberizing mechanism and the discharging mechanism are annularly arranged on the periphery of the winding machine head; the feeding mechanism comprises a negative aluminum foil feeding assembly, a first paper tape feeding assembly, a positive aluminum foil feeding assembly, a second paper tape feeding assembly and a third paper tape feeding assembly which are sequentially arranged on the periphery of the winding machine head in a surrounding mode; the rack is further provided with a gummed paper sticking device, and the gummed paper sticking device is used for sticking a gummed paper tape on a third paper tape sent out by the third paper tape feeding assembly.

The gummed paper sticking device comprises a machine table arranged on the machine frame, a paper tape transmission mechanism, a sticker adhesive tape transmission mechanism, a cutting mechanism and a gummed paper sticking mechanism, wherein the paper tape transmission mechanism, the sticker adhesive tape transmission mechanism, the cutting mechanism and the gummed paper sticking mechanism are all arranged on the machine table; the adhesive tape pasting transmission mechanism comprises an adhesive tape pasting transferring assembly, the adhesive tape pasting transferring assembly is positioned on one side of the cutting mechanism, and the adhesive tape pasting transferring assembly is used for transferring the adhesive tape to the cutting mechanism forwards;

the paper-sticking adhesive tape conveying mechanism also comprises a paper-sticking adhesive tape tray and a paper-sticking paper-passing wheel, wherein the paper-sticking adhesive tape tray is provided with a paper-sticking adhesive tape roll, and the paper-sticking adhesive tape roll enters the paper-sticking adhesive tape transferring assembly after passing through the paper-sticking paper-passing wheel;

the adhesive tape conveying assembly comprises an adhesive tape guide wheel, a fixed guide block and a limiting guide block which are sequentially arranged, the fixed guide block is fixed on the machine table, the limiting guide block is detachably connected with the machine table, and a gap for the adhesive tape to pass through is formed between the fixed guide block and the limiting guide block;

the adhesive tape transferring assembly further comprises a transferring block and a transferring driving piece driving the transferring block to reciprocate back and forth, and the transferring block is located between the fixed guide block and the limiting guide block; stopping the transmission of the sticker tape when the transfer block moves backwards to abut against the sticker tape guide wheel; when the transfer block moves forwards and is far away from the paper pasting adhesive tape guide wheel, the paper pasting adhesive tape is driven to transfer forwards;

the cutting mechanism comprises a side cutting base, a sticker cutter arranged on one side of the side cutting base in a sliding mode and a cutting driving piece arranged on the machine table and used for driving the sticker cutter to move in a reciprocating mode; the sticker sticky tape passes through between side-cutting base and the sticker cutter, cut off the driving piece and order about the sticker cutter and be close to the side-cutting base and cut off the sticker sticky tape.

The gummed paper pasting mechanism comprises an installation block arranged on a machine table, a movable shaft roller movably arranged on the installation block, and an adsorption head arranged at the front end of the movable shaft roller, and further comprises a first driving piece and a second driving piece, wherein the first driving piece is used for driving the movable shaft roller to move back and forth, the second driving piece is used for driving the movable shaft roller to rotate, the first driving piece and the second driving piece are both arranged on the machine table, and the second driving piece drives the movable shaft roller to rotate so as to drive the adsorption head to overturn from a cutting mechanism to a paper tape transmission mechanism;

the paper tape transmission mechanism comprises a paster support plate and two paper tape guide pulleys which are respectively and rotatably arranged on two sides of the paster support plate, and the paster support plate is arranged on one side of the machine table;

the paper tape transmission mechanism also comprises two paper tape feeding wheels and a paper tape length adjusting assembly positioned between the two paper tape feeding wheels; the paper tape feeding wheels are rotatably arranged on the machine table, the paper tape length adjusting assembly comprises an adjusting support, an adjusting bevel gear rotatably arranged on the adjusting support, an adjusting screw rotatably arranged on the adjusting support, an adjusting slide slidably arranged on the adjusting support and an adjusting guide wheel rotatably arranged on the adjusting slide, one end of the adjusting screw close to the adjusting bevel gear is provided with a transmission bevel gear, the transmission bevel gear is in meshing transmission connection with the adjusting bevel gear, and the adjusting slide is sleeved on the periphery of the adjusting screw in a transmission manner.

The winding machine head comprises a machine shell, a scroll main body and a scroll auxiliary body, wherein the scroll main body is rotatably arranged in the machine shell, the scroll auxiliary body is movably arranged in the scroll main body, the feeding mechanism sends a paper tape and an aluminum foil to the scroll auxiliary body, and the scroll auxiliary body rotates to wind and store the paper tape and the aluminum foil; the cutting mechanism is used for cutting off the paper tape and the aluminum foil; the adhesive tape sticking mechanism is used for sticking the paper tape and the aluminum foil which are wound on the reel auxiliary body; the discharging mechanism is used for taking out the paper tape and the aluminum foil wound and stored by the reel auxiliary body for discharging;

the number of the reel auxiliary bodies is three, and the three reel auxiliary bodies are arranged in the reel main body in an equally-spaced mode; the periphery of the scroll main body is fixedly sleeved with a main body transmission part, the periphery of each scroll auxiliary body is sleeved with an auxiliary body first transmission part, the periphery of the scroll main body is movably sleeved with a plurality of auxiliary body second transmission parts, the auxiliary body first transmission parts correspond to the auxiliary body second transmission parts one by one, and the auxiliary body first transmission parts are in transmission connection with the auxiliary body second transmission parts;

the outer wall of the scroll main body is provided with a plurality of first open grooves, the first open grooves correspond to the first transmission pieces of the auxiliary body one by one, and the first transmission pieces of the auxiliary body partially protrude out of the first open grooves and are in transmission connection with the second transmission pieces of the auxiliary body;

the shell is also provided with a second open slot, and the main body transmission part is exposed out of the second open slot.

The winding machine head further comprises a divider, the output end of the divider is connected with a main body driving gear, the main body driving gear is in meshing transmission connection with the main body transmission part, and the main body transmission part is of a gear structure;

the winding machine head further comprises a plurality of servo motors, the servo motors correspond to the reel auxiliary bodies one by one, the output end of each servo motor is connected with a driving synchronous wheel, the driving synchronous wheels are in transmission connection with the auxiliary body second transmission piece through synchronous belts, and the outer peripheral wall of the auxiliary body second transmission piece is an outer gear;

the inner peripheral wall of the secondary body second transmission piece is provided with an inner gear, and the secondary body first transmission piece is of a gear structure.

The cutting mechanism comprises a first abutting driving piece, a second abutting driving piece, a third cutting driving piece and a fourth cutting driving piece which are arranged on the rack, the output end of the first abutting driving piece is connected with a first substrate, the front end of the first substrate is rotatably connected with an upper pressing wheel, the output end of the second abutting driving piece is connected with a second substrate, the front end of the second substrate is rotatably connected with a lower pressing wheel, and the upper pressing wheel and the lower pressing wheel are both over against the reel auxiliary body;

the output end of the third cutting driving piece is connected with an upper cutter, the output end of the fourth cutting driving piece is connected with a lower cutter, and the upper cutter and the lower cutter are aligned to one side of the reel pair body.

The adhesive tape sticking mechanism comprises an adhesive tape feeding assembly, a pressing assembly and an adhesive tape cutting assembly; the pressing component comprises a bending guide pressing piece and a fifth driving piece for driving the bending guide pressing piece to move in a reciprocating manner; the adhesive tape cutting assembly comprises an adhesive tape cutting blade and a sixth driving piece for driving the adhesive tape cutting blade to move in a reciprocating mode; the adhesive tape feeding assembly is used for transferring the adhesive tape to the reel sub-body.

The discharging mechanism comprises a product conveying clamp, a conveying opening clamp block used for pushing the product conveying clamp to open or close, and a conveying driving piece used for driving the product conveying clamp to move back and forth.

Wherein, negative pole aluminium foil pay-off subassembly with positive pole aluminium foil pay-off subassembly all is provided with and is used for processing the trinity mould on the aluminium foil with lead wire pressfitting, trinity mould includes frame and die carrier, the die carrier is from the right side to a left side in proper order a row formula be provided with the subassembly that punches a hole, the thorn is riveted the subassembly and is flattened the subassembly and all is located the top of punishment platform, the frame is provided with and is used for ordering about the subassembly that punches a hole the first drive assembly of processing to the material, is used for ordering about the thorn is riveted the subassembly and is impaled the second drive assembly that penetrates the lead wire and be used for ordering about to the material flatten the third drive assembly that the material after the lead wire was punched to flattening the subassembly.

The three-in-one transfer mold further comprises a thickness detection assembly, the thickness detection assembly comprises a detection support and two detection rotating wheels which are oppositely and rotatably arranged on the detection support, and a gap for materials to pass through is formed between the two detection rotating wheels; the detection support is arranged on the frame, and the frame is also rotatably provided with a material driving wheel. The invention has the beneficial effects that:

the automatic winding and taking-in device is novel in structure, ingenious in design and high in automation degree, effectively achieves automatic winding and taking-in, cutting, rubberizing and discharging of products, can protect the wound products, improves working efficiency and is reliable in structure.

Drawings

Fig. 1 is a schematic structural view of a winding apparatus of the present invention.

FIG. 2 is a schematic structural diagram of the frame, the winder head, the feeding mechanism, the blanking mechanism, the rubberizing mechanism and the discharging mechanism of the present invention.

Fig. 3 is a schematic structural diagram of fig. 2 after the rack is hidden.

Fig. 4 is an enlarged view at D in fig. 3.

Fig. 5 is a schematic structural view of the winder.

Fig. 6 is another view structure diagram of the winder.

Fig. 7 is a schematic structural diagram of the cooperation between the housing, the reel main body and the reel auxiliary body of the present invention.

FIG. 8 is a schematic view of the secondary transmission member hidden in FIG. 6.

Fig. 9 is a schematic structural diagram of fig. 6 after hiding the first transmission piece and the second transmission piece of the sub body.

Fig. 10 is a schematic structural view of the reel sub-body and the first transmission member of the sub-body of the present invention.

Fig. 11 is a first view structural diagram of the gummed paper pasting device of the present invention.

Fig. 12 is a second perspective structural view of the gummed paper applying apparatus of the present invention.

Fig. 13 is a third perspective view structural diagram of the gummed paper pasting device of the present invention.

FIG. 14 is a schematic view of the adhesive tape dispenser assembly of the present invention.

Fig. 15 is a schematic structural view of a three-in-one mold of the present invention.

Fig. 16 is an enlarged view at E in fig. 15.

Fig. 17 is a schematic structural diagram of the die carrier, the punching assembly, the riveting assembly and the flattening assembly of the invention.

Fig. 18 is a partial schematic view of the structure of fig. 17.

The reference numerals in fig. 1 to 18 include:

101. a housing; 102. a reel body; 103. a reel auxiliary body; 104. a main body transmission member; 105. a first transmission member of the sub body; 106. a secondary body second transmission member; 107. a first slot; 108. a second slot; 109. a front shaft sleeve; 110. a rear axle seat; 111. a connecting rod; 112. a divider; 113. a main body drive gear; 114. a servo motor; 115. driving a synchronizing wheel; 116. a synchronous belt; 117. a frame; 118. a feeding mechanism; 119. a gluing mechanism; 120. a discharging mechanism; 121. a negative aluminum foil feeding assembly; 122. a first paper tape feeding assembly; 123. a positive aluminum foil feeding assembly; 124. a second paper tape feeding assembly; 125. a third paper tape feeding assembly; 126. a first pressing driving member; 127. a second pressing driving member; 128. a third blanking drive member; 129. a fourth blanking drive member; 130. a first substrate; 131. an upper pinch roller; 132. a second substrate; 133. a lower pinch roller; 134. an upper cutter; 135. a lower cutter; 136. a glue conveying belt assembly; 137. bending the guide pressing sheet; 138. a fifth driving member; 139. cutting a rubber belt blade; 140. a sixth driving member; 141. a product conveying clamp; 142. carrying and opening the clamping blocks; 143. conveying a driving piece; 144. a material cutting mechanism;

201. a machine platform; 202. a paper tape conveying mechanism; 203. a sticker tape transport mechanism; 204. a cutting mechanism; 205. a gummed paper pasting mechanism; 206. a decal tape transfer assembly; 207. paster adhesive tape trays; 208. pasting paper through a paper wheel; 209. pasting a guide wheel of the adhesive tape; 210. fixing a guide block; 211. a limiting guide block; 212. a transfer block; 213. a transfer drive; 214. a side cutting base; 215. pasting a paper cutter; 216. cutting off the driving member; 217. mounting blocks; 218. a movable shaft roller; 219. an adsorption head; 220. a first driving member; 221. a second driving member; 222. pasting a paper supporting plate; 223. a paper tape guide pulley; 224. a paper feeding wheel; 225. a paper tape length adjustment assembly; 226. adjusting the bracket; 227. adjusting the bevel gear; 228. adjusting the screw rod; 229. adjusting the sliding seat; 230. adjusting the guide wheel; 231. a drive bevel gear;

302. a mold frame; 303. a punching assembly; 304. a piercing and riveting component; 305. flattening the assembly; 306. a material passing platform; 307. a first drive assembly; 308. a second drive assembly; 309. a third drive assembly; 310. punching a middle template; 311. a punching component; 312. connecting the guide rod; 313. a buffer spring; 314. punching a hole needle; 315. a reset block is punched; 316. punching a reset guide rod; 317. a punching reset spring; 318. riveting the middle template; 319. a piercing-riveting member; 320. pricking and riveting needles; 321. a piercing-riveting jack-up part; 322. the driving piece is jacked up by the barbed rivets; 323. clamping arms; 324. a tension spring; 325. piercing and riveting a righting block; 326. an abutting portion; 327. riveting the reset block; 328. riveting a reset guide rod; 329. a barbed rivet return spring; 330. flattening the component; 331. flattening the reset block; 332. flattening the reset guide rod; 333. flattening the return spring; 334. flattening and supporting the component; 335. flattening and supporting the driving piece; 336. a thickness detection assembly; 337. a material drive wheel;

1000. aluminum foil.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention is described in detail below with reference to the attached drawings.

A winding device, as shown in fig. 1 to 18, comprising a frame 117 and a winding machine head mounted on the frame 117, wherein the frame 117 is further provided with a feeding mechanism 118, a blanking mechanism 144, a gluing mechanism 119 and a discharging mechanism 120, and the feeding mechanism 118, the blanking mechanism 144, the gluing mechanism 119 and the discharging mechanism 120 are annularly arranged on the periphery of the winding machine head; the feeding mechanism 118 comprises a negative aluminum foil feeding assembly 121, a first paper tape feeding assembly 122, a positive aluminum foil feeding assembly 123, a second paper tape feeding assembly 124 and a third paper tape feeding assembly 125 which are sequentially arranged around the periphery of the winding machine head; the rack 117 is further provided with a gummed paper sticking device for sticking a gummed paper tape on the third paper tape fed out by the third paper tape feeding assembly 125.

Specifically, in an initial state, the reel sub-body 103 (mentioned below) is at the a station, and in the operation of the present invention, the feeding mechanism 118 simultaneously feeds materials such as aluminum foil, paper tape and the like to the reel sub-body 103 at the a station, drives the reel sub-body 103 (mentioned below) to rotate to wind and store the aluminum foil and the paper tape, and at the same time, the gummed paper sticking device sticks a gummed paper tape on the paper tape (stuck on a third paper tape mentioned below, namely, wound on the periphery of a product) so that the gummed paper tape wraps the periphery of the paper tape to protect the product after the product is wound and stored; then, the cutting mechanism 144 cuts the paper tape and the aluminum foil, then a winding main shaft (mentioned below) rotates to drive a reel sub-body 103 (mentioned below) to move from the station a to the station B, a gluing mechanism 119 on the station B sends out the adhesive tape to the reel sub-body 103, the reel sub-body 103 rotates to wind the adhesive tape around the peripheries of the aluminum foil and the paper tape, then the adhesive tape is cut off, and the wound product is further protected; the reel main body 102 rotates again to drive the reel auxiliary body 103 to move to the station C, and the product pasted with the adhesive tape on the reel auxiliary body 103 is taken out through the discharging mechanism 120 to be discharged.

Further, the feeding mechanism 118 is set according to the requirement of a product, wherein in this embodiment, the paper tape feeding assembly includes a first paper tape feeding assembly 122, a second paper tape feeding assembly 124, and a third paper tape feeding assembly 125, the feeding mechanism 118 is provided with a negative aluminum foil feeding assembly 121, a first paper tape feeding assembly 122, a positive aluminum foil feeding assembly 123, a second paper tape feeding assembly 124, and a third paper tape feeding assembly 125, and respectively sends a negative aluminum foil, a first paper tape, a positive aluminum foil, a second paper tape, and a third paper tape to the reel sub-body 103 of the a station for synchronous winding and storage, wherein the negative aluminum foil feeding assembly 121, the first paper tape feeding assembly 122, the positive aluminum foil feeding assembly 123, the second paper tape feeding assembly 124, and the third paper tape feeding assembly 125 are respectively and rotatably provided with a guide pulley for respectively sending the negative aluminum foil, the first paper tape, the positive aluminum foil, the second paper tape, and the third paper tape to the reel sub-body 103 of the a station, the feeding mechanism 118 is conventional in the art and will not be described herein.

In the winding apparatus of this embodiment, the gummed paper pasting device includes a machine table 201 installed on the machine frame 117, and a paper tape transmission mechanism 202, a sticker tape transmission mechanism 203, a cutting mechanism 204 for cutting off a sticker tape, and a gummed paper pasting mechanism 205 for pasting the cut sticker tape on a paper tape, which are all installed on the machine table 201; the adhesive tape conveying mechanism comprises an adhesive tape transfer component 206, the adhesive tape transfer component 206 is positioned on one side of the cutting mechanism 204, and the adhesive tape transfer component 206 is used for transferring the adhesive tape forwards to the cutting mechanism 204;

specifically, this rubberizing paper device novel structure, design benefit, the during operation, paper tape transport mechanism 202 sends out the paper tape, the sticker sticky tape is sent out to sticker sticky tape transport mechanism 203, the sticker sticky tape via the subassembly 206 is transferred to the sticker sticky tape shutdown mechanism 204, shutdown mechanism 204 with the sticker sticky tape after cutting off, by sticker sticky tape adhesion after cutting off is on the paper tape of paper tape transport mechanism 202 transmission by sticker mechanism 205 to realize the rubberizing paper operation, degree of automation is high, effectively improves work efficiency, reduces the cost of labor.

The sticker tape conveying mechanism 203 further includes a sticker tape tray 207 and a sticker passing wheel 208, the sticker tape tray 207 is provided with a sticker tape roll, and the sticker tape roll enters the sticker tape transfer assembly 206 after passing through the sticker passing wheel 208; specifically, the sticker tape tray 207 is used to carry a roll of sticker tape, and rotation of the tray causes the sticker tape to be directed into sticker tape transport assembly 206 via sticker feed wheel 208;

the sticker adhesive tape transfer assembly 206 comprises a sticker adhesive tape guide wheel 209, a fixed guide block 210 and a limit guide block 211 which are sequentially arranged, the fixed guide block 210 is fixed on the machine table 201, the limit guide block 211 is detachably connected with the machine table 201, and a gap for a sticker adhesive tape to pass through is formed between the fixed guide block 210 and the limit guide block 211;

the sticker tape transfer assembly 206 further includes a transfer block 212 and a transfer driving member 213 for driving the transfer block 212 to reciprocate back and forth, wherein the transfer block 212 is located between the fixed guide block 210 and the limit guide block 211; stopping the transfer of the sticker tape when the transfer block 212 moves backward to abut against the sticker tape guide wheel 209; the transfer block 212 moves forward and moves away from the sticker tape guide wheel 209 to transfer the sticker tape forward;

specifically, the sticker tape is guided by the sticker tape passing wheel 208 to enter the sticker tape guide wheel 209 of the sticker tape transfer assembly 206 and is sent out to the cutting mechanism 204 through a gap formed between the fixing guide block 210 and the limiting guide block 211 for the sticker tape to pass through, wherein the transfer driving member 213 drives the transfer block 212 to move backward and is used for clamping the sticker tape when being matched and abutted with the sticker tape guide wheel 209, so that the sticker tape is prevented from being transferred forward continuously, and when the transfer driving member 213 drives the transfer block 212 to move forward and separate from the sticker tape guide wheel 209, the sticker tape is driven to be transferred forward.

In the winding apparatus of this embodiment, the cutting mechanism 204 includes a side cutting base 214, a sticker cutter 215 slidably mounted on one side of the side cutting base 214, and a cutting driving member 216 mounted on the machine 201 and used for driving the sticker cutter 215 to reciprocate; the sticker tape passes between the side cutting base 214 and the sticker cutter 215, and the cutting drive 216 drives the sticker cutter 215 to close the side cutting base 214 to cut the sticker tape. Specifically, the arrangement facilitates cutting off the sticker tape.

In the winding apparatus of this embodiment, the gummed paper mechanism 205 includes an installation block 217 installed on the machine 201, a movable shaft roller 218 movably installed on the installation block 217, and an adsorption head 219 installed at the front end of the movable shaft roller 218, the gummed paper mechanism 205 further includes a first driving member 220 for driving the movable shaft roller 218 to move back and forth and a second driving member 221 for driving the movable shaft roller 218 to rotate, the first driving member 220 and the second driving member 221 are both installed on the machine 201, and the second driving member 221 drives the movable shaft roller 218 to rotate so as to drive the adsorption head 219 to overturn from the cutting mechanism to the paper tape transmission mechanism 202;

the paper tape transmission mechanism 202 comprises a sticker support plate 222 and two paper tape guide pulleys 223 rotatably arranged on two sides of the sticker support plate 222 respectively, wherein the sticker support plate 222 is arranged on one side of the machine 201; specifically, the above arrangement facilitates guiding the paper tape to slide, and the sticker support plate 222 facilitates fitting the paper tape with the sticker adhesive tape.

Specifically, the sticker tape is sent out to sticker mechanism 205 via shutdown mechanism 204 on, the adsorption head 219 of sticker mechanism 205 attracts the sticker tape, then shutdown mechanism 204 cuts off the sticker tape, second driving piece 221 drives movable beam barrel 218 and rotates in order to drive adsorption head 219 overturns to the position that sticker layer board 222 corresponds, then first driving piece 220 orders about movable beam barrel 218 antedisplacement, orders about adsorption head 219 to be close to sticker layer board 222 and with the sticker tape with the paper tape on the sticker layer board 222 adhere together, degree of automation is high.

In the winding apparatus of the present embodiment, the tape conveying mechanism 202 further includes two paper feeding rollers 224 and a tape length adjusting assembly 225 disposed between the two paper feeding rollers 224; the two paper feeding wheels 224 are rotatably disposed on the machine 201, the paper tape length adjusting assembly 225 comprises an adjusting bracket 226, an adjusting bevel gear 227 rotatably disposed on the adjusting bracket 226, an adjusting screw 228 rotatably disposed on the adjusting bracket 226, an adjusting slide 229 slidably disposed on the adjusting bracket 226, and an adjusting guide wheel 230 rotatably disposed on the adjusting slide 229, a transmission bevel gear 231 is disposed at one end of the adjusting screw 228 close to the adjusting bevel gear 227, the transmission bevel gear 231 is engaged with the adjusting bevel gear 227 and is in transmission connection with the adjusting bevel gear 227, and the adjusting slide 229 is rotatably sleeved on the outer periphery of the adjusting screw 228. Specifically, the paper tape is guided onto the sticker pallet 222 after passing through one paper tape feed wheel 224, then bypassing the adjustment guide wheel 230, and then passing through the other paper tape feed wheel 224; the rotation of the adjusting bevel gear 227 can drive the transmission bevel gear 231 to rotate, so as to drive the adjusting screw 228 to rotate, and further drive the adjusting slide 229 to move along the length direction of the adjusting screw 228, so as to adjust the length and the tension of the paper tape, and the adjusting slide is convenient to use and flexible to adjust.

In the winding apparatus of this embodiment, the winding head includes a casing 101, a reel main body 102 rotatably disposed in the casing 101, and a reel sub-body 103 movably disposed in the reel main body 102, the feeding mechanism 118 feeds the paper tape and the aluminum foil to the reel sub-body 103, and the reel sub-body 103 rotates to wind and store the paper tape and the aluminum foil; the cutting mechanism 144 is used for cutting the paper tape and the aluminum foil; the adhesive sticking mechanism 119 is used for sticking the paper tape and the aluminum foil wound on the reel auxiliary body 103; the discharging mechanism 120 is used for taking out the paper tape and the aluminum foil wound and stored on the reel sub-body 103 for discharging;

specifically, when the present invention works, the feeding mechanism 118 simultaneously feeds materials such as aluminum foil, paper tape, etc. to the reel sub-body 103 on the station a, drives the reel sub-body 103 to rotate to wind and store the aluminum foil and the paper tape, after the product is wound and stored, the cutting mechanism 144 cuts the paper tape and the aluminum foil, then the winding main shaft rotates to drive the reel sub-body 103 to move from the station a to the station B, the adhesive attaching mechanism 119 on the station B sends out the adhesive tape to the reel sub-body 103, the reel sub-body 103 rotates to wind the adhesive tape around the peripheries of the aluminum foil and the paper tape, then the adhesive tape is cut, the reel main body 102 further rotates to drive the reel sub-body 103 to move to the station C, the product with the reel sub-body 103 attached with the adhesive tape is taken out by the discharging mechanism 120 for discharging, the above arrangement structure is novel, the design is ingenious, and the automation degree is high, the automatic winding storage, the cutting, the rubberizing and the discharging of the product are effectively realized, the working efficiency is improved, and the structure is reliable.

Three reel auxiliary bodies 103 are arranged, and the three reel auxiliary bodies 103 are arranged in the reel main body 102 in an equally-spaced mode; the periphery of the reel main body 102 is fixedly sleeved with a main body transmission piece 104, the periphery of each reel auxiliary body 103 is sleeved with an auxiliary body first transmission piece 105, the periphery of the reel main body 102 is movably sleeved with a plurality of auxiliary body second transmission pieces 106, the auxiliary body first transmission pieces 105 correspond to the auxiliary body second transmission pieces 106 one by one, and the auxiliary body first transmission pieces 105 are in transmission connection with the auxiliary body second transmission pieces 106; specifically, the three reel auxiliary bodies 103 respectively correspond to the station a, the station B and the station C, and through the rotation of the reel main body 102, the three reel auxiliary bodies 103 positioned at the three stations can respectively circularly move along the station a, the station B and the station C, so that the three stations can be simultaneously processed, the working efficiency is improved, and the structure is novel and reliable; further, when the main body transmission member 104 is driven, the reel main body 102 can be driven to integrally rotate, and the plurality of reel auxiliary bodies 103 are driven to simultaneously rotate, so that the effect of integrally rotating and winding the product is achieved; in addition, the corresponding reel auxiliary body 103 can be controlled to rotate independently under the action of the auxiliary body first transmission piece 105 and the auxiliary body second transmission piece 106, so that the operation and the use of independent stations are realized, the use is flexible and ingenious, the effects of unified control and independent control can be realized, and the structure is reliable.

A plurality of first slots 107 are formed in the outer wall of the reel main body 102, the first slots 107 correspond to the first transmission members 105 of the auxiliary body one by one, and the first transmission members 105 of the auxiliary body partially protrude out of the first slots 107 and are in transmission connection with the second transmission members 106 of the auxiliary body;

the casing 101 is further provided with a second slot 108, and the main body transmission member 104 is exposed to the second slot 108.

Specifically, the arrangement is convenient for the first secondary transmission member 105 to partially protrude out of the first slot 107 and to be exposed, so that the second secondary transmission member 106 drives the first secondary transmission member 105 to rotate to drive the reel secondary body 103 to rotate;

the winding machine head further comprises a divider 112, an output end of the divider 112 is connected with a main body driving gear 113, the main body driving gear 113 is in meshing transmission connection with the main body transmission piece 104, and the main body transmission piece 104 is in a gear structure; specifically, the above arrangement facilitates the main transmission member 104 to be exposed, so that the divider 112 drives the main transmission member 104 to rotate through the main driving gear 113 to drive the reel main body 102 to rotate.

The winding machine head further comprises a plurality of servo motors 114, the servo motors 114 correspond to the reel sub-bodies 103 one by one, the output end of each servo motor 114 is connected with a driving synchronous wheel 115, the driving synchronous wheels 115 are in transmission connection with the sub-body second transmission piece 106 through synchronous belts 116, and the outer peripheral wall of the sub-body second transmission piece 106 is an outer gear; specifically, the servo motor 114 drives the driving synchronizing wheel 115 to rotate so as to drive the secondary body second transmission member 106 to rotate so as to drive the secondary body first transmission member 105 to rotate, thereby realizing the purpose of independently driving the reel secondary body 103 to rotate, and the structure is novel and reliable, and the design is ingenious.

The inner peripheral wall of the secondary body second transmission member 106 is provided with an internal gear, and the secondary body first transmission member 105 is of a gear structure. Specifically, the internal gear structure drives the secondary body first transmission member 105 to rotate so as to drive the reel secondary body 103 to rotate.

In the winding apparatus of this embodiment, the housing 101 includes a front shaft sleeve 109, a rear shaft seat 110 and a plurality of connecting rods 111, the front shaft sleeve 109 is connected to the rear shaft seat 110 through the connecting rods 111, two ends of the connecting rods 111 are detachably connected to the front shaft sleeve 109 and the rear shaft seat 110, and the front shaft sleeve 109 and the rear shaft seat 110 are movably sleeved on the front end and the rear end of the periphery of the reel body 102. Specifically, the connecting rod 111 can be detachably connected with the front shaft sleeve 109 and the rear shaft seat 110 through external screws, so that the machine shell 101 of the winding machine head can be conveniently assembled and disassembled, and the winding machine head is very convenient to use and assemble and novel in structure.

In the winding apparatus of this embodiment, the material cutting mechanism 144 includes a first pressing driving element 126, a second pressing driving element 127, a third material cutting driving element 128 and a fourth material cutting driving element 129 which are mounted on the frame 117, an output end of the first pressing driving element 126 is connected to the first substrate 130, a front end of the first substrate 130 is rotatably connected to the upper pressing wheel 131, an output end of the second pressing driving element 127 is connected to the second substrate 132, a front end of the second substrate 132 is rotatably connected to the lower pressing wheel 133, and both the upper pressing wheel 131 and the lower pressing wheel 133 are opposite to the reel sub-body 103;

the output end of the third material cutting driving member 128 is connected with an upper cutter 134, the output end of the fourth material cutting driving member 129 is connected with a lower cutter 135, and the upper cutter 134 and the lower cutter 135 are aligned with one side of the reel auxiliary body 103.

Specifically, after the winding sub-body finishes winding the material, the first pressing driving part 126 and the second pressing driving part 127 drive the first substrate 130 and the second substrate 132 to move, the upper pressing wheel 131 and the lower pressing wheel 133 respectively slide and press against the periphery of the product, then the third cutting driving part 128 and the fourth cutting driving part 129 drive the upper cutter 134 and the lower cutter 135 to work, the upper cutter 134 and the lower cutter 135 are arranged in a targeted manner, the material is cut off by the upper cutter 134 and the lower cutter 135 at the same time, after the material is cut off, the reel sub-body 103 rotates, the product is ensured to be completely attached to the winding sub-body under the action of the upper pressing wheel 131 and the lower pressing wheel 133, and then the reel main body 102 rotates to move the reel sub-body 103 at the a station to the B station for gluing (mentioned below).

In the winding apparatus of this embodiment, the adhesive applying mechanism 119 includes an adhesive tape feeding assembly 136, a pressing assembly, and an adhesive tape cutting assembly; the pressing component comprises a bending guide pressing piece 137 and a fifth driving piece 138 for driving the bending guide pressing piece 137 to move in a reciprocating manner; the adhesive tape cutting assembly comprises an adhesive tape cutting blade 139 and a sixth driving element 140 for driving the adhesive tape cutting blade 139 to reciprocate; the tape feeding assembly 136 is used to feed the tape onto the reel sub-body 103. Specifically, the adhesive tape feeding assembly 136 feeds the adhesive tape to the B station to obtain a product of the reel sub-body 103, the reel sub-body 103 rotates to wind the adhesive tape around the periphery of the product, meanwhile, the fifth driving member 138 drives the bending guide pressing piece 137 to press against the periphery of the product, so that the adhesive tape is tightly attached to the product, after the adhesive tape is attached, the sixth driving member 140 drives the adhesive tape cutting blade 139 to cut the adhesive tape, the adhesive tape attaching operation is completed, and then the reel sub-body 103 of the B station moves to the C station under the rotation of the reel main body 102 to perform discharging (mentioned below).

In the winding apparatus of the embodiment, the discharging mechanism 120 includes a product conveying clamp 141, a conveying opening clamp block 142 for pushing the product conveying clamp 141 to open or close, and a conveying driving member 143 for driving the product conveying clamp 141 to reciprocate. Specifically, the conveying driving element 143 moves the product conveying clamp 141 to the periphery of the reel sub-body 103 of the C station, the product conveying clamp 141 is closed through the conveying opening clamp block 142, the product on the reel sub-body 103 is clamped, the product is taken out through the movement of the conveying driving element 143 to be discharged, and during discharging, the conveying opening clamp block 142 pushes the product conveying clamp 141 to be opened, so that discharging and next-time clamping are facilitated.

In the winding apparatus of this embodiment, the cathode aluminum foil feeding assembly 121 and the anode aluminum foil feeding assembly 123 are both provided with three-in-one dies for pressing and processing the leads on the aluminum foil, the three-in-one mold comprises a frame 117 and a mold frame 302, the mold frame 302 is sequentially provided with a punching component 303, a riveting component 304 and a flattening component 305 in a row from right to left, the frame 117 is provided with a material passing platform 306, the punching assembly 303, the riveting assembly 304 and the flattening assembly 305 are all positioned above the material passing platform 306, the frame 117 is provided with a first driving assembly 307 for driving the punching assembly 303 to punch a hole in a material, a second driving assembly 308 for driving the riveting assembly 304 to pierce the material and penetrate a lead, and a third driving assembly 309 for driving the flattening assembly 305 to flatten the lead-penetrated material.

Specifically, trinity mould novel structure, design benefit, aluminium foil 1000 is followed punishment in advance platform 306 process, punching component 303, the subassembly 304 is riveted to the thorn and the one row of formula of subassembly 305 is set up on die carrier 302, compact structure, it is small to occupy, and under first drive assembly 307, the cooperation of second drive assembly 308 and third drive assembly 309, can realize punching component 303, the subassembly 304 is riveted to the thorn and the independent work of subassembly 305 is flattened, the realization is to the processing of punching a hole of material, the processing is riveted to the thorn and is flattened, degree of automation is high, effectively improve work efficiency, reduce the cost of labor, and the structure is reliable.

In the winding apparatus of this embodiment, the punching assembly 303 includes a punching middle template 310 and a punching component 311, a connecting guide rod 312 is fixedly disposed on one side of the punching component 311, a lower end of the connecting guide rod 312 slidably penetrates through the punching middle template 310, a buffer spring 313 is sleeved on an outer periphery of the connecting guide rod 312, and two ends of the buffer spring 313 are respectively connected with an upper surface of the punching middle template 310 and a lower surface of the punching component 311; the bottom of the punching component 311 is provided with a plurality of punching needles 314, the punching middle template 310 is provided with a plurality of first through holes corresponding to the punching needles 314 in a penetrating manner, and the material passing platform 306 is provided with a plurality of second through holes corresponding to the punching needles 314.

Specifically, when the punching assembly 303 works, the first driving assembly 307 drives to abut against the punching part 311, so that the punching part 311 moves downwards to drive the middle punching template 310 to move downwards to press the material on the material passing platform 306, at this time, the buffer spring 313 is compressed to continue to press the punching part 311 downwards, the punching needle 314 punches the material after penetrating through the first through hole and the second through hole, and the punching assembly has the advantages of good operation stability, accurate alignment, reliable structure, improved processing precision and high automation degree; when the first driving assembly 307 is reset and no longer presses against the punching component 311, the buffer spring 313 is reset under the elastic restoring force thereof to drive the middle punching template 310 to be separated from the material of the material passing platform 306, and the structure is reliable.

This embodiment winding device, the top of part 311 that punches a hole is provided with the reset block 315 that punches a hole, the part 311 that punches a hole slides and sets up on die carrier 302, die carrier 302 top is provided with the guide arm 316 that resets that punches a hole, the guide arm 316 that resets that punches a hole slides and wears to locate the reset block 315 that punches a hole, the periphery cover of the guide arm 316 that resets that punches a hole is equipped with reset spring 317 that punches a hole, reset spring 317's both ends respectively with die carrier 302 with reset block 315 that punches a hole connects. Specifically, the reset of the punching component 311 after the punching action can be realized through the arrangement, the automation degree is high, the design is ingenious, and the structural stability is good.

The winding device in this embodiment, the riveting assembly 304 includes a riveting middle template 318 and a riveting component 319, the riveting middle template 318 is movably arranged on the material passing platform 306, the riveting middle template 318 is located between the material passing platform 306 and the riveting component 319, the bottom of the riveting component 319 is provided with a plurality of riveting needles 320, the riveting middle template 318 is provided with a plurality of third through holes corresponding to the riveting needles 320 in a penetrating manner, and the material passing platform 306 is provided with a plurality of fourth through holes corresponding to the riveting needles 320. Specifically, the lead wire is placed at the corresponding piercing position on the aluminum foil material of the material passing platform 306, when the riveting component 304 works, the second driving component 308 presses the riveting component 319 to move downwards, meanwhile presses the middle template 318 of the riveting to move downwards to the material passing platform 306 to press the material, and then the riveting needle 320 penetrates through the third perforation and the fourth perforation to pierce the material and penetrate the lead wire into the material piercing position, so that the riveting processing is realized.

This embodiment winding device, trinity transfer mould still includes the thorn and rivets jack-up subassembly, and the thorn is riveted the jack-up subassembly and is included thorn and rivet jack-up portion 321 and drive the thorn that jack-up portion 321 reciprocated rivets jack-up driving piece 322, the protruding income of jack-up portion 321 is riveted to the thorn the fourth is perforated. Wherein, the top of the part 319 is riveted to the thorn is provided with the reset block 327 of riveting, the part 319 is riveted to the thorn slides and sets up on die carrier 302, die carrier 302 top is provided with the reset guide pole 328 of riveting, the reset guide pole 328 of riveting slides and wears to locate the reset block 327 of riveting, the periphery cover of the reset guide pole 328 of riveting is equipped with reset spring 329 of riveting, reset spring 329 of riveting's both ends respectively with die carrier 302 with reset block 327 of riveting is connected.

Specifically, after the piercing-riveting process is completed, the second driving assembly 3088 is separated from the piercing-riveting component 319, the piercing-riveting component 319 is lifted up under the elastic force of the piercing-riveting return spring 329 to be separated from the material passing platform 306, and at this time, the piercing-riveting jacking driving component 322 drives the piercing-riveting jacking portion 321 to be lifted up to jack up the material and the lead wire in the fourth through hole to be separated from the material passing platform 306, so that a material driving wheel 337 (mentioned below) drives the subsequent processing of material recovery.

In the winding apparatus of this embodiment, one side of the die carrier 302 is rotatably provided with two clamping arms 323 which are arranged opposite to each other, the top ends of the two clamping arms 323 are rotatably connected with the die carrier 302 through movable pins, and the two clamping arms 323 are connected through a tension spring 324; one side of the piercing and riveting component 319 is provided with a piercing and riveting centering block 325, the inner sides of the two clamping arms 323 are respectively provided with an abutting part 326 which is matched with the piercing and riveting centering block 325 to be in sliding abutting joint, and the piercing and riveting centering block 325 moves up and down along with the piercing and riveting component 319 to abut against the abutting part 326 so as to drive the two clamping arms 323 to be opened or close. Specifically, when the riveting component 319 moves downwards, the two clamping arms 323 move close to each other under the action of the tension spring 324, and when the riveting component 319 moves upwards, the riveting centering block 325 is in sliding abutment with the abutment 326, so that the two clamping arms 323 are opened, the lead is positioned left and right by closing the two clamping arms 323, and then the lead and the material are pressed by pressing the middle template 318 in place in the riveting process.

In the winding apparatus of this embodiment, the flattening assembly 305 includes a flattening component 330 slidably mounted on the die carrier 302, a flattening reset block 331 is disposed at the top end of the flattening component 330, a flattening reset guide rod 332 is disposed at the top of the die carrier 302, the flattening reset guide rod 332 slidably penetrates through the flattening reset block 331, a flattening reset spring 333 is sleeved on the periphery of the flattening reset guide rod 332, and two ends of the flattening reset spring 333 are respectively connected with the die carrier 302 and the flattening reset block 331; the trinity mould of transferring still including flattening hold up the part 334 and order about flatten the hold up that the part 334 goes up and down to move flatten hold up driving piece 335.

Specifically, the material feeding wheel pulls the aluminum foil to the station of the flattening component 305, the third driving component 309 drives the flattening component 330 to move downwards, and the position where the material is connected with the lead is flattened downwards through the bottom of the flattening component 330; when the third driving assembly 309 does not abut against the flattening component 330 any more, the flattening component 330 is driven to reset to move upwards under the action of the flattening return spring 333; the flattening and lifting driving piece 335 can drive the flattening and lifting part 334 to lift up to separate the material from the material passing platform 306; the flattening supporting component 334 and the riveting jacking portion 321 can support the aluminum foil, damage to the material due to friction in the moving process of the aluminum foil is avoided, and the service life is longer.

In the winding apparatus of this embodiment, the three-in-one transfer mold further includes a thickness detection assembly 336, the thickness detection assembly 336 includes a detection support and two detection wheels rotatably disposed on the detection support, and a gap for passing a material is formed between the two detection wheels; the detection bracket is mounted on the frame 117, and the frame 117 is further rotatably provided with a material driving wheel 337. Specifically, after the aluminum foil and the lead are combined, if the aluminum foil can pass through the two detection rotating wheels, the flattening is finished, and if the aluminum foil cannot pass through the two detection rotating wheels, the flattening fails, and the aluminum foil is an unqualified product; wherein, the material driving wheel 337 can drive the aluminum foil to move by rotating.

Although the present invention has been described with reference to the above preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A winding apparatus characterized by: the winding machine comprises a rack and a winding machine head arranged on the rack, wherein the rack is also provided with a feeding mechanism, a cutting mechanism, a rubberizing mechanism and a discharging mechanism, and the feeding mechanism, the cutting mechanism, the rubberizing mechanism and the discharging mechanism are annularly arranged on the periphery of the winding machine head; the feeding mechanism comprises a negative aluminum foil feeding assembly, a positive aluminum foil feeding assembly and a paper tape feeding assembly which are sequentially arranged on the periphery of the winding machine head in a surrounding mode; the rack is also provided with a gummed paper sticking device which is used for sticking a gummed paper tape on the paper tape sent out by the paper tape feeding assembly;

the gummed paper sticking device comprises a machine table arranged on the machine frame, a paper tape transmission mechanism, a sticker adhesive tape transmission mechanism, a cutting mechanism and a gummed paper sticking mechanism, wherein the paper tape transmission mechanism, the sticker adhesive tape transmission mechanism, the cutting mechanism and the gummed paper sticking mechanism are all arranged on the machine table;

the winding machine head comprises a machine shell, a reel main body arranged in the machine shell in a rotating mode and a reel auxiliary body movably arranged in the reel main body, the feeding mechanism conveys a paper tape and an aluminum foil to the reel auxiliary body, and the reel auxiliary body rotates to wind the paper tape and the aluminum foil for storage.

2. A winding plant according to claim 1, characterized in that: the adhesive tape pasting transmission mechanism comprises an adhesive tape pasting transferring assembly, the adhesive tape pasting transferring assembly is positioned on one side of the cutting mechanism, and the adhesive tape pasting transferring assembly is used for transferring the adhesive tape to the cutting mechanism forwards;

3. A winding plant according to claim 2, characterized in that: the gummed paper pasting mechanism comprises an installation block arranged on a machine table, a movable shaft roller movably arranged on the installation block, and an adsorption head arranged at the front end of the movable shaft roller, and further comprises a first driving piece used for driving the movable shaft roller to move back and forth and a second driving piece used for driving the movable shaft roller to rotate, wherein the first driving piece and the second driving piece are both arranged on the machine table, and the second driving piece drives the movable shaft roller to rotate so as to drive the adsorption head to overturn from a cutting mechanism to a paper tape transmission mechanism;

4. A winding plant according to claim 1, characterized in that: the cutting mechanism is used for cutting off the paper tape and the aluminum foil; the adhesive tape sticking mechanism is used for sticking the paper tape and the aluminum foil which are wound on the reel auxiliary body; the discharging mechanism is used for taking out the paper tape and the aluminum foil wound and stored by the reel auxiliary body for discharging;

5. A winding plant according to claim 4, characterized in that: the winding machine head further comprises a divider, the output end of the divider is connected with a main body driving gear, the main body driving gear is in meshing transmission connection with the main body transmission part, and the main body transmission part is of a gear structure;

6. A winding plant according to claim 4, characterized in that: the cutting mechanism comprises a first abutting driving piece, a second abutting driving piece, a third cutting driving piece and a fourth cutting driving piece which are arranged on the rack, the output end of the first abutting driving piece is connected with a first substrate, the front end of the first substrate is rotatably connected with an upper pressing wheel, the output end of the second abutting driving piece is connected with a second substrate, the front end of the second substrate is rotatably connected with a lower pressing wheel, and the upper pressing wheel and the lower pressing wheel are both over against the reel auxiliary body;

7. A winding plant according to claim 4, characterized in that: the adhesive tape sticking mechanism comprises an adhesive tape feeding assembly, a pressing assembly and an adhesive tape cutting assembly; the pressing component comprises a bending guide pressing piece and a fifth driving piece for driving the bending guide pressing piece to move in a reciprocating manner; the adhesive tape cutting assembly comprises an adhesive tape cutting blade and a sixth driving piece for driving the adhesive tape cutting blade to move in a reciprocating mode; the adhesive tape feeding assembly is used for transferring the adhesive tape to the reel sub-body.

8. A winding plant according to claim 4, characterized in that: the discharging mechanism comprises a product conveying clamp, a conveying opening clamp block used for pushing the product conveying clamp to open or close, and a conveying driving piece used for driving the product conveying clamp to move back and forth.

9. A winding plant according to claim 1, characterized in that: negative pole aluminium foil pay-off subassembly with positive pole aluminium foil pay-off subassembly all is provided with and is used for processing the trinity mould on the aluminium foil with lead wire pressfitting, trinity mould includes frame and die carrier, the die carrier is from the right side to a left side in proper order a row formula be provided with the subassembly that punches a hole, thorn riveting subassembly and flatten the subassembly and all be located the subassembly that punches a hole, thorn riveting subassembly and flatten the subassembly the top of punishment platform, the frame is provided with and is used for ordering about the subassembly that punches a hole the first drive assembly of processing, be used for ordering about to the material the thorn riveting subassembly pierces through the second drive assembly that penetrates the lead wire and is used for ordering about to the material of flattening subassembly after to the lead wire flattening the third drive assembly of flattening processing.

10. A winding plant according to claim 9, characterized in that: the three-in-one transfer mold also comprises a thickness detection assembly, the thickness detection assembly comprises a detection support and two detection rotating wheels which are oppositely and rotatably arranged on the detection support, and a gap for materials to pass through is formed between the two detection rotating wheels; the detection support is arranged on the frame, and the frame is also rotatably provided with a material driving wheel.