CN118039253B - Flexible flat cable manufacturing equipment and cable thereof - Google Patents

Abstract

The invention discloses flexible flat cable manufacturing equipment and a cable thereof, and relates to the technical field of cables, the flexible flat cable manufacturing equipment comprises an equal-order combined frame, one end of the equal-order combined frame is fixedly connected with a forming manufacturing frame, the top end of the equal-order combined frame is provided with a constant-pressure stretching and straightening assembly, the constant-pressure stretching and straightening assembly comprises a mounting transmission case, one end of the equal-order combined frame is fixedly connected with the mounting transmission case, a mounting motor is mounted at the position of one end of the equal-order combined frame corresponding to the mounting transmission case through a motor seat, an output shaft of the mounting transmission case is equidistantly clamped with a side groove special-shaped frame, and two ends of the side groove special-shaped frame are fixedly connected with a protruding inner groove frame.

Description

Flexible flat cable manufacturing equipment and cable thereof

Technical Field

The invention relates to the technical field of cables, in particular to flexible flat cable manufacturing equipment and a cable thereof.

Background

The flexible flat cable is suitable for occasions with frequent bending, does not kink, is folded neatly, can randomly select the number and the distance of the wires, is more convenient to connect, greatly reduces the volume of electronic products, reduces the production cost, improves the production efficiency, and is most suitable for being used as a data transmission cable between a mobile part and a main board, between a PCB board and in small and medium-sized electrical equipment.

But now when producing flat cable, because of the cable does not set up effectual clamping device in the traction process, the circumstances that leads to the cable to appear the skew easily and cable bending folding appear to need the operation of more time again when the cable is reloaded, lead to the circumstances of production stop to take place, and the circumstances that leads to the feeding folding easily to take place because of feeding speed and production speed mismatch when producing, very big influence the quality of the speed product of production.

Disclosure of Invention

The invention provides flexible flat cable manufacturing equipment and a cable thereof, which can effectively solve the problems that when the flat cable is produced in the prior art, the cable is easy to shift and bend and fold due to the fact that an effective clamping device is not arranged in the cable pulling process, the cable is required to be pulled again during cable material changing, the production is stopped due to the fact that the cable is required to be pulled again, and the feeding folding is easy to occur due to the fact that the feeding speed and the production speed are not matched during production, and the quality of produced speed products is greatly influenced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the flexible flat cable manufacturing equipment comprises an equal-order combined frame, wherein one end of the equal-order combined frame is fixedly connected with a forming manufacturing frame, and the top end of the equal-order combined frame is provided with a constant-pressure straightening component;

The constant-pressure stretching assembly comprises a mounting transmission case;

One end of the equal-order combined frame is fixedly connected with a mounting transmission case, a mounting motor is arranged at the position of one end of the equal-order combined frame corresponding to the mounting transmission case through a motor seat, the output shaft of the mounting transmission case is equidistantly clamped with a side groove special-shaped frame, and two ends of the side groove special-shaped frame are fixedly connected with protruding inner groove frames;

A plurality of positioning electric push rods are equidistantly arranged at one end of the protruding inner groove frame, a plurality of wire inlet motors are equidistantly arranged at one end of the protruding inner groove frame through a motor base, and one end of each positioning electric push rod is fixedly connected with a 匚 type constant-pressure sleeve;

a hole locating rack is welded at one end of the equal-order combined rack at equal intervals, a plurality of return springs are welded at the inner side of the hole locating rack at equal intervals, and a lifting 匚 template is fixedly connected at one end of each of the plurality of return springs;

The concave line pressing wheels are arranged on the output shaft of the line feeding motor, the inner side of the 匚 type constant-pressure sleeve, the inner side of the hole positioning frame and the inner side of the lifting 匚 type plate;

Lifting electric sliding rails are symmetrically arranged at one end of the hole positioning frame at equal intervals, an electric heating pressing plate is clamped at one end of each lifting electric sliding rail through a sliding rail seat, and laser positioners are symmetrically arranged at the side end of the hole positioning frame at equal intervals;

The top end of the forming manufacturing frame is welded with a fixed mounting box, the top end of the fixed mounting box is embedded with an opening and closing electric push rod, the bottom ends of the fixed mounting box and the opening and closing electric push rod are fixedly connected with fixed electromagnets, the top ends of the fixed electromagnets positioned at the bottom ends of the fixed mounting box are magnetically connected with a bottom die, the bottom ends of the fixed electromagnets positioned at the opening and closing electric push rod are magnetically connected with a top die, and the bottom ends of the bottom die and the top die are in penetrating connection with a feeding pipe frame;

And a porous height fixing plate is connected at one end of the forming manufacturing frame in a clamping manner at the position corresponding to the fixed mounting box.

According to the technical scheme, the clamping electric push rods are symmetrically arranged at the two ends of the side groove special-shaped frame, one end of each clamping electric push rod is fixedly connected with the clamping arc block, and the I-shaped positioning blocks are rotationally sleeved between the side groove special-shaped frame and the clamping arc blocks;

a plurality of constant voltage push rods are symmetrically arranged at one end of the inner side of the equal-order combined frame at equal intervals, an in-out motor is symmetrically arranged at the other end of the inner side of the equal-order combined frame at equal intervals through a motor seat, an I-shaped rotating block is fixedly connected to the top end of the constant voltage push rods, and a flat cable concave wheel set is arranged at the output shaft of the in-out motor and the side end of the I-shaped rotating block;

A loop-shaped protection block is welded between the concave wheel sets corresponding to four adjacent flat cables on the inner side of the equal-order combined frame, a plurality of pressing springs are equidistantly arranged on the top end of the inner side of the loop-shaped protection block, equal-order protruding blocks are arranged on the bottom ends of the pressing springs, and a plurality of contact sensors are equidistantly arranged on the bottom ends of the inner side of the loop-shaped protection block and the bottom ends of the equal-order protruding blocks;

A plurality of installation support sleeve is installed to equidistant one end of equidistant combination frame, installation support sleeve side end cover has connect the relay adjustment cover, the one end rotation that the installation support cover was kept away from to the relay adjustment cover has cup jointed the toper and has been arranged the material cover, installation support cover and relay adjustment cover top one side are all installed the counterpoint motor through the motor cabinet.

According to the technical scheme, the output shaft of the mounting motor is clamped with the input shaft of the mounting transmission case, and the side groove special-shaped frame is rotatably mounted at the inner side end of the equal-order combined frame;

The special-shaped side groove frame and the locating hole frame are two, the clamping arc-shaped blocks are slidably mounted on the inner side of the special-shaped side groove frame, and the clamping arc-shaped blocks and the protruding inner groove frame are four.

According to the technical scheme, the concave line pressing wheels are respectively rotatably arranged on the inner sides of the protruding inner groove frames and the hole positioning frames, the side ends of the electric heating pressing plates are in sliding fit with the hole positioning frames, the I-shaped rotating blocks are slidably arranged on the side ends of the equal-order combined frames, and the equal-order protruding blocks are slidably arranged on the side ends of the return-type protection blocks.

According to the technical scheme, the two contraposition motor output shafts are respectively connected with one end of the relay adjusting sleeve and one end of the conical discharging sleeve in a clamping mode, the fixed electromagnet at the position of the switching electric push rod is slidably mounted on the inner side of the fixed mounting box, and the bottom die and the top die are sleeved and combined.

According to the technical scheme, the side ends of the porous height fixing plate are respectively attached to one end of the bottom die and one end of the top die;

the input ends of the installation motor, the clamping electric push rod, the positioning electric push rod, the wire inlet motor, the lifting electric slide rail, the electric heating pressing plate, the laser positioner, the fixed-voltage electric push rod, the in-out motor, the contact sensor, the alignment motor, the opening-closing electric push rod and the fixed electromagnet are electrically connected with the output end of the external controller;

the input end of the external controller is electrically connected with the output end of the external power supply.

According to the technical scheme, the top end of the forming manufacturing frame is provided with a cold and hot treatment assembly;

The cold and hot treatment assembly comprises an extrusion heating barrel;

the side ends of the forming manufacturing frame are sleeved with extrusion molding heating barrels, the side ends of the extrusion molding heating barrels are symmetrically provided with extrusion hydraulic cylinders, one ends of the two extrusion hydraulic cylinders are fixedly connected with extrusion closing sleeves, one ends of the extrusion closing sleeves are provided with feeding motors through motor bases, the output shafts of the feeding motors are connected with feeding operation frames in a clamping mode, and the side ends of the feeding operation frames are welded with feeding augers;

The extrusion molding heating barrel side end is connected with a heating dispersing barrel in a penetrating way, the top end of the heating dispersing barrel is provided with a stirring motor through a motor seat, the bottom end of an output shaft of the stirring motor is fixedly connected with a multiple stirring frame corresponding to the inner side of the heating dispersing barrel, the middle part of the inner side of the heating dispersing barrel is welded with a storage placing plate, the top ends of the heating dispersing barrel are symmetrically provided with a linkage electric push rod, the bottom ends of the two linkage electric push rods are provided with an opening and closing limiting sleeve, the side ends of the multiple stirring frames are welded with a centrifugal operation disc corresponding to the position of the opening and closing limiting sleeve, the top end of the heating dispersing barrel is connected with a plurality of feeding operation pipes in a penetrating way, and the feeding ends of the feeding operation pipes are provided with limiting valves;

The top end of the molding manufacturing frame is provided with a cooling storage box, one end of the cooling storage box is connected with an injection operation pipe in a penetrating manner, a booster pump is arranged at the position of one end of the molding manufacturing frame corresponding to the injection operation pipe through a motor base, the inner side of the fixed mounting box is fixedly provided with a cooling circulation box at the position corresponding to the injection operation pipe, and the top end of the cooling circulation box is connected with a discharge operation pipe in a penetrating manner;

The cooling device comprises a forming manufacturing frame, a cooling operation box, a condenser, a plurality of spraying cooling pipes, a fixed mounting box, a clamping electric push rod, a cooling operation box and a condenser.

According to the technical scheme, the extrusion closing sleeve is slidably mounted at the side end of the extrusion heating barrel, the feeding operation frame and the feeding auger are rotatably mounted at the inner side of the extrusion heating barrel, the multiple stirring frame is rotatably mounted at the inner side of the heating dispersion barrel and the opening and closing limiting sleeve, and the opening and closing limiting sleeve is sleeved with the storage placing plate.

According to the technical scheme, the bottom ends of the two feeding operation pipes are connected with the top ends of the opening and closing limiting sleeves in a penetrating manner, and the side ends of the injection operation pipe and the discharge operation pipe are clamped with one end of the spray cooling pipe through the adapter;

the input of extrusion molding heating bucket, extrusion pneumatic cylinder, feeding motor, heating dispersion bucket, agitator motor, linkage electricity push rod, limiting valve, booster pump, centre gripping electricity push rod and condenser all with the output electric connection of external control ware.

According to the technical scheme, the flexible flat cable is used for the cable manufactured by the flexible flat cable manufacturing equipment.

Compared with the prior art, the invention has the beneficial effects that:

1. The automatic feeding and discharging device is provided with a constant-pressure straightening component, the constant-pressure pushing rod, the clamping arc block, the mounting transmission case, the mounting motor and the side groove special-shaped frame are used for rapidly feeding and discharging materials and matched with the positioning electric pushing rod, the wire feeding motor, the 匚 type constant-pressure sleeve and the concave wire pressing wheel to drive cables to discharge materials, the reset springs are driven to compress while moving by the reset springs, the lifting 匚 type plates and the concave wire pressing wheel to realize the straightening treatment of the cables, the positioning operation is carried out by the laser positioner, the lifting electric sliding rail and the electric heating pressure plate are used for carrying out hot-pressing combination on the two groups of cables, so that the quick operation can be carried out when the materials are changed, the material changing time can be controlled according to the tensile force of the two ends of the cables, the quick synchronous operation can be realized when the materials are changed, the two groups of cables are combined by the pressure plate, the electric heating pressure plate is used for avoiding re-traction threading in production, the waiting time is reduced, and the production speed is accelerated;

The cable is limited by the fixed-voltage push rod, the in-out motor, the I-shaped rotating block and the cable arranging concave wheel set, so that the cable is in an S-shaped discharging state, the discharging straightening state of the cable is controlled by the back-type protecting block, the down-voltage spring, the equal-order protruding block and the contact sensor, the discharging speed of the cable can be limited during discharging, meanwhile, the cable is shaped, bending caused by loosening of the cable discharging is avoided, the cable is limited by the mounting supporting sleeve, the relay adjusting sleeve, the conical discharging sleeve and the cable arranging position by the alignment motor, and the cable forming position is limited by the porous height fixing plate, so that the cable can be positioned and supported during production and forming, and the condition that the product quality is influenced by position deviation is avoided;

The cable tension control device has the advantages that the cable tension control device is matched with the cable tension control device through the clamping components, the rotating switching components and the cable tension control components, the front end and the rear end are utilized to straighten the cable, the cable state is monitored in real time through the cooperation of the detector, thereby the self-adjusting function of the device is utilized to operate and adjust according to the state of the cable, and continuous wires are clamped through traction cooperation and heat, so that the problem that the cable is bent and deflected due to insufficient traction support and traction limitation of the cable in the prior art when the flat cable is produced is solved, the problem that the production efficiency is reduced due to overlong stay time of cable material changing is solved, and the quality and the efficiency of the cable can be guaranteed when the cable is stably produced through synchronous linkage production through the cooperation operation of the multiple groups.

2. The cooling device comprises a cooling operation box, a condenser, a cooling storage box, a pressurizing pump, an injection operation pipe, a cooling storage box, a discharge operation pipe, a cooling water circulation, a low-temperature cable, a die contact cooling, a warm water spray cooling and a cold water spray cooling, wherein the cooling operation box is driven by the clamping electric push rod to cool the side end of the cable, so that the surface temperature of the cable is reduced, a cooling solidification jacket can be formed rapidly when the cable is contacted with extruded plastics, the cable is subjected to fixed operation, the pressurizing pump, the injection operation pipe, the cooling storage box and the discharge operation pipe drive cooling water circulation, the circulating water and the cooling water are sprayed to the inner side of the buffer cooling box respectively through the injection operation pipe, the discharge operation pipe and the spray cooling pipe, the solidification insulation jacket is formed rapidly when the low-temperature cable is contacted with the extruded plastics, and the cooling operation is carried out continuously in a synchronous manner through the die contact cooling, the warm water spray cooling and the cold water spray cooling, so that the outside retarded cooling is realized, the situation that the cable is seriously contracted due to the cooling speed is avoided, and the cable size is contracted is ensured, and the production speed is ensured.

The raw materials homogenizing and feeding are driven through a stirring motor, a multiple stirring frame and a centrifugal operation panel through a plurality of groups of feeding operation pipes for separating and feeding, the mixing and heating are carried out in synchronization with the feeding, the mixing speed and the dissolving speed are accelerated, the extruded plastic is driven to continuously advance through an extrusion hydraulic cylinder, a feeding motor, a feeding operation frame and a feeding auger, the raw materials are homogenized and dispersed through a plurality of groups of dispersing operations and are comprehensively heated and dissolved, and therefore the feeding speed is accelerated, and the feeding speed is guaranteed.

In summary, through the cooperation of the constant pressure stretching assembly and the cold and hot treatment assembly, utilize the dispersion to heat feeding and multi-position feeding for can guarantee the speed of extrusion molding feeding when producing, avoid leading to the cable surface and the inside condition emergence that the hole collapses because of the feed is not enough, utilize multiunit cooling and multiunit to support the location simultaneously, guarantee the position of cable in flat cable, avoid influencing the condition emergence of product quality because of position deviation or position break away from, mutually support through a plurality of subassemblies, guaranteed the efficiency of production and the quality of product.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic view of a three-dimensional structure of the present invention;

FIG. 2 is a schematic structural view of the constant pressure straightening assembly of the present invention;

FIG. 3 is a schematic view of the mounting structure of the side channel shaped rack of the present invention;

FIG. 4 is a schematic view of the mounting structure of the tapered discharge jacket of the present invention;

FIG. 5 is a schematic view of the mounting structure of the contact sensor of the present invention;

FIG. 6 is a schematic view of the mounting structure of the bottom die of the present invention;

FIG. 7 is a schematic view of the structure of the cold and heat treatment assembly of the present invention;

FIG. 8 is a schematic view of the mounting structure of the cooling circulation tank of the present invention;

FIG. 9 is a schematic view of the mounting structure of the extrusion heating barrel of the present invention;

Reference numerals in the drawings: 1. an equal-order combined frame; 2. forming a manufacturing frame;

3. A constant pressure straightening component; 301. installing a transmission case; 302. installing a motor; 303. side groove special-shaped frames; 304. clamping the electric push rod; 305. clamping the arc-shaped block; 306. an I-shaped positioning block; 307. protruding the inner groove frame; 308. positioning an electric push rod; 309. a wire inlet motor; 310. 匚 type constant pressure sleeve; 311. a hole positioning frame; 312. a return spring; 313. lifting 匚 the template; 314. concave line pressing wheels; 315. lifting the electric slide rail; 316. an electric heating pressing plate; 317. a laser locator; 318. a constant voltage push rod; 319. a motor is driven in and out; 320. an I-shaped rotating block; 321. a concave wheel set of the flat cable; 322. a loop-shaped protection block; 323. pressing down the spring; 324. an equal-order convex block; 325. a contact sensor; 326. installing a supporting sleeve; 327. a relay adjustment sleeve; 328. a conical discharging sleeve; 329. a contraposition motor; 330. fixing the mounting box; 331. opening and closing the electric push rod; 332. fixing an electromagnet; 333. a bottom die; 334. a top mold; 335. a feed tube rack; 336. a porous height-fixing plate;

4. A cold and hot treatment assembly; 401. extruding and heating barrel; 402. extruding a hydraulic cylinder; 403. extruding the closing sleeve; 404. a feed motor; 405. a feeding operation frame; 406. a feeding auger; 407. heating the dispersing barrel; 408. a stirring motor; 409. multiple stirring frames; 410. a storage placement plate; 411. linkage electric push rod; 412. an opening and closing limit sleeve; 413. a centrifugal operation panel; 414. a feed operation pipe; 415. a restriction valve; 416. cooling the storage box; 417. injecting an operation pipe; 418. a booster pump; 419. a cooling circulation tank; 420. a discharge operation pipe; 421. a buffer cooling box; 422. spraying a cooling pipe; 423. clamping the electric push rod; 424. cooling the operation box; 425. and a condenser.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-9, the invention provides a technical scheme, namely flexible flat cable manufacturing equipment, which comprises an equal-order combined frame 1, wherein one end of the equal-order combined frame 1 is fixedly connected with a forming manufacturing frame 2, and the top end of the equal-order combined frame 1 is provided with a constant-pressure straightening component 3;

The constant pressure stretching assembly 3 comprises a mounting transmission case 301, a mounting motor 302, a side groove special-shaped frame 303, a clamping electric push rod 304, a clamping arc block 305, an I-shaped positioning block 306, a protruding inner groove frame 307, a positioning electric push rod 308, a wire inlet motor 309, a 匚 type constant pressure sleeve 310, a hole positioning frame 311, a return spring 312, a lifting 匚 type plate 313, a concave wire pressing wheel 314, a lifting electric slide rail 315, an electric heating pressure plate 316, a laser positioner 317, a constant pressure push rod 318, an inlet and outlet motor 319, an I-shaped rotating block 320, a wire arranging concave wheel group 321, a return type protection block 322, a pressing spring 323, a constant-order convex block 324, a contact sensor 325, a mounting support sleeve 326, a relay adjustment sleeve 327, a conical discharge sleeve 328, a positioning motor 329, a fixed mounting box 330, an opening and closing electric push rod 331, a fixed electromagnet 332, a bottom die 333, a top die 334, a feeding pipe frame 335 and a porous height fixing plate 336;

The installation transmission case 301 is fixedly connected to one end of the equal-order combination frame 1, the installation motor 302 is installed at the position, corresponding to the installation transmission case 301, of one end of the equal-order combination frame 1, the output shaft of the installation motor 302 is clamped with the input shaft of the installation transmission case 301, so that stable operation can be ensured during synchronous transmission, the linkage operation and the stability of synchronous transmission are ensured, the side groove special-shaped frame 303 is fixedly clamped at the equidistant end of the output shaft of the installation transmission case 301, the side groove special-shaped frame 303 is rotatably installed at the inner side end of the equal-order combination frame 1, so that stable operation can be realized during rotary support and positioning switching, clamping electric push rods 304 are symmetrically installed at two ends of the side groove special-shaped frame 303, clamping arc blocks 305 are fixedly connected with clamping arc blocks 305 at one end of each clamping electric push rod 304, the clamping arc blocks 305 are slidably installed at the inner side of the side groove special-shaped frame 303, stable limiting can be ensured during movement, the situation of being separated from or deflected by clamping is avoided, an I-shaped positioning block 306 is rotatably sleeved between the side groove special-shaped frame 303 and the clamping arc blocks 305, two ends of the side groove special-shaped frame 303 are fixedly connected with an inner groove frame 307, the clamping arc blocks 305 and the protruding arc blocks 307 are provided with four protruding electric push rods 307 are convenient to be connected with one end of each electric push rods 308 through a plurality of fixed electric push rods 308, and one end of the electric push rods 308 are fixedly connected with one end of the electric push rods 308 at the same time, and one end of the electric push rods 308 are connected with one end of the electric push rods are connected with the electric push rods 308;

The hole positioning frames 311 are welded at equal intervals on one end of the equal-order combined frame 1, two side groove special-shaped frames 303 and two hole positioning frames 311 are arranged, so that stable operation of rotary positioning and regulation limiting can be ensured during switching operation and opposite feeding, a plurality of return springs 312 are welded at equal intervals on the inner side of each hole positioning frame 311, one end of each return spring 312 is fixedly connected with a lifting 匚 template 313, concave wire pressing wheels 314 are arranged on the inner side of each wire feeding motor 309 output shaft, 匚 type fixed pressure sleeve 310, the inner side of each hole positioning frame 311 and the inner side of each lifting 匚 template 313, the concave wire pressing wheels 314 are respectively rotatably arranged on the inner sides of the protruding inner groove frames 307 and the hole positioning frames 311, stable operation of rotary positioning and regulation limiting can be ensured during rotary positioning and clamping limiting, lifting electric sliding rails 315 are symmetrically arranged on one end of each hole positioning frame 311, electric sliding rails 315 are clamped with electric heating pressing plates 316 through sliding rail seats, sliding fit of the side ends of the electric heating pressing plates 316 with the hole positioning frames 311, stable operation of sliding support is ensured, and laser positioners 317 are symmetrically arranged on the side ends of the hole positioning frames 311;

A plurality of fixed-voltage push rods 318 are symmetrically arranged at one end of the inner side of the equal-voltage combined frame 1 at equal intervals, an in-out motor 319 is symmetrically arranged at the other end of the inner side of the equal-voltage combined frame 1 at equal intervals through a motor seat, an I-shaped rotating block 320 is fixedly connected to the top end of the fixed-voltage push rods 318, the I-shaped rotating block 320 is slidably arranged at the side end of the equal-voltage combined frame 1, so that the fixed-voltage combined frame can be stably operated when being slidably supported and movably positioned, a flat cable concave wheel group 321 is arranged at the output shaft of the in-out motor 319 and the side end of the I-shaped rotating block 320, a return type protection block 322 is welded between the inner side of the equal-voltage combined frame 1 and four adjacent flat cable concave wheel groups 321, a plurality of hold-down springs 323 are equidistantly arranged at the top end of the inner side of the return type protection block 322, a plurality of hold-down springs 323 are arranged at the bottom ends of the return type springs 323, and the equal-voltage convex blocks 324 are slidably arranged at the side ends of the return type protection block 322, so that the fixed operation of the whole hold-down and limit support is ensured, and a plurality of contact sensors 325 are arranged at the inner side bottom ends of the return type protection block 322 at equal-voltage protection blocks and the equal-voltage protection blocks 324;

a plurality of mounting support sleeves 326 are equidistantly arranged at one end of the equal-order combined frame 1, a relay adjusting sleeve 327 is sleeved at the side end of the mounting support sleeve 326, a conical discharging sleeve 328 is rotatably sleeved at one end of the relay adjusting sleeve 327 far away from the mounting support sleeve 326, an alignment motor 329 is arranged at one side of the top ends of the mounting support sleeve 326 and the relay adjusting sleeve 327 through a motor base, and output shafts of the two alignment motors 329 are respectively connected with one ends of the relay adjusting sleeve 327 and the conical discharging sleeve 328 in a clamping manner, so that stable transmission linkage is facilitated;

The top end of the forming manufacturing frame 2 is welded with a fixed mounting box 330, the top end of the fixed mounting box 330 is embedded with an opening and closing electric push rod 331, the bottom end of the fixed mounting box 330 and the bottom end of the opening and closing electric push rod 331 are fixedly connected with a fixed electromagnet 332, the top end of the fixed electromagnet 332 positioned at the bottom end of the fixed mounting box 330 is magnetically connected with a bottom die 333, the bottom end of the fixed electromagnet 332 positioned at the position of the opening and closing electric push rod 331 is magnetically connected with a top die 334, the fixed electromagnet 332 positioned at the position of the opening and closing electric push rod 331 is slidably arranged at the inner side of the fixed mounting box 330, the bottom die 333 and the top die 334 are sleeved and combined, so that the forming manufacturing frame can be stably operated during lifting and clamping, the top ends of the bottom die 333 and the top die 334 are in penetrating connection with a feeding pipe frame 335, one end of the forming manufacturing frame 2 is correspondingly clamped with a porous height fixing plate 336, the side ends of the porous height fixing plate 336 are respectively attached to one end of the bottom die 333 and the top die 334, the stability of wire inlet wire positioning is ensured, and wire deflection is avoided;

for stable operation of the device, the input ends of the installation motor 302, the clamping electric push rod 304, the positioning electric push rod 308, the wire inlet motor 309, the lifting electric slide rail 315, the electric heating press plate 316, the laser positioner 317, the fixed voltage electric push rod 318, the in-out motor 319, the contact sensor 325, the alignment motor 329, the opening and closing electric push rod 331 and the fixed electromagnet 332 are electrically connected with the output end of the external controller;

the input end of the external controller is electrically connected with the output end of the external power supply.

The top end of the molding manufacturing frame 2 is provided with a cold and heat treatment assembly 4;

The cold and hot treating unit 4 includes an extrusion heating tub 401, an extrusion hydraulic cylinder 402, an extrusion closing jacket 403, a feed motor 404, a feed operation frame 405, a feed auger 406, a heating dispersion tub 407, a stirring motor 408, a multiple stirring frame 409, a storage placement plate 410, a linked electric push rod 411, an opening and closing limit sleeve 412, a centrifugal operation disk 413, a feed operation pipe 414, a limit valve 415, a cooling storage tank 416, an injection operation pipe 417, a booster pump 418, a cooling circulation tank 419, a discharge operation pipe 420, a buffer cooling box 421, a shower cooling pipe 422, a holding electric push rod 423, a cooling operation box 424, and a condenser 425;

The extrusion heating barrel 401 is sleeved at the side end of the forming manufacturing frame 2, the extrusion hydraulic cylinders 402 are symmetrically arranged at the side end of the extrusion heating barrel 401, the extrusion closing sleeves 403 are fixedly connected with the extrusion closing sleeves 403 at one end of the extrusion heating barrel 402, the extrusion closing sleeves 403 are slidably arranged at the side end of the extrusion heating barrel 401, the feeding operation frame 405 and the feeding auger 406 are rotatably arranged at the inner side of the extrusion heating barrel 401, so that stable operation can be performed during extrusion feeding and rotary feeding, the stability of synchronous operation of production feeding is ensured, the feeding motor 404 is arranged at one end of the extrusion closing sleeve 403 through a motor seat, the feeding operation frame 405 is clamped at the output shaft of the feeding motor 404, the feeding auger 406 is welded at the side end of the feeding operation frame 405, the heating dispersing barrel 407 is connected with the heating dispersing barrel 407 in a penetrating manner, the top end of the heating dispersing barrel 407 is provided with the stirring motor 408 through a motor seat, the bottom end of the output shaft of the stirring motor 408 is correspondingly fixedly connected with the multiple stirring frame 409 at the inner side of the heating dispersing barrel 407, the multiple stirring frame 409 is rotatably arranged at the inner side of the heating dispersing barrel 407 and the opening and the limiting sleeve 412, so that the inner side of the heating and homogenizing feeding can be stably operated during feeding of the material separation and homogenizing feeding is driven by heating stirring, and the middle part of the heating barrel 407 is placed and a storage plate 410 is placed;

The top ends of the heating dispersion barrels 407 are symmetrically provided with the linkage electric push rods 411, the bottom ends of the two linkage electric push rods 411 are provided with the opening and closing limiting sleeves 412, the opening and closing limiting sleeves 412 are sleeved with the storage placing plate 410, so that the raw material mixing limitation and the discharge amount limitation are realized, the centrifugal operation discs 413 are welded at the side ends of the multiple stirring frames 409 corresponding to the positions of the opening and closing limiting sleeves 412, the top ends of the heating dispersion barrels 407 are connected with a plurality of feeding operation pipes 414 in a penetrating manner, the bottom ends of the two feeding operation pipes 414 are connected with the top ends of the opening and closing limiting sleeves 412 in a penetrating manner, the stable feeding operation is ensured, and the feeding ends of the feeding operation pipes 414 are provided with limiting valves 415;

The top end of the forming manufacturing frame 2 is provided with a cooling storage box 416, one end of the cooling storage box 416 is connected with an injection operation pipe 417 in a penetrating way, side ends of the injection operation pipe 417 and a discharge operation pipe 420 are clamped with one end of a spray cooling pipe 422 through an adapter, so that water can be stably fed in during spray cooling, the position of one end of the forming manufacturing frame 2 corresponding to the injection operation pipe 417 is provided with a booster pump 418 through a motor seat, the position of the inner side of a fixed mounting box 330 corresponding to the injection operation pipe 417 is fixedly provided with a cooling circulation box 419, the top end of the cooling circulation box 419 is connected with a discharge operation pipe 420 in a penetrating way, one end of the forming manufacturing frame 2 is fixedly connected with a buffer cooling box 421, the top end and the bottom end of the side end of the buffer cooling box 421 are respectively connected with a plurality of spray cooling pipes 422 in an equidistant penetrating way, the top end and the bottom end of the fixed mounting box 330 are respectively provided with a clamping electric push rod 423, one end of the clamping electric push rod 423 is provided with a cooling operation box 424, and the inner side of the cooling operation box 424 is provided with a condenser 425 in an embedded and installed;

for stable operation of the apparatus, the input ends of the extrusion heating barrel 401, the extrusion hydraulic cylinder 402, the feeding motor 404, the heating dispersion barrel 407, the stirring motor 408, the linkage electric push rod 411, the limiting valve 415, the booster pump 418, the clamping electric push rod 423 and the condenser 425 are electrically connected with the output end of the external controller.

According to the technical scheme, the flexible flat cable is used for the cable manufactured by the flexible flat cable manufacturing equipment.

The working principle and the using flow of the invention are as follows: the staff fixes the cable tube sleeved with the cable to the side end of the I-shaped positioning block 306, after the sleeving is completed, the I-shaped positioning block 306 is inserted into the inner side of the side groove special-shaped frame 303, after the insertion is completed, the clamping arc-shaped block 305 is driven by the clamping electric push rod 304 to be inserted into the side end of the I-shaped positioning block 306 along the side groove special-shaped frame 303, so that the cable is clamped and installed on the I-shaped positioning block 306 by the side groove special-shaped frame 303 and the clamping arc-shaped block 305, the cable is fixed to the positions of the equal-order combined frame 1 and the side groove special-shaped frame 303, the traction cable passes through the protruding inner groove frame 307, the cable is placed at the top end of the concave pressing wheel 314 at the position of the wire inlet motor 309, the 匚 type constant pressing sleeve 310 and the concave pressing wheel 314 are driven by the positioning electric push rod 308 to be pressed down, the cable is fixed and clamped by the two concave pressing wheels 314, the cable installation and cable traction are realized after the installation is completed, the installation motor 302 and the installation transmission case 301 drive the side groove special-shaped frame 303 to rotate along the equal-order combined frame 1, cables are rotationally placed at the positions of the hole positioning frames 311, the wire inlet motor 309 drives the concave wire pressing wheels 314 to push the cables to pass through the hole positioning frames 311, the wire arrangement concave wheel sets 321, the bottom die 333 and the top die 334 and finally combine with the traction end, the traction end is used for pulling wires, and the clamping connection, the support limiting and the clamping fixing are adopted, so that the cables can be rapidly operated during replacement and installation, the operation steps are reduced, the stability of the support and the speed of changing materials are ensured through a plurality of groups of positioning supports, and the wire outlet is pulled, so that the cable can be stably supported during wire outlet, the occurrence of deviation and detachment is reduced, the effective support operation of the follow-up cables at the extrusion molding position is ensured, and the position accuracy of the follow-up cables is ensured;

The 匚 type constant pressure sleeve 310 and the concave pressure roller 314 are driven to clamp and position the cables through the positioning electric push rod 308, the concave pressure roller 314 is driven to rotate by matching with the wire inlet motor 309, so that the cables are driven to move slowly, in the process of the cable moving slowly, a plurality of groups of cables move, at the moment, the cables are attached to the concave pressure roller 314 positioned at the position of the lifting 匚 type plate 313, the lifting 匚 type plate 313 is pushed to move along the hole positioning frame 311 under the supporting action of the reset spring 312, the lifting 匚 type plate 313 and the concave pressure roller 314 move to the position far from the laser positioner 317, after the cables at the position of the 匚 type constant pressure sleeve 310 are pulled out, the limiting force is lost at the position, the cables are stressed in one direction, the reset spring 312 is not influenced by pressure, at the moment, the reset spring 312 drives the lifting 匚 type plate 313 and the concave pressure roller 314 to reset, the concave wire pressing wheel 314 fixed on the side end of the hole positioning frame 311 is attached to the concave wire pressing wheel 314, at the moment, the concave wire pressing wheel 314 moves to the position of the laser positioner 317, the motor at the traction position is turned off, meanwhile, the mounting motor 302 is started, the side groove special-shaped frame 303 is driven to rotate along the equal-order combined frame 1 again through the mounting motor 302 and the mounting transmission case 301, the replacement of the I-shaped positioning block 306 and the cable drum is completed, after the replacement is completed, the operation that the wire feeding motor 309, the positioning electric push rod 308, the 匚 type fixed pressure sleeve 310 and the concave wire pressing wheel 314 drive the cable to move is repeated again, at the moment, the cable moves to the joint position of the previous section of cable, the electric heating pressure plate 316 is driven to move oppositely by the two lifting electric slide rails 315, the two cables are clamped by the electric heating pressure plate 316, the outer covers of the two cables are heated, the two groups of cables are bonded together, at the moment, the two sides form pressure again, the lifting 匚 type plate 313 and the concave line pressing wheel 314 are pulled along with the cable again to continue traction operation, so that the pressure of the cable to the equipment can be utilized to carry out self-adjustment operation during material changing, long-time waiting caused by material changing during production of the cable is reduced through cable joint combination, production efficiency is affected, the operation complexity of workers is reduced through self-replacement and self-combination operation of the cable, production speed is accelerated, meanwhile, the constant-speed supporting traction is utilized, the discharging speed of the cable can be effectively adjusted according to the production speed, bending and folding at the contact position of the cable and the outer wrapper caused by discharging relaxation are avoided, quality problems are caused, the pressure generated by the cable during cable traction to production equipment is facilitated, the tension degree of cable discharging is ensured, abnormal production caused by over-fast discharging or cable detachment is avoided, and stable production treatment is ensured;

The cable passes through the hole positioning frame 311 and enters the position of the cable arranging concave wheel group 321, the fixed piezoelectric push rod 318 is utilized to drive the I-shaped rotating block 320 and the cable arranging concave wheel group 321 to press down, the two groups of cable arranging concave wheel groups 321 are utilized to clamp and fix the cable, the cable arranging concave wheel group 321 is driven by the in-out motor 319 to drive the cable to move, the cable is realized to move in two U shapes through the mutual matching of multiple groups, the cable passes through the return type protection block 322, when the cable is straightened, the equal-order protruding block 324 is positioned at the top end position of the return type protection block 322, when the cable is loosened, the equal-order protruding block 324 is driven by the pressing spring 323 to press down, when the cable is too loose, the side ends of the cable are respectively contacted with the equal-order protruding block 324 and the inner side end contact sensor 325 of the return type protection block 322, at the moment, the in-out motor 319 positioned at the position of the cable is still continuously advanced, so that the cable is driven to straighten again, the cable is clamped and the cable is shaped through the multiple groups of operation, the cable is not only, but also the shaping operation is performed, the cable is ensured to bend and the straightness of the cable is ensured, and the deformation quality of the cable is ensured when the multiple groups of the cable is pressed and the cable is simultaneously, and the deformation operation is ensured;

The cables pass through the positions of the cable-arranging concave wheel sets 321, enter the positions of the mounting support sleeve 326, the relay adjusting sleeve 327 and the conical material-arranging sleeve 328, pass through the conical material-arranging sleeve 328, drive the relay adjusting sleeve 327 to rotate along the mounting support sleeve 326 through the alignment motor 329, the conical material-arranging sleeve 328 rotates along the relay adjusting sleeve 327, change the wire-outlet position, adjust the spacing among a plurality of groups of cables according to the size of the cables to be produced, fix the spacing, avoid the larger deviation of the size caused by pulling, separate the cables as a whole, lead the cables to be abnormal at part of positions, and cooperate with the porous height-fixing plate 336 to limit the cable feeding, so that the cable-arranging device can operate stably during wire feeding, ensure the stability of the cable fixing limitation, the positions of the outgoing lines and the incoming lines of the cables are effectively limited, the situation that the cables are separated due to insufficient support and limitation between the incoming lines and the outgoing lines is reduced, the cables penetrate through the porous height fixing plate 336 to enter the position of the fixed installation box 330, the bottom die 333 and the top die 334 are respectively fixed to the position of the fixed electromagnet 332, the fixed electromagnet 332 and the top die 334 are driven to be pressed down by the opening and closing electric push rod 331, the bottom die 333 and the top die 334 are sleeved, the feeding pipe frame 335 is used for extruding from the top end and the bottom end to the cable position, feeding is carried out simultaneously through the top end and the bottom end, the situation that the cables are deviated or bent due to single-direction feeding material extruding cables is avoided, and the feeding speed is accelerated through bidirectional feeding, so that the production quality is guaranteed and the production efficiency is accelerated;

Opening a feeding operation pipe 414 through a limiting valve 415, throwing master batch into a heating dispersion barrel 407 and an opening and closing limit sleeve 412 through the feeding operation pipe 414, driving a multiple stirring frame 409 to rotate at a high speed through a stirring motor 408, driving a centrifugal operation disk 413 to rotate at a high speed by the multiple stirring frame 409, enabling pigment to fall to the top end of the centrifugal operation disk 413, distributing pigment to the top end of a storage and placement plate 410 through centrifugal dispersion operation, driving the opening and closing limit sleeve 412 to rise through a linkage electric push rod 411, driving pigment to enter the heating dispersion barrel 407 through the multiple stirring frame 409, driving pigment and master batch to rotate simultaneously through the multiple stirring frame 409 again, enabling pigment and master batch to mix again, heating the pigment and the master batch, enabling the master batch to enter the extrusion heating barrel 401 along the heating dispersion barrel 407 after being melted, driving the extruded material to continuously advance through the feeding motor 404, the feeding operation frame 405 and the feeding auger 406, continuing to mix and heat, driving the extrusion closing sleeve 403, the feeding operation frame 405 and the feeding auger 406 to push the extruded material along the inner side of the extrusion heating barrel 401 after entering the front end, and enabling the feeding speed to be uniform, and enabling the feeding speed to be fully dissolved through the feeding speed dispersing operation 335;

when the cable enters the extrusion molding, the cooling operation box 424 and the condenser 425 are driven by the clamping electric push rod 423 to be attached to the cable side end, the cable side end is cooled, the cable surface temperature is low, a cooling and solidifying jacket is formed rapidly when the cable is in contact with the extruded plastic, so that the cable is fixedly operated, meanwhile, cooling water in the cooling storage box 416 is pumped by the booster pump 418 and the injection operation pipe 417, the cooling water enters the cooling circulation box 419 and is finally discharged through the discharge operation pipe 420, the circulating water is directly sprayed to the cable surface on the inner side of the buffer cooling box 421 through the discharge operation pipe 420 and the spray cooling pipe 422, at the moment, the spray cooling pipe 422 and the injection operation pipe 417 at the bottom end of the buffer cooling box 421 spray water to the cable bottom end, the insulating jacket of the cable accessory can be rapidly cooled during extrusion molding production, rapid hardening is realized, the cable position is limited, cooling is performed by the contact with the booster pump 418, the warm water spray cooling and cooling is continuously operated, external cooling is realized, and the severe shrinkage of the cable is avoided due to the fact that the cooling speed is seriously reduced, and the production quality is ensured.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The flexible flat cable manufacturing equipment comprises a constant-order combined frame (1), and is characterized in that: one end of the equal-order combined frame (1) is fixedly connected with a forming manufacturing frame (2), and a constant-pressure straightening component (3) is arranged at the top end of the equal-order combined frame (1);

the constant-pressure stretching assembly (3) comprises a mounting transmission case (301);

An installation transmission case (301) is fixedly connected to one end of the equal-order combined frame (1), an installation motor (302) is installed at the position, corresponding to the installation transmission case (301), of one end of the equal-order combined frame (1) through a motor base, a side groove special-shaped frame (303) is clamped at the equidistant position of an output shaft of the installation transmission case (301), and protruding inner groove frames (307) are fixedly connected to two ends of the side groove special-shaped frame (303);

A plurality of positioning electric push rods (308) are equidistantly arranged at one end of the protruding inner groove frame (307), a plurality of wire inlet motors (309) are equidistantly arranged at one end of the protruding inner groove frame (307) through a motor base, and a 匚 type constant-pressure sleeve (310) is fixedly connected to one end of the positioning electric push rods (308);

a hole locating frame (311) is welded at one end of the equal-order combined frame (1) at equal intervals, a plurality of return springs (312) are welded at the inner side of the hole locating frame (311) at equal intervals, and a lifting 匚 template (313) is fixedly connected at one end of each of the return springs (312);

the concave line pressing wheels (314) are respectively arranged on the output shaft of the line feeding motor (309), the inner side of the 匚 type constant-pressure sleeve (310), the inner side of the hole positioning frame (311) and the inner side of the lifting 匚 type plate (313);

Lifting electric sliding rails (315) are symmetrically arranged at one end of the hole positioning frame (311) at equal intervals, electric heating pressing plates (316) are clamped at one end of the lifting electric sliding rails (315) through sliding rail seats, and laser positioners (317) are symmetrically arranged at the side ends of the hole positioning frame (311) at equal intervals;

The forming manufacturing frame is characterized in that a fixed mounting box (330) is welded at the top end of the forming manufacturing frame (2), an opening and closing electric push rod (331) is embedded and mounted at the top end of the fixed mounting box (330), fixed electromagnets (332) are fixedly connected to the bottom end of the fixed mounting box (330) and the bottom end of the opening and closing electric push rod (331), a bottom die (333) is magnetically connected to the top end of the fixed electromagnet (332) at the bottom end position of the fixed mounting box (330), a top die (334) is magnetically connected to the bottom end of the fixed electromagnet (332) at the position of the opening and closing electric push rod (331), and a feeding pipe rack (335) is penetratingly connected to the bottom end of the bottom die (333) and the top end of the top die (334);

A porous height fixing plate (336) is connected at the position of one end of the forming manufacturing frame (2) corresponding to the fixed mounting box (330) in a clamping way;

Clamping electric push rods (304) are symmetrically arranged at two ends of the side groove special-shaped frame (303), one end of each clamping electric push rod (304) is fixedly connected with a clamping arc block (305), and an I-shaped positioning block (306) is rotatably sleeved between the side groove special-shaped frame (303) and each clamping arc block (305);

A plurality of constant voltage push rods (318) are symmetrically arranged at one end of the inner side of the equal-order combined frame (1) at equal intervals, an in-out motor (319) is symmetrically arranged at the other end of the inner side of the equal-order combined frame (1) at equal intervals through a motor seat, an I-shaped rotating block (320) is fixedly connected to the top end of the constant voltage push rods (318), and a winding displacement concave wheel set (321) is arranged at the output shaft of the in-out motor (319) and the side end of the I-shaped rotating block (320);

A plurality of pressing springs (323) are equidistantly arranged at the top end of the inner side of the protection block (322), a plurality of equal-order convex blocks (324) are arranged at the bottom ends of the pressing springs (323), and a plurality of contact sensors (325) are equidistantly arranged at the bottom ends of the inner side of the protection block (322) and the bottom ends of the equal-order convex blocks (324);

a plurality of installation supporting sleeves (326) are equidistantly installed at one end of the equal-order combined frame (1), a relay adjusting sleeve (327) is sleeved at the side end of the installation supporting sleeve (326), one end of the relay adjusting sleeve (327) far away from the installation supporting sleeve (326) is rotatably sleeved with a conical discharging sleeve (328), and an alignment motor (329) is installed at one side of the top ends of the installation supporting sleeve (326) and the relay adjusting sleeve (327) through a motor base.

2. The flexible flat cable production device according to claim 1, wherein the output shaft of the installation motor (302) is engaged with the input shaft of the installation transmission case (301), and the side groove special-shaped frame (303) is rotatably installed at the inner side end of the equal-order combined frame (1);

the two side groove special-shaped frames (303) and the two hole positioning frames (311) are arranged, the clamping arc-shaped blocks (305) are slidably mounted on the inner sides of the side groove special-shaped frames (303), and the four clamping arc-shaped blocks (305) and the four protruding inner groove frames (307) are arranged.

3. The flexible flat cable production device according to claim 1, wherein the concave wire pressing wheels (314) are respectively rotatably mounted on the inner sides of the convex inner groove frame (307) and the hole positioning frame (311), the side ends of the electric heating pressing plates (316) are in sliding fit with the hole positioning frame (311), the i-shaped rotating block (320) is slidably mounted on the side end of the equal-order combined frame (1), and the equal-order convex blocks (324) are slidably mounted on the side end of the return-type protection block (322).

4. The flexible flat cable production device according to claim 1, wherein the output shafts of the two alignment motors (329) are respectively connected with one ends of the relay adjusting sleeve (327) and the conical discharging sleeve (328) in a clamping manner, a fixed electromagnet (332) positioned at the position of the opening and closing electric push rod (331) is slidably mounted on the inner side of the fixed mounting box (330), and the bottom die (333) is sleeved and combined with the top die (334).

5. The flexible flat cable production apparatus according to claim 1, wherein the porous height-determining plate (336) has side ends respectively attached to one end of the bottom die (333) and one end of the top die (334);

The electric heating device comprises an installation motor (302), a clamping electric push rod (304), a positioning electric push rod (308), an incoming line motor (309), a lifting electric slide rail (315), an electric heating pressing plate (316), a laser positioner (317), a fixed voltage electric push rod (318), an in-out motor (319), a contact sensor (325), a counterpoint motor (329), an opening and closing electric push rod (331) and an input end of a fixed electromagnet (332), wherein the input ends are electrically connected with an output end of an external controller;

the input end of the external controller is electrically connected with the output end of the external power supply.

6. A flexible flat cable production device as in claim 5 wherein the top end of the form fabrication rack (2) is provided with a cold and hot handling assembly (4);

The cold and hot treatment assembly (4) comprises an extrusion heating barrel (401);

Extrusion molding heating barrels (401) are sleeved at the side ends of the molding manufacturing frames (2), extrusion hydraulic cylinders (402) are symmetrically arranged at the side ends of the extrusion molding heating barrels (401), one ends of the two extrusion hydraulic cylinders (402) are fixedly connected with extrusion closing sleeves (403), feeding motors (404) are arranged at one ends of the extrusion closing sleeves (403) through motor bases, feeding operation frames (405) are clamped at output shafts of the feeding motors (404), and feeding augers (406) are welded at the side ends of the feeding operation frames (405);

the extrusion molding heating barrel (401) side end through-connection has heating dispersion barrel (407), stirring motor (408) are installed through the motor cabinet in heating dispersion barrel (407) top, stirring motor (408) output shaft bottom corresponds heating dispersion barrel (407) inboard fixedly connected with multiple stirring frame (409), heating dispersion barrel (407) inboard middle part welding has storage place board (410), heating dispersion barrel (407) top symmetry installs linkage electric putter (411), two switching stop collar (412) are installed to linkage electric putter (411) bottom, centrifugal operation dish (413) are welded in the position department that multiple stirring frame (409) side corresponds switching stop collar (412), heating dispersion barrel (407) top through-connection has a plurality of feeding operating tube (414), limiting valve (415) are installed to feeding operating tube (414) feed end;

A cooling storage box (416) is arranged at the top end of the molding manufacturing frame (2), an injection operation pipe (417) is connected to one end of the cooling storage box (416) in a penetrating manner, a booster pump (418) is arranged at the position of one end of the molding manufacturing frame (2) corresponding to the injection operation pipe (417) through a motor base, a cooling circulation box (419) is fixedly arranged at the position of the inner side of the fixed mounting box (330) corresponding to the injection operation pipe (417), and a discharge operation pipe (420) is connected to the top end of the cooling circulation box (419) in a penetrating manner;

The forming manufacturing frame is characterized in that one end of the forming manufacturing frame (2) is fixedly connected with a buffer cooling box (421), a plurality of spraying cooling pipes (422) are uniformly and equidistantly connected through the top and the bottom of the side end of the buffer cooling box (421), clamping electric push rods (423) are uniformly arranged at the top and the bottom of the fixed mounting box (330), a cooling operation box (424) is arranged at one end of each clamping electric push rod (423), and a condenser (425) is embedded in the inner side of each cooling operation box (424).

7. The flexible flat cable production device according to claim 6, wherein the extrusion closing sleeve (403) is slidably mounted at a side end of the extrusion heating barrel (401), the feeding operation frame (405) and the feeding auger (406) are rotatably mounted at an inner side of the extrusion heating barrel (401), the multiple stirring frame (409) is rotatably mounted at an inner side of the heating dispersion barrel (407) and the opening and closing limiting sleeve (412), and the opening and closing limiting sleeve (412) is sleeved with the storage placing plate (410).

8. The flexible flat cable production device according to claim 6, wherein bottom ends of two of said feeding operation pipes (414) are connected with top ends of an opening/closing stop collar (412) in a penetrating manner, and side ends of said feeding operation pipe (417) and said discharging operation pipe (420) are engaged with one end of a shower cooling pipe (422) through an adapter;

the extrusion molding heating barrel (401), the extrusion hydraulic cylinder (402), the feeding motor (404), the heating dispersing barrel (407), the stirring motor (408), the linkage electric push rod (411), the limiting valve (415), the booster pump (418), the clamping electric push rod (423) and the condenser (425) are electrically connected with the output end of the external controller.