CN110733921A

CN110733921A - double-row reel-to-reel continuous horizontal production equipment

Info

Publication number: CN110733921A
Application number: CN201810792355.7A
Authority: CN
Inventors: 郭立铭; 郭立德
Original assignee: Huizhou Jiecheng Mechanical And Electrical Equipment Co Ltd
Current assignee: Huizhou Jiecheng Mechanical And Electrical Equipment Co Ltd
Priority date: 2018-07-18
Filing date: 2018-07-18
Publication date: 2020-01-31

Abstract

The invention provides double-row roll-to-roll continuous horizontal production equipment, which comprises a discharging part and a receiving part which are arranged oppositely, wherein the discharging part is a double-row roll-type discharging mechanism with an upper layer structure and a lower layer structure, the discharging part is a double-row roll-type receiving mechanism with a lower layer structure, the double-row roll-type discharging mechanism comprises an upper discharging mechanism and a lower discharging mechanism, the upper discharging mechanism and the lower discharging mechanism share the same feeding fixed pulley block , the double-row roll-type receiving mechanism comprises an upper receiving mechanism and a lower receiving mechanism, the upper receiving mechanism and the lower receiving mechanism share the same receiving fixed pulley block , the receiving fixed pulley block and the discharging fixed pulley block are the same in height, and coiled materials are discharged from the discharging part through the feeding fixed pulley block and then received by the receiving part.

Description

double-row reel-to-reel continuous horizontal production equipment

Technical Field

The invention relates to the technical field of double-row winding and unwinding equipment, in particular to double-row roll-to-roll continuous horizontal production equipment for manufacturing flexible circuit boards.

Background

In view of the technological progress of electronic consumer products, the design is more humanized, the thinning of the circuit board is an important index for the vigorous development of the 3C industry, the flexible circuit board is which is an important component of the electronic product, and is often applied to thin electronic products, and by virtue of the advantages of low raw material cost, convenience in carrying, assembly and the like, in the process of conveying the flexible circuit board, the flexible circuit board is often damaged due to human factors, so that the defective products are increased, and the product quality is influenced.

The conventional manufacturing equipment adopts a single-sheet discontinuous conveying mode to be promoted into a roll-to-roll continuous conveying mode according to the flexibility property of the flexible circuit board, and the mode design of double-row operation of 250-700mm wide is mostly adopted in the conventional manufacturing equipment for the flexible circuit board, the roll-to-roll operation mode is mostly to cut the flexible circuit board into small pieces and process in each process, the flexible circuit board is small in size, light, thin, flexible and easy to deform, manual board releasing and board collecting are adopted in modes, the working efficiency is low, a large amount of labor is needed, the clamping board is easy to deform to cause scrapping when the single-sheet type flexible circuit board is produced in each horizontal line, in addition, a large gap is left between sheets when the sheets are released manually, the production time is increased, and a lot of water, electricity and gas resources are wasted.

Disclosure of Invention

The invention provides kinds of double-row roll-to-roll continuous horizontal production equipment with high space utilization rate, small equipment volume, high product qualification rate, good quality and less required manpower.

The invention can be realized by the following technical scheme:

A dual-row roll-to-roll continuous horizontal production apparatus includes a feeding portion and a receiving portion, the feeding portion and the receiving portion are disposed opposite to each other, the feeding portion is a dual-row roll-type feeding mechanism having an upper layer and a lower layer, the feeding portion is a dual-row roll-type receiving mechanism having a lower layer, the dual-row roll-type feeding mechanism includes an upper feeding mechanism and a lower feeding mechanism, the upper feeding mechanism and the lower feeding mechanism share a same feeding fixed pulley set, the receiving fixed pulley set and the feeding fixed pulley set have the same height, the coil is fed from the feeding portion to the receiving fixed pulley set on the feeding portion through the feeding fixed pulley set, the receiving portion is fed from the receiving fixed pulley set on the feeding portion, and the receiving fixed pulley set in the feeding portion and the receiving portion, and the receiving fixed pulley set in the feeding portion and the receiving fixed pulley set in the receiving portion are the feeding fixed pulley set, and the receiving fixed pulley set in the feeding fixed pulley set and the receiving fixed pulley set are set, so that the feeding portion and the receiving fixed pulley set are capable of effectively reducing the volume of the feeding portion and receiving the coil, thereby effectively reducing the production efficiency of the production apparatus and the production of the production apparatus.

, the double-row roll discharging mechanism further comprises an overhead discharging frame, the overhead discharging frame, an upper discharging mechanism and a lower discharging mechanism are started to form the double-row roll discharging mechanism, the upper discharging mechanism comprises an upper discharging frame, the lower discharging mechanism comprises a lower discharging frame, the upper discharging frame and the lower discharging frame are distributed on the same side of the overhead discharging frame side by side, two discharging air expansion shafts and two second discharging air expansion shafts which are distributed in parallel are mounted on a vertical plate of the upper discharging frame, a receiving mechanism is arranged above the discharging air expansion shaft and the second discharging air expansion shaft, two discharging air expansion shafts on the upper discharging frame are arranged to facilitate material changing, the production equipment is effectively ensured to avoid continuous production, the production efficiency is effectively improved, two third discharging air expansion shafts and a fourth discharging air expansion shaft which are distributed in parallel are mounted on a vertical plate of the lower discharging frame, a second discharging air expansion roller is arranged above the third discharging shaft and the fourth discharging shaft, the second discharging roller is arranged above the lower discharging shaft, the lower discharging mechanism is arranged to effectively reduce the upper discharging efficiency of coil conveying, the coil is arranged on the upper discharging frame, the lower discharging mechanism, the coil conveying equipment is arranged to effectively reduce the volume of the coil, and the coil, the coil conveying efficiency is effectively reduced, and the coil conveying efficiency is effectively reduced by the lower coil conveying efficiency.

, the double-row roll-like receiving mechanism further comprises an overhead receiving frame, the overhead receiving frame, an upper receiving mechanism and a lower receiving mechanism are arranged to form the double-row roll-like receiving mechanism, the upper receiving mechanism comprises an upper receiving frame, the lower receiving mechanism comprises a lower receiving frame, the upper receiving frame and the lower receiving frame are arranged on the same side of the overhead receiving frame side by side, two third receiving air expansion shafts and two second receiving air expansion shafts which are arranged in parallel are arranged on a vertical plate of the upper receiving frame, a third receiving mechanism is arranged above the receiving air expansion shafts and above the second receiving air expansion shafts, the arrangement of the upper receiving air expansion shafts and the lower receiving air expansion shafts of the upper receiving mechanism is convenient for material changing, continuous production of the production equipment is effectively avoided, the production efficiency is effectively improved, two third receiving air expansion rollers and a fourth receiving air expansion shaft which are arranged above the vertical plate of the lower receiving frame are convenient for upper and lower conveying of the coiled materials, and lower conveying rollers are arranged above the upper receiving mechanism and lower receiving mechanisms, the upper receiving rollers and the lower receiving rollers are arranged above the vertical plate, the upper receiving rollers and the lower receiving rollers are arranged on the vertical plate of the upper receiving mechanism, and the lower receiving mechanism, the lower receiving mechanism are convenient for effective conveying of the lower receiving mechanism, the lower receiving rollers, the efficient conveying of the coiled materials are convenient for the efficient conveying mechanism, the efficient conveying of the high receiving mechanism, the high receiving mechanism is convenient for the low receiving mechanism, the high receiving mechanism, the low receiving mechanism is convenient for the low receiving mechanism, the high receiving mechanism is convenient for.

The double-row roll-to-roll continuous horizontal production equipment adopts the opposite arrangement of the feeding part and the receiving part, and the feeding part and the receiving part are respectively arranged in an upper layer and a lower layer, so that double-row roll-to-roll continuous horizontal production is formed, the volume of the equipment is effectively reduced, the cost is reduced, and meanwhile, the production efficiency is effectively improved.

, the rear ends of the discharging air expansion shaft, the second discharging air expansion shaft, the third discharging air expansion shaft and the fourth discharging air expansion shaft are all provided with a discharging air expansion shaft fixing structure, and the rear ends of the material receiving air expansion shaft, the second material receiving air expansion shaft, the third material receiving air expansion shaft and the fourth material receiving air expansion shaft are all provided with a material receiving air expansion shaft fixing structure.

steps are carried out, wherein an upper discharging magnetic powder clutch used for controlling a discharging air expansion shaft and a second discharging air expansion shaft is arranged at the bottom of the upper discharging rack, a lower discharging magnetic powder clutch used for controlling a third discharging air expansion shaft and a fourth discharging air expansion shaft is arranged at the bottom of the lower discharging rack, an upper receiving magnetic powder clutch used for controlling a receiving air expansion shaft and a second receiving air expansion shaft is arranged at the bottom of the upper receiving rack, a lower receiving magnetic powder clutch used for controlling a third receiving air expansion shaft and a fourth receiving air expansion shaft is arranged at the bottom of the lower receiving rack, receiving automatic edge correcting devices are arranged on the upper receiving rack and the lower receiving rack, and the receiving automatic edge correcting devices are respectively located on the rear sides of the upper receiving rack and the lower receiving rack.

, multiple groups of discharging sliding roller groups are arranged at the bottom of the overhead discharging frame, discharging roller balance weight structures are arranged at each group of discharging sliding roller groups, multiple groups of receiving sliding roller groups are arranged at the bottom of the overhead receiving frame, and receiving roller balance weight structures are arranged at each group of receiving sliding roller groups.

, the material receiving mechanism, the second material receiving mechanism, the third material receiving mechanism and the fourth material receiving mechanism respectively comprise pulley fixing plates which are distributed at two ends oppositely, two groups of cutter assemblies which are arranged oppositely and two pulleys which are used for guiding coiled materials are arranged between the two pulley fixing plates, the two pulleys are respectively positioned at the outer sides of the two groups of cutter assemblies, each cutter assembly comprises a cutter, a material pressing plate which is used for pressing the coiled materials is arranged above the cutter, two material pressing cylinders are arranged below the cutter, the positions of the two material pressing cylinders correspond to the positions of two ends of the material pressing plate, an extension rod of each material pressing cylinder penetrates through the cutter to be connected with the material pressing plate, a switch fixing plate is arranged at the outer end of each pulley fixing plate, and a material pressing cylinder switch is arranged on the switch fixing plate.

The double-row roll-to-roll continuous horizontal production equipment and the preparation method thereof have the following beneficial effects:

, the production efficiency is high, the invention enables the flexible circuit board to be discharged through the discharging part and then to be discharged onto the receiving fixed-sliding roller in the receiving part through the discharging fixed-sliding roller by the arrangement of the discharging part and the receiving part which are oppositely arranged, and the height of the discharging fixed-sliding roller in the discharging part is the same as that of the receiving fixed-sliding roller in the receiving part, then the receiving part receives the flexible circuit board, and the arrangement of the upper discharging air expansion shaft clamping device, the lower discharging air expansion shaft clamping device and the upper receiving air expansion shaft clamping device and the lower receiving air expansion shaft clamping device is convenient for material changing, effectively ensures that the production equipment can avoid continuous production, and effectively improves the production efficiency;

secondly, the labor cost is low, and the roll-to-roll continuous horizontal production equipment is used, so that manual operation is not needed to perform plate releasing, plate collecting and other actions in the midway, the manual operation is effectively replaced, and the labor cost is effectively reduced;

thirdly, the product quality is good, the roll-to-roll continuous horizontal production equipment is used, manual operation is not needed to perform plate placing, plate collecting and other actions midway, manual operation is effectively replaced, errors and defective materials caused by manual operation are effectively avoided in the aspect of , and the product percent of pass and the product quality are greatly improved;

fourthly, the feeding part and the receiving part are arranged oppositely, and the rolling wheel assemblies in the feeding part and the receiving part are distributed in a staggered mode from top to bottom, so that the space is effectively utilized, the size of equipment is effectively reduced, the cost is reduced, and the product quality and the qualified rate are improved.

Drawings

FIG. 1 is a schematic view of the overall structure of a double-row roll-to-roll continuous horizontal production apparatus according to the present invention;

FIG. 2 is a schematic view of the structure of the discharging part of the double-row roll-to-roll continuous horizontal production apparatus of the present invention;

FIG. 3 is a schematic view showing a second structure of a feeding part in the double-row roll-to-roll continuous horizontal production apparatus according to the present invention;

FIG. 4 is a schematic view of the structure of the receiving portion of the double row roll-to-roll continuous horizontal production apparatus of the present invention;

FIG. 5 is a schematic structural view of a material receiving portion of the double-row roll-to-roll continuous horizontal production apparatus according to the present invention;

fig. 6 is a schematic structural view of the receiving mechanism in fig. 1;

fig. 7 is a second schematic structural view of the th receiving mechanism in fig. 1;

FIG. 8 is a side view of FIGS. 6 and 7;

fig. 9 is a structural view of the fourth receiving mechanism in fig. 1;

fig. 10 is a second schematic structural view of the fourth receiving mechanism in fig. 1;

fig. 11 is a side view of fig. 9 and 10.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the following will describe the product of the present invention in detail with reference to the embodiments and the accompanying drawings.

As shown in FIG. 1, double-row roll-to-roll continuous horizontal production equipment comprises a discharging part and a receiving part, wherein the discharging part and the receiving part are arranged oppositely, the discharging part is a double-row roll-type discharging mechanism with an upper layer structure and a lower layer structure, the discharging part is a double-row roll-type receiving mechanism with a lower layer structure, the double-row roll-type discharging mechanism comprises an upper discharging mechanism and a lower discharging mechanism, the upper discharging mechanism and the lower discharging mechanism share the same discharging fixed pulley block 13, the double-row roll-type receiving mechanism comprises an upper receiving mechanism and a lower receiving mechanism, the upper receiving mechanism and the lower receiving mechanism share the same receiving fixed pulley block 13, the receiving fixed pulley block 13 and the discharging fixed pulley block 13 are the same in height, the coiled materials are discharged from the discharging part to the receiving fixed pulley block 13 after passing through the discharging fixed pulley block 13, the receiving part receives the coiled materials, the coiled materials are effectively received by the discharging part and the receiving part through the discharging fixed pulley block, the discharging fixed pulley block and the receiving part, the discharging fixed pulley block and the receiving block in the discharging part and the receiving part are arranged oppositely, the feeding slide pulley block and the receiving block in the receiving part, the discharging part and the receiving part is arranged, so that the feeding slide pulley block and the receiving block is arranged to enable the discharging part to pass through the discharging part, the discharging part and the discharging part, the receiving part, the discharging part, the feeding part, the receiving roller to effectively reduce the discharging part, the feeding.

As shown in fig. 1 to 3, the double-row roll discharging mechanism further comprises an overhead discharging frame, the overhead discharging frame, an upper discharging mechanism and a lower discharging mechanism form the double-row roll discharging mechanism, the upper discharging mechanism comprises an upper discharging frame 4, the lower discharging mechanism comprises a lower discharging frame, the upper discharging frame 4 and the lower discharging frame are distributed on the same side of the overhead discharging frame side by side, two feeding air expansion shafts 1 and 2 which are distributed in an upper-lower parallel manner are mounted on a vertical riser of the upper discharging frame 4, a receiving mechanism 3 is arranged above the feeding air expansion shaft 1 and the second feeding air expansion shaft 2, a discharging man-machine panel 5 is arranged above the receiving mechanism 3, two feeding air expansion shafts above and below the upper discharging frame 4 are arranged to facilitate material changing, so that production equipment can effectively avoid continuous production and effectively improve production efficiency, the top of the lower discharging frame is provided with a discharging box 6, two feeding air expansion rollers are mounted on the vertical upper discharging frame, the lower discharging roller shaft is arranged to facilitate material changing, so that production equipment can effectively improve the production efficiency, and the efficiency of coiled material conveying, the coiled material is improved, the efficiency of coiled material conveying coiled material is improved, and the coiled material conveying equipment is improved, and the efficiency is improved, the efficiency of coiled material conveying coiled material is improved, and the coiled material conveying equipment is improved, the efficiency of the coiled material is improved, the coiled material conveying equipment is improved, the coiled material conveying efficiency is improved, the coiled material is improved, and the coiled material is improved, the coiled material is provided with the coiled material.

As shown in fig. 1, 4 and 5, the double-row roll-like receiving mechanism further comprises an elevated receiving frame, the elevated receiving frame, an upper receiving mechanism and a lower receiving mechanism are arranged to form the double-row roll-like receiving mechanism, the upper receiving mechanism comprises an upper receiving frame 20, the lower receiving mechanism comprises a lower receiving frame, the upper receiving frame 20 and the lower receiving frame are arranged at the same side of the elevated receiving frame side by side, two upper and lower parallel-distributed fourth receiving air-expansion shafts 17 and 18 are mounted on a vertical plate of the upper receiving frame 20, a third receiving mechanism 19 is arranged above the receiving air-expansion shafts 17 and the second receiving air-expansion shafts 18, a receiving man-machine panel 24 is arranged above the third receiving mechanism 19, two upper and lower receiving air-expansion shafts of the upper receiving mechanism are arranged to facilitate material changing, so as to effectively ensure that production equipment can be continuously produced, so as to effectively improve production efficiency, a receiving box is arranged at the top of the lower receiving frame, two upper and lower air-expansion rollers are mounted on the vertical receiving frame to facilitate effective material conveying, and efficient material conveying of the upper and lower receiving mechanism, the upper and lower receiving shafts of the upper and lower receiving mechanism are arranged to ensure that the upper and lower air-expansion rollers 22 are arranged to effectively reduce the effective material-conveying efficiency of the upper and lower receiving mechanism, and the upper-receiving mechanism, and lower-conveying of the upper-receiving mechanism, and lower-conveying mechanism, and the upper-conveying mechanism are arranged to ensure that the upper-conveying of the upper-conveying mechanism is arranged to reduce the upper-conveying mechanism, and lower-conveying of the upper-conveying mechanism, and lower-conveying mechanism, and the upper-conveying mechanism is arranged to reduce the upper-conveying of the upper-conveying mechanism, and lower-conveying of the upper-.

With reference to fig. 1 to 5, the double-row roll-to-roll continuous horizontal production equipment adopts the opposite arrangement of the feeding part and the receiving part, and the feeding part and the receiving part are respectively arranged in an upper layer structure and a lower layer structure, so that double-row roll-to-roll continuous horizontal production is formed, the equipment volume is effectively reduced, the cost is reduced, and the production efficiency is effectively improved.

As shown in the figures 1 to 5, the rear ends of the discharging pneumatic expansion shaft 1, the second discharging pneumatic expansion shaft 2, the third discharging pneumatic expansion shaft 7 and the fourth discharging pneumatic expansion shaft 8 are all provided with a discharging pneumatic expansion shaft fixing structure, and the rear ends of the material receiving pneumatic expansion shaft 17, the second material receiving pneumatic expansion shaft 18, the third material receiving pneumatic expansion shaft 21 and the fourth material receiving pneumatic expansion shaft 22 are all provided with a material receiving pneumatic expansion shaft fixing structure 16.

As shown in fig. 1 to 5, an upper discharging magnetic powder clutch 15 for controlling a discharging air expansion shaft 1 and a second discharging air expansion shaft 2 is arranged at the bottom of the upper discharging rack 4, a lower discharging magnetic powder clutch 15 for controlling a third discharging air expansion shaft 7 and a fourth discharging air expansion shaft 8 is arranged at the bottom of the lower discharging rack, an upper receiving magnetic powder clutch 28 for controlling a receiving air expansion shaft 17 and a second receiving air expansion shaft 18 is arranged at the bottom of the upper receiving rack 20, a lower receiving magnetic powder clutch 28 for controlling a third receiving air expansion shaft 21 and a fourth receiving air expansion shaft 22 is arranged at the bottom of the lower receiving rack, receiving automatic edge correcting devices 29 are respectively arranged on the upper receiving rack 20 and the lower receiving rack, and the automatic edge correcting devices 29 are respectively arranged at the rear sides of the upper receiving rack 20 and the lower receiving rack and are controlled by an edge correcting controller 24.

As shown in fig. 1 to 5, a plurality of discharging

sliding roller groups

10, 11, 12 are arranged at the bottom of the overhead discharging frame, and discharging roller counterweight structures are arranged at the positions of each discharging sliding

roller group

10, 11, 12; the overhead material receiving frame is provided with a plurality of groups of material receiving sliding roller groups 25, 26 and 27 at the bottom, and material receiving roller balance weight structures are arranged at the positions of the material receiving sliding roller groups 25, 26 and 27 in each group.

As shown in fig. 1 and 6 to 8, the th material receiving mechanism 3, the second material receiving mechanism 9 and the third material receiving mechanism 19 have the same structure and different sizes, the th material receiving mechanism 3 is used for structural description and introduction, the th material receiving mechanism 3 includes pulley fixing plates 3-3 which are distributed oppositely at two ends, the pulley fixing plates 3-3 are L-shaped plates, the pulley fixing plates 3-3 are provided with two sets of cutter assemblies which are arranged oppositely and two guide pulleys 3-2 for guiding coiled materials, the two guide pulleys 3-2 are respectively positioned outside the two sets of cutter assemblies and distributed vertically, the guide pulley 3-2 positioned on the L-shaped upper side of the pulley fixing plate 3-3 is provided with electrostatic eliminator 3-5, the cutter assembly includes a cutter 3-7, the cutter 3-1 for pressing coiled materials is arranged above the cutter 3-7, the two pressing cylinders 3-6 are arranged below the cutter 3-7, the two pressing cylinders 3-6 are arranged at positions corresponding to the positions of the pressing cylinders 3-6, the positions of the pressing cylinders 3-7 are not corresponding to the positions of the pressing cylinders 3-7, the pressing switches 3-3, the third material receiving mechanism 19 is connected to the second material receiving mechanism 3-3, the third material receiving mechanism 19, the pressing mechanism 3-3 is provided with the pressing switch through the fixing plates 3-3, the fixing plates 3-3, the pressing cylinder fixing plates, and the pressing switch, and the pressing cylinder 3-7, and the pressing switch, and.

As shown in fig. 1, 9 to 11, the fourth receiving mechanism 23 includes pulley fixing plates 23-5 distributed at two ends relatively, two sets of cutter assemblies oppositely arranged and two guide pulleys 23-4 for guiding the coiled material are disposed on the pulley fixing plates 23-5, and the two guide pulleys 23-4 are respectively located at outer sides of the two sets of cutter assemblies. The cutting knife assembly comprises a cutting knife 23-6, a material pressing plate 23-1 used for pressing coiled materials is arranged above the cutting knife 23-6, two material pressing air cylinders 23-2 are arranged below the cutting knife 23-6, the positions of the two material pressing air cylinders 23-2 correspond to the positions of two end portions of the material pressing plate, and an extension rod of each material pressing air cylinder 23-2 penetrates through the cutting knife 23-6 to be connected with the material pressing plate 23-1. The outer end of the pulley fixing plate 23-5 is provided with a switch fixing plate, the switch fixing plate is provided with a material pressing cylinder switch 23-3, and the material pressing cylinder switch 23-3 is installed on the outer side of the pulley fixing plate 23-5 through the switch fixing plate and used for controlling the material pressing cylinder 23-2.

With reference to fig. 1 to 11, the working process of the double-row roll-to-roll continuous horizontal production apparatus of the present invention:

and feeding and receiving of upper layer, wherein a motor is controlled by an upper layer feeding magnetic powder clutch 15 to drive a chain wheel, a feeding pneumatic expansion shaft 1 and a second feeding pneumatic expansion shaft 2 on an upper layer feeding frame 4 are driven by the chain wheel to rotate to start feeding of the upper layer, a discharged flexible circuit board sequentially passes through a receiving mechanism 3 on the upper layer feeding mechanism and an upper feeding conveying roller assembly on the overhead feeding frame, specifically, after feeding is performed by the pneumatic expansion shaft, the discharged flexible circuit board sequentially passes through a pressure plate and a cutter on a receiving mechanism 3, then sequentially passes through a plurality of feeding sliding and feeding fixed pulleys on the upper feeding conveying roller assembly and then is led to an upper receiving mechanism on a receiving part, after being led out by the feeding fixed pulley, the discharged flexible circuit board enters the upper receiving mechanism in the receiving mechanism, specifically, after passing through a receiving fixed pulley at the top end of the overhead receiving frame, enters an upper receiving conveying roller assembly, passes through a third receiving mechanism 19 in the upper receiving mechanism after passing through a receiving fixed pulley on the top of the overhead receiving mechanism, finally, the pneumatic expansion shaft on the pneumatic expansion shaft and the receiving shaft, and the winding process is automatically controlled by a pneumatic expansion magnetic powder receiving device or a pneumatic expansion shaft, and the winding correction device, and the winding process is performed by the winding correction device.

The lower layer discharging and receiving process comprises the steps that a motor is controlled by a lower layer discharging magnetic powder clutch 15 to drive a chain wheel, a third discharging pneumatic shaft 7 and a fourth discharging pneumatic shaft 8 on an upper layer discharging rack 4 are driven by the chain wheel to rotate to start lower layer discharging, a discharged flexible circuit board sequentially passes through a second receiving mechanism 9 on the lower layer discharging mechanism and a lower discharging transmission roller component on an overhead discharging rack, specifically, after being discharged by the pneumatic shafts, the flexible circuit board sequentially passes through a pressure plate and a cutter on the second receiving mechanism 9, then sequentially passes through a plurality of discharging sliding pulleys and discharging fixed pulleys on the lower discharging transmission roller component to be led out to an upper receiving mechanism on a receiving part, a discharging fixed pulley in the lower discharging transmission roller component and a discharging fixed pulley in an upper discharging transmission roller component are the same as a discharging fixed pulley , after being led out through the discharging fixed pulleys, the flexible circuit board enters a lower layer receiving mechanism in the receiving part, specifically, after passing through a fourth pneumatic roller 23 in the receiving mechanism at the top end of the overhead receiving rack, specifically, magnetic powder enters a lower layer receiving mechanism and enters a receiving mechanism through a fourth pneumatic roller 23 on the receiving mechanism or a fourth pneumatic shaft to be automatically sensed by a pneumatic shaft, and whether the winding process of the winding mechanism is corrected coil is carried out by a correction device or a correction receiving device controlled by a fourth pneumatic shaft or a pneumatic shaft by a pneumatic shaft, and a pneumatic shaft.

The working principle of roll-to-roll continuous horizontal production equipment is that a discharging air expansion shaft 1 and a second discharging air expansion shaft 2 in the attached drawings 1 to 6 are clamping devices in an upper layer discharging mechanism, a third discharging air expansion shaft 7 and a fourth discharging air expansion shaft 8 are clamping devices in a lower layer discharging mechanism, a receiving air expansion shaft 17 and a second receiving air expansion shaft 18 are clamping devices in an upper layer receiving mechanism, a third receiving air expansion shaft 21 and a fourth receiving air expansion shaft 22 are clamping devices in a lower layer receiving mechanism, an upper layer discharging mechanism, a lower layer discharging mechanism, an upper layer receiving mechanism and a lower layer receiving mechanism respectively adopt the design of an upper air expansion shaft and a lower air expansion shaft to facilitate material replacement, ensure continuous production, uninterrupted a receiving device 3 in the upper layer discharging mechanism, a receiving mechanism 3 is a receiving device in the lower layer discharging mechanism, a third receiving mechanism 19 is a receiving device in the upper layer receiving mechanism, a fourth receiving mechanism is a receiving roller 23 which is a receiving roller, a receiving roller 23 is a receiving roller, a receiving roller is a receiving roller, a receiving roller is a receiving roller, a receiving mechanism 3 is a receiving roller, a receiving roller is a receiving roller, a receiving roller is a receiving roller, a receiving roller is a receiving mechanism 19 is a receiving roller, a receiving roller.

The foregoing is merely a preferred embodiment of the invention and is not intended to limit the invention in any manner; the present invention may be readily implemented by those of ordinary skill in the art as illustrated in the accompanying drawings and described above; however, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention; meanwhile, any changes, modifications, and evolutions of the equivalent changes of the above embodiments according to the actual techniques of the present invention are still within the protection scope of the technical solution of the present invention.

Claims

The double-row roll-to-roll continuous horizontal production equipment is characterized by comprising a feeding part and a receiving part, wherein the feeding part and the receiving part are arranged oppositely, the feeding part is a double-row roll-shaped feeding mechanism with an upper layer structure and a lower layer structure, the feeding part is a double-row roll-shaped receiving mechanism with a lower layer structure, the double-row roll-shaped feeding mechanism comprises an upper feeding mechanism and a lower feeding mechanism, the upper feeding mechanism and the lower feeding mechanism share the same feeding fixed pulley block , the double-row roll-shaped receiving mechanism comprises an upper receiving mechanism and a lower receiving mechanism, the upper receiving mechanism and the lower receiving mechanism share the same receiving fixed pulley block , the receiving fixed pulley block and the feeding fixed pulley block are the same in height, and the coiled materials are received by the receiving part after being fed by the feeding part through the feeding fixed pulley block to the receiving fixed pulley block on the receiving part.
2. The continuous horizontal production equipment of double-row roll-to-roll according to claim 1, wherein the double-row roll-type discharging mechanism further comprises an overhead discharging frame, the overhead discharging frame, an upper discharging mechanism and a lower discharging mechanism form the double-row roll-type discharging mechanism, the upper discharging mechanism comprises an upper discharging rack, the lower discharging mechanism comprises a lower discharging rack, the upper discharging rack and the lower discharging rack are arranged on the same side of the overhead discharging frame side by side,

an th discharging air expansion shaft and a second discharging air expansion shaft which are distributed in parallel up and down are arranged on a vertical plate of the upper discharging rack, and a th material receiving mechanism is arranged above the th discharging air expansion shaft and the second discharging air expansion shaft;

a vertical plate of the lower discharging rack is provided with a third discharging air expansion shaft and a fourth discharging air expansion shaft which are vertically distributed in parallel, a second material receiving mechanism is arranged above the third discharging air expansion shaft and the fourth discharging air expansion shaft, and the second material receiving mechanism is positioned below the th material receiving mechanism;

the overhead discharging frame is provided with an upper discharging transmission roller component for transmitting coiled materials on the upper discharging frame and a lower discharging transmission roller component for transmitting coiled materials on the lower discharging frame, and the upper discharging transmission roller component and the lower discharging transmission roller component form two groups of high and low coiled material discharging transmission roller components.
3. The continuous horizontal production equipment of claim 1, wherein the double-row roll-to-roll continuous horizontal production equipment further comprises an overhead material receiving rack, the upper material receiving mechanism and the lower material receiving mechanism form the double-row roll-like material receiving mechanism, the upper material receiving mechanism comprises an upper material receiving rack, the lower material receiving mechanism comprises a lower material receiving rack, the upper material receiving rack and the lower material receiving rack are arranged on the same side of the overhead material receiving rack side by side,

the vertical plate of the upper-layer material receiving rack is provided with an th material receiving air expansion shaft and a second material receiving air expansion shaft which are distributed in parallel up and down, and a third material receiving mechanism is arranged above the th material receiving air expansion shaft and the second material receiving air expansion shaft;

a vertical plate of the lower material receiving rack is provided with a third material receiving air expansion shaft and a fourth material receiving air expansion shaft which are distributed in parallel up and down, a fourth material receiving mechanism is arranged above the third material receiving air expansion shaft and the fourth material receiving air expansion shaft, and the fourth material receiving mechanism is positioned below the third material receiving mechanism;

the overhead material receiving frame is provided with an upper material receiving and conveying roller component for conveying coiled materials on the upper material receiving frame and a lower material receiving and conveying roller component for conveying the coiled materials on the lower material receiving frame, and the upper material receiving and conveying roller component and the lower material receiving and conveying roller component form two groups of high and low material receiving and conveying roller components.
4. The continuous horizontal production equipment of claim 2 or 3, wherein the discharging air-expansion shafts, the second discharging air-expansion shaft, the third discharging air-expansion shaft and the fourth discharging air-expansion shaft are all provided with a discharging air-expansion shaft fixing structure at the rear ends, and the receiving air-expansion shaft, the second receiving air-expansion shaft, the third receiving air-expansion shaft and the fourth receiving air-expansion shaft are all provided with a receiving air-expansion shaft fixing structure at the rear ends.
5. The continuous horizontal production equipment of double-row roll-to-roll according to claim 4, wherein the upper discharging magnetic powder clutch for controlling the th discharging air expansion shaft and the second discharging air expansion shaft is arranged at the bottom of the upper discharging rack, the lower discharging magnetic powder clutch for controlling the third discharging air expansion shaft and the fourth discharging air expansion shaft is arranged at the bottom of the lower discharging rack, the upper receiving magnetic powder clutch for controlling the th receiving air expansion shaft and the second receiving air expansion shaft is arranged at the bottom of the upper receiving rack, and the lower receiving magnetic powder clutch for controlling the third receiving air expansion shaft and the fourth receiving air expansion shaft is arranged at the bottom of the lower receiving rack.
6. The double row roll-to-roll continuous horizontal production facility of claim 5, wherein: the bottom of the overhead discharging frame is provided with a plurality of groups of discharging sliding roller groups, and a discharging roller balance weight structure is arranged at each group of discharging sliding roller groups; the bottom of the elevated material receiving frame is provided with a plurality of groups of material receiving sliding roller groups, and each group of material receiving sliding roller groups is provided with a material receiving roller counterweight structure.
7. The double-row roll-to-roll continuous horizontal production equipment as claimed in claim 6, wherein the th material receiving mechanism, the second material receiving mechanism, the third material receiving mechanism and the fourth material receiving mechanism respectively comprise pulley fixing plates which are oppositely distributed at two ends, and two groups of cutter assemblies which are oppositely arranged are arranged on the pulley fixing plates.
8. The double roll-to-roll continuous horizontal production apparatus according to claim 7, wherein: the cutter component comprises a cutter, a material pressing plate used for pressing coiled materials is arranged above the cutter, two material pressing cylinders are arranged below the cutter, the positions of the two material pressing cylinders correspond to the positions of the two end portions of the material pressing plate, and an extension rod of each material pressing cylinder penetrates through the cutter to be connected with the material pressing plate.
9. The double roll-to-roll continuous horizontal production apparatus of claim 8, wherein: the outer end of the pulley fixing plate is provided with a switch fixing plate, and a material pressing cylinder switch is arranged on the switch fixing plate.
10. The double roll-to-roll continuous horizontal production facility of claim 9, wherein: the upper material receiving rack and the lower material receiving rack are respectively provided with a material receiving automatic edge correcting device, and the material receiving automatic edge correcting devices are respectively positioned at the rear sides of the upper material receiving rack and the lower material receiving rack.