CN117282630A

CN117282630A - Multi-process different-path coating compounding method and equipment

Info

Publication number: CN117282630A
Application number: CN202311144807.8A
Authority: CN
Inventors: 李军红; 蒋伟隆
Original assignee: SINOMECH CORP
Current assignee: SINOMECH CORP
Priority date: 2023-09-06
Filing date: 2023-09-06
Publication date: 2023-12-26

Abstract

The invention belongs to the technical field of coating composite processing, and particularly relates to a multi-process different-path coating composite method and equipment, comprising the following steps of; s1, unreeling a first base material through a first unreeling device; s2, coating the first substrate after unreeling through a coating device; the coating device is a five-roller coating device or an anilox roller coating device or a semi-flexible plate coating device; s3, after the first substrate is coated by the coating device, the first substrate is rolled by the rolling device, six coating composite processes can be realized by a single machine, and a cavity type scraper is arranged in the anilox roller coating device in the process to scrape redundant and irregular solvents on the substrate, so that the irregular emission phenomenon of the solvents in the coating process can be reduced to the greatest extent.

Description

Multi-process different-path coating compounding method and equipment

Technical Field

The invention belongs to the technical field of coating composite processing, and particularly relates to a multi-process different-path coating composite method and equipment.

Background

Many factories in the prior art need to purchase a plurality of devices to meet the process requirements of various coating compositions, so that the cost is huge, and the occupied area is large;

the utility model provides a coating equipment complex for patent application number CN201811443432.4, including main blowing device, coating device, baking equipment, secondary blowing device, compounding device and coiling mechanism, the substrate film is by the main blowing device unreels the back, get into the first coating mechanism or the second coating mechanism in the coating device after passing through corona unit, dust binding device in proper order, carry out glue coating operation, the substrate film of coating glue gets into baking equipment's heating channel, the substrate film of output by heating channel and the release film of being by secondary blowing device unreels get into compounding device together and compound, the compound film of formation after the compounding gets into the coiling mechanism coiling after the storing device, but the device can't satisfy the complex technology of multiple coating, and the oven does not have dehydrating unit and automatic feed through device, drying effect and work efficiency are all low.

Disclosure of Invention

In order to achieve the above purpose, the specific technical scheme of the multi-process different-path coating composite method of the invention is as follows:

a multi-process different-path coating compounding method comprises the following steps of;

s1, unreeling a first base material through a first unreeling device;

s2, coating the first substrate after unreeling through a coating device;

the coating device is a five-roller coating device or an anilox roller coating device or a semi-flexible plate coating device;

s3, after the first substrate is coated by the coating device, the first substrate is wound by the winding device.

Further, in S2, the first substrate coated by the five-roller coating device is pulled out by the pulling device.

Further, in S2, the first substrate enters the five-roller coating device and the second substrate is unwound by the second unwinding device, and the coated first substrate and the second substrate enter the compounding device for compounding.

Further, in the step S2, when the first substrate passes through the anilox roller coating device, the excessive and irregular solvent on the first substrate is scraped by the plate coating cavity type scraper arranged in the anilox roller coating device, and the first substrate is pulled out by the traction device after being dried by the oven and is cooled by the cooling device.

Further, in S2, when the first substrate passes through the anilox roller coating device, the excessive and irregular solvent on the first substrate is scraped by the plate coating cavity type scraper arranged in the anilox roller coating device, and detected and adjusted by the registration device, so that each part of the printed pattern is accurately printed in a specified area of the first substrate, dried by the oven, pulled out by the traction device, and cooled by the cooling device.

Further, in S2, when the first substrate passes through the anilox roller coating device, the excessive and irregular solvent on the first substrate is scraped by the plate coating cavity type scraper arranged in the anilox roller coating device, the coated first substrate is dried by the oven, the position is finely adjusted by the composite reference centering device, the first substrate automatically passes through the oven under the action of the oven feeding device, meanwhile, the second substrate is unreeled and placed by the second unreeler, the first substrate and the second substrate enter the composite device simultaneously for compositing, and the substrate obtained after compositing is cooled by the cooling device.

Further, in S2, the first substrate is coated by the semi-flexographic coating device, then enters the oven for drying, is pulled out by the traction device, and is cooled by the cooling device.

The invention also provides a multi-process coating compounding device with different paths, which is used for coating and compounding a base material according to the multi-process coating compounding method with different paths, and comprises a first unit, a second unit, a third unit and an oven, wherein the first unit, the second unit and the third unit are all fixed on a connecting layer, the connecting layer is fixedly connected with the oven, the middle part of the second unit is fixedly connected with a first unreeling device and a five-roller coating device, the middle part of the third unit is fixedly connected with a reeling device and a second unreeling device, the third unit is also fixedly connected with a compounding device, one end of the connecting layer close to the third unit is provided with an oven penetrating device, the contact position of the upper end of the third unit and the connecting layer is provided with a compounding reference centering device, the middle position of the connecting layer is provided with a UV device, the middle part of the first unit is provided with an anilox roller coating device, the inside of the anilox roller coating device is provided with a plate coating cavity type scraper, one end of the connecting layer close to the first unit is provided with a registering device, the middle part of the first unit is provided with a semi-flexible coating device, and the third unit is fixedly connected with a traction device and a cooling device.

Further, the winding device comprises a first shell, a first shell and a plurality of guide rollers are rotationally connected, a first motor is fixedly arranged on one side surface of the first shell, the first motor is fixedly connected with a first rotating shaft, the first rotating shaft is fixedly connected with a first connecting rod, a first rolling shaft is rotationally connected to the middle of the first connecting rod, a lower end of the connecting rod is fixedly connected with a thermal fuse wire, one end of the thermal fuse wire is fixedly connected to the thermal fuse wire, the thermal fuse wire is fixedly arranged at one end of the first shell, the first shell is fixedly connected with a second motor, the second motor is rotationally connected with the first outer shaft through a belt, two ends of the first outer shaft are rotationally connected to the first shell, two ends of the first outer shaft are fixedly provided with two four-leaf brackets, the two four-leaf brackets are respectively positioned on the first outer shaft, one end of the first outer shaft is fixedly connected with a third motor, the third motor is fixedly connected with an inner rod, the first inner rod is in sliding connection with a sliding rod, two ends of the first outer shaft are rotationally connected with a sliding rod, two rolling wheels are rotationally connected with two rolling wheels on the first rolling rod, a rack structure on the sliding rod is meshed with a first rolling wheel, the first rolling wheel is rotationally connected with the second rolling wheel through a second belt, the second rolling wheel is rotationally connected with the second rolling wheel is fixedly connected with the second elastic plate, two ends of the rolling rod are fixedly connected with the second elastic plate, one ends of the rolling rod are fixedly connected with the rolling rod with the rolling shaft, one and the rolling shaft is fixedly connected with the rolling shaft, one, and the rolling shaft is fixedly connected with the rolling shaft, and the rolling device is fixedly connected with the rolling device.

Further, four leaf support and slide bar sliding connection, slide bar middle part rotation connection has empty pipe, slide bar fixed connection is in spring two one ends, spring two other end fixed connection is on four leaf support, slide bar and connecting rod two one end rotation connection, connecting rod two other ends and slider one sliding connection, outer axle one and slider one sliding connection, slide bar and slider two fixed connection, slider two and screw rod one rotate to be connected, screw rod one and slider three threaded connection, slider two and slider three sliding connection, slider three and spring three one end fixed connection, spring three fixed connection is equipped with the scale strip on slider two, fixedly connected with pointer on the slider three, outer axle one and spring four one end fixed connection, spring four other ends and little ball fixed connection, little ball part volume is located the slide bar recess, slide bar middle part is equipped with two sets of annular grooves, four leaf support and four fixed connection of motor, motor four and connecting plate one end fixed connection, the connecting plate other end is with interior pole two fixed connection, four leaf support and two bracing pieces rotate to be connected, runner one end and ratchet are fixed connection, ratchet and pawl ratchet cooperation, outer axle one and rotation connection, five one and spring one end are fixed connection, five end and pawl fixed connection.

The invention has the advantages that:

1. six coating composite processes can be realized by a single machine, a cavity type scraper is arranged in a reticulate pattern roller coating device in the process, redundant and irregular solvents on a substrate are scraped, and the irregular emission phenomenon of the solvents in the coating process can be reduced to the greatest extent;

2. the drying oven is internally provided with a dehumidifying device which can adapt to high-efficiency drying during coating and compounding of the aqueous adhesive, and is internally provided with an automatic material penetrating device, so that coating and compounding efficiency is improved;

3. the cooling device is contacted with the surface of the coated substrate which is heated and dried by the oven, so that the cooling effect is improved.

Drawings

FIG. 1 is a schematic diagram of a solvent-free composite structure of the present invention;

FIG. 2 is a schematic illustration of a solvent-free coating architecture of the present invention;

FIG. 3 is a schematic view of a first engraving relief coating structure of the present invention;

FIG. 4 is a schematic illustration of a second engraving relief coating structure of the present invention;

FIG. 5 is a schematic diagram of a dry composite structure according to the present invention;

FIG. 6 is a schematic view of a semi-flexographic full plate structure according to the present invention;

FIG. 7 is a schematic diagram of a winding device according to the present invention;

FIG. 8 is a second schematic structural view of the winding device of the present invention;

FIG. 9 is a third schematic structural view of the winding device of the present invention;

FIG. 10 is a schematic diagram of a winding apparatus according to the present invention;

FIG. 11 is a partial enlarged view A of FIG. 8;

FIG. 12 is an enlarged view B of a portion of FIG. 10;

the figure indicates:

1. a first unit; 2. a second unit; 3. a third unit; 4. a first unreeling device; 5. a winding device; 501. a first shell; 502. a guide roller I; 503. a first motor; 504. a first rotating shaft; 505. a first connecting rod; 506. a first rolling shaft; 507. a thermal fuse; 508. a hot-melt machine; 509. a second motor; 510. a first belt; 511. an outer shaft I; 512. a four-leaf bracket; 513. a third motor; 514. an inner rod I; 515. a slide bar; 516. a first rotating wheel; 517. a second belt; 518. a second rotating wheel; 519. an inner rod II; 520. an elastic plate; 521. a first spring; 522. a spool rod; 523. a substrate reel; 524. an empty pipe; 525. a slide bar; 526. a second spring; 527. a second connecting rod; 528. a first sliding block; 529. a second slide block; 530. a first screw; 531. a third slide block; 532. a third spring; 533. a disc; 534. a scale bar; 535. a pointer; 536. a small sphere; 537. a spring IV; 538. a fourth motor; 539. a connecting plate; 540. a support rod; 541. a ratchet wheel; 542. a pawl; 543. a spring V; 6. a five-roller coating device; 7. a second unreeling device; 8. a compounding device; 9. a traction device; 10. a UV device; 11. a cooling device; 12. a reticulate roller coating device; 13. a plate coating cavity type scraper; 14. an oven; 15. a registration device; 16. a composite reference centering device; 17. a drying oven material penetrating device; 18. a semi-flexographic coating device.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

As shown in fig. 1-12, a multi-process different path coating compounding method includes the following steps;

s1, unreeling a first base material through a first unreeling device 4;

s2, coating the first substrate after unreeling through a coating device;

the coating device is a five-roller coating device 6 or an anilox roller coating device 12 or a semi-flexible coating device 18;

s3, after the first substrate is coated by the coating device, the first substrate is wound by the winding device 5;

the working principle of the technical scheme is as follows: the first substrate is sent to the front of the first unreeling device 4 on the second unit 2 through a transmission system, the unreeling shaft in the first unreeling device 4 straightens the first substrate through a tension control device and transmits the first substrate to a coating device, according to actual production requirements, the five-roller coating device 6 or the anilox roller coating device 12 or the semi-flexible coating device 18 can be used, the substrate coated by the anilox roller coating device 12 or the semi-flexible coating device 18 enters the oven 14 to be dried, the dried substrate is cooled by the cooling device 11, the substrate coated by the five-roller coating device 6 or the substrate cooled by the cooling device 11 is rolled up by the reeling device 5, a cavity type scraper is arranged in the anilox roller coating device 12, irregular discharge phenomenon of a solvent in a coating process can be reduced to the greatest extent, a dehumidifying device is arranged in the oven 14, the high-efficiency drying in the process of coating and compounding of an aqueous adhesive can be adapted, the cooling device 11 is contacted with the surface of the coated substrate heated and dried by the oven 14, the cooling effect is improved, the compounding quality is improved, and the automatic threading device is arranged in the oven 14.

Example two

As shown in fig. 1-12, in S2, the first substrate coated by the five-roller coating device 6 is pulled out by the pulling device 9;

the working principle of the technical scheme is as follows: the first base material is sent to the front of the first unreeling device 4 on the second unit 2 through a transmission system, the first base material is straightened by a unreeling shaft in the first unreeling device 4 and is transmitted to the five-roller coating device 6 for coating, the coated first base material enters the UV device 10 for drying, and the dried first base material is pulled out through the traction device 9 and is rolled up by the reeling device 5.

Example III

As shown in fig. 1-12, in S2, while the first substrate enters the five-roller coating device 6, the second substrate is unwound by the second unwinding device 7, and the coated first substrate and the second substrate enter the compounding device 8 for compounding;

the working principle of the technical scheme is as follows: the first substrate is sent to the front of a first unreeling device 4 on a second unit 2 through a transmission system, the first substrate is straightened by an unreeling shaft in the first unreeling device 4 and is conveyed to a five-roller coating device 6 for coating through a tension control device, meanwhile, the second substrate is unreeled by the second unreeling device 7, the first substrate and the second substrate are overlapped in a compounding device 8 at the upper position of a third unit 3 and are compounded in the compounding device 8, and the compounded substrate is rolled up by a rolling device 5.

Example IV

As shown in fig. 1-12, in S2, when the first substrate passes through the anilox roller coating device 12, a plate coating cavity type scraper 13 arranged in the anilox roller coating device 12 scrapes off excessive and irregular solvent on the first substrate, and the solvent is dried by an oven 14, is pulled out by a traction device 9 and is cooled by a cooling device 11;

the working principle of the technical scheme is as follows: the first substrate is sent to the front of the first unreeling device 4 on the second unit 2 through a transmission system, the unreeling shaft in the first unreeling device 4 straightens the first substrate through a tension control device and transmits the straightened first substrate to the anilox roller coating device 12 for coating, a plate coating cavity type scraper 13 is arranged in the anilox roller coating device 12, redundant and irregular solvents on the first substrate can be scraped off, irregular discharge phenomenon of the solvents in the coating process can be reduced to the greatest extent, the coated first substrate is dried through the oven 14 and pulled out through the traction device 9, the cooling device 11 is contacted with the surface of the coated substrate which is heated and dried through the oven 14 through the cooling device 11, the substrate is sufficiently cooled, and then the coated substrate is rolled up through the reeling device 5.

Example five

As shown in fig. 1-12, in S2, when the first substrate passes through the anilox roller coating device 12, a plate coating cavity type scraper 13 arranged in the anilox roller coating device 12 scrapes off excessive and irregular solvent on the first substrate, and the solvent is detected and regulated by a registration device 15, so that each part of the printed pattern is accurately printed on a specified area of the first substrate, dried by a drying oven 14, pulled out by a traction device 9, and cooled by a cooling device 11;

the working principle of the technical scheme is as follows: the first substrate is sent to the front of the first unreeling device 4 on the second unit 2 through a transmission system, the unreeling shaft in the first unreeling device 4 straightens the first substrate through a tension control device and transmits the straightened first substrate to the anilox roller coating device 12 for coating, a plate coating cavity type scraper 13 is arranged in the anilox roller coating device 12, redundant and irregular solvents on the first substrate can be scraped off, irregular discharge phenomena of the solvents in the coating process can be reduced to the greatest extent, the coated first substrate passes through a registering device 15, the registering device 15 can detect and regulate the coated substrate, the coated substrate is dried through a baking oven 14 and pulled out through a traction device 9, the coated substrate is fully cooled through contact of the cooling device 11 device and the surface of the coated substrate heated and dried through the baking oven 14, and then the coated substrate is rolled up by the reeling device 5.

Example six

As shown in fig. 1-12, in S2, when the first substrate passes through the anilox roller coating device 12, a plate coating cavity type scraper 13 arranged in the anilox roller coating device 12 scrapes off redundant and irregular solvent on the first substrate, the coated first substrate is dried by a drying oven 14, the position of the first substrate is finely adjusted by a composite reference centering device 16, the first substrate automatically passes through the drying oven 14 under the action of a drying oven threading device 17, and meanwhile, the second substrate is unreeled by a second unreeling device 7, the first substrate and the second substrate simultaneously enter a compositing device 8 for compositing, and the substrate obtained after compositing is cooled by a cooling device 11;

the working principle of the technical scheme is as follows: the first base material is sent to the front of the first unreeling device 4 on the second unit 2 through a transmission system, the unreeling shaft in the first unreeling device 4 straightens the first base material through a tension control device and transmits the first base material to the anilox roller coating device 12 for coating, a plate coating cavity type scraper 13 is arranged in the anilox roller coating device 12, redundant and irregular solvents on the first base material can be scraped, irregular discharge phenomenon of the solvents in the coating process can be reduced to the greatest extent, the coated first base material is dried through a baking oven 14, the position is finely adjusted through a compound reference centering device 16, the first base material is completely matched when being compounded with the second base material, the second base material automatically passes through the baking oven 14 under the traction effect of a baking oven penetrating device 17, meanwhile, the second base material is unreeled through the second unreeling device 7, the first base material and the second base material simultaneously enter the compounding device 8 for compounding, the first base material and the second base material are cooled through the cooling device 11 and then are rolled up by the reeling device 5.

Example seven

As shown in fig. 1-12, in S2, the first substrate is coated by the semi-flexographic coating device 18, then enters the oven 14 for drying, is pulled out by the traction device 9, and is cooled by the cooling device 11;

the working principle of the technical scheme is as follows: the first substrate is sent to the front of the first unreeling device 4 on the second unit 2 through a transmission system, the unreeling shaft in the first unreeling device 4 straightens the first substrate through a tension control device and transmits the straightened first substrate to the semi-flexible coating device 18 for coating, a plate coating cavity type scraper 13 is arranged in the anilox roller coating device 12, redundant and irregular solvents on the first substrate can be scraped off, irregular emission phenomenon of the solvents in the coating process can be reduced to the greatest extent, the coated first substrate is dried through the oven 14 and pulled out through the traction device 9, the cooling device 11 is contacted with the surface of the coated substrate which is heated and dried through the oven 14 through the cooling device 11, the substrate is sufficiently cooled, and then the coated substrate is rolled up through the reeling device 5.

Example eight

As shown in fig. 1-12, a multi-process coating compounding device with different paths is used for coating and compounding a substrate according to the multi-process coating compounding method with different paths, wherein the device comprises a first unit 1, a second unit 2, a third unit 3 and an oven 14, the first unit 1, the second unit 2 and the third unit 3 are all fixed on a connecting layer, the connecting layer is fixedly connected with the oven 14, a first unreeling device 4 and a five-roller coating device 6 are fixedly connected with the middle part of the second unit 2, a reeling device 5 and a second unreeling device 7 are fixedly connected with the middle part of the third unit 3, a compounding device 8 is fixedly connected with the third unit 3, one end of the connecting layer close to the third unit 3 is provided with an oven threading device 17, the contact position of the upper end of the third unit 3 and the connecting layer is provided with a compound reference centering device 16, the middle position of the connecting layer is provided with an anilox roller coating device 12, a plate coating cavity scraper 13 is arranged in the anilox coating device 12, one end of the connecting layer close to the first unit 1 is provided with a flexible registering device 15, the middle part of the first unit 1 is provided with a half-roller coating device 18 and a cooling device 11 is fixedly connected with a half-roller coating device 11;

the working principle of the technical scheme is as follows: the equipment can realize six substrate film-feeding paths, and selects a proper film-feeding path according to actual production requirements;

first kind of film path, solvent-free compounding: the first substrate is sent to the front of a first unreeling device 4 on a second unit 2 through a transmission system, the first substrate is straightened by an unreeling shaft in the first unreeling device 4 and is conveyed to a five-roller coating device 6 for coating, meanwhile, the second substrate is unreeled by the second unreeling device 7, the first substrate and the second substrate are overlapped in a compounding device 8 at the upper position of a third unit 3 and are compounded in the compounding device 8, the compounded substrate is rolled up by a rolling device 5, and a solvent-free compounding path section is formed;

a second film path, solvent-free coating: the first base material is sent to the front of a first unreeling device 4 on a second unit 2 through a transmission system, the first base material is straightened by a unreeling shaft in the first unreeling device 4 and is transmitted to a five-roller coating device 6 for coating, the coated first base material enters a UV device 10 for drying, and the dried first base material is pulled out by a traction device 9 and is reeled up by a reeling device 5;

third film path, engraving relief plate local and full plate coating: the first substrate is sent to the front of a first unreeling device 4 on a second unit 2 through a transmission system, the unreeling shaft in the first unreeling device 4 straightens the first substrate through a tension control device and transmits the first substrate to an anilox roller coating device 12 for coating, a plate coating cavity type scraper 13 is arranged in the anilox roller coating device 12, redundant and irregular solvents on the first substrate can be scraped off, irregular discharge phenomenon of the solvents in the coating process can be reduced to the greatest extent, the coated first substrate is dried through a baking oven 14, pulled out through a traction device 9, cooled through a cooling device 11, the cooling device 11 is in contact with the surface of the coated substrate which is heated and dried through the baking oven 14, the substrate is sufficiently cooled, and then the coated substrate is rolled up by the reeling device 5;

a fourth film path, engraving relief printing plate fixed point registration coating: the first substrate is sent to the front of a first unreeling device 4 on a second unit 2 through a transmission system, the first substrate is straightened by an unreeling shaft in the first unreeling device 4 and is transmitted to an anilox roller coating device 12 for coating, a plate coating cavity type scraper 13 is arranged in the anilox roller coating device 12, redundant and irregular solvents on the first substrate can be scraped off, irregular discharge phenomenon of the solvents in the coating process can be reduced to the greatest extent, the coated first substrate passes through a registering device 15, the registering device 15 can detect and regulate the coated substrate, the coated substrate is dried through a baking oven 14 and pulled out through a traction device 9, the coated substrate is fully cooled by the surface contact of the cooling device 11 and the coated substrate heated and dried through the baking oven 14, and then the coated substrate is rolled up by a reeling device 5;

fifth film path, dry compounding: the first base material is sent to the front of the first unreeling device 4 on the second unit 2 through a transmission system, the unreeling shaft in the first unreeling device 4 straightens the first base material through a tension control device and transmits the first base material to the anilox roller coating device 12 for coating, a plate coating cavity type scraper 13 is arranged in the anilox roller coating device 12, redundant and irregular solvents on the first base material can be scraped off, irregular discharge phenomenon of the solvents in the coating process can be reduced to the greatest extent, the coated first base material is dried through a baking oven 14, the position is finely adjusted through a compound reference centering device 16, so that the first base material is completely matched with the second base material when being compounded, the second base material automatically passes out of the baking oven 14 under the traction effect of a baking oven penetrating device 17, meanwhile, the second base material is unreeled through the second unreeling device 7, the first base material and the second base material simultaneously enter the compounding device 8 for compounding, the first base material is cooled through the cooling device 11, and then rolled up by the rolling device 5, and the dry compounding is longer than the solvent-free compounding path;

sixth film path, semi-flexographic full plate coating: the first substrate is sent to the front of the first unreeling device 4 on the second unit 2 through a transmission system, the unreeling shaft in the first unreeling device 4 straightens the first substrate through a tension control device and transmits the straightened first substrate to the semi-flexible coating device 18 for coating, a plate coating cavity type scraper 13 is arranged in the anilox roller coating device 12, redundant and irregular solvents on the first substrate can be scraped off, irregular emission phenomenon of the solvents in the coating process can be reduced to the greatest extent, the coated first substrate is dried through the oven 14 and pulled out through the traction device 9, the cooling device 11 is contacted with the surface of the coated substrate which is heated and dried through the oven 14 through the cooling device 11, the substrate is sufficiently cooled, and then the coated substrate is rolled up through the reeling device 5.

Example nine

As shown in fig. 1-12, the winding device 5 includes a housing one 501, the housing one 501 is rotatably connected with a plurality of guide rollers one 502, a motor one 503 is fixed on the side surface of the housing one 501, the motor one 503 is fixedly connected with a rotating shaft one 504, the rotating shaft one 404 is fixedly connected with a connecting rod one 505, a roller one 506 is rotatably connected in the middle of the connecting rod one 505, the lower end of the connecting rod one 505 is fixedly connected with a thermal fuse 507, one end of the thermal fuse 507 is fixedly connected with a thermal fuse 508, the thermal fuse 508 is fixed at one end of the housing one 501, the housing one 501 is fixedly connected with a motor two 509, the motor two 509 is rotatably connected with an outer shaft one 511 through a belt one 510, two ends of the outer shaft one 511 are rotatably connected with the housing one 501, two four-leaf brackets 512 are all positioned at the inner side of the housing one 501, one end of the outer shaft one 511 is fixedly connected with a motor three 513, the motor three 513 is fixedly connected with an inner shaft one 514, the inner rod one 514 is in sliding connection with the slide bar 515, two ends of the outer shaft one 511 are rotationally connected with two first rotating wheels 516, a rack structure on the slide bar 515 is meshed with a gear structure on the first rotating wheel 516, the first rotating wheel 516 is rotationally connected with the second rotating wheel 518 through a second belt 517, the second rotating wheel 518 is rotationally connected with the four-leaf bracket 512, the second rotating wheel 518 is in sliding fit connection with the inner rod two 519, one end of the inner rod two 519 is fixedly connected with one end of a spring one 521, the other end of the spring one 521 is fixedly connected with the second rotating wheel 518, the elastic plate 520 is in sliding connection with a scroll rod 522, the scroll rod 522 is fixedly connected with a substrate scroll 523, the four-leaf bracket 512 is in sliding connection with the slide bar 525, an empty tube 524 is rotationally connected in the middle of the slide bar 525, the slide bar 525 is fixedly connected with one end of the spring two 526, the other end of the spring two 526 is fixedly connected with the four-leaf bracket 512, the slide bar 525 is rotationally connected with one end of the connecting rod two 527, the other end of the connecting rod II 527 is in sliding connection with the slide block I528, the outer shaft I511 is in sliding connection with the slide block I528, the slide bar 515 is fixedly connected with the slide block II 529, the slide block II 529 is in rotating connection with the screw rod I530, the screw rod I530 is in threaded connection with the slide block III 531, the slide block II 529 is in sliding connection with one end of the spring III 532, the other end of the spring III 532 is fixedly connected with the disc 533, the slide block II 529 is provided with a scale bar 534, the slide block III 531 is fixedly connected with a pointer 535, the outer shaft I511 is fixedly connected with one end of the spring IV 537, the other end of the spring IV 537 is fixedly connected with the small ball 536, part of the small ball 536 is positioned in a groove of the slide bar 515, two groups of annular grooves are formed in the middle of the slide bar 515, the four-leaf bracket 512 is fixedly connected with the motor IV 538, the motor IV 538 is fixedly connected with one end of the connecting plate 539, the other end of the connecting plate 539 is in rotating connection with the inner rod II 519, the four-leaf bracket 512 is in rotating connection with the two support bars 540, one end of the rotating connection with the ratchet wheel 516, the ratchet wheel 541 is in matching with the ratchet wheel 541, the outer shaft 511 is in rotating connection with the ratchet, the outer shaft 511 is fixedly connected with the ratchet, one end of the ratchet is in turn, and the other end is fixedly connected with the ratchet is in turn, and the spring is located in turn, and is fixedly connected with the spring is in turn, and is fixedly connected with the end, and is in turn;

the working principle of the technical scheme is as follows: the substrate passes through a plurality of guide rollers I502 and is connected to a scroll bar 522, a third motor 513 is started to drive a first inner rod 514 to rotate, a sliding rod 515 is driven to rotate, a first rotating wheel 516 is driven to rotate through gear engagement transmission, a second rotating wheel 518 is driven to rotate through a second belt 517, a second inner rod 519 is driven to rotate, the scroll bar 522 is driven to rotate, the substrate is driven to scroll into a substrate scroll 523, an empty tube 524 is contacted with the substrate scroll 523, the empty tube 524 is driven to rotate, the empty tube 524 can squeeze bubbles in the substrate scroll 523 out, the substrate scroll 523 is prevented from being loosened, the sliding rod 525 is driven to move towards a first outer shaft 511 along with the continuous increase of the diameter of the substrate scroll 523, a second spring 526 is driven to be compressed, a second connecting rod 527 is driven to rotate, a first sliding block 528 is driven to slide towards the center of the first outer shaft 511, the first sliding block 528 is contacted with a disc 533, the third spring 532 is driven to be compressed after the third spring 532 is compressed to a certain extent, the small ball 536 is pressed into the cavity of the outer shaft I511, the spring IV 537 is compressed, the slide bar 515 slides to the other end, the slide bar 515 is separated from the previous first rotating wheel 516 and is meshed with the other first rotating wheel 516, the inner rod II 519 stops rotating, the substrate reel 523 stops rotating, the reel rod 522 opposite to the substrate reel 523 is simultaneously driven to rotate, the second starting motor 509 drives the outer shaft I511 to rotate anticlockwise through the first belt 510, the four-leaf bracket 512 is driven to rotate anticlockwise, the outer shaft I511 rotates one hundred eighty degrees, the supporting rod 540 lifts up the substrate, the thermal fuse 508 can heat the thermal fuse 507, the first starting motor 503 drives the first rotating shaft 404 to rotate, the connecting rod I505 is driven to rotate by taking the first rotating shaft 404 as the shaft, the first rolling shaft 506 is driven to press the substrate on the reel rod 522, the adhesive is arranged on the reel rod 522, the substrate is rapidly stuck on the reel rod 522, and meanwhile the thermal fuse 507 rapidly fuses the substrate, the substrate is rapidly rolled on the roll rod 522, and then the rolling and roll changing work is completed, the ratchet 541, the pawl 542 and the spring five 543 form a non-return device, the substrate roll 523 is prevented from reversing along with the rotation of the four-leaf bracket 512, the motor four 538 is started to drive the connecting plate 539 to move outwards, the inner rod two 519 is driven to slide outwards on the second runner 518, the spring one 521 is driven to be compressed, the two inner rods two 519 are driven to be separated from the roll rod 522, the roll rod 522 and the substrate roll 523 can be taken down, a new roll rod 522 is placed between the two inner rods two 519, the front ends of the two inner rods 519 slide into the roll rod 522, the friction force between the inner rods two 519 and the roll rod 522 is increased due to the extrusion deformation of the elastic plate 520, the roll rod 522 is prevented from sliding, the rotating screw one 530 drives the slide three 531 to slide in the slide block two 529, the spring three 532 and the disc 533 are driven to move, the distance between the slide block 528 and the disc 533 is further changed, the diameter of the substrate roll rod 523 is further changed, and the pointer on the slide three 531 indicates the diameter of the substrate roll rod 535 on the scale bar 534.

The beneficial effects of the technical scheme are that: the machine does not need to stop and change the coil, and meanwhile, the degree of automation is high, the working efficiency is improved, and the labor cost is reduced; the diameter of the roll may be changed according to actual requirements.

It will be understood that the invention has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. The multi-process different-path coating compounding method is characterized by comprising the following steps of;

s1, unreeling a first base material through a first unreeling device (4);

s2, coating the first substrate after unreeling through a coating device;

the coating device is a five-roller coating device (6) or an anilox roller coating device (12) or a semi-flexible coating device (18);

s3, after the first substrate is coated by the coating device, the first substrate is wound by the winding device (5).

2. The multi-process different-path coating compounding method according to claim 1, wherein in S2, the first substrate coated by the five-roller coating device (6) is pulled out by the pulling device (9).

3. The multiple process different path coating compounding method according to claim 1, wherein in S2, the first substrate enters the five-roller coating device (6) and the second substrate is unwound by the second unwinding device (7), and the coated first substrate and the second substrate enter the compounding device (8) for compounding.

4. The multiple process different path coating compounding method according to claim 1, wherein in S2, when the first substrate passes through the anilox roller coating device (12), a plate coating cavity type scraper (13) arranged in the anilox roller coating device (12) scrapes off excessive and irregular solvent on the first substrate, and the solvent is pulled out by a traction device (9) after being dried by an oven (14) and cooled by a cooling device (11).

5. The multiple process different path coating compounding method according to claim 1, wherein in S2, when the first substrate passes through the anilox roller coating device (12), a plate coating cavity type scraper (13) arranged in the anilox roller coating device (12) scrapes off excessive and irregular solvent on the first substrate, the excessive and irregular solvent is detected and regulated by a registration device (15), so that each part of the printed pattern is accurately printed in a specified area of the first substrate, dried by an oven (14), pulled out by a traction device (9), and cooled by a cooling device (11).

6. The multi-process different-path coating compounding method according to claim 1, wherein in the step S2, when the first substrate passes through the anilox roller coating device (12), a plate coating cavity type scraper (13) arranged in the anilox roller coating device (12) scrapes off redundant and irregular solvent on the first substrate, the coated first substrate is dried by a drying oven (14), the position of the coated first substrate is finely adjusted by a compounding reference centering device (16), the coated first substrate automatically passes through the drying oven (14) under the action of a drying oven threading device (17), meanwhile, the second substrate is unreeled by a second unreeling device (7), the first substrate and the second substrate simultaneously enter a compounding device (8) for compounding, and the substrate obtained after compounding is cooled by a cooling device (11).

7. The multi-process different-path coating compounding method according to claim 1, wherein in S2, the first substrate is coated by the semi-flexographic coating device (18), then enters the oven (14) for drying, is pulled out by the traction device (9), and is cooled by the cooling device (11).

8. The multi-process coating compounding equipment with different paths is used for coating and compounding a base material according to the multi-process coating compounding method with different paths of any one of claims 1-7, and is characterized in that the equipment comprises a first unit (1), a second unit (2), a third unit (3) and an oven (14), wherein the first unit (1), the second unit (2) and the third unit (3) are all fixed on a connecting layer, the connecting layer is fixedly connected with the oven (14), a first unreeling device (4) and a five-roller coating device (6) are fixedly connected to the middle part of the second unit (2), a reeling device (5) and a second unreeling device (7) are fixedly connected to the middle part of the third unit (3), a compounding device (8) is fixedly connected to the third unit (3), one end of the connecting layer is provided with a threading device (17), the upper end of the third unit (3) is provided with a compound reference centering device (16) at the contact position of the connecting layer, the middle part of the first unit (1) is provided with an anilox roller coating device (12), the middle part of the first unit (1) is provided with a flexible anilox roller coating device (12), the middle part of the first unit (13) is provided with a doctor blade (15) and a half-tone device (1) is provided with a half-tone coating device (15), the third unit (3) is fixedly connected with a traction device (9) and a cooling device (11).

9. The multi-process coating composite equipment according to claim 8, wherein the winding device (5) comprises a first housing (501), the first housing (501) is rotationally connected with a plurality of first guide rollers (502), a first motor (503) is fixedly arranged on the side surface of the first housing (501), the first motor (503) is rotationally connected with a first rotating shaft (504), the first rotating shaft (404) is fixedly connected with a first connecting rod (505), a first roller (506) is rotationally connected in the middle of the first connecting rod (505), the lower end of the first connecting rod (505) is fixedly connected with a thermal fuse (507), one end of the thermal fuse (507) is fixedly connected with a thermal fuse (508), the thermal fuse (508) is fixedly connected with one end of the first housing (501), the first housing (501) is fixedly connected with a second motor (509), the two ends of the second motor (509) are rotationally connected with the first outer shaft (511) through a belt (510), the two ends of the first outer shaft (511) are fixedly connected with two four-leaf brackets (512), the two inner side motors (512) are respectively arranged on the first housing (501) and the first outer shaft (511) and are fixedly connected with a third shaft (514) in a sliding manner, two ends of the outer shaft I (511) are rotatably connected with two rotating wheels I (516), a rack structure on the sliding rod (515) is meshed with a gear structure on the rotating wheels I (516), the rotating wheels I (516) are rotatably connected with rotating wheels II (518) through a belt II (517), the rotating wheels II (518) are rotatably connected with four-leaf brackets (512), the rotating wheels II (518) are slidably matched and connected with an inner rod II (519), one end of the inner rod II (519) is fixedly provided with a plurality of elastic plates (520), the inner rod II (519) is fixedly connected with one end of the spring I (521), the other end of the spring I (521) is fixedly connected with the rotating wheels II (518), the elastic plates (520) are slidably connected with a scroll rod (522), and the scroll rod (522) is fixedly connected with a base material scroll (523).

10. The multi-process coating composite device according to claim 9, wherein the four-leaf bracket (512) is slidably connected with the slide rod (525), the hollow tube (524) is rotatably connected in the middle of the slide rod (525), the slide rod (525) is fixedly connected at one end of the second spring (526), the other end of the second spring (526) is fixedly connected to the four-leaf bracket (512), the slide rod (525) is rotatably connected with one end of the second connecting rod (527), the other end of the second connecting rod (527) is slidably connected with the first slide block (528), the first outer shaft (511) is slidably connected with the first slide block (528), the slide rod (515) is fixedly connected with the second slide block (529), the second slide block (529) is rotatably connected with the first screw rod (530), the first screw rod (530) is in threaded connection with the third slide block (531), the third slide block (531) is fixedly connected with one end of the third spring (532), the other end of the third spring (532) is fixedly connected with the disc (533), a scale bar (534) is arranged on the second slide block (529), the third slide block (531) is fixedly connected with the other end of the third spring (532) and the fourth slide block (536) is fixedly connected with the fourth slide rod (536) and the second slide block (537) is fixedly connected with the second slide bar (536), the middle part of slide bar (515) is equipped with two sets of annular grooves, four leaf support (512) and four (538) fixed connection of motor, four (538) of motor and connecting plate (539) one end fixed connection, the connecting plate (539) other end rotates with interior pole two (519) to be connected, four leaf support (512) rotate with two bracing pieces (540) to be connected, runner one (516) one end and ratchet (541) fixed connection, ratchet (541) are connected with pawl (542) ratchet cooperation, outer axle one (511) rotates with pawl (542) to be connected, outer axle one (511) and five (543) one end fixed connection of spring, five (543) other end of spring and pawl (542) fixed connection.