CN107498980B - Double-coating solvent-free compound machine and compound method thereof - Google Patents

Abstract

Double-coating solvent-free compound machine comprises a first unwinding device, a frame body and a winding device, wherein a left position on the frame body is sequentially provided with a first swing roller device, a first coating device, a first kiss coating device, a second swing roller device and a first traction device from the lower part, a middle position on the frame body is sequentially provided with a third swing roller device, a second traction device, a second coating device, a second kiss coating device, a first tension sensor and a compound device from the lower part, the left position on the frame body is sequentially provided with a second tension sensor, a second unwinding device and a corona device from the lower part, the first unwinding device is positioned on the left side of the frame body, the winding device is positioned on the right side of the frame body, and the frame body is further provided with a plurality of transition rollers. The overall structure of this equipment reasonable in design satisfies different production demands, is equipped with the space between first frame board, second frame board and third frame board, makes things convenient for operating personnel to get into operation and maintenance adjustment.

Description

Double-coating solvent-free compound machine and compound method thereof

Technical Field

The invention relates to the field of solvent-free compounding equipment, in particular to a double-coating solvent-free compounding machine and a compounding method thereof.

Background

The solvent-free compound machine is a method for compounding two or more base materials by adopting a solvent-free adhesive, and is widely applied to the flexible packaging industry. The patent document with chinese patent application No. 200810027777.1 discloses a solvent-free compound machine, which mainly comprises a frame, a coating mechanism, a compound mechanism, a winding mechanism, a first unwinding mechanism, a second unwinding mechanism, a power mechanism, a wall panel, a roof, an exhaust gas recovery part, a cooling roller, a transition roller set, a swing tension roller set and a control box. The working process of the solvent-free compound machine is as follows: the first raw material is placed on the first unwinding mechanism, the second raw material is placed on the second unwinding mechanism, the first raw material enters the coating mechanism through the transition roller, the first raw material is coated with viscose through the coating mechanism, the first raw material coated with the viscose enters the composite mechanism through the transition roller, meanwhile, the second raw material also enters the composite mechanism, and the composite material passing through the composite mechanism is wound on the winding roller after passing through the cooling roller. The composite machine having the above-described structure is actually composed of a coating and unwinding unit in which the first material is coated by the coating mechanism, and a composite unit in which only the composite process is performed, and the coating process cannot be performed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a double-coating solvent-free compound machine which has reasonable structural design and can realize multiple compound modes.

In order to solve the technical problem, the automatic winding and unwinding device comprises a first unwinding device, a rack body and a winding device, wherein a first swing roller device, a first coating device, a first kiss coating device, a second swing roller device and a first traction device are sequentially arranged at the left position on the rack body from bottom to top, a third swing roller device, a second traction device, a second coating device, a second kiss coating device, a first tension sensor and a composite device are sequentially arranged at the middle position on the rack body from bottom to top, a second tension sensor, a second unwinding device and a corona device are sequentially arranged at the right position on the rack body from bottom to top, the first unwinding device is positioned at the left side of the rack body, the winding device is positioned at the right side of the rack body, and a plurality of transition rollers are further arranged on the rack body.

As a further improvement of the present invention, the rack body includes a first rack plate, a second rack plate and a third rack plate arranged from left to right, a top connecting plate is arranged between the top of the first rack plate and the top of the second rack plate, a top connecting plate is arranged between the top of the second rack plate and the top of the third rack plate, a bottom connecting plate is arranged between the lower end of the second rack plate and the lower end of the third rack plate, the first swing roller device, the first coating device, the second swing roller device and the first traction device are arranged on the first rack plate, the third swing roller device, the second traction device, the second coating device, the first tension sensor and the composite device are arranged on the second rack plate, the second tension sensor and the second unreeling device are arranged on the third rack plate, and the corona device is arranged on the top of the third rack plate.

As a further improvement of the invention, the first coating device and the second coating device have the same structure, and the first coating device comprises a metering roller, a transfer rubber roller, a coating compression roller, a coating roller and a transfer steel roller.

As a further improvement of the invention, the first swing roll device, the second swing roll device and the third swing roll device have the same structure, the first swing roll device comprises a tension swing roll, a swing roll connecting seat and a tension swing cylinder, one end of the swing roll connecting seat is hinged with the frame body, the other end of the swing roll connecting seat is connected with the tension swing roll, the tension swing cylinder is hinged on the frame body, and the driving end of the tension swing cylinder is connected with the swing roll connecting seat.

As a further improvement of the invention, the winding device comprises a front wall board and a rear wall board, a winding roller path, a winding swing arm, a first swing cylinder, a winding rubber roller and a first rotating motor are arranged on the front wall board and the rear wall board, one end of the winding swing arm is hinged with the front wall board and the rear wall board, the other end of the winding swing arm is connected with a winding shaft, the driving end of the first swing cylinder is connected with the winding swing arm, the winding shaft is in sliding fit with the winding roller path, the driving end of the first rotating motor is connected with the winding rubber roller, the winding rubber roller is provided with a winding rotating arm and a winding shifting fork, and a new winding preset position and a winding reserve position are further arranged on the front wall.

As a further improvement of the invention, a chain wheel is arranged at the driving end of the first rotating motor and is connected with the coiling rubber roller through a transmission chain, tensioning wheels are arranged on the front wall plate and the rear wall plate before coiling, the tensioning wheels are matched with the transmission chain, and a groove for placing a coiling shaft is arranged at the left end of the coiling preparation position.

The invention also comprises a compounding method of the double-coating solvent-free compound machine, which comprises a single-coating-head five-roller coating process, a single-coating-head kiss-coating process, a five-roller coating and kiss-coating compounding process, a kiss-coating compounding and five-roller coating process, a double-coating-head five-roller coating process and a double kiss-coating process;

the single-coating-head five-roller coating process comprises a first five-roller coating composite process and a second five-roller coating composite process;

the first five-roller coating composite process comprises the following steps:

a1, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b1, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device and a first tension sensor and then enter a compounding device;

c1, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the second five-roller coating composite process comprises the following steps:

a2, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device and a second swing roller device and then enter a compounding device;

b2, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c2, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the single coating head kiss coating process comprises a first kiss coating composite process and a second kiss coating composite process;

the first kiss coating composite process comprises the following steps:

a3, enabling a first base material on the first unreeling device to sequentially pass through a first swing roll device, a first traction device, a first coating device, a first kiss coating device and a second swing roll device and then enter a compounding device;

b3, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device and a first tension sensor and then enter a compounding device;

c3, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the second kiss coating composite process comprises the following steps:

a4, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device and a second swing roller device and then enter a compounding device;

b4, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device, a second kiss coating device and a first tension sensor and then enter a compound device;

c4, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the five-roller coating and kiss coating composite process method comprises the following steps:

a5, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b5, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second kiss-coating device and a first tension sensor and then enter a compounding device;

c5, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the kiss coating compounding and five-roller coating process method comprises the following steps:

a6, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first kiss-coating device and a second swing roller device and then enter a compounding device;

b6, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c6, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the double-coating-head five-roller coating process comprises the following steps:

a7, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b7, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c7, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the double-head kiss coating composite process comprises the following steps:

a8, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device, a first kiss coating device and a second swing roller device and then enter a compounding device;

b8, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device, a second kiss coating device and a first tension sensor and then enter a compounding device;

c8, the first substrate and the second substrate are compounded at the compounding device, then pass through the second tension sensor and are rolled at the rolling device.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a structural view of the first chassis plate of the present invention.

Fig. 3 is a schematic view of the winding device of the present invention in a winding state.

FIG. 4 is a schematic view of the winding shaft of the winding device of the present invention winding to the maximum winding.

Fig. 5 is a schematic view of the winding device of the present invention replacing the winding shaft.

Detailed Description

As shown in fig. 1 to 2, the present invention includes a first unwinding device 1, a frame body and a winding device 2, wherein the frame body includes a first frame plate 3, a second frame plate 4 and a third frame plate 5 arranged from left to right, a top connecting plate 6 is arranged between the top of the first frame plate 3 and the top of the second frame plate 4, a top connecting plate 6 is arranged between the top of the second frame plate 4 and the top of the third frame plate 5, a bottom connecting plate 7 is arranged between the lower end of the second frame plate 4 and the lower end of the third frame plate 5, a first swing roller device 8, a first coating device 9, a first kiss-coating device 10, a second swing roller device 11 and a first traction device 12 are sequentially arranged on the first frame plate 3 from bottom to top, a third swing roller device 13, a second traction device 14, a second coating device 15, a second kiss-coating device 16, a second traction device 16, a third swing roller device 14, a second traction device 15, a second kiss-coating device 12 are sequentially arranged on the second, First tension sensor 17 and set composite 18, supreme second tension sensor 19, second unwinding device 20 and corona unit 21 of being equipped with in proper order down on third frame board 5, corona unit 21 is established at the top of third frame board 5, and first unwinding device 1 is in the left side of first frame board 3, and coiling mechanism 2 is in the right side of third frame board 5, still is equipped with a plurality of transition rollers on first frame board 3, second frame board 4, third frame board 5, top connecting plate 6 and bottom connecting plate 7, first coating device 9 is the same with second coating device 15's structure, first coating device 9 includes metering roll, transfer rubber roll, coating compression roller, roller and transfer steel roller, first pendulum roller device 8, second pendulum roller device 11 are the same with third pendulum roller device 13's structure, first coating device 8 includes that tension pendulum roller 22, coating roller, The winding device comprises a winding device 2 and a winding device, wherein one end of the swing roller connecting seat 23 is hinged with a frame body, the other end of the swing roller connecting seat 23 is connected with a tension swing roller 22, the tension swing cylinder 24 is hinged on the frame body, the driving end of the tension swing cylinder 24 is connected with the swing roller connecting seat 23, the winding device comprises a winding front wallboard and a winding rear wallboard, a winding roller path 26, a winding swing arm 27, a first swing cylinder 28, a limiting seat 29, a winding rubber roller 30 and a first rotating motor are arranged on the winding front wallboard and the winding rear wallboard, one end of the winding swing arm 27 is hinged with the winding front wallboard and the winding rear wallboard, the other end of the winding swing arm 27 is connected with a winding shaft 31, the driving end of the first swing cylinder 28 is connected with the winding swing arm 27, the winding shaft 31 is in sliding fit with the winding roller path 26, the driving end of the first rotating motor is provided with a, the winding roller 30 is provided with a winding rotating arm 35 and a winding shifting fork 36, the winding front wallboard and the winding rear wallboard are provided with a new winding presetting position and a winding preparation position, the winding front wallboard and the winding rear wallboard are provided with a sensor support 38, the sensor support 38 is positioned below the winding roller 34, the sensor support 38 is provided with a sensor, a limiting seat 29 is positioned between the winding swing arm 27 and the winding roller 34, and the left end of the winding roller path 26 is provided with a groove 39 for placing a winding shaft 31.

The equipment is used for a non-woven fabric and grid cloth composite process, and can respectively realize a single-coating-head five-roller coating process, a single-coating-head kiss-coating process and a double-coating-head five-roller coating process, wherein the single-coating-head five-roller coating process comprises a first five-roller coating composite process and a second five-roller coating composite process;

the invention also comprises a compounding method of the double-coating solvent-free compound machine, which comprises a single-coating-head five-roller coating process, a single-coating-head kiss-coating process, a five-roller coating and kiss-coating compounding process, a kiss-coating compounding and five-roller coating process, a double-coating-head five-roller coating process and a double kiss-coating process;

the single-coating-head five-roller coating process comprises a first five-roller coating composite process and a second five-roller coating composite process;

the first five-roller coating composite process comprises the following steps:

a1, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b1, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device and a first tension sensor and then enter a compounding device;

c1, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the second five-roller coating composite process comprises the following steps:

a2, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device and a second swing roller device and then enter a compounding device;

b2, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c2, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the single coating head kiss coating process comprises a first kiss coating composite process and a second kiss coating composite process;

the first kiss coating composite process comprises the following steps:

a3, enabling a first base material on the first unreeling device to sequentially pass through a first swing roll device, a first traction device, a first coating device, a first kiss coating device and a second swing roll device and then enter a compounding device;

b3, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device and a first tension sensor and then enter a compounding device;

c3, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the second kiss coating composite process comprises the following steps:

a4, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device and a second swing roller device and then enter a compounding device;

b4, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device, a second kiss coating device and a first tension sensor and then enter a compound device;

c4, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the five-roller coating and kiss coating composite process method comprises the following steps:

a5, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b5, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second kiss-coating device and a first tension sensor and then enter a compounding device;

c5, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the kiss coating compounding and five-roller coating process method comprises the following steps:

a6, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first kiss-coating device and a second swing roller device and then enter a compounding device;

b6, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c6, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the double-coating-head five-roller coating process comprises the following steps:

a7, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b7, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c7, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the double-head kiss coating composite process comprises the following steps:

a8, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device, a first kiss coating device and a second swing roller device and then enter a compounding device;

b8, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device, a second kiss coating device and a first tension sensor and then enter a compounding device;

c8, the first substrate and the second substrate are compounded at the compounding device, then pass through the second tension sensor and are rolled at the rolling device.

In the winding device 2, the winding shaft 31 is positioned and pressed at the winding rubber roll 34 through the winding swing arm 27, the winding shaft 31 is wound at the winding rubber roll 34 through the winding rotating arm 35 and the winding shifting fork 36, the swing angle of the winding swing arm 27 is adjusted along with the winding of the winding shaft 31, when the sensor on the sensor support 38 detects that the winding shaft 31 is wound to the maximum winding, the first swing air cylinder 28 acts on the winding swing arm 27 to enable the winding shaft 31 to be positioned at the groove 39 of the winding raceway 26, the winding shaft 31 is replaced, and then the actions are continued to complete the winding. The limit seat 29 controls the swing angle of the winding swing arm 27, and the safety and stability of winding operation are protected. When the winding swing arm 27 swings, the winding shaft 31 can move along the winding raceway 26, and the stability of the motion process of the winding shaft 31 is ensured. The winding device 2 is simple in structure, convenient to assemble and manufacture, compact in layout, free of space occupation and convenient to wind and change rolls. The overall structure of this equipment reasonable in design satisfies different production demands, is equipped with the space between first frame board 3, second frame board 4 and third frame board 5, makes things convenient for operating personnel to get into operation and maintenance adjustment.

Claims (4)

1. The utility model provides a two solventless laminator of scribbling type, includes first unwinding device, frame body and coiling mechanism, its characterized in that: the device is characterized in that a first roller swinging device, a first coating device, a first kissing device, a second roller swinging device and a first traction device are sequentially arranged at the left position on the rack body from bottom to top, a third roller swinging device, a second traction device, a second coating device, a second kissing device, a first tension sensor and a composite device are sequentially arranged at the middle position on the rack body from bottom to top, a second tension sensor, a second unwinding device and a corona device are sequentially arranged at the right position on the rack body from bottom to top, the first unwinding device is positioned at the left side of the rack body, the winding device is positioned at the right side of the rack body, a plurality of transition rollers are further arranged on the rack body, the rack body comprises a first rack plate, a second rack plate and a third rack plate which are arranged from left to right, a top connecting plate is arranged between the top of the first rack plate and the top of the second rack plate, a top connecting plate is arranged between the top of the second rack plate and the top of the third rack plate, a bottom connecting plate is arranged between the lower end of the second frame plate and the lower end of the third frame plate, the first roller swinging device, the first coating device, the second roller swinging device and the first traction device are arranged on the first frame plate, the third roller swinging device, the second traction device, the second coating device, the first tension sensor and the composite device are arranged on the second frame plate, the second tension sensor and the second unwinding device are arranged on the third frame plate, the corona device is arranged at the top of the third frame plate, the winding device comprises a front wall plate and a rear wall plate, a winding roller path, a winding swing arm, a first swing cylinder, a winding rubber roller and a first rotating motor are arranged on the front wall plate and the rear wall plate, one end of the winding swing arm is hinged with the front wall plate and the rear wall plate, the other end of the winding swing arm is connected with a winding shaft, a driving end of the first swing cylinder is connected with the swing arm, and the winding shaft is in sliding fit with the winding roller path, the driving end of the first rotating motor is connected with the winding rubber roll, the winding rubber roll is provided with a winding rotating arm and a winding shifting fork, a new winding presetting position and a winding presetting position are further arranged on the rear wallboard before winding, the driving end of the first rotating motor is provided with a chain wheel, the chain wheel is connected with the winding rubber roll through a transmission chain, the rear wallboard is provided with a tensioning wheel before winding, the tensioning wheel is matched with the transmission chain, and the left end of the winding presetting position is provided with a groove for placing a winding shaft.

2. The double-coating solventless laminator according to claim 1, wherein: the first coating device and the second coating device are identical in structure, and the first coating device comprises a metering roller, a transfer rubber roller, a coating press roller, a coating roller and a transfer steel roller.

3. The double-coating solventless laminator according to claim 1, wherein: the structure of first pendulum roller device, second pendulum roller device and third pendulum roller device is the same, first pendulum roller device includes tension pendulum roller, pendulum roller connecting seat and tension swing cylinder, the one end and the frame body of pendulum roller connecting seat are articulated, and the other end and the tension pendulum roller of pendulum roller connecting seat are connected, and tension swing cylinder articulates on the frame body, and the drive end and the pendulum roller connecting seat of tension swing cylinder are connected.

4. A method of compounding the double coating type solventless laminator according to claim 1, wherein: the method comprises a single-coating-head five-roller coating process, a single-coating-head kiss-coating process, a five-roller coating and kiss-coating combined process, a kiss-coating combined and five-roller coating process, a double-coating-head five-roller coating process and a double kiss-coating process;

the single-coating-head five-roller coating process comprises a first five-roller coating composite process and a second five-roller coating composite process;

the first five-roller coating composite process comprises the following steps:

a1, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b1, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device and a first tension sensor and then enter a compounding device;

c1, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the second five-roller coating composite process comprises the following steps:

a2, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device and a second swing roller device and then enter a compounding device;

b2, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c2, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the single coating head kiss coating process comprises a first kiss coating composite process and a second kiss coating composite process;

the first kiss coating composite process comprises the following steps:

a3, enabling a first base material on the first unreeling device to sequentially pass through a first swing roll device, a first traction device, a first coating device, a first kiss coating device and a second swing roll device and then enter a compounding device;

b3, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device and a first tension sensor and then enter a compounding device;

c3, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the second kiss coating composite process comprises the following steps:

a4, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device and a second swing roller device and then enter a compounding device;

b4, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device, a second kiss coating device and a first tension sensor and then enter a compound device;

c4, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the five-roller coating and kiss coating composite process method comprises the following steps:

a5, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b5, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second kiss-coating device and a first tension sensor and then enter a compounding device;

c5, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the kiss coating compounding and five-roller coating process method comprises the following steps:

a6, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first kiss-coating device and a second swing roller device and then enter a compounding device;

b6, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c6, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the double-coating-head five-roller coating process comprises the following steps:

a7, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device and a second swing roller device and then enter a compounding device;

b7, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device and a first tension sensor and then enter a compounding device;

c7, compounding the first base material and the second base material at the compounding device, passing through a second tension sensor, and finishing rolling at the rolling device;

the double-head kiss coating composite process comprises the following steps:

a8, enabling a first base material on the first unreeling device to sequentially pass through a first swing roller device, a first traction device, a first coating device, a first kiss coating device and a second swing roller device and then enter a compounding device;

b8, enabling a second base material on the second unreeling device to sequentially pass through a third swing roller device, a second traction device, a second coating device, a second kiss coating device and a first tension sensor and then enter a compounding device;

c8, the first substrate and the second substrate are compounded at the compounding device, then pass through the second tension sensor and are rolled at the rolling device.

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