CN113561503A - Film compounding machine - Google Patents

Abstract

The invention discloses a film compounding machine, which aims to solve the problem that the edge of a composite film in the prior art has defects and comprises a first unwinding device, a second unwinding device, a coating device, a third unwinding device, a compounding device, an edge cutting device, a recovery device and a winding device, wherein the first unwinding device is used for placing a coiled first film, the second unwinding device is used for placing a coiled second film, the coating device is used for coating glue on the second film, the third unwinding device is used for placing a coiled third film, the compounding device is used for compounding the first film, the second film and the third film into the composite film, the edge cutting device is used for cutting off the edge material of the composite film, the recovery device is used for winding the edge material, and the winding device is used for winding the composite film.

Description

Film compounding machine

Technical Field

The invention belongs to packaging equipment, and particularly relates to a film compounding machine.

Background

The film combining device is also called a compound machine, and combines two or more layers of films into a composite film by using adhesive or glue, so that the composite film has the advantages of each layer of film. Is widely applied in the packaging industry.

In the prior art, a film combining device is disclosed, which comprises a rack, wherein a guide roller, a tension roller, a sizing rubber roller, a guide roller, an oven and a press roller are arranged on the rack, films sequentially pass through the guide roller, the tension roller, the sizing rubber roller, the oven and the guide roller, and a plurality of films are combined together under the action of the press roller.

However, the prior art is not perfect, the working procedures and the process design of the compound machine are not reasonable, so that the compound machine has the problems of low production efficiency and low production yield when producing the compound film, in addition, the widths of a plurality of films are not completely consistent, the positions of the edges of the plurality of films are not completely aligned, and the problems of dislocation, glue overflow and the like exist on the edges of the compound film.

Summary of the invention

In order to overcome the defects and problems in the prior art, the invention provides the film compounding machine.

In order to achieve the purpose, the invention adopts the following technical scheme:

a laminating machine for films, comprising:

the first unwinding device is used for placing the coiled first film;

the second unwinding device is used for placing the coiled second film;

the coating device is used for coating glue on the second film;

the third unwinding device is used for placing the coiled third film;

the compounding device is used for compounding the first film, the second film and the third film into a composite film;

the edge cutting device is used for cutting off the edge material of the composite film;

the recovery device is used for rolling the rim charge;

and the winding device is used for winding the composite film.

Preferably, the trimming device includes the trimming frame, rotates respectively in the trimming frame and is provided with the trimming deflector roll and adjusts the deflector roll, adjusts and is provided with a pair of cut-off knife on the deflector roll, and a pair of cut-off knife is used for tailorring the rim charge of complex film both sides, if adjust the deflector roll and rotate in the trimming frame, a pair of cut-off knife can be close to or keep away from the trimming deflector roll.

Preferably, the adjusting guide roller is provided with a pair of cutting edge supports in a sliding manner, the pair of cutting knives are arranged on the adjusting guide roller through the pair of cutting edge supports respectively, the pair of cutting edge supports are in transmission connection with a cutting edge motor, and if the cutting edge motor works, the pair of cutting knives can be close to or far away from each other.

Preferably, the recovery device comprises a recovery frame, a recovery support is arranged on the recovery frame in a rotating mode, a first recovery motor is connected to the recovery support in a transmission mode, a coiling barrel is arranged on the recovery support in a rotating mode, a second recovery motor is connected to the coiling barrel in a transmission mode, the number of the coiling barrels is at least two, and the two or more coiling barrels sequentially surround the rotating center of the recovery frame.

Preferably, the recycling support is rotatably provided with a first face gear, the second recycling motor is connected to the first face gear in a transmission mode, the recycling support is provided with a shaft hole, a transmission shaft penetrates through the shaft hole, the material rolling barrel is fixedly arranged on the transmission shaft, a second face gear is further fixedly arranged on the transmission shaft, an elastic part is arranged between the second face gear and the recycling support, and the elastic part forces the second face gear to be meshed with the first face gear.

Preferably, the film drying device further comprises a first drying device, a second drying device and a third drying device, wherein the first drying device is used for drying the first film, the second drying device is used for drying the second film, and the third drying device is used for drying the third film.

Preferably, the film drying device further comprises a second steering device, the second drying device is arranged above the second unwinding device and the second steering device, and the second steering device is used for adjusting the conveying direction of the second film.

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

(1) in the invention, a first film which is sequentially subjected to deviation correction, turning and drying, a second film which is sequentially subjected to tensioning, prestoring, turning, coating and drying and a third film which is sequentially subjected to turning and drying are finally subjected to compounding, edge cutting, recycling and rolling to form a rolled rim charge and a rolled composite film.

(2) In the invention, if the adjusting guide roller rotates on the trimming rack, the pair of cutting knives can be close to or far away from the composite film on the trimming guide roller, so as to control whether the trimming is carried out on the composite film, and also avoid the problem that the trimming knives cannot trim the rim charge of the composite film.

(3) The position and the angle of the deviation rectifying sensor on the deviation rectifying rack are adjusted according to the width of the first film, so that the deviation rectifying device can be suitable for the first films with different widths and in the conveying direction, and the application range of the film laminating machine is widened.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic structural diagram of a first unwinding device according to the present invention;

FIG. 3 is a schematic structural diagram of the deviation correcting device according to the present invention;

FIG. 4 is a schematic cross-sectional view of the deviation correcting device according to the present invention;

FIG. 5 is a schematic structural diagram of a first steering device of the present invention;

fig. 6 is a schematic structural diagram of a first drying device according to the present invention;

fig. 7 is a schematic structural diagram of a second unwinding device according to the present invention;

FIG. 8 is a schematic structural view of the inventive tensioner;

FIG. 9 is a schematic structural diagram of a prestoring apparatus according to the present invention;

FIG. 10 is a schematic structural view of a second steering apparatus according to the present invention;

FIG. 11 is a schematic structural view of the coating apparatus of the present invention;

fig. 12 is a schematic structural view of a second drying device according to the present invention;

fig. 13 is a schematic structural diagram of a third unwinding device according to the present invention;

FIG. 14 is a schematic structural view of a third steering apparatus according to the present invention;

fig. 15 is a schematic structural view of a third drying device according to the present invention;

FIG. 16 is a schematic structural view of the composite device of the present invention;

FIG. 17 is a schematic structural diagram of the edge cutting device of the present invention;

FIG. 18 is a schematic structural diagram of the recycling device of the present invention;

FIG. 19 is a schematic cross-sectional view of the recycling apparatus of the present invention;

FIG. 20 is a schematic structural view of a winding device according to the present invention;

FIG. 21 is a schematic structural diagram of a deviation rectifying slide block and an adjusting rod according to the present invention;

in the figure: 11-a first unreeling device, 12-a deviation correcting device, 13-a first turning device, 14-a first drying device, 21-a second unreeling device, 22-a tensioning device, 23-a pre-storing device, 24-a second turning device, 25-a coating device, 26-a second drying device, 31-a compounding device, 32-a trimming device, 33-a recovering device, 34-a reeling device, 41-a third unreeling device, 42-a third turning device, 43-a third drying device, 111-a first unreeling rack, 112-a first unreeling roller, 113-a first unreeling motor, 121-a deviation correcting rack, 122-a deviation correcting sensor, 123-a deviation correcting rack, 124-a first deviation correcting driver, 125-a deviation correcting guide roller, 126-a deviation correcting slider, 127-a second deviation rectifying driving machine, 128-an adjusting rod, 129-a screw, 1261-a threaded hole, 1281-a connecting hole, 131-a first steering rack, 132-a first steering guide roller, 211-a second unreeling rack, 212-a second unreeling rack, 213-a second unreeling roller, 221-a tensioning rack, 222-a tensioning guide roller, 223-a pressure roller, 2211-a strip-shaped hole, 231-a pre-storing rack, 232-a first pre-storing guide roller, 233-a pre-storing rack, 234-a second pre-storing guide roller, 241-a second steering rack, 242-a second steering guide roller, 251-a coating rack, 252-a coating roller, 253-a flattening roller, 261-a second oven, 262-a second air duct, 263-a second drying machine, 311-a composite rack, 312-a composite press roller, 321-cutting edge rack, 322-cutting edge guide roller, 323-adjusting guide roller, 324-cutting knife, 325-cutting edge rack, 326-cutting edge motor, 331-recovering rack, 332-recovering rack, 333-first recovering motor, 334-coiling barrel, 335-second recovering motor, 336-first face gear, 337-second face gear, 338-elastic piece, 339-cutting mechanism, 3311-shaft hole, 3371-transmission shaft, 3391-first recovering cylinder, 3392-second recovering cylinder, 3393-cutting knife, 341-coiling rack, 342-coiling rack, 343-coiling roller, 411-third uncoiling rack, 412-third uncoiling roller, 413-third uncoiling motor, 421-third steering rack, 422-third steering guide roller, 423-tension roller, 424-steering cylinder, 4211-sliding chute.

Detailed Description

In order to facilitate the understanding of those skilled in the art, the invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 21, the present invention provides a film laminating machine to solve the problem of automatically manufacturing a composite film from two films. The composite film is formed by bonding and compounding two films through glue, the two sides of the composite film are subjected to edge cutting treatment, the edge is relatively flat, and no flanging is generated.

The film compounding machine comprises a first unwinding device 11, a deviation correcting device 12, a first steering device 13 and a first drying device 14, wherein the first unwinding device 11 is used for placing a coiled first film and discharging the first film, the deviation correcting device 12 is used for correcting the conveying direction of the first film discharged by the first unwinding device 11, the first steering device 13 is used for adjusting the conveying direction of the first film discharged by the deviation correcting device 12, and the first drying device 14 is used for drying the first film discharged by the first steering device 13. In practical use, the first film on the first unwinding device 11 can sequentially pass through the deviation rectifying device 12, the turning device 13, the first drying device 14 and the compounding device 31.

The film laminating machine further comprises a second unwinding device 21, a tensioning device 22, a pre-storage device 23, a second steering device 24, a coating device 25 and a second drying device 26. The second unwinding device 21 is used for placing a coiled second film and discharging the second film, the tensioning device 22 is used for spreading the second film discharged by the second unwinding device 21, the pre-storing device 23 is used for pre-storing the second film discharged by the tensioning device 22, the second turning device 24 is used for adjusting the conveying direction of the second film discharged by the pre-storing device 23, the coating device 25 is used for coating glue on the second film discharged by the second turning device 24, and the second drying device 26 is used for drying the second film discharged by the coating device 25. In practical use, the second film on the second unwinding device 21 passes through the tensioning device 22, the pre-storing device 23, the second turning device 24, the coating device 25, the second drying device 26 and the laminating device 31 in sequence.

The film laminating machine further comprises a third unwinding device 41, a third turning device 42 and a third drying device 43, wherein the third unwinding device 41 is used for placing a coiled third film and paying off the third film, the third turning device 42 is used for adjusting the conveying direction of the third film paid off by the third unwinding device 41, and the third drying device 43 is used for drying the third film paid off by the third turning device 42. In practical use, the third film on the third unwinding device 41 passes through the third turning device 42, the third drying device 43 and the laminating device 31 in sequence.

The film compounding machine further comprises a compounding device 31, an edge cutting device 32, a recycling device 33 and a winding device 34, wherein the compounding device 31 is used for compounding a first film, a second film and a third film into a composite film, the edge cutting device 32 is used for cutting off the rim charge of the composite film output by the compounding device 31, the recycling device 33 is used for winding the rim charge output by the edge cutting device 32, and the winding device 34 is used for winding the composite film output by the edge cutting device 32. In practical use, the composite film on the composite device 31 can be rolled on the rolling device 34 through the edge cutting device 32.

In the invention, a first film which is sequentially subjected to deviation correction, turning and drying, a second film which is sequentially subjected to tensioning, prestoring, turning, coating and drying and a third film which is sequentially subjected to turning and drying are finally subjected to compounding, edge cutting, recycling and rolling to form a rolled rim charge and a rolled composite film.

In addition, in the invention, if the second film on the second unwinding device 21 is about to be used up, the second film pre-stored on the pre-storing device 23 can be released, the second film input to the pre-storing device 23 can be in a static state, and the film laminating machine can complete the placement of the second film on the second unwinding device 21 without stopping the machine, so that the production efficiency is further improved, and the feeding of the second film is facilitated.

The first unwinding device 11 includes a first unwinding frame 111, a rotatable first unwinding roller 112 is disposed on the first unwinding frame 111, the first unwinding roller 112 is used for winding a first film, the first unwinding roller 112 is rotatable on the first unwinding frame 111, and if the first unwinding roller 112 is rotatable on the first unwinding frame 111, the first unwinding roller 112 is capable of unwinding the first film.

The first unwinding frame 111 is provided with a first unwinding motor 113, and the first unwinding motor 113 is in transmission connection with the first unwinding roller 112 in a chain transmission manner. If the first unwinding motor 113 works, the first unwinding roller 112 may be driven to rotate on the first unwinding frame 111, so as to automatically unwind the first film.

The deviation correcting device 12 comprises a deviation correcting rack 121, a deviation correcting sensor 122 is arranged on the deviation correcting rack 121, the deviation correcting sensor 122 is used for detecting the position of the first film, converting the position signal of the first film into a digital signal and sending the digital signal to a controller, and the controller refers to a PLC.

Specifically, the deviation sensor 122 is a proximity switch, and is a non-contact sensor.

The deviation rectifying frame 121 is provided with a deviation rectifying support 123 in a sliding manner, the deviation rectifying support 123 is connected with a first deviation rectifying driving machine 124 in a transmission manner, the first deviation rectifying driving machine 124 is used for driving the deviation rectifying support 123 to slide on the deviation rectifying frame 121, the sliding direction of the deviation rectifying support 123 on the deviation rectifying frame 121 is perpendicular to the conveying direction of the first film, a deviation rectifying guide roller 125 is arranged on the deviation rectifying support 123 in a rotating manner, the rotating direction of the deviation rectifying guide roller 125 on the deviation rectifying support 123 is consistent with the conveying direction of the first film, and the deviation rectifying guide roller 125 is used for conveying the first film. If the deviation rectifying bracket 123 slides on the deviation rectifying frame 121, the deviation rectifying bracket 123 can rectify the conveying direction of the first film on the deviation rectifying guide roller 125.

Specifically, the first deviation rectification driving machine 124 is a hydraulic cylinder, the first deviation rectification driving machine 124 is fixedly arranged on the deviation rectification frame 121, a piston rod of the first deviation rectification driving machine 124 is fixedly arranged on the deviation rectification support 123, and the first deviation rectification driving machine 124 operates according to a control command of the controller.

The deviation rectifying frame 121 is slidably provided with a deviation rectifying slider 126, the sliding direction of the deviation rectifying slider 126 on the deviation rectifying frame 121 is perpendicular to the conveying direction of the first film, the deviation rectifying sensor 122 is arranged on the deviation rectifying frame 121 through the deviation rectifying slider 126, and the deviation rectifying slider 126 can drive the deviation rectifying sensor 122 to slide on the deviation rectifying frame 121. The deviation rectifying slide block 126 is in transmission connection with a second deviation rectifying driving machine 127, and the second deviation rectifying driving machine 127 is used for driving the deviation rectifying slide block 126 to slide on the deviation rectifying frame 121. If the deviation rectifying slide 126 slides on the deviation rectifying frame 121, the deviation rectifying sensor 122 can be close to or far away from the first film on the deviation rectifying guide roller 125.

Specifically, the second deviation correcting driver 127 is a motor, and the second deviation correcting driver 127 is connected to the deviation correcting slider 126 in a belt driving manner.

In the invention, the position of the deviation-correcting sensor 122 on the deviation-correcting frame 121 is adjusted according to the width of the first film, so that the deviation-correcting device 12 can be applied to the first films with different widths, and the application range of the film laminating machine is widened.

The deviation correcting slider 126 is provided with an adjusting rod 128, the deviation correcting sensor 122 is arranged on the deviation correcting slider 126 through the adjusting rod 128, a connecting hole 1281 is formed in the adjusting rod 128, a screw 129 penetrates through the connecting hole 1281, a threaded hole 1261 is formed in the deviation correcting slider 126, the screw 129 is in threaded connection with the threaded hole 1261, and the adjusting rod 128 is fastened on the deviation correcting slider 126 through the screw 129. If the screw 129 loosens the adjusting rod 128, the adjusting rod 128 can rotate on the deviation rectifying slide block 126 around the screw 129, and the rotating direction of the adjusting rod 128 on the deviation rectifying slide block 126 is perpendicular to the sliding direction of the deviation rectifying slide block 126 on the deviation rectifying frame 121, so as to adjust the angle of the deviation rectifying sensor 122.

In the invention, the angle of the deviation-correcting sensor 122 on the deviation-correcting rack 121 can be adjusted according to the conveying direction of the first film, so that the deviation-correcting device 12 can be applied to the first films with different conveying angles, and the application range of the film laminating machine is widened.

The first unwinding device 11, the deviation correcting device 12 and the first steering device 13 are arranged at the same height position, and the first drying device 14 is arranged above the first unwinding device 11, the deviation correcting device 12 and the first steering device 13, so that the compactness of the structural layout of the equipment is improved.

The first turning device 13 is used to adjust the conveying direction of the first film. The first turning device 13 includes a first turning frame 131, a plurality of first turning guide rollers 132 are rotatably disposed on the first turning frame 131, the first turning guide rollers 132 are used for conveying the first film, and the conveying direction of the first film is changed by the conveyance of the plurality of first turning guide rollers 132.

The second unwinding device 21 includes a second unwinding frame 211, the second unwinding frame 211 is rotatably provided with a second unwinding support 212, the second unwinding support 212 can rotate on the second unwinding frame 211, the second unwinding support 212 is rotatably provided with a second unwinding roller 213, the second unwinding roller 213 can rotate on the second unwinding support 212, the second unwinding roller 213 is used for placing and unwinding a second film, the second unwinding support 212 can be driven by a motor to rotate on the second unwinding frame 211, the second unwinding roller 213 can rotate on the second unwinding support 212 by another motor, the second unwinding rollers 213 are at least two, and two or more second unwinding rollers 213 sequentially encircle the center of rotation of the second unwinding support 212 at the top.

In the invention, the second unreeling bracket 212 can rotate on the second unreeling machine frame 211 to realize the feeding of the second film, thereby further facilitating the feeding of the second film.

The tensioning device 22 comprises a tensioning rack 221, a tensioning guide roller 222 is rotatably arranged on the tensioning rack 221, the tensioning guide roller 222 is used for conveying a second film, a strip-shaped hole 2211 is formed in the tensioning rack 221, the length direction of the strip-shaped hole 2211 is vertical, a pressure roller 223 penetrates through the strip-shaped hole 2211, the pressure roller 223 can be pressed on the second film under the self-weight effect, and the second film is pressed between the tensioning guide roller 222 and the pressure roller 223.

Prestoring device 23 is including prestoring frame 231, it is provided with first deflector roll 232 to prestore to rotate on the frame 231, first deflector roll 232 of prestoring is used for carrying the second film, it is provided with prestore support 233 to prestore to slide on the frame 231, prestore support 233 can prestore vertical slip on the frame 231, it is provided with second deflector roll 234 to prestore to rotate on the support 233, the second prestores deflector roll 234 and also is used for carrying the second film, the second film can prestore between first deflector roll 232 and the second deflector roll 234 of prestoring, if prestore when support 233 slides on the frame 231 of prestoring, first deflector roll 232 of prestoring can be close to or keep away from second deflector roll 234 of prestoring, thereby the length of the second film that prestores between deflector roll 232 and the second deflector roll 234 can be prolonged or shorten in advance.

The first pre-storing guide rollers 232 are at least two, two or more first pre-storing guide rollers 232 are arranged on the pre-storing rack 231 in parallel, the second pre-storing guide rollers 234 are also at least two, and the two or more second pre-storing guide rollers 234 are arranged on the pre-storing bracket 233 in parallel, so that the pre-storing capacity between the first pre-storing guide rollers 232 and the second pre-storing guide rollers 234 is further improved.

In the creation of the present invention, if the second unwinding device 21 performs the material changing, the pre-storing device 23 can release the second film between the first pre-storing guide roller 232 and the second pre-storing guide roller 234, so that the conveying speed of the second film entering the pre-storing device 23 is reduced to be still.

The second unreeling device 21, the tensioning device 22 and the pre-storage device 23 are arranged at the position of the agreed height, and the coating device 25 and the second drying device 26 are respectively arranged above the second unreeling device 21, the tensioning device 22 and the pre-storage device 23, so that the compactness of the structural layout of the equipment is improved.

The second turns to device 24 and is used for adjusting the direction of delivery of second film, and second turns to device 24 and includes second steering frame 241, and second steering frame 241 goes up to rotate and is provided with a plurality of second and turns to deflector roll 242, and second turns to deflector roll 242 and is used for carrying the second film, and the second film has changed its direction of delivery under the transport of a plurality of second steering deflector roll 242.

The coating device 25 comprises a coating machine frame 251, wherein a coating roller 252 and a flattening roller 253 are respectively and rotatably arranged on the coating machine frame 251, the second film sequentially passes through the coating roller 252 and the flattening roller 253, the flattening rollers 253 are a pair, the second film is tightly pressed between the pair of flattening rollers 253, the coating roller 252 is used for coating the second film with glue, and the flattening rollers 253 are used for pressing the glue on the second film, so that the glue on the second film is flattened.

The second drying device 26 includes a second oven 261, the second oven 261 is hollow, the second film passes through the second oven 261, a second air duct 262 is communicated with the second oven 261, a second dryer 263 is connected to the second air duct 262, the second dryer 263 conveys hot air into the second oven 261 through the second air duct 262, and the hot air dries the second film in the second oven 261.

The third unwinding device 41 includes a third unwinding frame 411, a third rotatable unwinding roller 412 is disposed on the third unwinding frame 411, the third unwinding roller 412 is used for winding a third film, the third unwinding roller 412 is rotatable on the third unwinding frame 411, and if the third unwinding roller 412 is rotatable on the third unwinding frame 411, the third unwinding roller 412 is capable of unwinding the third film.

The third unwinding roller 412 is provided with a third unwinding motor 413, and the third unwinding motor 413 is in transmission connection with the third unwinding roller 412 in a chain transmission manner. If the third unwinding motor 413 works, the third unwinding roller 412 may be driven to rotate on the third unwinding frame 411, so as to automatically unwind the third film.

The third unwinding device 41 and the turning device 42 are disposed at the same height, and the third drying device 43 is disposed above the third unwinding device 41 and the turning device 42, so that the compactness of the structural layout of the apparatus is improved.

The third turning device 42 is used to adjust the conveying direction of the third film. The third turning device 42 includes a third turning frame 421, a plurality of third turning guide rollers 422 are rotatably disposed on the third turning frame 421, the third turning guide rollers 422 are used for conveying a third film, and the conveying direction of the third film is changed by conveying the third film through the plurality of third turning guide rollers 422.

The third turns to device 42 and still includes tensioning roller 423, and the third film can be carried on tensioning roller 423, has seted up spout 4211 on the third turns to frame 421, and tensioning roller 423 slides and sets up in spout 4211, if tensioning roller 423 slides in spout 4211, the elasticity of the adjustable third film of tensioning roller 423 guarantees the tensioning effect of third film. The third steering frame 421 is further provided with a steering cylinder 424, a piston rod of the steering cylinder 424 is connected to the tension roller 423, and the steering cylinder 424 is used for adjusting the position of the tension roller 423 in the sliding groove 4211, so that the tensioning effect of automatically adjusting the third film is realized.

The composite device 31 comprises a composite frame 311, a pair of composite press rollers 312 is rotatably arranged on the composite frame 311, the first film, the second film and the third film are tightly pressed between the pair of composite films, and the pair of composite films is used for compounding the first film, the second film and the third film together to form a composite film.

Edge cutting device 32 includes cutting edge frame 321, it is provided with cutting edge guide roller 322 and regulation guide roller 323 to rotate respectively on the cutting edge frame 321, the direction of rotation of cutting edge guide roller 322 on cutting edge frame 321 is unanimous with the direction of rotation of regulation guide roller 323 on cutting edge frame 321, cutting edge guide roller 322 is used for carrying the complex film, be provided with a pair of cut-off knife 324 on the regulation guide roller 323, a pair of cut-off knife 324 is used for cutting out the rim charge of complex film both sides, if adjust guide roller 323 when rotating on cutting edge frame 321, a pair of cut-off knife 324 can be close to or keep away from cutting edge guide roller 322, thereby control a pair of cut-off knife 324 to the cutting edge of complex film.

Adjust and to slide respectively on the guide roller 323 and be provided with a pair of cut-off edge support 325, a cut-off knife 324 sets up on adjusting the guide roller 323 through a cut-off edge support 325, another cut-off knife 324 sets up on adjusting the guide roller 323 through another cut-off edge support 325, the fixed setting of cut-off knife 324 is on the cut-off edge support 325 that corresponds, a pair of cut-off edge support 325 transmission is connected with cut-off edge motor 326, specifically, a pair of cut-off edge support 325 is connected on cut-off edge motor 326 through the driven mode of belt, if cut-off edge motor 326 during operation, a pair of cut-off knife 324 can be close to each other or keep away from to adjust the width that a pair of cut-off knife 324 was tailor to the rim charge of complex film both sides.

The edge cutting machine frame 321 is further provided with an encoder, the encoder is used for detecting the rotating angular speed of the edge cutting guide roller 322 and uploading the detected angular speed data to the controller, and the controller converts the rotating angular speed of the edge cutting guide roller 322 into the conveying speed of the composite film. The edge cutting machine frame 321 is also provided with a code spraying device, the code spraying device is used for spraying codes on the composite film, and the controller controls the spray printing speed of the code spraying device according to the conveying speed of the composite film.

The recycling device 33 comprises a recycling rack 331, a recycling support 332 is rotatably arranged on the recycling rack 331, the recycling support 332 is used for changing rolled composite films, the recycling support 332 can rotate on the recycling rack 331, a first recycling motor 333 is rotatably connected to the recycling support 332, the first recycling motor 333 is connected to the recycling support 332 through chain transmission, the first recycling motor 333 is used for driving the recycling support 332 to rotate on the recycling rack 331, a winding drum 334 is rotatably arranged on the recycling support 332 and used for winding the composite films, a second recycling motor 335 is rotatably connected to the winding drum 334, the second recycling motor 335 can also be connected to the winding drum 334 through chain transmission, at least two winding drums 334 are arranged, and two or more winding drums 334 sequentially surround the center of rotation of the recycling support 332 on the recycling rack 331.

In the invention, if the composite film is fully wound on one of the barrels 334, the recovery bracket 332 is driven to rotate on the recovery rack 331, so that the other barrel 334 starts to wind the composite film, and the composite film can be replaced without stopping the machine.

It is provided with first terminal surface gear 336 to rotate on retrieving the support 332, the transmission of second recovery motor 335 is connected on first terminal surface gear 336, it has seted up shaft hole 3311 on retrieving the support 332, wear to be equipped with transmission shaft 3371 in the shaft hole 3311, transmission shaft 3371 can slide in the axial of shaft hole 3311, transmission shaft 3371 still can rotate around shaft hole 3311, the fixed setting of coil of strip section of thick bamboo 334 is on transmission shaft 3371, still the fixed second terminal surface gear 337 that is provided with on transmission shaft 3371, be provided with elastic component 338 between second terminal surface gear 337 and the recovery support 332, elastic component 338 forces second terminal surface gear 337 to mesh on first terminal surface gear 336.

If the transmission shaft 3371 slides in the axial direction of the shaft hole 3311, the second face gear 337 may be disengaged from the first face gear 336, thereby interrupting the transmission between the second recycling motor 335 and the material winding drum 334, and further facilitating the blanking of the composite film on the material winding drum 334.

Specifically, the first face gear 336 is connected to the second recovery motor 335 in a chain transmission manner, the elastic member 338 is a spring, the elastic member 338 is sleeved on the transmission shaft 3371, one end of the elastic member 338 abuts against the second face gear 337, and the other end of the elastic member 338 abuts against the recovery bracket 332.

The recovery frame 331 is provided with the wall mechanism 339, the cut-off mechanism 339 includes a first recovery cylinder 3391, a second recovery cylinder 3392 and a cutting knife 3393, the first recovery cylinder 3391 is arranged on the recovery frame 331, the second recovery cylinder 3392 is arranged on a piston rod of the first recovery cylinder 3391, the cutting knife 3393 is fixedly arranged on the piston rod of the second recovery cylinder 3392, the cutting knife 3393 is further positioned between a pair of coiling barrels 334, the cutting knife 3393 is used for cutting off rim charge between the coiling barrels 334, and blanking of rim charge on the coiling barrels 334 is facilitated.

The winding device 34 comprises a winding frame 341, a winding support 342 is rotatably arranged on the winding frame 341, the winding support 342 can rotate on the winding frame 341, a winding roller 343 is rotatably arranged on the winding support 342, the winding roller 343 can rotate on the winding support 342, the winding roller 343 is used for winding the composite film, the winding support 342 and the winding roller 343 can be driven by a motor, at least two winding rollers 343 are provided, and two or more winding rollers 343 are sequentially wound on the rotation center of the winding support 342 on the winding frame 341.

In the invention, the winding support 342 can rotate on the winding frame 341, so that the compound machine of the film can be wound on different winding rollers 343 without stopping the compound machine, thereby further facilitating the winding of the compound film.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the invention shall be covered within the protection scope of the invention.

Claims (7)

1. A laminating machine for a film, comprising:

the first unwinding device (11) is used for placing the coiled first film;

the second unwinding device (21) is used for placing the coiled second film;

a coating device (25) for applying glue on the second film;

the third unwinding device (41) is used for placing the coiled third film;

a composite device (31) for compositing the first film, the second film and the third film into a composite film;

the trimming device (32) is used for trimming the rim charge of the composite film;

the recycling device (33) is used for rolling the leftover materials;

and the winding device (34) is used for winding the composite film.

2. The laminating machine for films as claimed in claim 1, wherein the trimming device (32) comprises a trimming frame (321), a trimming guide roller (322) and an adjusting guide roller (323) are respectively rotatably disposed on the trimming frame (321), a pair of cutting knives (324) are disposed on the adjusting guide roller (323), the pair of cutting knives (324) are used for cutting the edge material on both sides of the composite film, and if the adjusting guide roller (323) rotates on the trimming frame (321), the pair of cutting knives (324) can be close to or far away from the trimming guide roller (322).

3. A laminating machine for films as claimed in claim 2, wherein a pair of cutting edge brackets (325) are slidably disposed on the adjusting guide roller (323), a pair of cutting blades (324) are disposed on the adjusting guide roller (323) through the pair of cutting edge brackets (325), a cutting edge motor (326) is drivingly connected to the pair of cutting edge brackets (325), and the pair of cutting blades (324) can move toward or away from each other when the cutting edge motor (326) is operated.

4. A film laminating machine according to claim 2 or 3, wherein the recycling device (33) comprises a recycling frame (331), a recycling bracket (332) is rotatably disposed on the recycling frame (331), a first recycling motor (333) is rotatably connected to the recycling bracket (332), a winding drum (334) is rotatably disposed on the recycling bracket (332), a second recycling motor (335) is rotatably connected to the winding drum (334), the number of the winding drums (334) is at least two, and two or more winding drums (334) are sequentially wound around the rotation center of the recycling bracket (332) on the recycling frame (331).

5. The laminating machine for films as claimed in claim 4, wherein the recycling bracket (332) is rotatably provided with a first face gear (336), the second recycling motor (335) is connected to the first face gear (336) in a transmission manner, the recycling bracket (332) is provided with a shaft hole (3311), a transmission shaft (3371) is arranged in the shaft hole (3311) in a penetrating manner, the winding barrel (334) is fixedly arranged on the transmission shaft (3371), the transmission shaft (3371) is further fixedly provided with a second face gear (337), an elastic member (338) is arranged between the second face gear (337) and the recycling bracket (332), and the elastic member (338) forces the second face gear (337) to engage with the first face gear (336).

6. A film laminating machine according to claim 1, further comprising a first drying means (14), a second drying means (26) and a third drying means (43), the first drying means (14) being adapted to dry the first film, the second drying means (26) being adapted to dry the second film and the third drying means (43) being adapted to dry the third film.

7. The laminating machine for films as claimed in claim 6, further comprising a second turning device (42), wherein the second drying device (43) is disposed above the second unwinding device (41) and the second turning device (42), and the second turning device (42) is used for adjusting the feeding direction of the second film.

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