CN218403012U - Film conveying structure and film pressing device - Google Patents

Abstract

The utility model relates to a film processing field, it discloses a film transport structure and film compression fittings, film transport structure includes mount, a plurality of guide roller subassembly, a plurality of tensioning assembly, expansion bracket and carriage, the one end of expansion bracket with the carriage is articulated, be equipped with the guide track on the mount, the guide track along the carriage highly reduces gradually toward the direction of mount, the other end of expansion bracket is placed on the guide track and with guide track sliding connection, the carriage set up in the upper reaches of mount, the carriage can be followed and is close to or keep away from the direction motion of mount, the mount with be equipped with a plurality of guide roller subassembly on the expansion bracket respectively, guide roller subassembly is used for leading the transport of film, the tensioning assembly sets up on the mount, the tensioning assembly is used for tensioning the film. The film laminating device comprises a laminating machine and a film conveying structure, an unreeling device and a laminating machine.

Description

Film conveying structure and film pressing device

Technical Field

The utility model relates to a film field of carrying, especially the set composite of film and protection film.

Background

After the casting film is subjected to the casting process, a protective film needs to be coated on the surface of the film, and then the film is pressed. However, it is necessary to adjust the tension, temperature, thickness, and the like of the film between the casting machine and the pressing machine so that the film and the protective film can be laminated with good performance.

The transport distance between the casting machine and the press is generally adjusted by adjusting the position and number of guide rolls around which the film is wound, for example, the transport distance for natural cooling of the film. However, for some brittle films, the wrap angle on the guide roll cannot be too large, and the film is easily damaged due to the too large wrap angle, but in the case of a small wrap angle, the longer natural cooling distance of the film is difficult to realize, so that the integral film production equipment needs to design a longer distance of the natural cooling length, and the production efficiency is affected when some thin films are produced by still using a longer natural cooling distance.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: at least one technical problem addressed above is solved.

The utility model provides a solution of its technical problem is:

the utility model provides a film conveying structure, includes mount, a plurality of guide roller subassembly, a plurality of tensioning assembly, expansion bracket and carriage, the one end of expansion bracket with the carriage is articulated, be equipped with the direction track on the mount, the direction track along the carriage highly reduces gradually toward the direction of mount, the other end of expansion bracket is placed on the direction track and with guide rail sliding connection, the carriage set up in the upper reaches of mount, the carriage can be followed and is close to or keeps away from the direction motion of mount, the mount with be equipped with a plurality of guide roller subassembly on the expansion bracket respectively, guide roller subassembly is used for leading to the transport of film, tensioning assembly sets up on the mount, tensioning assembly is used for tensioning film.

As a further improvement of the technical scheme, the sliding frame comprises a rail, rollers, a base, a lifting mechanism and a lifting frame main body, the rollers are arranged in a plurality of modes, the rollers are connected with the rail in a sliding fit mode, all the rollers are arranged on the base, the rollers are used for supporting the base, the lifting mechanism is arranged on the base, the lifting frame main body is arranged on the lifting mechanism, the lifting mechanism is used for adjusting the height of the lifting frame main body, and the telescopic frame is hinged to the lifting frame main body.

As a further improvement of the above technical scheme, the tensioning assembly comprises an electric cylinder and a tensioning roller, the electric cylinder is arranged on the fixing frame, the movable part of the electric cylinder is connected with the tensioning roller, and the electric cylinder drives the tensioning roller to move up and down.

As a further improvement of the technical scheme, the telescopic frame is provided with a pulley, and the pulley is connected with the guide rail in a sliding fit manner.

The utility model also provides a film compression fittings, including the pressfitting machine, still include film transport structure, the pressfitting machine set up in the low reaches are carried to the film of mount, the pressfitting machine with be equipped with unwinding device between the mount, unwinding device is used for unreeling the protection film, the pressfitting machine is used for the protection film pressfitting that unwinding device emitted to the film.

As a further improvement of the above technical solution, the unwinding device includes: the unwinding frame, the upper unwinding wheel and the lower unwinding wheel; the unwinding frame is arranged between the fixing frame and the pressing machine; the upper unwinding wheel is arranged on the unwinding frame, and the upper unwinding wheel and the unwinding frame can rotate relatively; the lower rolling wheel is arranged on the unreeling frame, the lower rolling wheel and the unreeling frame can rotate relatively, and the space between the upper unreeling wheel and the lower rolling wheel is used for a film to pass through.

As a further improvement of the above technical scheme, the pressing device further comprises a thickness measuring machine, the thickness measuring machine is arranged on the fixing frame and used for measuring the thickness of the thin film, the thickness measuring machine is arranged at the upstream of the unwinding device, and the tensioning assembly is arranged at the upstream and the downstream of the thickness measuring machine.

As a further improvement of the technical scheme, the pressing device further comprises a splitting machine, the splitting machine is arranged between the unreeling device and the fixing frame, and the splitting machine is used for splitting the edge of the film.

As a further improvement of the above technical solution, the splitting machine comprises: the cutting machine comprises a cutting frame, a cutter cushion mechanism and a cutter mechanism; the cutting frame is arranged between the unreeling device and the fixing frame; the cutter backing mechanism comprises a cutter backing seat, a bottom cutter wheel and a bottom wheel driving assembly, the cutter backing seat is arranged on the cutting frame and comprises a cutter backing surface, the bottom cutter wheel is rotationally connected to the cutter backing seat, one end of the bottom cutter wheel protrudes out of the cutter backing surface, and the bottom wheel driving assembly drives the bottom cutter wheel to rotate; the cutter mechanism comprises a cutter driver and a film cutter, the cutter driver is arranged on the slitting frame, and the cutter driver is in driving connection with the film cutter to drive the film cutter to be close to or far away from the knife cushion face.

As a further improvement of the above technical solution, the cutter mechanism further includes a cutter width adjusting assembly and a cutter seat, the cutter driver and the film cutter are both disposed on the cutter seat, and the cutter width adjusting assembly is used for laterally adjusting the position of the cutter seat.

The utility model has the advantages that: the utility model provides an among the film transport structure, it is a plurality of guide roller group is used for leading to the transport of film, tensioning assembly is used for tensioning the film, when the natural cooling distance of needs extension film, can make the carriage keep away from the mount motion during the use, thereby the expansion bracket is pulled out from the guide track by the carriage, guide roller assembly on the usable expansion bracket of user carries the direction to the film, thereby the transport distance of film has been prolonged, increased and carried out natural cooling's transport distance to the film, when the transport distance of film is shortened to needs, the user can make the direction motion of carriage toward the mount, make the expansion bracket accomodate on the guide track, thereby, the user is when the wearing membrane, the film no longer winds the guide roller assembly on the expansion bracket, shorten the stroke of film.

The utility model provides an among the film compression fittings, it includes film transport structure, is used for unreeling the unwinding device of protection film to and to the pressfitting machine, can realize carrying out the film of suitable natural cooling distance and carry out the pressfitting among the compression fittings.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from these figures without inventive effort.

FIG. 1 is a side view of a film transport structure of the present invention;

fig. 2 is a side view of the film laminating apparatus of the present invention;

fig. 3 is an isometric view of the film laminating apparatus of the present invention, with the carriage hidden;

FIG. 4 is an isometric view of the slitting machine of the present invention;

FIG. 5 is a front view of the slitting machine of the present invention;

fig. 6 is a left side view of fig. 5 of the present invention;

fig. 7 is a cross-sectional view taken along line B-B of fig. 6 in accordance with the present invention;

fig. 8 isbase:Sub>A cross-sectional view taken along linebase:Sub>A-base:Sub>A of fig. 6 according to the present invention.

In the drawings: 01-fixed frame, 02-guide roller assembly, 03-telescopic frame, 031-pulley, 041-lifting frame main body, 042-rail, 043-roller, 044-base, 045-lifting mechanism, 05-guide rail, 06-pressing machine, 071-unreeling frame, 072-unreeling wheel, 073-unreeling wheel, 08-thickness measuring machine, 09-tensioning assembly, 1-slitting frame, 200-backing knife mechanism, 210-backing knife holder, 220-backing knife wheel, 230-backing wheel driving assembly, 231-backing wheel driver, 232-transmission shaft, 240-backing plate, 251-backing knife adjusting slide rail, 252-backing knife adjusting screw rod, 253-backing knife supporting slide rail, 300-cutter mechanism, 310-cutter driver, 320-film cutter, 331-cutter adjusting slide rail, 332-cutter adjusting screw rod, 340-cutter holder, 410-first transmission wheel, 420-second transmission wheel, 430-synchronous belt.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. All technical characteristics in the invention can be interactively combined on the premise of not conflicting with each other.

Referring to fig. 1 to 8, a film conveying structure includes a fixing frame 01, a plurality of guide roller assemblies 02, a plurality of tensioning assemblies 09, an expansion frame 03 and a sliding frame, one end of the expansion frame 03 is hinged to the sliding frame, a guide rail 05 is arranged on the fixing frame 01, the guide rail 05 gradually reduces along the direction of the sliding frame toward the fixing frame 01, the other end of the expansion frame 03 is placed on the guide rail 05 and is slidably connected with the guide rail 05, the sliding frame is arranged on the upstream of the fixing frame 01, the sliding frame can move in the direction close to or far away from the fixing frame 01, the fixing frame 01 and the expansion frame 03 are respectively provided with a plurality of guide roller assemblies 02, the guide roller assemblies 02 are used for guiding the conveying of films, the tensioning assemblies 09 are arranged on the fixing frame 01, and the tensioning assemblies 09 are used for tensioning the films.

By the aforesaid can, it is a plurality of the guide roller group is used for leading to the transport of film, tensioning assembly 09 is used for tensioning the film, when the natural cooling distance of needs extension film, can make the carriage keep away from mount 01 during the use and move, thereby the expansion bracket 03 is pulled out from guide rail 05 by the carriage, guide roller assembly 02 on the usable expansion bracket 03 of user carries the direction to the film, thereby the conveying distance of film has been prolonged, increased and carried out the conveying distance of natural cooling to the film, when the conveying distance of film needs to be shortened, the user can make the carriage move toward mount 01's direction, make the expansion bracket 03 accomodate on guide rail 05, thereby, the user is when the wearing film, the film no longer winds guide roller assembly 02 on the expansion bracket 03, shorten the stroke of film.

In practical use, each guide roller assembly 02 comprises two guide roller seats and a guide roller main body, the two guide roller seats are respectively arranged at two ends of the guide roller main body, the guide roller seats and the guide roller main body are connected in a relatively rotatable manner, and the guide roller seats are used for being fixed on the fixed frame 01 or the telescopic frame 03.

In order to realize the sliding function of the sliding frame, in some embodiments, the sliding frame includes a plurality of rails 042, a plurality of rollers 043, a base 044, a lifting mechanism 045 and a lifting frame main body 041, the rollers 043 are connected with the rails 042 in a sliding fit manner, all the rollers 043 are disposed on the base 044, the rollers 043 are used for supporting the base 044, the lifting mechanism 045 is disposed on the base 044, the lifting frame main body 041 is disposed on the lifting mechanism 045, the lifting mechanism 045 is used for adjusting the height of the lifting frame main body 041, and the telescopic frame 03 is hinged to the lifting frame main body 041. During the use, use gyro wheel 043 and rail 042's sliding fit, crane main part 041 can slide along rail 042's extending direction, in addition, through the setting of elevating system 045, the distance of adjustable carriage apart from rail 042 to realize the height of the main part of adjustment carriage, can adjust the inclination angle of expansion bracket 03.

The lifting mechanism 045 comprises a screw rod and a nut, wherein the screw rod and the nut are arranged on the screw rod, the screw rod and the base 044 can rotate relatively, the nut is fixedly connected with the lifting frame main body 041, and the screw rod and the nut form a screw rod nut pair. Optionally, the number of the bases 044 corresponds to the number of the rollers 043, preferably, four rollers 043 are provided, and the four rollers 043 are respectively used for supporting four bottom corners of the lifting frame main body 041.

In order to realize the tensioning of the thin film, in some embodiments, the tensioning assembly 09 includes an electric cylinder and a tensioning roller, the electric cylinder is disposed on the fixing frame 01, a movable portion of the electric cylinder is connected with the tensioning roller, and the electric cylinder drives the tensioning roller to move up and down. During the use, the film is around the upside or the downside through the tensioning roller, and the electricity jar drives the tensioning roller up-and-down motion for the tensioning roller supports the film, and the degree of tensioning film is confirmed to the distance that drives the tensioning roller motion by the electricity jar. Optionally, the number of the electric cylinders is two, the two electric cylinders are respectively arranged at two ends of the tension roller, two ends of the tension roller are rotatably connected with the movable portion of the electric cylinder, for example, the movable portion is connected through a bearing, and the fixed portion of the electric cylinder is fixed on the fixing frame 01 through screws.

In order to make the telescopic frame 03 move smoothly relative to the guide track 05, in some embodiments, a pulley 031 is disposed on the telescopic frame 03, and the pulley 031 is connected with the guide track 05 in a sliding fit manner. Through the sliding fit of the pulley 031 and the guide rail 05, the relative motion between the telescopic frame 03 and the guide rail 05 is smoother.

In addition, still be equipped with spacing limit on the guide track 05, spacing limit sets up two, and pulley 031 sets up between two spacing limits, utilizes spacing limit to carry out the position to pulley 031 and prescribes a limit to.

The utility model also provides a film compression fittings, including pressfitting machine 06, still include film transport structure, pressfitting machine 06 set up in low reaches are carried to the film of mount 01, pressfitting machine 06 with be equipped with unwinding device between the mount 01, unwinding device is used for unreeling the protection film, pressfitting machine 06 is used for the protection film pressfitting that unwinding device emitted to the film.

Since the above description has been made with respect to the thin film conveying structure, it should be understood by those skilled in the art in conjunction with the drawings of the specification, and therefore, the description of the thin film conveying structure will not be provided herein.

In some embodiments, the unwinding device includes: an unreeling frame 071, an upper unreeling wheel 072 and a lower unreeling wheel 073; the unwinding frame 071 is arranged between the fixed frame 01 and the laminating machine 06; the upper unwinding wheel 072 is arranged on the unwinding frame 071, and the upper unwinding wheel 072 and the unwinding frame 071 can rotate relatively; the lower unwinding wheel 073 is arranged on the unwinding frame 071, the lower unwinding wheel 073 and the unwinding frame 071 can rotate relatively, and the space between the upper unwinding wheel 073 and the lower unwinding wheel 073 is used for a film to pass through. When the film unwinding device is used, the upper unwinding wheel 072 and the lower unwinding wheel 073 are provided with protective films, a film penetrates through the space between the upper unwinding wheel 072 and the lower unwinding wheel 073, the protective films on the upper unwinding wheel 072 are used for covering the upper surface of the film, and the protective films on the lower unwinding wheel 073 are used for covering the lower surface of the film.

Optionally, two upper unwinding wheels 072 are provided, and two lower unwinding wheels 073 are provided, so that when the protective film on one upper unwinding wheel 072 is used up, a user can immediately replace the other upper unwinding wheel 072 with the protective film, and the upper unwinding wheel 072 which has used up the protective film can be replaced with a new protective film roll. Similarly, when the protective film on one of the lower winding wheels 073 is used up, the user can replace the other lower winding wheel 073 with the protective film, and the lower winding wheel 073 with the used protective film is replaced with a new protective film roll.

Further, in order to facilitate replacement of the user and lower the reel 073, the fixing frame 01 comprises a fixing frame 01 main body and a trolley track, and the reel is unreeled on the fixing frame 01 main body, the reel is unreeled on the reel 073 in a sliding fit manner with the trolley track, and the user pulls out the reel to add the protection film on the reel 073. Preferably, the unreeling trolleys are arranged in one-to-one correspondence with the unreeling wheels 073, namely, each unreeling trolley is provided with one unreeling wheel 073.

In order to ensure that the protective film can be well unfolded, the fixing frame 01 is further provided with two unfolding rollers, and the two unfolding rollers are respectively arranged at the downstream of the upper unwinding wheel 072 and the downstream of the lower unwinding wheel 073, so that the protective film is covered between the films and firstly passes through the unfolding rollers. The unfolding roller and the fixing frame 01 can rotate relatively, a plurality of protruding ribs are arranged on the unfolding roller, and the protruding ribs extend along the axial direction of the unfolding roller. When the protective film spreading device is used, the protruding ribs abut against the surface of the protective film in the rotating process of the spreading roller, the protective film is well spread under the scraping action of the protruding ribs, and wrinkles of the protective film coated on the protective film are reduced. Optionally, the plurality of raised ribs are arranged in a circumferential array around the axis of the unwind roller.

In order to make the thickness of the stretched film uniform after the film is cast, in some embodiments, the laminating device further includes a thickness measuring machine 08, the thickness measuring machine 08 is disposed on the fixing frame 01, the thickness measuring machine 08 is used for measuring the thickness of the film, the thickness measuring machine 08 is disposed upstream of the unwinding device, and the tensioning assemblies 09 are disposed upstream and downstream of the thickness measuring machine 08. The tensioning assembly 09 may be used to stretch the film to some extent in addition to tensioning the film to ensure a uniform thickness of the film. The film may be tensioned first by the tensioning assembly 09 upstream of the thickness gauge 08, and may be stretched in advance, and the thickness of the film may be determined by measuring the stretched film by the thickness gauge 08, thereby determining whether to further stretch the film using the tensioning assembly 09 downstream of the thickness gauge 08.

After the film is rolled, the edge of the film is generally not smooth enough, in some embodiments, the pressing device further includes a splitting machine, the splitting machine is disposed between the unwinding device and the fixing frame 01, and the splitting machine is used for splitting the edge of the film. When the film cutting machine is used, the edges of the film can be cut through the arrangement of the cutting machine.

In some embodiments, the slitting machine comprises: the cutting machine comprises a cutting frame 1, a cushion cutter mechanism 200 and a cutter mechanism 300; the cutting frame 1 is arranged between the unwinding device and the fixing frame 01; the backing knife mechanism 200 comprises a backing knife holder 210, a backing knife wheel 220 and a backing knife wheel driving component 230, wherein the backing knife holder 210 is arranged on the cutting frame 1, the backing knife holder 210 comprises a backing knife surface, the backing knife wheel 220 is rotatably connected to the backing knife holder 210, one end of the backing knife wheel 220 protrudes out of the backing knife surface, and the backing knife wheel driving component 230 drives the backing knife wheel 220 to rotate; the cutter mechanism 300 comprises a cutter driver 310 and a film cutter 320, the cutter driver 310 is arranged on the slitting frame 1, and the cutter driver 310 is in driving connection with the film cutter 320 to drive the film cutter 320 to be close to or far away from the cushion cutter face. When the film trimming device is used, a film is driven by an external power roller to move from the upstream direction to the downstream direction, the film passes through the space between the film cutter 320 and the bottom cutter wheel 220, the film is supported by the bottom cutter wheel 220, and the cutter driver 310 drives the film cutter 320 to move towards the pad cutter face, so that the film trimming is completed. In the shim mechanism 200 of the present embodiment, a shim 240 is further disposed on the shim seat 210, and the shim surface is a top surface of the shim 240. In this embodiment, the bottom cutter wheel 220 and the film cutter 320 cut the edge of the film material in a cutting manner, and the film cutter 320 is located outside the peripheral surface of the bottom cutter wheel 220 in the structural arrangement, so that the cutting stress is large when the film material is cut, and the film cutter is particularly suitable for a film with a thick thickness, which in this embodiment refers to a film with a thickness of 0.3mm or more, for example, a film with a thickness of 0.5mm or more.

In addition, the splitting machine can also comprise a disc blade and a motor, the disc blade is driven by the motor to rotate, and the film is split by the disc blade.

The backing cutter holder 210 is provided with the bottom cutter wheel 220 driven to rotate, so that the film can be supported when being cut, and the speed difference between the film and the bottom cutter wheel 220 is small when the film is cut due to the fact that the bottom cutter wheel 220 is driven to rotate, and the film with good surface quality can be obtained. The linear velocity of the bottom cutter wheel 220 is kept synchronous with the linear velocity of the film conveying under the optimal state, so that the friction between the bottom cutter wheel 220 and the bottom surface of the film is minimized, the appearance of the film is better protected, and the film is supported.

In order to enable the film trim to cut off the film edge trims with different widths, in some embodiments, the cutter mechanism 300 further includes a cutter width adjusting assembly and a cutter seat 340, the cutter driver 310 and the film cutter 320 are both disposed on the cutter seat 340, and the cutter width adjusting assembly is used for adjusting the position of the cutter seat 340 along the transverse direction. In this embodiment, the transverse direction refers to the width direction of the film. The cutter width adjusting component is configured to drive the cutter seat 340 to move transversely, so that the transverse positions of the cutter driver 310 and the film cutter 320 arranged on the cutter seat 340 are changed, and films with different widths are cut.

The cutter width adjusting assembly comprises a cutter adjusting slide rail 331, a cutter adjusting screw rod 332 and a cutter adjusting nut, the cutter adjusting slide rail 331 is arranged on the rack, the cutter seat 340 slides along the cutter adjusting slide rail 331, the cutter adjusting screw rod 332 is rotatably erected on the rack, the cutter adjusting nut is fixed on the cutter seat 340, and the cutter adjusting nut is in transmission connection with the cutter adjusting screw rod 332. Therefore, when the cutter adjusting screw rod 332 rotates, the cutter adjusting screw rod 332 drives the cutter holder 340 to slide along the cutter adjusting slide rail 331 through the cutter adjusting nut, so as to adjust the transverse position of the cutter holder 340. The cutter width adjusting assembly adopts a screw rod nut mechanism to adjust, and has the advantages of high adjusting precision and convenience in adjustment. The cutter adjustment screw 332 may be driven by a rotary drive or by manual rotation. The rotary drive may be a stepper motor, a servo motor, a pneumatic motor, or the like capable of providing a rotating output shaft.

In order to maintain a proper distance between the bottom cutter wheel 220 and the film cutter 320 to ensure the film cutting quality, further, the shim mechanism 200 further comprises a shim width adjusting assembly for adjusting the position of the shim seat 210 in the transverse direction. The bottom cutter wheel 220 and the cushion cutter face included in the cushion cutter mechanism 200 are both arranged on the cushion cutter seat 210, and when the cushion cutter seat 210 is driven by the cushion cutter width-adjusting assembly to slide along the transverse direction, the position of the bottom cutter wheel 220 is changed along with the cushion cutter width-adjusting assembly, so that a proper distance is kept between the bottom cutter wheel 220 and the film cutter 320.

The width adjusting assembly comprises a cushion cutter adjusting slide rail 251, a cushion cutter adjusting screw rod 252 and a cushion cutter adjusting nut, the cushion cutter adjusting slide rail 251 is arranged on the frame, the cushion cutter seat 210 slides along the cushion cutter adjusting slide rail 251, the cushion cutter adjusting screw rod 252 is rotatably erected on the frame, the cushion cutter adjusting nut is fixed on the cushion cutter seat 210, and the cushion cutter adjusting nut is in transmission connection with the cushion cutter adjusting screw rod 252. Therefore, when the shim adjusting screw rod 252 rotates, the shim adjusting screw rod 252 drives the shim seat 210 to slide along the shim adjusting slide rail 251 through the shim adjusting nut, so as to adjust the transverse position of the shim seat 210. The width adjusting assembly of the cushion cutter adopts a screw rod nut mechanism for adjustment, and has the advantages of high adjusting precision and convenience in adjustment. The driving of the shim adjusting screw 252 can likewise be driven by a rotary drive or by manual rotation. The rotary drive may be a stepper motor, a servo motor, a pneumatic motor, or the like capable of providing a rotating output shaft.

Further, the bottom wheel driving assembly 230 includes a bottom wheel driver 231, the bottom wheel driver 231 is in transmission connection with the backing knife adjusting slide rail 251, and the bottom knife wheel 220 is sleeved outside the backing knife adjusting slide rail 251 and is in transmission connection with the backing knife adjusting slide rail 251. The bottom wheel driver 231 is in transmission connection with the bottom cutter wheel 220 through the bottom cutter adjusting slide rail 251, the bottom cutter adjusting slide rail 251 plays a guiding role as the slide rail of the bottom cutter seat 210 on one hand, and on the other hand, the bottom cutter wheel 220 is driven to rotate by transmitting the power of the bottom wheel driver 231 to the bottom cutter wheel 220 through the transmission shafts 232 of the bottom wheel driver 231 and the bottom cutter wheel 220 on the other hand, so that the design of the bottom cutter mechanism 200 is greatly simplified, especially when the number of the bottom cutter mechanisms 200 is multiple, the bottom wheels included in the multiple bottom cutter mechanisms 200 can be directly sleeved on the bottom cutter adjusting slide rail 251, namely, the functions of transverse sliding and driven rotation can be realized simultaneously. In this embodiment, the shim adjusting slide 251 is a spline shaft. The spline shaft has the advantages of high structural strength and high transmission efficiency. In addition, in this embodiment, the shim knife mechanism 200 further includes a shim knife supporting slide rail 253, the shim knife holder 210 is further connected to the shim knife supporting slide rail 253 in a sliding manner, and the shim knife supporting slide rail 253 further provides a support for the shim knife holder 210, so as to improve the service life of the shim knife adjusting slide rail 251, that is, the transmission shaft 232.

In order to conveniently and simultaneously adjust the transverse positions of the cutter mechanism 300 and the backing cutter mechanism 200, the film edge cutting device further comprises a synchronous adjusting mechanism, and the synchronous adjusting mechanism is used for synchronously adjusting the movement of the backing cutter width adjusting component and the movement of the cutter width adjusting component.

The synchronous adjusting mechanism comprises a first driving wheel 410, a second driving wheel 420 and a synchronous belt 430, the first driving wheel 410 is in transmission connection with the cutter adjusting screw rod 332, the second driving wheel 420 is in transmission connection with the backing cutter adjusting screw rod 252, and the synchronous belt 430 is in transmission connection with the first driving wheel 410 and the second driving wheel 420. Therefore, the cutter adjusting screw rod 332 and the shim adjusting screw rod 252 are in transmission connection through the first transmission wheel 410, the second transmission wheel 420 and the synchronous belt 430, so that one of the cutter adjusting screw rod 332 and the shim adjusting screw rod 252 is rotated to drive the film cutter 320 and the bottom cutter wheel 220 to be transversely adjusted. It can be understood that, when it is required to ensure that the moving speed and the moving direction of the film cutter 320 and the bed knife wheel 220 are consistent, the outer diameters of the first transmission wheel 410 and the second transmission wheel 420 should be the same, and the rotation directions of the cutter adjusting screw rod 332 and the cushion knife adjusting screw rod 252 should be consistent. First drive wheel 410, second drive wheel 420, hold-in range 430 are sprocket, chain respectively in this embodiment, and first drive wheel 410, second drive wheel 420, hold-in range 430 transmit through the form of chain meshing promptly, and the form that adopts the chain meshing carries out the transmission has the advantage of arranging in a flexible way, the installation is convenient, material cost is lower. In other embodiments, the first transmission wheel 410, the second transmission wheel 420, and the timing belt 430 can be driven synchronously by pulleys or the like. The synchronous adjusting mechanism in this embodiment is further provided with a rotating handle, the rotating handle is in transmission connection with the cutter adjusting screw rod 332, the positions of the film cutter 320 and the bottom cutter wheel 220 are adjusted in a mode that the hand wheel is manually driven to drive the cutter adjusting screw rod 332 to rotate, and the width of the film material is adjusted.

Further, the combination of the cushion cutter mechanism 200, the cutter mechanism 300 and the synchronous adjusting mechanism is used as an edge cutting group, the number of the edge cutting groups is at least two, and in each group of edge cutting groups: the backing cutter mechanisms 200 share one bottom wheel driver 231 and one backing cutter adjusting slide rail 251, and the cutter mechanisms 300 share one cutter adjusting slide rail 331. Cushion sword mechanism 200 and cutter mechanism 300 in this embodiment all are provided with two, and the quantity of the side cut group that corresponds is two sets of, sets up two sets of side cut groups and is used for all cutting edge to the both sides of film to make the both sides edge of film comparatively neat. In other embodiments, the number of the edge cutting groups may be three or more, so that the film material is cut into n +1 segments as required, where n refers to the number of the edge cutting groups.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above-described embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are to be included within the scope of the present invention defined by the claims.

Claims (10)

1. The utility model provides a film conveying structure, includes mount (01), its characterized in that still includes a plurality of guide roller subassembly (02), a plurality of tensioning assembly (09), expansion bracket (03) and carriage, the one end of expansion bracket (03) with the carriage is articulated, be equipped with guide track (05) on mount (01), guide track (05) along the carriage highly reduces gradually towards the direction of mount (01), place the other end of expansion bracket (03) on guide track (05) and with guide track (05) sliding connection, the carriage set up in the upper reaches of mount (01), the carriage can be followed and be close to or keep away from the direction motion of mount (01), mount (01) with be equipped with a plurality of guide roller subassembly (02) on expansion bracket (03) respectively, guide roller subassembly (02) are used for leading the transportation of film, tensioning assembly (09) set up on mount (01), tensioning assembly (09) is used for tensioning the film.

2. The film conveying structure according to claim 1, wherein the carriage comprises a plurality of rails (042), rollers (043), a base (044), a lifting mechanism (045) and a lifting frame main body (041), the rollers (043) are arranged, the rollers (043) are connected with the rails (042) in a sliding fit manner, all the rollers (043) are arranged on the base (044), the rollers (043) are used for supporting the base (044), the lifting mechanism (045) is arranged on the base (044), the lifting frame main body (041) is arranged on the lifting mechanism (045), the lifting mechanism (045) is used for adjusting the height of the lifting frame main body (041), and the telescopic frame (03) is hinged to the lifting frame main body (041).

3. The film conveying structure according to claim 1, wherein the tensioning assembly (09) comprises an electric cylinder and a tensioning roller, the electric cylinder is arranged on the fixed frame (01), the movable part of the electric cylinder is connected with the tensioning roller, and the electric cylinder drives the tensioning roller to move up and down.

4. The film conveying structure according to claim 1, wherein the telescopic frame (03) is provided with a pulley (031), and the pulley (031) is connected with the guide rail (05) in a sliding fit manner.

5. A film laminating apparatus, comprising a laminating machine (06), and characterized by further comprising a film conveying structure according to any one of claims 1 to 4, wherein the laminating machine (06) is disposed at a film conveying downstream of the fixing frame (01), an unwinding device is disposed between the laminating machine (06) and the fixing frame (01), the unwinding device is used for unwinding a protective film, and the laminating machine (06) is used for laminating the protective film unwound from the unwinding device onto the film.

6. The film laminating apparatus of claim 5, wherein the unwinding device comprises:

the unwinding frame (071) is arranged between the fixing frame (01) and the pressing machine (06);

the upper unreeling wheel (072) is arranged on the unreeling rack (071), and the upper unreeling wheel (072) and the unreeling rack (071) can rotate relatively;

the film unwinding device comprises a unwinding wheel (073), wherein the unwinding wheel (073) is arranged on an unwinding frame (071), the unwinding wheel (073) and the unwinding frame (071) can rotate relatively, and a space between the upper unwinding wheel and the unwinding wheel (073) is used for a film to pass through.

7. The film laminating apparatus according to claim 5, wherein the laminating apparatus further comprises a thickness measuring machine (08), said thickness measuring machine (08) is disposed on said fixed frame (01), said thickness measuring machine (08) is configured to measure the thickness of the film, said thickness measuring machine (08) is disposed upstream of said unwinding device, and said tensioning assembly (09) is disposed upstream and downstream of said thickness measuring machine (08).

8. A film laminating arrangement according to claim 5, further comprising a slitting machine arranged between the unwinding device and the holder (01), the slitting machine being adapted to slit the edges of the film.

9. A film laminating arrangement according to claim 8, wherein the slitting machine comprises: the cutting frame (1), the cutting frame (1) is arranged between the unreeling device and the fixing frame (01);

the cushion cutter mechanism (200), the cushion cutter mechanism (200) comprises a cushion cutter seat (210), a bottom cutter wheel (220) and a bottom wheel driving component (230), the cushion cutter seat (210) is arranged on the slitting frame (1), the cushion cutter seat (210) comprises a cushion cutter face, the bottom cutter wheel (220) is rotatably connected to the cushion cutter seat (210), one end of the bottom cutter wheel (220) protrudes out of the cushion cutter face, and the bottom wheel driving component (230) drives the bottom cutter wheel (220) to rotate;

cutter mechanism (300), cutter mechanism (300) include cutter driver (310) and membrane cutter (320), cutter driver (310) are established divide on the cutting frame (1), cutter driver (310) with membrane cutter (320) drive connection drives membrane cutter (320) are close to or keep away from fill up the knife face.

10. A film laminating apparatus according to claim 9, wherein said cutter mechanism (300) further comprises a cutter width adjusting means and a cutter seat (340), said cutter driver (310) and said film cutter (320) are provided on said cutter seat (340), said cutter width adjusting means is adapted to adjust the position of said cutter seat (340) in the transverse direction.

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