CN113443503B - Finished film conveying system - Google Patents

Abstract

The invention belongs to the technical field of film conveying equipment, and particularly relates to a finished film conveying system, which comprises: the device comprises a sucker, a longitudinal moving device, a transverse moving device and a hanging bracket; wherein the longitudinal moving device is suitable for driving the sucker to move longitudinally; the transverse moving device is suitable for driving the longitudinal moving device to transversely move so as to drive the sucker to transversely move, namely the sucker is moved to the coiling device to adsorb a finished film separated from the double-layer composite film under the linkage action of the longitudinal moving device and the transverse moving device; the sucking discs are driven by the longitudinal moving device and the transverse moving device to move above the tray so as to place the finished film into the corresponding placing grooves on the tray; according to the invention, the functions of adsorbing the finished film at the coiling device and bringing the adsorbed finished film to the tray for discharging are completed through the linkage action of the suction disc on the longitudinal moving device and the transverse moving device, so that the finished film can be collected, and the device has the advantages of simple structure and high collection efficiency.

Description

Finished film conveying system

Technical Field

The invention belongs to the technical field of film conveying equipment, and particularly relates to a finished film conveying system.

Background

Traditional film conveying equipment adopts manual separation double-layer composite membrane or different tools to cut and separate, and not only the step is loaded down with trivial details to required instrument is complicated.

Meanwhile, finished films separated from the double-layer composite film need to be collected, and matched equipment is lacked in the market at present to specially collect the finished films.

Therefore, it is desirable to develop a new finished film delivery system to solve the above problems.

Disclosure of Invention

The invention aims to provide a finished film conveying system.

In order to solve the above technical problem, the present invention provides a finished film conveying system, including: the sucking disc, the longitudinal moving device, the transverse moving device and the hanging bracket are positioned above the rolling device; the sucker is movably arranged on the longitudinal moving device, the longitudinal moving device is movably arranged on the transverse moving device, and the transverse moving device is fixed at the upper end of the hanging bracket; the longitudinal moving device is suitable for driving the sucker to move longitudinally; the transverse moving device is suitable for driving the longitudinal moving device to transversely move so as to drive the sucker to transversely move, namely the sucker is moved to the coiling device to adsorb a finished film separated from the double-layer composite film under the linkage action of the longitudinal moving device and the transverse moving device; and the suckers are driven by the longitudinal moving device and the transverse moving device to move to the upper part of the tray so as to place the finished film into the corresponding placing grooves on the tray.

Furthermore, the sucker is connected with the air pipe through a pneumatic connector.

Further, the sucker is connected with the longitudinal moving device through a transverse plate; the longitudinal moving device is suitable for driving the transverse plate to move longitudinally, so that the sucker is driven to move longitudinally.

Further, a screw hole is formed in the transverse plate, and a limiting column is arranged at the bottom of the transverse plate; the limiting column is movably arranged in the screw hole through a corresponding stud, namely, the distance between the end part of the limiting column and the bottom of the transverse plate is adjusted through the stud.

Further, the longitudinal movement device includes: the longitudinal rail, the longitudinal sliding block and the longitudinal moving piece; the longitudinal rail and the longitudinal moving piece are positioned on the transverse moving device, the longitudinal sliding block is movably arranged on the longitudinal rail, and the bottom of the longitudinal sliding block is connected with the transverse plate; the output part of the longitudinal moving piece is connected with the longitudinal sliding block; the longitudinal moving piece is suitable for driving the longitudinal sliding block to longitudinally move along the longitudinal rail so as to drive the transverse plate and the suckers on the transverse plate to longitudinally move.

Further, the longitudinal moving member is adapted to adopt one of a cylinder and a push rod.

Further, the lateral movement device includes: the transverse rail, the transverse sliding block and the transverse moving piece; the transverse rail and the transverse moving member are positioned on the hanging bracket, the transverse sliding block is movably arranged on the transverse rail, and the longitudinal rail is positioned on the transverse sliding block; the output part of the transverse moving part is connected with the transverse sliding block; the transverse moving member is suitable for driving the transverse sliding block to transversely move along the transverse rail, so that the longitudinal rail, the longitudinal sliding block on the longitudinal rail, the transverse plate on the longitudinal sliding block and the sucking disc on the transverse plate are driven to transversely move.

Further, the transverse moving member is suitable for adopting one of an air cylinder and a push rod.

Further, the finished film delivery system further comprises: the device comprises a discharging device, a rolling device and a film separating device; the discharging device is suitable for discharging the double-layer composite film to a rolling device so as to attach the double-layer composite film to the rolling device; the film separation device is suitable for cutting single double-layer composite films from the double-layer composite films one by one and separating the single double-layer composite films into an upper layer film and a lower layer film on the material rolling device; the sucker is moved to a material rolling device to adsorb an upper layer film separated from the single double-layer composite film under the linkage action of the longitudinal moving device and the transverse moving device; the sucker is driven by the longitudinal moving device and the transverse moving device to move above the tray so as to place the upper layer film into the corresponding placing groove on the tray; and the film separating device is suitable for tearing the lower film from the material rolling device so as to be taken away to the film recycling system.

Further, the coil stock device includes: the charging tray and a charging tray driving mechanism for driving the charging tray to rotate; a plurality of film sticking clamps are uniformly and annularly distributed on the material tray, and a film cutting groove is formed between every two adjacent film sticking clamps; glue is coated on each film pasting clamp, and the material tray driving mechanism is suitable for driving a material tray to rotate so as to fix the double-layer composite film on the corresponding film pasting clamp; the film separating device is suitable for transversely penetrating through the film cutting groove so as to cut off the single double-layer composite film.

The invention has the beneficial effects that the functions of adsorbing the finished film at the coiling device and bringing the adsorbed finished film to the tray for discharging are completed through the linkage action of the longitudinal moving device and the transverse moving device by the sucker, the finished film can be collected, and the invention has simple structure and high collection efficiency.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a block diagram of the finished film delivery system of the present invention;

FIG. 2 is a block diagram of the present invention with a longitudinal mover mounted in cooperation with a lateral mover;

FIG. 3 is an exploded view of the longitudinal movement means of the present invention in cooperation with the lateral movement means;

FIG. 4 is a self-contained view of the finished film delivery system of the present invention;

FIG. 5 is a block diagram of the coil apparatus of the present invention;

FIG. 6 is a block diagram of a tray of the present invention;

FIG. 7 is an exploded view of the finished film delivery system of the present invention;

FIG. 8 is a block diagram of a cutting board of the present invention;

FIG. 9 is a plan view showing a state where a lower press block presses a long side of a film clip according to the present invention;

FIG. 10 is an isometric view of the lower press block of the present invention pressed into the first separation groove;

FIG. 11 is a plan view of the lower press block of the present invention pressed into the first separation groove;

FIG. 12 is an isometric view of the lower ram barb of the present invention extending into the second separator groove;

FIG. 13 is a top view of the lower press block barb of the present invention extending into the second separator groove.

In the figure:

the device comprises a discharging device 1, a disc 100 and a discharging driving mechanism 110;

the film laminating machine comprises a material coiling device 2, a material tray 200, a film pasting clamp 201, a first separating groove 2011, a second separating groove 2012, a film cutting groove 202 and a material tray driving mechanism 210;

the film separating device 3, the longitudinal driving device 300, the transverse driving device 310, the cutting plate 320, the cutting edge 321, the lower pressing block 330, the barb 331, the mounting plate 340, the clamping block 350, the moving groove 351, the moving block 360 and the clamping groove 361;

the film sucking device 4, the sucking disc 400, the pneumatic connector 401, the air pipe 402, the transverse plate 403, the limiting column 404, the stud 405, the longitudinal moving device 410, the longitudinal rail 411, the longitudinal sliding block 412, the longitudinal moving member 413, the transverse moving device 420, the transverse rail 421, the transverse sliding block 422 and the transverse moving member 423;

a double-layer composite film 5;

a hanger 6;

tray 7, placing slot 700.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

FIG. 1 is a block diagram of the finished film delivery system of the present invention; FIG. 2 is a block diagram of the present invention with a longitudinal mover mounted in cooperation with a lateral mover; fig. 3 is an exploded view of the longitudinal moving means of the present invention installed in cooperation with the lateral moving means.

In the present embodiment, as shown in fig. 1, 2, and 3, the present embodiment provides a finished film conveying system including: the suction cup 400, the longitudinal moving device 410, the transverse moving device 420 and the hanger 6 are positioned above the coil stock device; wherein the suction cup 400 is movably mounted on a longitudinal moving device 410, the longitudinal moving device 410 is movably mounted on a transverse moving device 420, and the transverse moving device 420 is fixed at the upper end of the hanger 6; the longitudinal moving device 410 is adapted to drive the suction cup 400 to move longitudinally; the transverse moving device 420 is adapted to drive the longitudinal moving device 410 to move transversely so as to drive the suction cup 400 to move transversely, that is, the suction cup 400 moves to the material rolling device to adsorb the finished film separated from the double-layer composite film under the linkage action of the longitudinal moving device 410 and the transverse moving device 420; and the suction cup 400 is driven by the longitudinal moving device 410 and the transverse moving device 420 to move above the tray 7, so as to place the finished film into the corresponding placing groove 700 on the tray 7.

In this embodiment, the function of adsorbing the finished film at the material rolling device and bringing the adsorbed finished film to the tray 7 for discharging is completed by the sucker 400 under the linkage action of the longitudinal moving device 410 and the transverse moving device 420, so that the finished film can be collected, and the structure is simple and the collection efficiency is high.

In this embodiment, as shown in FIG. 3, the suction cup 400 is connected to the air tube 402 by a pneumatic connector 401.

Pneumatic joint 401

The pneumatic connector 401 has the functions of quick insertion and replacement.

In this embodiment, as shown in fig. 3, the suction cup 400 is connected to the longitudinal moving device 410 through a horizontal plate 403; the longitudinal moving device 410 is adapted to drive the transverse plate 403 to move longitudinally, so as to drive the suction cup 400 to move longitudinally.

Transverse plate 403

The cross plate 403 functions to hold the suction cup 400 with its tip facing downward.

In this embodiment, as shown in fig. 3, a screw hole is formed on the transverse plate 403, and a limiting column 404 is disposed at the bottom of the transverse plate 403; the limiting column 404 is movably mounted in the screw hole through a corresponding stud 405, that is, the distance between the end of the limiting column 404 and the bottom of the transverse plate 403 is adjusted through the stud 405.

In this embodiment, the distance between the end of the stud 405 and the bottom of the horizontal plate 403 is adjusted by the limiting column 404, so that the suction cup 400 can be ensured to be just in contact with the bottom of the placing groove 700 on the tray 7, and the damage to the suction cup 400 caused by the excessive displacement of the longitudinal moving device 410 and the lateral moving device 420 is prevented.

In this embodiment, as shown in fig. 3, the longitudinal moving device 410 includes: a longitudinal rail 411, a longitudinal slider 412 and a longitudinal moving member 413; the longitudinal rail 411 and the longitudinal moving member 413 are positioned on the transverse moving device 420, the longitudinal slider 412 is movably mounted on the longitudinal rail 411, and the bottom of the longitudinal slider 412 is connected with the transverse plate 403; the output part of the longitudinal moving part 413 is connected with the longitudinal sliding block 412; the longitudinal moving member 413 is adapted to drive the longitudinal sliding block 412 to move longitudinally along the longitudinal rail 411, so as to drive the transverse plate 403 and the suction cup 400 on the transverse plate 403 to move longitudinally.

In this embodiment, the longitudinal moving member 413 is adapted to be one of a cylinder and a push rod.

Longitudinal movement device 410

The longitudinal moving device 410 mainly has a function of driving the suction cup 400 to move longitudinally, and drives the longitudinal sliding block 412 to move on the longitudinal rail 411 through the longitudinal moving member 413, so as to drive the transverse plate 403 and the suction cup 400 on the transverse plate 403 to move longitudinally, thereby realizing longitudinal displacement of the suction cup 400.

In this embodiment, as shown in fig. 3, the lateral moving device 420 includes: a lateral rail 421, a lateral slider 422, and a lateral moving member 423; the transverse rail 421 and the transverse moving member 423 are positioned on the hanger 6, the transverse slider 422 is movably mounted on the transverse rail 421, and the longitudinal rail 411 is positioned on the transverse slider 422; the output part of the transverse moving member 423 is connected with a transverse sliding block 422; the transverse moving member 423 is adapted to drive the transverse slider 422 to move transversely along the transverse rail 421, so as to drive the longitudinal rail 411, the longitudinal slider 412 on the longitudinal rail 411, the transverse plate 403 on the longitudinal slider 412, and the suction cup 400 on the transverse plate 403 to move transversely.

Lateral movement device 420

The lateral moving device 420 mainly has a function of driving the suction cup 400 to move laterally, and drives the lateral slider 422 to move on the lateral rail 421 through the lateral moving member 423, so as to drive the longitudinal slider 412 on the longitudinal rail 411, the transverse plate 403 on the longitudinal slider 412, and the suction cup 400 on the transverse plate 403 to move laterally, thereby achieving the lateral displacement of the suction cup 400.

In this embodiment, the lateral moving member 423 is adapted to adopt one of a cylinder and a push rod.

Fig. 4 is a self-contained view of the finished film delivery system of the present invention.

In this embodiment, as shown in fig. 4, the finished film conveying system further includes: the device comprises a discharging device 1, a coiling device 2 and a film separating device 3; the discharging device 1 is suitable for discharging the double-layer composite film 5 onto the rolling device 2 so as to attach the double-layer composite film 5 onto the rolling device 2; the thin film separation device 3 is adapted to cut out single double-layer composite films 5 one by one from the double-layer composite films 5 and separate the single double-layer composite films 5 into an upper layer film and a lower layer film on the material rolling device 2; the sucker 400 moves to the material rolling device 2 to absorb the upper layer film separated from the single double-layer composite film 5 under the linkage action of the longitudinal moving device 410 and the transverse moving device 420; the suction cup 400 is driven by the longitudinal moving device 410 and the transverse moving device 420 to move above the tray 7, so as to place the upper layer film into the corresponding placing groove 700 on the tray 7; and the film separating device 3 is suitable for tearing the lower film from the material rolling device 2 so as to be taken away to the film recycling system.

In this embodiment, the automatic emptying of this embodiment through emptying device 1, after double-deck complex film 5 is glued by coiling material device 2, cut down monolithic double-deck complex film 5 one by one and separate into upper strata membrane and lower floor's membrane from double-deck complex film 5 through film separator 3, realize that upper strata membrane, lower floor's membrane are automatic to be carried to follow-up equipment and continue processing, improved the efficiency to double-deck complex film 5 separation, easy operation.

Fig. 5 is a structural view of the winding device of the present invention.

In the present embodiment, as shown in fig. 5, the winding device 2 includes: a tray 200 and a tray driving mechanism 210 for driving the tray 200 to rotate; a plurality of film sticking clamps 201 are uniformly and annularly distributed on the material tray 200, and a film cutting groove 202 is formed between every two adjacent film sticking clamps 201; glue is coated on each film pasting clamp 201, and the material tray driving mechanism 210 is suitable for driving the material tray 200 to rotate so as to fix the double-layer composite film 5 on the corresponding film pasting clamp 201; the thin film separation device 3 is adapted to traverse through the film cutting tank 202 to cut a single double-layered composite film 5.

Fig. 6 is a block diagram of the tray of the present invention.

In the present embodiment, as shown in fig. 6, the top of the film clip 201 is H-shaped to form a first separating groove 2011 and a second separating groove 2012; the thin film separation device 3 is adapted to press a half side of the monolithic double-layer composite film 5 into the first separation groove 2011, so that the corresponding side of the lower film of the monolithic double-layer composite film 5 is adhered to the bottom of the first separation groove 2011, so as to separate the upper film from the lower film of the monolithic double-layer composite film 5, namely, the thin film separation device 3 is adapted to be inserted into a separation position of the upper film and the lower film and lift the upper film to be separated from the lower film, and the membrane suction device 4 is adapted to adsorb the upper film from the thin film separation device 3; and the film separating device 3 is suitable for being lifted up after extending into the second separating groove 2012 so as to resist the bottom of the lower film to be torn off from the film sticking clamp 201 and take the lower film away to the film recycling system.

In this embodiment, each film attaching clip 201 is an elastic member, and each film cutting groove 202 is arranged with a narrow top and a wide bottom; the film separating device 3 is suitable for transversely cutting the double-layer composite film 5 through the film cutting groove 202, namely, two adjacent film sticking clamps 201 are stressed to deform, so that a single double-layer composite film 5 falls off from the whole double-layer film.

Coiling device 2

The coil stock device 2 mainly plays the effect of gluing double-deck complex film 5, presss from both sides 201 through the pad pasting of even ring cloth on charging tray 200, and every pad pasting presss from both sides 201 and corresponds a double-deck complex film 5, cuts down single double-deck complex film 5 through the film cutting groove 202 between two adjacent pad pasting presss from both sides 201 to through first separating groove 2011 and second separating groove 2012 realize that upper strata membrane and lower floor's membrane separation, lower floor's membrane and pad pasting press from both sides 201 separation. Because the film sticking clamps 201 have elasticity, when the film separating device 3 transversely passes through the film cutting groove 202, the film sticking clamps 201 on the two sides are stressed and extruded, so that the single double-layer composite film 5 to be separated from the whole double-layer composite film 5 can be conveniently and quickly fallen off.

Fig. 7 is an exploded view of the finished film delivery system of the present invention.

In the present embodiment, as shown in fig. 7, the membrane separation device 3 includes: a longitudinal drive 300, a transverse drive 310, a clamping mechanism, a cutting plate 320, and a lower ram 330; the longitudinal driving member 300 is mounted on the frame, the output part of the longitudinal driving member 300 is connected to a mounting plate 340, and the transverse driving member 310 and the clamping mechanism are located on the mounting plate 340 to drive the transverse driving member 310 and the clamping mechanism to move longitudinally; the output part of the transverse driving member 310 is connected with the clamping mechanism to drive the clamping mechanism to transversely move on the mounting plate 340; the cutting plate 320 is fixed on the clamping mechanism, and the lower pressing block 330 is fixed on the cutting plate 320; the longitudinal driving member 300 is adapted to drive the mounting plate 340 to lift or lower, so as to drive the cutting plate 320 and the lower pressing block 330 to lift or lower; the transverse driving member 310 is adapted to drive the clamping mechanism to advance or retreat so as to drive the cutting plate 320 and the lower pressing block 330 to advance or retreat; the lower pressing block 330 is suitable for sequentially pressing the two long sides of the film sticking clamp 201 under the linkage action of the longitudinal driving piece 300 and the transverse driving piece 310 so as to enable the double-layer composite film 5 to be stuck on the film sticking clamp 201; the cutting plate 320 is suitable for cutting the double-layer composite film 5 transversely through the film cutting groove 202 under the action of the longitudinal driving piece 300 and the transverse driving piece 310 in a linkage manner so as to cut off a single piece of double-layer composite film 5; the lower pressing block 330 is adapted to press the half side of the single double-layer composite film 5 into the first separation groove 2011 under the linkage action of the longitudinal driving member 300 and the transverse driving member 310, so that the corresponding side of the lower film of the single double-layer composite film 5 is adhered to the bottom of the first separation groove 2011, so as to separate the upper film from the lower film of the single double-layer composite film 5, namely, the lower pressing block 330 is inserted into the separation position of the upper film and the lower film under the linkage action of the longitudinal driving member 300 and the transverse driving member 310, and the upper film is lifted upwards to be separated from the lower film.

Fig. 8 is a block diagram of the cutting board of the present invention.

In this embodiment, as shown in fig. 8, a barb 331 is disposed at an end of the lower pressing block 330 away from the cutting board 320, that is, the lower pressing block 330 extends the barb 331 into the second separating groove 2012 and then lifts up under the linkage action of the longitudinal driving element 300 and the transverse driving element 310, so as to push against the bottom of the lower film to tear off the film sticking clamp 201, and take the lower film away to the film recycling system.

FIG. 9 is a plan view showing a state where a lower press block presses a long side of a film clip according to the present invention; FIG. 10 is an isometric view of the lower press block of the present invention pressed into the first separation groove; FIG. 11 is a plan view of the lower press block of the present invention pressed into the first separation groove; FIG. 12 is an isometric view of the lower ram barb of the present invention extending into the second separator groove; FIG. 13 is a top view of the lower press block barb of the present invention extending into the second separator groove.

Membrane separation device 3

The film separating device 3 has the function of separating the upper film and the lower film of the single double-layer composite film 5 and separating the lower film and the film pasting clamp 201, as shown in fig. 9, firstly, after the double-layer composite film 5 is pasted on the film pasting clamp 201, the lower pressing block 330 is driven by the longitudinal driving piece 300, the transverse driving piece 310, the clamping mechanism and the cutting plate 320 from the initial position to move to the upper side of the double-layer composite film 5, the longitudinal driving piece 300 drives the double-layer composite film 5 on the first long side of the corresponding film pasting clamp 201 to be pressed downwards and lifted, after the material tray 200 rotates for a half station, the longitudinal driving piece 300 drives the double-layer composite film 5 on the first long side of the other film pasting clamp 201 to be pressed downwards again and lifted, the single double-layer composite film 5 to be separated from the whole double-layer composite film 5 can be pasted on the corresponding film pasting clamp 201, the separation of the single double-layer composite membrane 5 cannot be influenced when the single double-layer composite membrane 5 is separated from the whole double-layer composite membrane 5. As shown in fig. 10 and 11, after the cutting plate 320 is lifted to a horizontal line with the corresponding film cutting groove 202 by the longitudinal driving member 300, the double-layer composite film 5 is cut by driving the cutting plate to pass through the film cutting groove 202 in a downward and transverse direction by the transverse driving member 310, so as to cut the single double-layer composite film 5. When the single double-layer composite film 5 is cut, the lower pressing block 330 is driven by the longitudinal driving member 300, the transverse driving member 310, the clamping mechanism and the cutting plate 320 to move to the position above the first separating groove 2011 corresponding to the single double-layer composite film 5, the lower pressing block 330 is driven by the longitudinal driving member 300 to press the half side of the single double-layer composite film 5 into the first separating groove 2011, so that the corresponding side of the lower layer film of the single double-layer composite film 5 is adhered to the bottom of the first separating groove 2011, separation of the upper layer film from the lower layer film can be realized, then the lower pressing block 330 is inserted into the separation position of the upper layer film and the lower layer film under the linkage action of the longitudinal driving member 300 and the transverse driving member 310, and the upper layer film and the lower layer film are driven to be separated by lifting the lower pressing block 330. As shown in fig. 12 and 13, since the end of the lower pressing block 330 away from the cutting board 320 is provided with the barb 331, the lower pressing block 330 is driven by the longitudinal driving element 300, the transverse driving element 310, the clamping mechanism and the cutting board 320 to move to be level with the second separation groove 2012, the transverse driving element 310 drives the barb 331 of the lower pressing block 330 to extend into the second separation groove 2012, so that the barb 331 catches on the lower film, and the lower film is torn off from the film clamp 201 by the lower pressing block 330 being lifted up under the action of the longitudinal driving element 300.

Longitudinal driving element 300 and transverse driving element 310

The longitudinal driving member 300 and the transverse driving member 310 mainly perform a driving function, the longitudinal driving member 300 may be an air cylinder or a push rod, and the transverse driving member 310 may be an air cylinder or a push rod.

In this embodiment, the clamping mechanism includes: a clamping block 350 and a moving block 360; the clamping block 350 is provided with a moving groove 351, the moving block 360 is located in the moving groove 351, one end of the moving block 360 is connected with the output part of the transverse driving member 310, and the other end of the moving block 360 is provided with a clamping groove 361 for clamping the cutting board 320; the transverse driving member 310 is adapted to drive the moving block 360 to move transversely in the clamping block 350, so as to drive the cutting board 320 and the lower pressing block 330 to move.

Clamping mechanism

The clamping mechanism mainly plays a role in clamping and moving the cutting plate 320, and the cutting plate 320 is fixed through the clamping groove 361, so that the transverse moving function of the cutting plate 320 is realized.

In this embodiment, the cutting edge 321 is obliquely formed at one end of the cutting board 320 far from the clamping groove 361, and the cutting edge 321 is arranged from the end to the other end of the cutting board 320 with a narrow front part and a wide back part, that is, the cutting board 320 transversely penetrates through the film cutting groove 202 through the cutting edge 321 and cuts the double-layer composite film 5, and the two adjacent film sticking clamps 201 are stressed and deformed in the forward movement process of the cutting board 320.

In this embodiment, the discharging device 1 includes: a disc 100 and a discharge driving mechanism 110; the discharging driving mechanism 110 is adapted to drive the disc 100 to rotate, so that the double-layer composite film 5 on the disc 100 is conveyed to the material rolling device 2.

Discharge device 1

The discharging device 1 mainly plays a role in conveying the double-layer composite film 5 to the material rolling device 2, and the discharging driving mechanism 110 can adopt gears and rotating motors.

Example 2

On the basis of embodiment 1, the present embodiment provides a conveying method suitable for employing the finished film conveying system as provided in embodiment 1, which includes: discharging the double-layer composite film 5 to the material rolling device 2 through the discharging device so as to attach the double-layer composite film 5 to the material rolling device 2; cutting off single double-layer composite films 5 from the double-layer composite films 5 one by one through a film separation device 3, and separating the single double-layer composite films 5 into an upper layer film and a lower layer film on a material rolling device 2; adsorbing the upper layer film to a film sticking system through a film adsorbing device 4; the lower layer film is torn off from the stock unit 2 by the film separating unit 3 to be carried to the film recovering system.

In conclusion, the invention completes the functions of adsorbing the finished film at the coiling device and bringing the adsorbed finished film to the tray for discharging through the sucker under the linkage action of the longitudinal moving device and the transverse moving device, can realize the collection of the finished film, and has simple structure and high collection efficiency.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. A finished film delivery system, comprising:

the sucking disc, the longitudinal moving device, the transverse moving device and the hanging bracket are positioned above the rolling device; wherein

The sucker is movably arranged on the longitudinal moving device, the longitudinal moving device is movably arranged on the transverse moving device, and the transverse moving device is fixed at the upper end of the hanging bracket;

the longitudinal moving device is suitable for driving the sucker to move longitudinally;

the transverse moving device is suitable for driving the longitudinal moving device to transversely move so as to drive the sucker to transversely move, namely

The sucker is moved to a material rolling device to adsorb a finished film separated from the double-layer composite film under the linkage action of the longitudinal moving device and the transverse moving device; and

the sucking discs are driven by the longitudinal moving device and the transverse moving device to move above the tray so as to place the finished film into the corresponding placing grooves on the tray;

the finished film delivery system further comprises: the device comprises a discharging device, a rolling device and a film separating device; wherein

The discharging device is suitable for discharging the double-layer composite film to a rolling device so as to attach the double-layer composite film to the rolling device;

the film separation device is suitable for cutting single double-layer composite films from the double-layer composite films one by one and separating the single double-layer composite films into an upper layer film and a lower layer film on the material rolling device;

the sucker is moved to a material rolling device to adsorb an upper layer film separated from the single double-layer composite film under the linkage action of the longitudinal moving device and the transverse moving device;

the sucker is driven by the longitudinal moving device and the transverse moving device to move above the tray so as to place the upper layer film into the corresponding placing groove on the tray; and

the film separating device is suitable for tearing the lower film from the material rolling device so as to be taken away to the film recycling system;

the coiling material device includes: the charging tray and a charging tray driving mechanism for driving the charging tray to rotate;

a plurality of film sticking clamps are uniformly and annularly distributed on the material tray, and a film cutting groove is formed between every two adjacent film sticking clamps;

glue is coated on each film pasting clamp, and the material tray driving mechanism is suitable for driving a material tray to rotate so as to fix the double-layer composite film on the corresponding film pasting clamp;

the film separating device is suitable for transversely penetrating through the film cutting groove so as to cut off the single double-layer composite film.

2. The finished film delivery system of claim 1,

the sucking disc is connected with the air pipe through a pneumatic connector.

3. The finished film delivery system of claim 1,

the sucker is connected with the longitudinal moving device through a transverse plate;

the longitudinal moving device is suitable for driving the transverse plate to move longitudinally, so that the sucker is driven to move longitudinally.

4. The finished film delivery system of claim 3,

the transverse plate is provided with a screw hole, and the bottom of the transverse plate is provided with a limiting column;

the limit column is movably arranged in the screw hole through a corresponding stud, namely

And the distance between the end part of the limiting column and the bottom of the transverse plate is adjusted through the stud.

5. The finished film delivery system of claim 3,

the longitudinal moving device includes: the longitudinal rail, the longitudinal sliding block and the longitudinal moving piece;

the longitudinal rail and the longitudinal moving piece are positioned on the transverse moving device, the longitudinal sliding block is movably arranged on the longitudinal rail, and the bottom of the longitudinal sliding block is connected with the transverse plate;

the output part of the longitudinal moving piece is connected with the longitudinal sliding block;

the longitudinal moving piece is suitable for driving the longitudinal sliding block to longitudinally move along the longitudinal rail so as to drive the transverse plate and the suckers on the transverse plate to longitudinally move.

6. The finished film delivery system of claim 5,

the longitudinal moving member is adapted to employ a cylinder.

7. The finished film delivery system of claim 5,

the lateral movement device includes: the transverse rail, the transverse sliding block and the transverse moving piece;

the transverse rail and the transverse moving member are positioned on the hanging bracket, the transverse sliding block is movably arranged on the transverse rail, and the longitudinal rail is positioned on the transverse sliding block;

the output part of the transverse moving part is connected with the transverse sliding block;

the transverse moving member is suitable for driving the transverse sliding block to transversely move along the transverse rail, so that the longitudinal rail, the longitudinal sliding block on the longitudinal rail, the transverse plate on the longitudinal sliding block and the sucking disc on the transverse plate are driven to transversely move.

8. The finished film delivery system of claim 7,

the lateral moving member is adapted to employ a cylinder.

Images