CN213767638U - Tectorial membrane cutting device - Google Patents

Abstract

The utility model discloses a tectorial membrane cutting device belongs to paper processing technology field, including first workstation, second workstation, first conveying mechanism, tectorial membrane mechanism, second conveying mechanism and cutting mechanism, first workstation and second workstation are adjacent, are provided with first conveying mechanism and tectorial membrane mechanism on the first workstation, are provided with second conveying mechanism and cutting mechanism on the second workstation, first conveying mechanism includes the first conveyer belt, the first conveyer belt sets up on the first workstation, and tectorial membrane mechanism includes hot pressing roller and live-rollers, hot pressing roller and live-rollers set up respectively on the first workstation; the second conveying mechanism comprises a second conveying belt, and the second conveying belt is arranged on the second workbench. The efficient film laminating of the paper can be realized, the quality of the paper obtained by film laminating is good, the paper can be cut after the film laminating of the paper, and the paper does not need to be transported.

Description

Tectorial membrane cutting device

Technical Field

The utility model belongs to the technical field of paper article processing, more specifically say, relate to a tectorial membrane cutting device.

Background

The laminating machine is used for pressing the plastic film and printed matters such as paper together so as to improve the glossiness and fastness of the printed matters and play a role in protecting water, pollution and chemical corrosion resistance. The existing laminating machine mainly comprises a film feeding device, a conveying belt, a hot pressing device and the like, wherein a plastic film is introduced to a feed inlet of the conveying belt through the film feeding device and is laminated with a plate on the conveying belt together through a rubber roller and a heating roller in the hot pressing device, so that a laminated plate long belt connected together is formed, and then manual cutting is carried out to tear the laminated plate long belt into a single laminated plate.

The Chinese patent application numbers are: 201710220109.X, published as: 2017-07-07, which comprises a processing table, wherein the processing table is provided with a motor and a support frame, the support frame is rotatably connected with an axial tube, the axial tube is positioned between the support frame and the processing table, a belt is connected between the axial tube and the motor, the axial tube is fixedly connected with an upper gear and an upper pressing cylinder, the upper pressing cylinder is provided with a through hole, the outer side of the axial tube is provided with a fan, a rotating part is arranged in the fan, one end of the axial tube extends into the fan and is fixedly connected with the rotating part, the part of the axial tube positioned in the fan is provided with an air inlet, the part of the axial tube positioned in the upper pressing cylinder is communicated with a conductive sleeve, the conductive sleeve is opposite to the through hole, the conductive sleeve is internally and slidably connected with a sliding rod, one end of the sliding rod, far away from the axial tube, the processing table is rotatably connected with a lower pressing cylinder, and the lower gear is fixedly connected on the lower pressing cylinder, the lower gear is meshed with the upper gear. Through the device's setting, can reduce the tectorial membrane in-process and produce the bubble, improve the tectorial membrane quality.

The Chinese patent application numbers are: 201910337673.9, publication date is: 2019-09-06, which comprises a base, wherein a vertical beam is arranged at the top end of the base, a beam is arranged at the top end of the vertical beam, and the upper surface and the lower surface of a paperboard can be simultaneously coated with films through a vertically symmetrical double film coating roller structure, so that the film coating time of the paperboard is saved, the films and the paperboard are rolled more tightly through the design of an elastic connecting piece, the movement track of the paperboard can be limited through limiting mechanisms arranged at two sides of a film coating mechanism, the problem that the films and the paperboard are not aligned when the films are coated is avoided, the spacing distance of the limiting mechanisms is adjustable, the paper sheets with different widths can be limited and centered, dust on the exposed surface of the paper sheets can be cleaned before the films are coated through a roller brush cleaning mechanism, the adhesion effect of the films and the paper sheets is improved, and the film paper after the films are heated through a hot air drying mechanism, so that the adhesion effect is better.

The Chinese patent application numbers are: 201811285351.6, publication date is: 2019-03-01, which relates to a paperboard laminating device for paperboard processing, and comprises a cabinet, a feeding mechanism arranged at the top of the cabinet, a laminating mechanism arranged at the top of the cabinet and a clamping mechanism matched with the feeding mechanism. The beneficial effects are that: through setting up fixture to can utilize first centre gripping subassembly and the both sides limit of second centre gripping subassembly fixed cardboard on the fixture, guarantee that the cardboard can keep steady along with the track is together removing, make on the cardboard can keep initial state reacing fortune flitch, make the position that the cardboard needs the pad pasting can just to the protection film, the effectual accuracy that improves the pad pasting. Through set up first tectorial membrane subassembly and second tectorial membrane subassembly on the tectorial membrane mechanism respectively to can utilize the pneumatic chuck on the first tectorial membrane subassembly to transport the protection film to the second mount by first mount on, then utilize the pneumatic chuck on the second tectorial membrane subassembly to adsorb the protection film on the second mount then attached to the cardboard.

Disclosure of Invention

1. Problems to be solved

To the problem that current tectorial membrane device is difficult to carry out continuous tectorial membrane and cuts, the utility model provides a tectorial membrane cutting device can realize the high-efficient tectorial membrane of paper, and the quality of tectorial membrane gained paper is good, just can cut after the paper tectorial membrane, need not the transport.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

The utility model discloses a tectorial membrane cutting device, including first workstation, second workstation, first conveying mechanism, tectorial membrane mechanism, second conveying mechanism and cutting mechanism, first workstation and second workstation are adjacent, are provided with first conveying mechanism and tectorial membrane mechanism on the first workstation, are provided with second conveying mechanism and cutting mechanism on the second workstation, first conveying mechanism includes the first conveyer belt, the first conveyer belt sets up on the first workstation, and tectorial membrane mechanism includes hot pressing roller and live-rollers, hot pressing roller and live-rollers set up respectively on the first workstation; the second conveying mechanism comprises a second conveying belt, the second conveying belt is arranged on a second workbench, the second conveying mechanism further comprises a guide roller and a guide frame, the guide frame is arranged on one side, close to the first workbench, of the second workbench, the guide roller is arranged on the upper side of the guide frame and is connected with the second workbench, the cutting mechanism comprises a paper cutter, and the paper cutter is arranged on the second workbench.

As the utility model discloses an improvement, first conveying mechanism still includes spacing subassembly, spacing subassembly includes fixing base, guide bar, lead screw and stopper, the fixing base sets up on first workstation, the fixing base is connected to guide bar one end, and the stopper is connected to the other end, the fixing base is connected to lead screw one end, and the stopper is connected to the other end, guide bar quantity is two, the lead screw sets up between two guide bars, spacing subassembly is two sets of, the crisscross setting of stopper in two sets of spacing subassemblies.

As the utility model discloses an improvement, tectorial membrane mechanism still includes support, connecting rod and holds the membrane roller, hold the membrane roller and arrange one side of first workstation in, the support sets up on first workstation, the connecting rod passes and holds the membrane roller to place on the support, the support sets up the one side of keeping away from first conveyer belt on first workstation.

As the improvement of the utility model, the tectorial membrane mechanism still includes the safety cover, the safety cover sets up on first workstation, hot pressing roller and live-rollers setting are close to one side of first workstation at the safety cover.

As an improvement of the utility model, the second conveying mechanism further comprises a first guide wheel, the first guide wheel is arranged on one side of the second workbench close to the first workbench.

As an improvement of the utility model, the second conveying mechanism further comprises a slide rail and a second guide wheel, the slide rail is arranged on the second workbench, and the second guide wheel is connected with the slide rail through a rod.

As an improvement of the utility model, the paper cutter is connected with the slide rail and is adjacent to the second guide wheel.

As an improvement of the utility model, cut the mechanism and still include cutting assembly in advance, cutting assembly includes the sword that cuts in advance, the sword setting that cuts in advance is on the second workstation.

As the improvement of the utility model, the sword that cuts in advance is two, sets up respectively in the both sides of second workstation, and two knives that cut in advance pass through the hold-in range and connect.

3. Advantageous effects

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses a tectorial membrane cutting device, through the implementation basis of first workstation as tectorial membrane work, carry out the pay-off of paper tectorial membrane through first conveying mechanism, tectorial membrane mechanism carries out the tectorial membrane work of paper, realizes the automatic tectorial membrane of the serialization of paper, and first conveyer belt is used for the transport paper of serialization, and the live-rollers is used for accepting the membrane that is used for the paper tectorial membrane, makes the membrane possess certain tension, and in the tectorial membrane process, the tectorial membrane is effectual, and the laminating between paper and the membrane is realized to the hot-pressing roll; the conveying of the paper is completed through the second conveying mechanism, the cutting work after the film covering is completed is performed, the secondary conveying of the paper is avoided, the film-covered paper can be formed in one step, the film-covered paper is conveyed between the first workbench and the second workbench, the position of the film-covered paper is limited through the guide frame, the film-covered paper is in contact with the guide roller, and the film-covered paper is conveyed to the second conveying belt through the guide roller, so that the paper conveying device is safe and high in efficiency;

(2) the utility model discloses a tectorial membrane cutting device, the paper is in the in-process of carrying out the tectorial membrane, the phenomenon that the paper takes place the skew can appear, then be not convenient for cut in the in-process of subsequently carrying out the cutting of paper, the manpower is extravagant again in the manual work adjustment, carry out the adjustment of paper position before the paper gets into the tectorial membrane mechanism, inject the position that the paper got into the laminating machine through the stopper, the condition that the paper takes place slight skew, can be corrected by the stopper, through guide bar and lead screw, can realize the position adjustment of stopper, can adapt to the not unidimensional paper tectorial membrane;

(3) the utility model discloses a tectorial membrane cutting device, through the setting of two guide bars and lead screw, in the adjustment process of carrying out both sides stopper, and the state that final position is definite is stable, in the process that the paper carries out position adjustment through the stopper, both sides use the stopper to adjust simultaneously, then the paper takes place slight incline and can collide with the stopper of both sides simultaneously, it is not good to the effect of rectifying a deviation of paper, carry out the crisscross setting with the stopper of both sides, then the paper can contact with the stopper of one side earlier, contact with the stopper of the other side again, the effect of rectifying a deviation of paper is better;

(4) the utility model discloses a tectorial membrane cutting device, in the tectorial membrane process of carrying out the paper, need provide and carry out the membrane of tectorial membrane between the paper, in the continuous tectorial membrane process of carrying out for a long time, the membrane has used up and needs to be changed, so place the membrane bearing roller that bears the membrane in one side of first workstation, can conveniently carry out the change of membrane on the membrane bearing roller, through setting up the support on first workstation, alternate the connecting rod in the membrane bearing roller, place the connecting rod on the support, the membrane bearing roller rotates on the connecting rod in the course of carrying out the tectorial membrane work, the membrane bears to hot press roll one side through the live-rollers;

(5) the utility model discloses a tectorial membrane cutting device, the tectorial membrane mechanism sets up the safety cover, mainly the upper portion is provided with the multiple-track live-rollers, the live-rollers are accepted the membrane, in order to avoid the external interference to the live-rollers to the membrane is accepted and transported, need set up the safety cover, avoid the dust in the environment and other factors that influence the tectorial membrane quality to produce;

(6) the utility model discloses a tectorial membrane cutting device, the paper accomplishes cutting work on the second conveyer belt, enters into second conveyer belt department at the tectorial membrane paper, sets up first leading wheel, compresses tightly tectorial membrane paper and second conveyer belt, provides the assurance for the good tectorial membrane paper's of follow-up cutting quality;

(7) the utility model discloses a tectorial membrane cutting device, the second leading wheel sets up in the paper cutter front end, in the cutting process of paper cutter carrying out the tectorial membrane paper, can guarantee the level and smooth of tectorial membrane paper, the cutting incision of tectorial membrane paper is level and smooth, the quality of tectorial membrane paper is good;

(8) the utility model discloses a tectorial membrane cutting device sets up at paper cutter anterior segment and cuts the sword in advance, and the sword that cuts in advance on both sides passes through the hold-in range to be connected, ensures to cut in advance that the sword can carry out tectorial membrane paper edge part simultaneously and cuts in advance, through the mode that cuts in advance, ensures that the whole neatly that cuts of tectorial membrane paper, destroys the tension of membrane for follow-up cutting is gone on more easily.

Drawings

Fig. 1 is a schematic view of the overall structure of a paper laminating device according to embodiments 1 and 2 of the present invention;

fig. 2 is a schematic view of the overall structure of a paper laminating device according to embodiments 1 and 2 of the present invention, which is different from the view shown in fig. 1;

fig. 3 is a schematic view of the overall structure of an automatic material taking film covering device according to embodiments 3 and 4 of the present invention;

fig. 4 is a schematic view of the overall structure of an automatic material-taking laminating device according to embodiments 3 and 4 of the present invention, which is different from the view shown in fig. 3;

fig. 5 is a schematic view of the overall structure of a paper cutting apparatus according to embodiments 5 and 6 of the present invention;

fig. 6 is a schematic view of the overall structure of a paper cutting apparatus according to embodiments 5 and 6 of the present invention, which is different from the view of fig. 5;

FIG. 7 is a schematic view of the overall structure of the paper knife;

fig. 8 is a schematic view of the overall structure of a paper cutting and collecting device according to embodiments 7 and 8 of the present invention;

fig. 9 is a schematic view of the overall structure of a paper cutting and collecting device according to embodiments 7 and 8 of the present invention, which is different from the view of fig. 8;

fig. 10 is a schematic view of the overall structure of a film cutting apparatus according to embodiments 9 and 10 of the present invention;

fig. 11 is a schematic view of the overall structure of a film cutting device according to embodiments 9 and 10 of the present invention, which is different from the view angle of fig. 10.

In the drawings:

100. a first table;

200. a second table;

300. a feeding mechanism; 310. a frame; 320. a guide rail; 330. a manipulator; 331. a movable frame; 332. a material taking device;

400. a first conveying mechanism; 410. a first conveyor belt; 420. a limiting component; 421. a fixed seat; 422. a guide bar; 423. a lead screw; 424. a stopper;

500. a film covering mechanism; 510. a support; 520. a film bearing roller; 530. a connecting rod; 540. a hot press roll; 550. a rotating roller; 560. a protective cover;

600. a second conveying mechanism; 610. a second conveyor belt; 620. a guide roller; 630. a guide frame; 640. a slide rail; 650. a first guide wheel; 660. a second guide wheel; 670. a third guide wheel;

700. a cutting mechanism; 710. pre-cutting the assembly; 711. pre-cutting a knife; 712. a synchronous belt; 720. a paper cutter;

800. a material collecting mechanism; 810. a material collecting box; 820. and a baffle plate.

Detailed Description

The present invention will be further described with reference to the following specific embodiments.

Example 1

As shown in fig. 1 and 2, the paper sheet laminating apparatus according to the present embodiment includes a first table 100, a first conveying mechanism 400, and a laminating mechanism 500, wherein the first conveying mechanism 400 and the laminating mechanism 500 are both provided on the first table 100, the first table 100 is used as a basis for performing the laminating operation, the first conveying mechanism 400 feeds the paper sheet to be laminated, and the laminating mechanism 500 performs the laminating operation on the paper sheet, thereby realizing continuous automatic laminating of the paper sheet.

The first conveying mechanism 400 includes a first conveying belt 410, the first conveying mechanism 400 is disposed on the first table 100, and the first conveying belt 410 is used for continuously conveying the paper.

The laminating mechanism 500 comprises a support 510, a film bearing roller 520, a hot pressing roller 540, a rotating roller 550 and a protective cover 560, the protective cover 560 is arranged on the first workbench 100, the hot pressing roller 540 and the rotating roller 550 are arranged in the protective cover 560, the hot pressing roller 540 is used for laminating paper and films, the hot pressing roller 540 needs to be arranged at a position close to a first conveying belt, and laminating between the films is realized by hot pressing the hot pressing roller 540 between the paper and the films in the laminating process of the paper. The rotating rollers 550 are arranged in the protective cover 560, the number of the rotating rollers 550 can be multiple, the film can be tightly attached to the rotating rollers 550 through the arrangement of the rotating rollers 550, the film is conveyed to an inlet of the hot pressing roller 540 through the rotating rollers 550, and the attachment of the paper and the film is realized. The protective cover 560 is arranged on the film laminating mechanism 500, because the plurality of rotating rollers 550 are arranged on the upper portion of the first workbench 100, the rotating rollers 550 are provided with films, and in order to avoid the interference of the outside on the film carrying and conveying of the rotating rollers 550, the protective cover 560 is required to be arranged, and the generation of dust and other factors influencing the film laminating quality in the environment is avoided. Support 510 sets up on protection cover 560 or on first workstation 100, the setting is in the one side of keeping away from first conveyer belt, avoid membrane and paper to influence each other in transportation process, support 510 is two, the top is provided with the opening, connecting rod 530 is placed to the opening part, the realization connecting rod 530 that the open-ended setting can be convenient take and place, it is convenient to change, the cover has film bearing roller 520 on the connecting rod 530, film bearing roller 520 is last to be put with the membrane of paper laminating, rotate through rotor roller 550, drive the membrane motion, the motion of membrane makes film bearing roller 520 rotate, such a mode of setting, make the membrane possess certain tension, the state after membrane and paper carry out the tectorial membrane is laminated closely more. In the process of laminating the paper, a film to be laminated with the paper needs to be provided, and in the process of continuously laminating the paper for a long time, the film needs to be replaced when the film is used up, so that the film receiving roller 520 for receiving the film is placed on one side of the first workbench 100, the film on the film receiving roller 520 can be conveniently replaced, the bracket 510 is arranged on the first workbench 100, the connecting rod 530 is inserted into the film receiving roller 520, the connecting rod 530 is placed on the bracket 510, the film receiving roller 520 rotates on the connecting rod 530 during the laminating operation, and the film is received to one side of the hot press roller 540 through the rotating roller 550.

Example 2

As shown in fig. 1 and 2, on the basis of embodiment 1, the first conveying mechanism 400 further includes a limiting assembly 420, the limiting assembly 420 includes a fixing seat 421, a guide rod 422, a lead screw 423 and a limiter 424, the fixing seat 421 is disposed on the first workbench 100, one end of the guide rod 422 is connected to the fixing seat 421, the other end of the guide rod 422 is connected to the limiter 424, one end of the lead screw 423 is connected to the fixing seat 421, and the other end of the lead screw 423 is connected to the limiter 424. The number of the guide rods 422 is two, and the screw 423 is provided between the two guide rods 422. The position-limiting assemblies 420 are two groups, and the position-limiting devices 424 in the two groups of position-limiting assemblies 420 are arranged in a staggered manner. The stopper 424 of this embodiment is a stopper rod, and the stopper rod is cylindrical, and may be set to other shapes, but the end of the stopper 424 contacting with the paper needs to be set to an arc surface. During the laminating process of paper, the phenomenon of paper deflection may occur, so that the paper is not convenient to be cut in the subsequent cutting process of the paper, manual adjustment is performed, manpower is wasted, the position of the paper is adjusted before the paper enters the laminating mechanism 500, the position of the paper entering the laminating machine is limited through the limiting device 424, the paper slightly deflects, the paper can be corrected through the limiting device 424, the position of the limiting device 424 can be adjusted through the guide rod 422 and the lead screw 423, and the paper laminating machine can adapt to laminating of paper with different sizes. Through two guide bars 422 and lead screw 423's setting, in the adjustment process who carries out both sides stopper 424, and the state of final position determination is stable, carry out position adjustment's in-process at the paper through stopper 424, both sides use stopper 424 to adjust simultaneously, then the paper takes place slight incline can collide with the stopper 424 on both sides simultaneously, it is not good to the effect of rectifying a deviation of paper, carry out crisscross setting with the stopper 424 on both sides, then the paper can be earlier with the stopper 424 contact on one side, contact with the stopper 424 on the other side again, the effect of rectifying a deviation of paper is better.

Example 3

As shown in fig. 3 and 4, the film covering device for automatically taking out materials of the present embodiment includes a first table 100, a first conveying mechanism 400, a film covering mechanism 500, and a feeding mechanism 300, wherein both the first conveying mechanism 400 and the film covering mechanism 500 are disposed on the first table 100, the first table 100 is used as a basis for performing film covering operation, the first conveying mechanism 400 feeds paper sheets for film covering, and the film covering mechanism 500 performs film covering operation of paper sheets, thereby realizing continuous automatic film covering of paper sheets.

The first conveying mechanism 400 includes a first conveying belt 410, the first conveying mechanism 400 is disposed on the first table 100, and the first conveying belt 410 is used for continuously conveying the paper.

The laminating mechanism 500 comprises a support 510, a film bearing roller 520, a hot pressing roller 540, a rotating roller 550 and a protective cover 560, the protective cover 560 is arranged on the first workbench 100, the hot pressing roller 540 and the rotating roller 550 are arranged in the protective cover 560, the hot pressing roller 540 is used for laminating paper and films, the hot pressing roller 540 needs to be arranged at a position close to a first conveying belt, and laminating between the films is realized by hot pressing the hot pressing roller 540 between the paper and the films in the laminating process of the paper. The rotating rollers 550 are arranged in the protective cover 560, the number of the rotating rollers 550 can be multiple, the film can be tightly attached to the rotating rollers 550 through the arrangement of the rotating rollers 550, the film is conveyed to an inlet of the hot pressing roller 540 through the rotating rollers 550, and the attachment of the paper and the film is realized. The protective cover 560 is arranged on the film laminating mechanism 500, because the plurality of rotating rollers 550 are arranged on the upper portion of the first workbench 100, the rotating rollers 550 are provided with films, and in order to avoid the interference of the outside on the film carrying and conveying of the rotating rollers 550, the protective cover 560 is required to be arranged, and the generation of dust and other factors influencing the film laminating quality in the environment is avoided. Support 510 sets up on protection cover 560 or on first workstation 100, the setting is in the one side of keeping away from first conveyer belt, avoid membrane and paper to influence each other in transportation process, support 510 is two, the top is provided with the opening, connecting rod 530 is placed to the opening part, the realization connecting rod 530 that the open-ended setting can be convenient take and place, it is convenient to change, the cover has film bearing roller 520 on the connecting rod 530, film bearing roller 520 is last to be put with the membrane of paper laminating, rotate through rotor roller 550, drive the membrane motion, the motion of membrane makes film bearing roller 520 rotate, such a mode of setting, make the membrane possess certain tension, the state after membrane and paper carry out the tectorial membrane is laminated closely more. In the process of laminating the paper, a film to be laminated with the paper needs to be provided, and in the process of continuously laminating the paper for a long time, the film needs to be replaced when the film is used up, so that the film receiving roller 520 for receiving the film is placed on one side of the first workbench 100, the film on the film receiving roller 520 can be conveniently replaced, the bracket 510 is arranged on the first workbench 100, the connecting rod 530 is inserted into the film receiving roller 520, the connecting rod 530 is placed on the bracket 510, the film receiving roller 520 rotates on the connecting rod 530 during the laminating operation, and the film is received to one side of the hot press roller 540 through the rotating roller 550.

Feeding mechanism 300 the feeding mechanism 300 includes a frame 310, a guide 320, and a robot 330, the frame 310 is disposed on the first table 100, the guide 320 is disposed on the frame 310, and the robot 330 is coupled to the guide 320. The robot 330 includes a moving frame 331 and a picker 332, the moving frame 331 is connected to the guide rail 320, and the picker 332 is disposed under the moving frame 331. Be used for being connected between manipulator 330 and first workstation 100 through frame 310 and guide rail 320, frame 310 provides space and support basis for manipulator 330's work, manipulator 330 can carry out reciprocating motion on guide rail 320, manipulator 330 can set to the sucking disc formula, the bottom is the negative sucker, vacuum sucker upper portion is the flexible hydro-cylinder that cup joints, through the motion of hydro-cylinder, the motion of vertical direction can be accomplished to the negative sucker, make manipulator 330 can carry out reciprocating motion along the direction of first conveyer belt on guide rail 320 through setting up the motor, realize getting of paper and expect work, the manual work has been liberated, production efficiency is higher.

Example 4

As shown in fig. 3 and 4, the automatic material taking film covering device of this embodiment is based on embodiment 3, and the first conveying mechanism 400 further includes a limiting assembly 420, and the limiting assembly 420 includes a fixing base 421, a guide rod 422, a lead screw 423 and a limiter 424, the fixing base 421 is disposed on the first workbench 100, one end of the guide rod 422 is connected to the fixing base 421, the other end of the guide rod 422 is connected to the limiter 424, one end of the lead screw 423 is connected to the fixing base 421, and the other end of the lead screw 423 is connected to the limiter 424. The number of the guide rods 422 is two, and the screw 423 is provided between the two guide rods 422. The position-limiting assemblies 420 are two groups, and the position-limiting devices 424 in the two groups of position-limiting assemblies 420 are arranged in a staggered manner. The stopper 424 of this embodiment is a stopper rod, and the stopper rod is cylindrical, and may be set to other shapes, but the end of the stopper 424 contacting with the paper needs to be set to an arc surface. During the laminating process of paper, the phenomenon of paper deflection may occur, so that the paper is not convenient to be cut in the subsequent cutting process of the paper, manual adjustment is performed, manpower is wasted, the position of the paper is adjusted before the paper enters the laminating mechanism 500, the position of the paper entering the laminating machine is limited through the limiting device 424, the paper slightly deflects, the paper can be corrected through the limiting device 424, the position of the limiting device 424 can be adjusted through the guide rod 422 and the lead screw 423, and the paper laminating machine can adapt to laminating of paper with different sizes. Through two guide bars 422 and lead screw 423's setting, in the adjustment process who carries out both sides stopper 424, and the state of final position determination is stable, carry out position adjustment's in-process at the paper through stopper 424, both sides use stopper 424 to adjust simultaneously, then the paper takes place slight incline can collide with the stopper 424 on both sides simultaneously, it is not good to the effect of rectifying a deviation of paper, carry out crisscross setting with the stopper 424 on both sides, then the paper can be earlier with the stopper 424 contact on one side, contact with the stopper 424 on the other side again, the effect of rectifying a deviation of paper is better.

Example 5

As shown in fig. 5 to 7, the paper cutting device of the present embodiment includes a second work table 200, a second conveying mechanism 600, and a cutting mechanism 700, where the second work table 200 is used to receive other mechanical components of the paper cutting device, the conveying of the coated paper is completed by the second conveying mechanism 600, and the cutting of the coated paper is completed by the cutting mechanism 700, so as to form a coated paper product.

The second conveying mechanism 600 includes a second conveying belt 610, guide rollers 620, a guide frame 630, a slide rail 640, a first guide wheel 650, and a second guide wheel 660. The second conveyor belt 610 is disposed on the second table 200, the guide frame 630 is disposed on a side of the second table 200 adjacent to the first table 100, and the guide roller 620 is disposed on an upper side of the guide frame 630 and abuts against the second table 200. After the laminating, the conveying of the paper is completed through the second conveying mechanism 600, the cutting work after the laminating is completed is performed, the secondary conveying of the paper is avoided, the paper subjected to the laminating can be formed in one step, the paper subjected to the laminating is conveyed between the first workbench 100 and the second workbench 200, the position of the paper subjected to the laminating is limited through the guide frame 630, the paper subjected to the laminating is in contact with the guide roller 620, and the paper subjected to the laminating is conveyed to the second conveying belt through the guide roller 620, so that the laminating machine is safe and high in efficiency. The first guide wheel 650 is disposed on one side of the second worktable 200 close to the first worktable 100, the slide rail 640 is disposed on the second worktable 200, and the second guide wheel 660 is connected to the slide rail 640 through a rod. The paper finishes the cutting work on the second conveyor belt 610, and the first guide wheel 650 is arranged at the position where the film-coated paper enters the second conveyor belt 610, so that the film-coated paper and the second conveyor belt 610 are pressed tightly, and the subsequent good cutting quality of the film-coated paper is guaranteed.

The cutting mechanism 700 includes a paper cutter 720, the paper cutter 720 is disposed on the second worktable 200, and the paper cutter 720 is connected to the slide rail 640 and adjacent to the second guide wheel 660. The position of the paper cutter 720 on the second conveyor belt can be adjusted by adjusting the contact part of the paper cutter 720 and the slide rail 640, and the cutting of the paper is controlled. The second guide wheel 660 is arranged at the front end of the paper cutter 720, and the paper cutter 720 can ensure that the coated paper is smooth in the cutting process of the coated paper, the cutting notch of the coated paper is smooth, and the coated paper is good in quality. The paper knife 720 may be configured to cut from one end to the other as shown in fig. 7, or may be configured as another paper knife 720.

Example 6

This embodiment is on the basis of the paper cutting device of embodiment 5, and the cutting mechanism 700 further includes a pre-cutting assembly 710, the pre-cutting assembly 710 includes a pre-cutting knife 711 and a synchronous belt, the pre-cutting knife 711 is disposed on the second workbench 200, the number of the pre-cutting knife 711 is two, the pre-cutting knives are respectively disposed on two sides of the second workbench 200, and the two pre-cutting knives 711 are connected through the synchronous belt. The pre-cutting knife 711 is arranged at the front section of the paper cutting knife 720, the pre-cutting knives 711 on two sides are connected through the synchronous belt, the pre-cutting knife 711 can perform pre-cutting on the edge part of the coated paper at the same time, the overall cutting tidiness of the coated paper is ensured through a pre-cutting mode, the tension of a film is damaged, and subsequent cutting is easier to perform. The pre-cutting knife 711 and the paper cutting knife 720 have the same working frequency, the distance between the pre-cutting knife 711 and the paper cutting knife 720 is made to be a multiple relation of the length of paper to be cut by controlling the distance between the paper cutting knife 720 and the paper cutting knife, and the pre-cutting knife 711 and the paper cutting knife 720 are simultaneously lowered to cut at the same position. The pre-cutting knife 711 may use a synchronous belt or a synchronous motor to control the pre-cutting knife to perform pre-cutting, thereby preventing the non-uniform incision between the paper cutting knife 720 and the paper.

Example 7

As shown in fig. 8 and 9, the paper cutting and collecting device of the present embodiment includes a second work table 200, a second conveying mechanism 600, a cutting mechanism 700, and a collecting mechanism 800, where the second work table 200 is used to receive other mechanical components of the paper cutting device, the conveying of the coated paper is completed by the second conveying mechanism 600, the cutting of the coated paper is completed by the cutting mechanism 700, and a coated paper product is formed.

The second conveying mechanism 600 includes a second conveying belt 610, guide rollers 620, a guide frame 630, a slide rail 640, a first guide wheel 650, a second guide wheel 660, and a third guide wheel 670. The second conveyor belt 610 is disposed on the second table 200, the guide frame 630 is disposed on a side of the second table 200 adjacent to the first table 100, and the guide roller 620 is disposed on an upper side of the guide frame 630 and abuts against the second table 200. After the laminating, the conveying of the paper is completed through the second conveying mechanism 600, the cutting work after the laminating is completed is performed, the secondary conveying of the paper is avoided, the paper subjected to the laminating can be formed in one step, the paper subjected to the laminating is conveyed between the first workbench 100 and the second workbench 200, the position of the paper subjected to the laminating is limited through the guide frame 630, the paper subjected to the laminating is in contact with the guide roller 620, and the paper subjected to the laminating is conveyed to the second conveying belt through the guide roller 620, so that the laminating machine is safe and high in efficiency. The first guide wheel 650 is disposed on one side of the second worktable 200 close to the first worktable 100, the slide rail 640 is disposed on the second worktable 200, and the second guide wheel 660 is connected to the slide rail 640 through a rod. The paper finishes the cutting work on the second conveyor belt 610, and the first guide wheel 650 is arranged at the position where the film-coated paper enters the second conveyor belt 610, so that the film-coated paper and the second conveyor belt 610 are pressed tightly, and the subsequent good cutting quality of the film-coated paper is guaranteed. A third guide wheel 670 is provided on the second table 200 on a side away from the first guide wheel 650, and wheels of the third guide wheel 670 are placed on the second conveyor belt for guiding and controlling the inertial force of the coated paper.

The cutting mechanism 700 includes a paper cutter 720, the paper cutter 720 is disposed on the second worktable 200, and the paper cutter 720 is connected to the slide rail 640 and adjacent to the second guide wheel 660. The position of the paper cutter 720 on the second conveyor belt can be adjusted by adjusting the contact part of the paper cutter 720 and the slide rail 640, and the cutting of the paper is controlled. The second guide wheel 660 is arranged at the front end of the paper cutter 720, and the paper cutter 720 can ensure that the coated paper is smooth in the cutting process of the coated paper, the cutting notch of the coated paper is smooth, and the coated paper is good in quality.

The material collecting mechanism 800 comprises a material collecting box 810 and a baffle 820, wherein the material collecting box 810 is arranged on one side of the second conveyor belt provided with a third guide wheel 670, and the bottom surface of the material collecting box 810 is obliquely arranged. The baffle 820 is arranged on the bottom surface of the material collecting box 810, the baffle 820 is arranged obliquely, and the opening of the side, close to the second workbench 200, of the baffle 820 is larger. To cut and accomplish in tectorial membrane paper passes through the second conveyer belt and carries to the case 810 that gathers materials, the tectorial membrane paper floats outside the case 810 easily, set up at the afterbody of second conveyer belt through third leading wheel 670, when the tectorial membrane paper will break away from the second conveyer belt soon, third leading wheel 670 and tectorial membrane paper contact, reduce the inertial force of tectorial membrane paper, avoid the tectorial membrane paper to fly out the case 810 that gathers materials, the bottom of case 810 that gathers materials sets up for the slope, the tectorial membrane paper is after getting into case 810 that gathers materials, can concentrate in one side of case 810 that gathers materials, need not carry out the secondary and collect. Baffle plates 820 are arranged on two sides of the bottom surface of the collecting box 810, the baffle plates 820 are arranged obliquely, and the coated paper falling into the collecting box 810 obliquely is gathered towards the center through the obliquely arranged baffle plates 820, so that the subsequent paper is convenient to arrange and convey.

Example 8

As shown in fig. 8 and 9, in this embodiment, on the basis of the paper cutting and collecting device of embodiment 8, the cutting mechanism 700 further includes a pre-cutting assembly 710, the pre-cutting assembly 710 includes a pre-cutting knife 711 and a timing belt, the pre-cutting knife 711 is disposed on the second working table 200, the number of the pre-cutting knives 711 is two, and the two pre-cutting knives 711 are respectively disposed on two sides of the second working table 200 and are connected through the timing belt. The pre-cutting knife 711 is arranged at the front section of the paper cutting knife 720, the pre-cutting knives 711 on two sides are connected through the synchronous belt, the pre-cutting knife 711 can perform pre-cutting on the edge part of the coated paper at the same time, the overall cutting tidiness of the coated paper is ensured through a pre-cutting mode, the tension of a film is damaged, and subsequent cutting is easier to perform. The pre-cutting knife 711 and the paper cutting knife 720 have the same working frequency, the distance between the paper cutting knife 720 and the cutting knife is controlled to be a multiple relation of the length of paper to be cut, and the pre-cutting knife 711 and the paper cutting knife 720 are simultaneously fed to cut at the same position.

Example 9

As shown in fig. 10 and 11, a film covering and cutting device of the present embodiment includes a first table 100, a second table 200, a first conveying mechanism 400, a film covering mechanism 500, a second conveying mechanism 600, and a cutting mechanism 700, the first table 100 and the second table 200 are adjacent, the first conveying mechanism 400 and the film covering mechanism 500 are disposed on the first table 100, the second conveying mechanism 600 and the cutting mechanism 700 are disposed on the second table 200, paper completes film covering on the first table 100, and paper completes cutting on the second table 200 to form paper with a cut film covering.

The first conveying mechanism 400 includes a first conveying belt 410, the first conveying mechanism 400 is disposed on the first table 100, and the first conveying belt 410 is used for continuously conveying the paper.

The laminating mechanism 500 comprises a support 510, a film bearing roller 520, a hot pressing roller 540, a rotating roller 550 and a protective cover 560, the protective cover 560 is arranged on the first workbench 100, the hot pressing roller 540 and the rotating roller 550 are arranged in the protective cover 560, the hot pressing roller 540 is used for laminating paper and films, the hot pressing roller 540 needs to be arranged at a position close to a first conveying belt, and laminating between the films is realized by hot pressing the hot pressing roller 540 between the paper and the films in the laminating process of the paper. The rotating rollers 550 are arranged in the protective cover 560, the number of the rotating rollers 550 can be multiple, the film can be tightly attached to the rotating rollers 550 through the arrangement of the rotating rollers 550, the film is conveyed to an inlet of the hot pressing roller 540 through the rotating rollers 550, and the attachment of the paper and the film is realized. The protective cover 560 is arranged on the film laminating mechanism 500, because the plurality of rotating rollers 550 are arranged on the upper portion of the first workbench 100, the rotating rollers 550 are provided with films, and in order to avoid the interference of the outside on the film carrying and conveying of the rotating rollers 550, the protective cover 560 is required to be arranged, and the generation of dust and other factors influencing the film laminating quality in the environment is avoided. Support 510 sets up on protection cover 560 or on first workstation 100, the setting is in the one side of keeping away from first conveyer belt, avoid membrane and paper to influence each other in transportation process, support 510 is two, the top is provided with the opening, connecting rod 530 is placed to the opening part, the realization connecting rod 530 that the open-ended setting can be convenient take and place, it is convenient to change, the cover has film bearing roller 520 on the connecting rod 530, film bearing roller 520 is last to be put with the membrane of paper laminating, rotate through rotor roller 550, drive the membrane motion, the motion of membrane makes film bearing roller 520 rotate, such a mode of setting, make the membrane possess certain tension, the state after membrane and paper carry out the tectorial membrane is laminated closely more. In the process of laminating the paper, a film to be laminated with the paper needs to be provided, and in the process of continuously laminating the paper for a long time, the film needs to be replaced when the film is used up, so that the film receiving roller 520 for receiving the film is placed on one side of the first workbench 100, the film on the film receiving roller 520 can be conveniently replaced, the bracket 510 is arranged on the first workbench 100, the connecting rod 530 is inserted into the film receiving roller 520, the connecting rod 530 is placed on the bracket 510, the film receiving roller 520 rotates on the connecting rod 530 during the laminating operation, and the film is received to one side of the hot press roller 540 through the rotating roller 550.

The second conveying mechanism 600 includes a second conveying belt 610, guide rollers 620, a guide frame 630, a slide rail 640, a first guide wheel 650, and a second guide wheel 660. The second conveyor belt 610 is disposed on the second table 200, the guide frame 630 is disposed on a side of the second table 200 adjacent to the first table 100, and the guide roller 620 is disposed on an upper side of the guide frame 630 and abuts against the second table 200. After the laminating, the conveying of the paper is completed through the second conveying mechanism 600, the cutting work after the laminating is completed is performed, the secondary conveying of the paper is avoided, the paper subjected to the laminating can be formed in one step, the paper subjected to the laminating is conveyed between the first workbench 100 and the second workbench 200, the position of the paper subjected to the laminating is limited through the guide frame 630, the paper subjected to the laminating is in contact with the guide roller 620, and the paper subjected to the laminating is conveyed to the second conveying belt through the guide roller 620, so that the laminating machine is safe and high in efficiency. The first guide wheel 650 is disposed on one side of the second worktable 200 close to the first worktable 100, the slide rail 640 is disposed on the second worktable 200, and the second guide wheel 660 is connected to the slide rail 640 through a rod. The paper finishes the cutting work on the second conveyor belt 610, and the first guide wheel 650 is arranged at the position where the film-coated paper enters the second conveyor belt 610, so that the film-coated paper and the second conveyor belt 610 are pressed tightly, and the subsequent good cutting quality of the film-coated paper is guaranteed.

The cutting mechanism 700 includes a paper cutter 720, the paper cutter 720 is disposed on the second worktable 200, and the paper cutter 720 is connected to the slide rail 640 and adjacent to the second guide wheel 660. The position of the paper cutter 720 on the second conveyor belt can be adjusted by adjusting the contact part of the paper cutter 720 and the slide rail 640, and the cutting of the paper is controlled. The second guide wheel 660 is arranged at the front end of the paper cutter 720, and the paper cutter 720 can ensure that the coated paper is smooth in the cutting process of the coated paper, the cutting notch of the coated paper is smooth, and the coated paper is good in quality. The paper knife 720 may be configured to cut from one end to the other as shown in fig. 7, or may be configured as another paper knife 720.

Example 10

As shown in fig. 10 and 11, in the paper laminating device of this embodiment, on the basis of embodiment 9, the first conveying mechanism 400 further includes a limiting assembly 420, the limiting assembly 420 includes a fixing seat 421, a guide rod 422, a lead screw 423 and a limiter 424, the fixing seat 421 is disposed on the first workbench 100, one end of the guide rod 422 is connected to the fixing seat 421, the other end of the guide rod 422 is connected to the limiter 424, one end of the lead screw 423 is connected to the fixing seat 421, and the other end of the lead screw 423 is connected to the limiter 424. The number of the guide rods 422 is two, and the screw 423 is provided between the two guide rods 422. The position-limiting assemblies 420 are two groups, and the position-limiting devices 424 in the two groups of position-limiting assemblies 420 are arranged in a staggered manner. The stopper 424 of this embodiment is a stopper rod, and the stopper rod is cylindrical, and may be set to other shapes, but the end of the stopper 424 contacting with the paper needs to be set to an arc surface. During the laminating process of paper, the phenomenon of paper deflection may occur, so that the paper is not convenient to be cut in the subsequent cutting process of the paper, manual adjustment is performed, manpower is wasted, the position of the paper is adjusted before the paper enters the laminating mechanism 500, the position of the paper entering the laminating machine is limited through the limiting device 424, the paper slightly deflects, the paper can be corrected through the limiting device 424, the position of the limiting device 424 can be adjusted through the guide rod 422 and the lead screw 423, and the paper laminating machine can adapt to laminating of paper with different sizes. Through two guide bars 422 and lead screw 423's setting, in the adjustment process who carries out both sides stopper 424, and the state of final position determination is stable, carry out position adjustment's in-process at the paper through stopper 424, both sides use stopper 424 to adjust simultaneously, then the paper takes place slight incline can collide with the stopper 424 on both sides simultaneously, it is not good to the effect of rectifying a deviation of paper, carry out crisscross setting with the stopper 424 on both sides, then the paper can be earlier with the stopper 424 contact on one side, contact with the stopper 424 on the other side again, the effect of rectifying a deviation of paper is better.

The cutting mechanism 700 further comprises a pre-cutting assembly 710, the pre-cutting assembly 710 comprises two pre-cutting knives 711 and synchronous belts, the two pre-cutting knives 711 are arranged on the second workbench 200, the two pre-cutting knives 711 are respectively arranged at two sides of the second workbench 200, and the two pre-cutting knives 711 are connected through the synchronous belts. The pre-cutting knife 711 is arranged at the front section of the paper cutting knife 720, the pre-cutting knives 711 on two sides are connected through the synchronous belt, the pre-cutting knife 711 can perform pre-cutting on the edge part of the coated paper at the same time, the overall cutting tidiness of the coated paper is ensured through a pre-cutting mode, the tension of a film is damaged, and subsequent cutting is easier to perform. The pre-cutting knife 711 and the paper cutting knife 720 have the same working frequency, the distance between the pre-cutting knife 711 and the paper cutting knife 720 is made to be a multiple relation of the length of paper to be cut by controlling the distance between the paper cutting knife 720 and the paper cutting knife, and the pre-cutting knife 711 and the paper cutting knife 720 are simultaneously lowered to cut at the same position. The pre-cutting knife 711 may use a synchronous belt or a synchronous motor to control the pre-cutting knife to perform pre-cutting, thereby preventing the non-uniform incision between the paper cutting knife 720 and the paper.

The above examples describe the present invention and its embodiments, and the description is not intended to be limiting. It should be noted that, for those skilled in the art, without departing from the inventive concept of the present invention, the structural modes and embodiments similar to the technical solutions should be designed without creativity, and all shall fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a tectorial membrane cutting device which characterized in that: the film laminating machine comprises a first workbench (100), a second workbench (200), a first conveying mechanism (400), a film laminating mechanism (500), a second conveying mechanism (600) and a cutting mechanism (700), wherein the first workbench (100) is adjacent to the second workbench (200), the first conveying mechanism (400) and the film laminating mechanism (500) are arranged on the first workbench (100), the second conveying mechanism (600) and the cutting mechanism (700) are arranged on the second workbench (200), the first conveying mechanism (400) comprises a first conveying belt (410), the first conveying belt (410) is arranged on the first workbench (100), the film laminating mechanism (500) comprises a hot pressing roller (540) and a rotating roller (550), and the hot pressing roller (540) and the rotating roller (550) are respectively arranged on the first workbench (100); second conveying mechanism (600) includes second conveyer belt (610), second conveyer belt (610) sets up on second workstation (200), second conveying mechanism (600) still includes guide roll (620) and leading truck (630), leading truck (630) set up the one side that is close to first workstation (100) at second workstation (200), guide roll (620) set up in leading truck (630) upside to meet with second workstation (200), cut mechanism (700) and include paper cutter (720), paper cutter (720) set up on second workstation (200).

2. The laminating cutting device of claim 1, wherein: first conveying mechanism (400) still includes spacing subassembly (420), spacing subassembly (420) include fixing base (421), guide bar (422), lead screw (423) and stopper (424), fixing base (421) set up on first workstation (100), fixing base (421) are connected to guide bar (422) one end, and stopper (424) are connected to the other end, fixing base (421) are connected to lead screw (423) one end, and stopper (424) are connected to the other end, guide bar (422) quantity is two, lead screw (423) set up between two guide bar (422), spacing subassembly (420) are two sets of, and stopper (424) in two sets of spacing subassembly (420) set up in a staggered manner.

3. The laminating cutting device of claim 2, wherein: tectorial membrane mechanism (500) still include support (510), connecting rod (530) and bear membrane roller (520), bear membrane roller (520) and arrange one side of first workstation (100) in, support (510) set up on first workstation (100), connecting rod (530) pass and bear membrane roller (520) to place on support (510), one side of keeping away from first conveyer belt (410) is set up on first workstation (100) in support (510).

4. A laminating cutting apparatus according to claim 3, wherein: the film laminating mechanism (500) further comprises a protective cover (560), the protective cover (560) is arranged on the first workbench (100), and the hot pressing roller (540) and the rotating roller (550) are arranged on one side, close to the first workbench (100), of the protective cover (560).

5. The laminating cutting device of claim 1, wherein: the second conveying mechanism (600) further comprises a first guide wheel (650), and the first guide wheel (650) is arranged on one side, close to the first workbench (100), of the second workbench (200).

6. The laminating cutting device of claim 5, wherein: the second conveying mechanism (600) further comprises a sliding rail (640) and a second guide wheel (660), the sliding rail (640) is arranged on the second workbench (200), and the second guide wheel (660) is connected with the sliding rail (640) through a rod.

7. The laminating cutting device of claim 4, wherein: the paper cutter (720) is connected with the sliding rail (640) and is adjacent to the second guide wheel (660).

8. The laminating cutting device of claim 5, wherein: the cutting mechanism (700) further comprises a pre-cutting assembly (710), the pre-cutting assembly (710) comprises a pre-cutting knife (711), and the pre-cutting knife (711) is arranged on the second workbench (200).

9. The laminating cutting device of claim 8, wherein: two pre-cutting knives (711) are respectively arranged at two sides of the second workbench (200), and the two pre-cutting knives (711) are connected through a synchronous belt.

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