CN212636736U - Movable alignment laminating machine - Google Patents

Abstract

The utility model belongs to the technical field of paperboard processing equipment, in particular to a mobile alignment laminating machine, which comprises a paper mounting conveying mechanism, a material conveying platform, a material grabbing mechanism, an adjusting controller and a detection mechanism, wherein the paper mounting conveying mechanism is used for conveying mounted paper, the material conveying platform is positioned at one side of the paper mounting conveying mechanism and is used for conveying paperboards, the material grabbing mechanism and the adjusting controller are both arranged on the material conveying platform, and the detection mechanism is arranged on the paper mounting conveying mechanism and is positioned in front of the material grabbing mechanism; the detection mechanism detects the position and the angle of the paper mounted on the paper mounting conveying mechanism, the offset and the rotation amount of the paper mounted are calculated by the adjusting controller through the position information and the angle information of the paper mounted, and the laminating position and the laminating angle of the paper board when the paper mounting mechanism is laminated are adjusted, so that the laminating precision between the paper mounted and the paper board is increased, and the laminating efficiency of the paper board can be improved and the load of the driving mechanism is reduced through the synchronous movement of the paper board and the paper mounted.

Description

Movable alignment laminating machine

Technical Field

The utility model belongs to the technical field of the cardboard processing equipment, especially, relate to a remove rigging machine of counterpointing.

Background

The paper package has the advantages of easy processing, low cost, suitability for printing, light weight, foldability, no toxicity, no smell, no pollution and the like. The paper package mainly comprises a carton, a paper box, a paper bag, a paper can, pulp molding and the like, wherein the production and sale scale of the carton and the paper box is the largest.

Along with the continuous improvement of consumption level, people also improve gradually the requirement of paper packing, for satisfying people's consumption demand, the surface of cardboard and carton generally need the laminating paper of different materials, makes the surface of cardboard and carton obtain the colour or the pattern of different grade type, perhaps promotes the feel of cardboard or carton.

For making things convenient for counterpoint laminating between cardboard or carton and the mount paper, the rigging machine that has appeared on the market and is exclusively used in products such as cardboard and mount paper and carry out the laminating, this rigging machine mainly includes cardboard conveying platform, mount paper conveying platform and grab material mechanism, in operation, cardboard conveying platform carries mounting paper and cardboard with mounting paper conveying platform respectively, grab material mechanism and snatch the cardboard, and arrange the cardboard in the surface of mounting paper and mount paper and laminate, although this rigging machine provides convenience for cardboard and the laminating of mounting paper, nevertheless mount paper and cardboard and produce the skew easily in transmission process, make cardboard and the laminating precision of mounting paper reduce. In addition, current rigging machine is when laminating the cardboard, mounts paper conveying platform and can pause the operation in order to make things convenient for the laminating of cardboard, has reduced the laminating efficiency of mounting paper and cardboard on the one hand, and on the other hand can increase actuating mechanism's load, reduces actuating mechanism's life.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a remove mounting paper laminating method of counterpoint rigging machine cardboard, aim at solving the not high technical problem of laminating precision of the rigging machine among the prior art.

In order to achieve the above object, an embodiment of the utility model provides a pair of remove counterpoint rigging machine, include:

the paper mounting conveying mechanism is used for conveying the mounting paper;

the material conveying platform is positioned on one side of the paper mounting conveying mechanism and is used for conveying the paper boards;

the material grabbing mechanism is arranged on the material conveying table and used for grabbing the paperboard on the material conveying table and attaching the grabbed paperboard to the paper mounting on the paper mounting conveying mechanism;

the adjusting controller is mounted on the material conveying table and is used for controlling the attaching position and the attaching angle when the material grabbing mechanism is attached to the paperboard;

the detection mechanism is arranged on the paper mounting conveying mechanism and located in front of the material grabbing mechanism, and the detection mechanism is electrically connected with the adjusting controller and used for transmitting position information and angle information of the paper mounted on the paper mounting conveying mechanism to the adjusting controller.

Optionally, the material conveying table includes a plate chain conveying mechanism, the plate chain conveying mechanism includes a feeding base, a push-pull rod, a driving assembly and at least two guide rails, the feeding base is located on one side of the paper pasting conveying mechanism, each guide rail is perpendicular to the paper pasting conveying mechanism and is fixed to two ends of the feeding base, the driving assembly is fixed to the surface of the feeding base, the push-pull rod is fixed to the driving assembly and is located below each guide rail, the driving assembly is used for driving the push-pull rod to reciprocate towards the direction of the paper pasting conveying mechanism, a material conveying channel is arranged between the push-pull rods, a plurality of push-block push blocks are arranged on the push-pull rod, and each push-block push block is connected to the surface of the push-pull rod in a sliding manner and extends towards the direction of the guide rail.

Optionally, the plate chain conveying mechanism further comprises a plate chain deviation rectifying assembly, the plate chain deviation rectifying assembly comprises a deviation rectifying plate and a deviation rectifying elastic sheet group, each deviation rectifying plate is vertically fixed on the surface of the guide rail, each deviation rectifying elastic sheet group comprises an elastic sheet fixing plate and a plurality of deviation rectifying elastic sheets, the elastic sheet fixing plate is located on one side, close to the paper mounting conveying mechanism, of the deviation rectifying plate and vertically fixed on the surface of the guide rail, and the deviation rectifying elastic sheets are evenly arranged on the elastic sheet fixing plate and extend towards the direction of the paper mounting conveying mechanism.

Optionally, plate chain conveying mechanism still includes the material blocking subassembly, the material blocking subassembly includes triaxial cylinder, cylinder mount, blocks flitch and material blocking rod, the lower extreme of cylinder mount is fixed in on the lateral wall of guided way, the triaxial cylinder is fixed in the upper end of cylinder mount, the material blocking plate level is fixed in on the drive end of triaxial cylinder and court the direction of material conveyer way extends, material blocking rod vertical fixation is in on the material blocking plate.

Optionally, the plate chain conveying mechanism further comprises a material blocking assembly, the material blocking assembly comprises a fixing rod, a connecting block and a material blocking block, the fixing rod is vertically fixed on the outer side wall of the guide rail, the connecting block is sleeved on the surface of the fixing rod and is in sliding connection with the fixing rod, the connecting block extends towards the direction of the material conveying path, and the material blocking block is horizontally fixed on the connecting block.

Optionally, the material conveying table includes a platform conveying mechanism, the platform conveying mechanism includes a platform base, a speed reduction motor, a cardboard conveying belt, a sliding portal frame, a track fixing frame and at least two material blocking rails, the platform base is located on one side of the paper mounting conveying mechanism, the cardboard conveying belt is fixed on the top end of the platform base, the speed reduction motor is fixed on the platform base and is in driving connection with the cardboard conveying belt, two ends of the sliding portal frame are fixed on the platform base, a linear slide rail is arranged on the top frame of the sliding portal frame, a sliding block in sliding connection with the linear slide rail is arranged on the linear slide rail, the upper end of the track fixing frame is fixed on the sliding block, the lower end of the track fixing frame extends towards the direction of the cardboard conveying belt, and each material blocking rail is fixed on the lower end of the track fixing frame, and a paperboard conveying channel is arranged between the material blocking rails.

Optionally, the platform conveying mechanism further comprises a material distributing assembly, the material distributing assembly comprises a material distributing stopper, a limiting plate, a rear material stopping plate and a sliding rod, the material distributing stopper is fixed on the sliding block and extends towards the direction of the paperboard conveying channel, the material distributing stopper is located between the material blocking rails, the limiting plate is fixed on the rail fixing frame and located on one side of the material distributing stopper, a fixing shaft is arranged at the end of the platform seat, a material lifting block slidably connected with the fixing shaft is arranged on the surface of the fixing shaft, the sliding rod penetrates through the material lifting block and is slidably connected with the material lifting block, and the rear material stopping plate is fixed at one end, close to the material distributing stopper, of the sliding rod.

Optionally, the platform conveying mechanism further comprises a platform deviation rectifying assembly, the platform position rectifying assembly comprises a deviation rectifying cylinder and an adjusting plate, the deviation rectifying cylinder is fixed on the side wall of the material blocking rail, and the adjusting plate is fixed on a driving end of the deviation rectifying cylinder and located on one side of the paperboard conveying channel.

Optionally, mount paper conveying mechanism including mounting the paper rack and be fixed in the mounting paper conveyer belt at the top of mounting the paper rack, detection mechanism includes base, driving motor, lead screw, removal electric eye, electric eye seat and electric eye fixed block, the both ends of base are fixed in mount paper rack is last and position mount paper conveyer belt's top, driving motor is fixed in the surface of base, the lead screw is fixed in on driving motor's the spindle, electric eye fixed block cover is located the surface of lead screw, the upper end of electric eye seat is fixed in on the electric eye fixed block, the lower extreme of electric eye seat to the direction of mounting the paper conveyer belt extends, it is fixed in to remove the electric eye the lower extreme of electric eye seat.

Optionally, the detection mechanism further includes a guide pillar and a guide pillar fixing plate, the guide pillar fixing plate is fixed to the surface of the base, one end of the guide pillar is fixed to the driving motor, the other end of the guide pillar penetrates through the electric eye fixing block and is fixed to the guide pillar fixing plate, and the electric eye fixing block is slidably connected to the guide pillar.

The embodiment of the utility model provides a move above-mentioned one or more technical scheme in counterpoint rigging machine and have one of following technological effect at least: the movable alignment laminating machine is mainly applied to laminating work of paper and various paper boxes and various paperboards, the paper laminating conveying mechanism and the paperboard conveying mechanism respectively convey the paper and the paperboard, the grabbing mechanism grabs the paperboard on the paperboard conveying machine and places the paperboard on the surface of the paper to be laminated, so that the laminating between the paperboard and the paper can be realized, the movable alignment laminating machine is also provided with a detection mechanism and an adjustment controller, the adjustment controller calculates the offset and the rotation amount of the paper according to the position information and the angle information of the paper, and adjusts the laminating position and the laminating angle of the paperboard when the grabbing mechanism laminates the paperboard according to the offset and the rotation amount of the paper, so that the paperboard can be precisely laminated on the surface of the paper, the laminating precision between the paperboard and the paper is effectively improved, and the paperboard and the paper board are synchronously moved when the paperboard is laminated, the laminating efficiency of the cardboard can be promoted and the load of the driving mechanism can be lightened.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of a mobile alignment laminating machine provided in the embodiment of the present invention.

Fig. 2 is the embodiment of the utility model provides a remove platform conveying mechanism who counterpoints rigging machine hides the structural sketch map of platform seat.

Fig. 3 is a schematic structural view of a mobile alignment laminator according to another embodiment of the present invention.

Fig. 4 is a schematic structural view of a plate link chain conveying mechanism and a material grabbing mechanism of a mobile alignment laminating machine according to another embodiment of the present invention.

Fig. 5 is a schematic structural view of the concealed feeding base of the plate link chain conveying mechanism of the mobile alignment laminating machine provided by the embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a detection mechanism of a mobile alignment laminating machine according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

10-mounting paper conveying mechanism 11-mounting paper rack 12-mounting paper conveying belt

20-material conveying platform 21-plate chain conveying mechanism 22-feeding base

23-push-pull rod 24-drive assembly 25-guide rail

26-plate chain deviation rectifying assembly 27-material blocking assembly 28-material blocking assembly

29-protective cover 30-material grabbing mechanism 31-manipulator fixing seat

32-manipulator 40-adjusting controller 41-controller fixing frame

42-control screen 50-detection mechanism 51-base

52-driving motor 53-lead screw 54-movable electric eye

55-electric eye seat 56-electric eye fixing block 57-guide column

58-guide column fixing plate 60-platform conveying mechanism 61-platform base

62-gear motor 63-paperboard conveying belt 64-sliding portal frame

65-rail fixing frame 66-material blocking rail 67-material distributing assembly

68-platform deviation rectifying assembly 221-guide rail 222-roller shaft

223-guide rail fixing block 231-push block pushing block 241-direct current motor

242-chain wheel 251-material conveying channel 261-deviation correcting plate

262-deviation rectifying elastic sheet group 263-deviation rectifying elastic sheet 264-elastic sheet fixing plate

271-triaxial cylinder 272-cylinder fixing frame 273-material blocking plate

274-material blocking rod 281-fixed rod 282-connecting block

283-material blocking block 611-fixing shaft 612-material lifting block

641-linear slide rail 642-sliding block 661-paperboard conveying channel

671 Material distributing stopper 672, limiting plate 673 and rear striker plate

674-sliding rod 681-deviation rectifying cylinder 682-adjusting plate.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In an embodiment of the present invention, as shown in fig. 1 and 3 to 4, a mobile alignment laminating machine is provided, which includes a paper conveying mechanism 10, a material conveying table 20, a material grasping mechanism 30, an adjusting controller 40 and a detecting mechanism 50, wherein the paper conveying mechanism 10 is used for conveying paper, the material conveying table 20 is located at one side of the paper conveying mechanism 10 and is used for conveying paper boards, the material grasping mechanism 30 is fixed on the material conveying table 20 and is used for grasping the paper boards on the material conveying table 20, synchronously moving the grasped paper boards and the paper boards and laminating the paper boards, the adjusting controller 40 is fixed on the material conveying table 20 and is used for controlling the laminating position and the laminating angle when the material grasping mechanism 30 is laminated with the paper boards, the detecting mechanism 50 is fixed on the paper conveying mechanism 10 and is located in front of the material grasping mechanism 30, the detecting mechanism 50 is used for transmitting a deviation signal and a rotation angle signal of the deviation amount and the rotation amount of the backing paper on the backing paper conveying mechanism 10 to the adjusting controller 40.

Specifically, the mobile alignment laminating machine is mainly applied to laminating work of paper and various paper boxes and various paper boards, the paper laminating conveying mechanism 10 and the paper board conveying mechanism respectively convey the paper and the paper boards, the material grabbing mechanism 30 grabs the paper boards on the paper board conveying mechanism and places the paper boards on the surface of the paper to be laminated, so that the laminating between the paper boards and the paper boards can be realized, the mobile alignment laminating machine is further provided with a detection mechanism 50 and an adjustment controller 40, the adjustment controller 40 calculates offset and rotation of the paper boards according to position information and angle information of the paper boards, and adjusts the laminating position and laminating angle of the paper boards when the material grabbing mechanism 30 laminates the paper boards according to the offset and rotation of the paper boards, so that the paper boards can be precisely laminated on the surface of the paper boards, the laminating precision between the paper boards and the paper boards is effectively improved, and when the paper boards are laminated, the cardboard and the paper mounting move synchronously, so that the laminating efficiency of the cardboard can be improved, and the load of a driving mechanism can be reduced.

In this embodiment, further, the material grabbing mechanism 30 includes a manipulator fixing seat 31, a manipulator 32, and a material grabbing frame (not labeled in the figure) fixed at a grabbing end of the manipulator 32, the manipulator 32 is fixed on the frame of the material conveying platform 20, the manipulator 32 is fixed on the surface of the manipulator fixing seat, and the material grabbing frame can be selected according to the grabbed material.

In this embodiment, a controller fixing frame 41 is further disposed on a surface of the frame of the material conveying platform 20, the adjusting controller 40 is fixed on the controller fixing frame 41, a control screen 42 is disposed on a surface of the controller fixing frame 41, and the control screen 42 is electrically connected to the adjusting controller 40.

In another embodiment of the present invention, as shown in fig. 3 to 5, the material conveying platform 20 includes a plate chain conveying mechanism 21, the plate chain conveying mechanism 21 includes a feeding base 22, a push-pull rod 23, a driving assembly 24 and at least two guide rails 25, the feeding base 22 is located at one side of the mounting conveying mechanism 10, each guide rail 25 is perpendicular to the mounting conveying mechanism 10 and is fixed at two ends of the feeding base 22, the driving assembly 24 is fixed on a surface of the feeding base 22, the push-pull rod 23 is fixed on the driving assembly 24 and is located below each guide rail 25, the driving assembly 24 is used for driving the push-pull rod 23 to move back and forth towards the mounting conveying mechanism 10, a material conveying channel 251 is arranged between each push-pull rod 23, a plurality of pushing blocks 231 are arranged on the push-pull rod 23, each of the pusher blocks 231 is slidably connected to a surface of the push-pull rod 23 and extends in a direction toward the guide rail 25.

Specifically, the plate link chain conveying mechanism 21 is mainly suitable for conveying materials such as a top-to-bottom box, a slotted leather box and a broken plate leather box. During conveying, materials are located in the material conveying channel 251, two sides of the paper board are located on the surfaces of two adjacent guide rails 25 respectively, the lower surface of the box abuts against the top surface of the material pushing block 231, the driving assembly 24 drives the push-pull rod 23 to move back and forth, so that the push-pull block drives the box to move to one side of the material grabbing mechanism 30, the push-pull rod 23 returns to carry out next feeding after the material grabbing mechanism 30 grabs the materials, and the structure can facilitate feeding work of box bodies such as a ground box, a slotted leather box and a broken-plate leather box.

In this embodiment, further, one end of the supply base 22 is provided with a transverse guide rail 221 and a roller shaft 222, a slider is arranged on the transverse guide rail 221, a guide rail fixing block 223 is arranged on the lower surface of the guide rail 25, the guide rail fixing block 223 is sleeved on the surface of the roller shaft 222 and is fixedly connected with the slider, the guide rail fixing block 223 is slidably connected with the roller shaft 222, the roller shaft 222 is located at two ends of the supply base 22 and is rotatably connected with the supply base 22, and the above design can conveniently adjust the space between the guide rails 25, so that the plate chain conveying mechanism 21 is suitable for conveying different types of materials.

In this embodiment, the driving assembly 24 further includes a dc motor 241, a sprocket 242 and a chain (not shown), the dc motor 241 is fixed on the feeding base 22, the sprocket 242 is fixed on the surface of the roller shaft 222, the chain is sleeved on the surface of the sprocket 242, and the push-pull rod 23 is fixed on the sprocket 242. The above design can facilitate the reciprocating movement of the push-pull rod 23.

In this embodiment, further, the plate chain conveying mechanism 21 further includes a protective cover 29, and the protective cover 29 can protect the material grabbing mechanism 30 and the plate chain conveying mechanism 21.

In another embodiment of the utility model, as shown in fig. 3 ~ 5, flat-link chain conveying mechanism 21 still includes flat-link chain deviation rectifying component 26, flat-link chain deviation rectifying component 26 is including rectifying board 261 and rectifying elastic sheet group 262, each rectifying board 261 is equal vertical to be fixed in the surface of guided way 25, each rectifying elastic sheet group 262 all includes shell fragment fixed plate 264 and a plurality of shell fragment 263 of rectifying, shell fragment fixed plate 264 is located rectifying board 261 is close to one side of mounting paper conveying mechanism 10 and vertical being fixed in the surface of guided way 25, rectifying elastic sheet 263 align to grid in on the shell fragment fixed plate 264 and court the direction of mounting paper conveying mechanism 10 extends. Specifically, the number of the deviation rectifying plate 261 and the number of the deviation rectifying elastic sheet groups 262 are the same as the number of the guide rails 25, the deviation rectifying plate 261 can rectify the deviation of the material for one time, and when the deviation rectifying elastic sheet groups 262 pass through, the deviation rectifying plate can rectify the deviation for a second time under the elastic action of the deviation rectifying elastic sheets 263, so that the fitting precision between the material and the mounted paper is improved.

In another embodiment of the present invention, as shown in fig. 3 to 5, the plate link conveying mechanism 21 further includes a material blocking assembly 27, the material blocking assembly 27 includes a three-axis cylinder 271, a cylinder fixing frame 272, a material blocking plate 273 and a material blocking rod 274, the lower end of the cylinder fixing frame 272 is fixed on the outer side wall of the guide rail 25, the three-axis cylinder 271 is fixed on the upper end of the cylinder fixing frame 272, the material blocking plate 273 is horizontally fixed on the driving end of the three-axis cylinder 271 and extends towards the direction of the material conveying path 251, and the material blocking rod 274 is vertically fixed on the material blocking plate 273. Specifically, when the cardboard is conveyed by the plate link conveying mechanism 21 for one time too much to be grabbed by the grabbing mechanism 30, the three-axis cylinder 271 drives the material blocking rod 274 to move downwards and to abut against the side wall of the material such as the carton to block the material.

In another embodiment of the present invention, as shown in fig. 3 to 5, the plate chain conveying mechanism 21 further includes a material blocking assembly 28, the material blocking assembly 28 includes a fixing rod 281, a connecting block 282 and a material blocking block 283, the fixing rod 281 is vertically fixed on the outer side wall of the guide rail 25, the connecting block 282 is sleeved on the surface of the fixing rod 281 and slidably connected with the fixing rod 281, the connecting block 282 extends towards the direction of the material conveying path 251, and the material blocking block 283 is horizontally fixed on the connecting block 282. Specifically, when the material grabbing mechanism 30 grabs the material, there may be other materials, and the material blocking block 283 may block the other materials.

In another embodiment of the present invention, as shown in fig. 1-2, the material conveying platform 20 includes a platform conveying mechanism 60, the platform conveying mechanism 60 includes a platform base 61, a speed-reducing motor 62, a cardboard conveying belt 63, a sliding portal frame 64, a rail fixing frame 65 and at least two material blocking rails 66, the platform base 61 is located on one side of the paper conveying mechanism 10, the cardboard conveying belt 63 is fixed on the top end of the platform base 61, the speed-reducing motor 62 is fixed on the platform base 61 and is in driving connection with the cardboard conveying belt 63, two ends of the sliding portal frame 64 are fixed on the platform base 61, a linear sliding rail 641 is arranged on the top frame of the sliding portal frame 64, a sliding block 642 slidably connected with the linear sliding rail 641 is arranged on the linear sliding rail 641, the upper end of the rail fixing frame 65 is fixed on the sliding block 642, the lower end of the rail fixing frame 65 extends towards the direction of the paperboard conveying belt 63, each material blocking rail 66 is fixed at the lower end of the rail fixing frame 65, and a paperboard conveying channel 661 is arranged between the material blocking rails 66.

Specifically, in cardboard conveying way 661 is arranged in to the cardboard, cardboard conveyer belt 63 moved under gear motor 62's drive, platform seat 61 still is provided with gear motor 62 speed regulator, gear motor 62 speed regulator is located one side of gear motor carries the cardboard to one side of grabbing material mechanism 30 to grab grabbing of material mechanism 30, and through the sliding connection of track mount 65 and the roof-rack of slip portal frame 64, can change the distance between the material rail 66 that blocks, make platform conveying mechanism 60 be adapted to the transport of different kinds of cardboards.

In another embodiment of the present invention, as shown in fig. 1-2, the platform conveying mechanism 60 further comprises a material distributing assembly 67, the feed dividing assembly 67 comprises a feed dividing stopper 671, a limit plate 672, a rear striker plate 673 and a slide bar 674, the separating stopper 671 is fixed on the slide block 642 and extends toward the direction of the paper board conveying path 661, the material separating stopper 671 is located between the material blocking rails 66, the position limiting plate 672 is fixed on the rail fixing frame 65 and located at one side of the material separating stopper 671, a fixed shaft 611 is arranged at the end of the platform seat 61, a material lifting block 612 slidably connected with the fixed shaft 281 is arranged on the surface of the fixed shaft 611, the slide bar 674 passes through the lifter block 612 and is slidably connected to the lifter block 612, the rear striker plate 673 is fixed to an end of the slide bar 674 adjacent to the feed stop 671. Specifically, the cardboard is stacked between the limiting plate 672, and the limiting plate 672 can carry on spacingly to the left and right sides of cardboard, and the propelling movement of cardboard can be made things convenient for in back striker plate 673 and slide bar 674 design, divides material fender member 671 and can intercept upper strata cardboard, makes platform conveying mechanism 60 realize once only carrying bottom one deck cardboard.

The utility model discloses a further embodiment, as shown in fig. 1 ~ 2, platform conveying mechanism 60 still includes platform deviation rectification subassembly 68, platform positioning subassembly is including rectifying cylinder 681 and regulating plate 682, rectifying cylinder 681 is fixed in block on the lateral wall of material rail 66, regulating plate 682 is fixed in on rectifying cylinder 681's the drive end and being located one side of 661 is conveyed to the cardboard. Specifically, the platform conveying mechanism 60 can correct the deviation of the paperboard, so that the fit between the paperboard and the backing paper is more accurate.

In another embodiment of the present invention, as shown in fig. 1, 3 and 6, the mounting paper conveying mechanism 10 includes a mounting stand 11 and a mounting paper conveying belt 12 fixed to the top of the mounting stand 11, the detection mechanism 50 comprises a base 51, a driving motor 52, a screw 53, a movable electric eye 54, an electric eye seat 55 and an electric eye fixing block 56, the two ends of the base 51 are fixed on the paper mounting rack 11 and positioned above the paper mounting conveying belt 12, the driving motor 52 is fixed on the surface of the base 51, the lead screw 53 is fixed on the crankshaft of the driving motor 52, the electric eye fixing block 56 is sleeved on the surface of the screw rod 53, the upper end of the electric eye seat 55 is fixed on the electric eye fixing block 56, the lower end of the electric eye seat 55 extends towards the direction of the paper backing conveying belt 12, and the movable electric eye 54 is fixed at the lower end of the electric eye seat 55. Specifically, driving motor 52 starts to drive lead screw 53 and rotates to realize the horizontal migration that removes electric eye 54, through the removal detection that removes electric eye 54, can calculate the offset and the rotation volume of mounting paper accurately, provide convenience for the regulation of the laminating position of cardboard and laminating angle.

In this embodiment, as shown in fig. 1, 3 and 6, the detecting mechanism 50 further includes a guide post 57 and a guide post fixing plate 58, the guide post fixing plate 58 is fixed on the surface of the base 51, one end of the guide post 57 is fixed on the driving motor 52, the other end of the guide post 57 passes through the electric eye fixing block 56 and is fixed on the guide post fixing plate 58, and the electric eye fixing block 56 is slidably connected to the guide post 57. In particular, the design of the guide post 57 can facilitate the horizontal movement of the movable electric eye 54, and provide convenience for the movable electric eye 54 to detect the position and offset of the mounted paper.

In another embodiment of the present invention, as shown in fig. 1, fig. 3 and fig. 6, the detecting mechanism 50 further includes a guide post 57 and a guide post fixing plate 58, the guide post fixing plate 58 is fixed on the surface of the base 51, one end of the guide post 57 is fixed on the driving motor 52, the other end of the guide post 57 passes through the electric eye fixing block 56 and is fixed on the guide post fixing plate 58, and the electric eye fixing block 56 is slidably connected with the guide post 57. In particular, the design of the guide post 57 can facilitate the horizontal movement of the movable electric eye 54, and provide convenience for the movable electric eye 54 to detect the position and offset of the mounted paper.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a remove counterpoint rigging machine which characterized in that: the method comprises the following steps:

the paper mounting conveying mechanism is used for conveying the mounting paper;

the material conveying platform is positioned on one side of the paper mounting conveying mechanism and is used for conveying the paper boards;

the material grabbing mechanism is arranged on the material conveying table and used for grabbing the paperboard on the material conveying table and attaching the grabbed paperboard to the paper mounting on the paper mounting conveying mechanism;

the adjusting controller is mounted on the material conveying table and is used for controlling the attaching position and the attaching angle when the material grabbing mechanism is attached to the paperboard;

the detection mechanism is arranged on the paper mounting conveying mechanism and located in front of the material grabbing mechanism, and the detection mechanism is electrically connected with the adjusting controller and used for transmitting position information and angle information of the paper mounted on the paper mounting conveying mechanism to the adjusting controller.

2. The moving alignment laminator according to claim 1, wherein: the material conveying platform comprises a plate chain conveying mechanism, the plate chain conveying mechanism comprises a feeding base, a push-pull rod, a driving assembly and at least two guide rails, the feeding base is located on one side of the paper pasting conveying mechanism, the guide rails are perpendicular to the paper pasting conveying mechanism and fixed to two ends of the feeding base, the driving assembly is fixed to the surface of the feeding base, the push-pull rod is fixed to the driving assembly and located below the guide rails, the driving assembly is used for driving the push-pull rod to move back and forth towards the direction of the paper pasting conveying mechanism, a material conveying channel is arranged between the push-pull rods, a plurality of push block push blocks are arranged on the push-pull rod, and the push block push blocks are connected to the surface of the push-pull rod in a sliding mode and extend towards the direction of the guide rails.

3. The mobile aligning laminator according to claim 2, wherein: the plate link chain conveying mechanism still includes the plate link chain subassembly of rectifying, the plate link chain subassembly of rectifying is including rectifying the board and rectifying the shell fragment group, the board of rectifying is vertical to be fixed in the surface of guided way, the shell fragment group of rectifying includes shell fragment fixed plate and a plurality of shell fragments of rectifying, the shell fragment fixed plate is located the board of rectifying is close to mount one side of paper conveying mechanism and vertical being fixed in the surface of guided way, the shell fragment align to grid of rectifying in on the shell fragment fixed plate and court the direction of mounting paper conveying mechanism extends.

4. The mobile aligning laminator according to claim 2, wherein: the plate chain conveying mechanism further comprises a material blocking assembly, the material blocking assembly comprises a three-axis cylinder, a cylinder fixing frame, a material blocking plate and a material blocking rod, the lower end of the cylinder fixing frame is fixed on the outer side wall of the guide rail, the three-axis cylinder is fixed at the upper end of the cylinder fixing frame, the material blocking plate is horizontally fixed on the driving end of the three-axis cylinder and faces the direction of the material conveying channel, and the material blocking rod is vertically fixed on the material blocking plate.

5. The mobile aligning laminator according to claim 2, wherein: the plate chain conveying mechanism further comprises a material blocking assembly, the material blocking assembly comprises a fixing rod, a connecting block and a material blocking block, the fixing rod is vertically fixed on the outer side wall of the guide rail, the connecting block is sleeved on the surface of the fixing rod and is in sliding connection with the fixing rod, the connecting block extends towards the direction of the material conveying channel, and the material blocking block is horizontally fixed on the connecting block.

6. The moving alignment laminator according to claim 5, wherein: the material conveying platform comprises a platform conveying mechanism, the platform conveying mechanism comprises a platform base, a speed reducing motor, a paperboard conveying belt, a sliding portal frame, a rail fixing frame and at least two material blocking rails, the platform base is positioned at one side of the paper mounting and conveying mechanism, the paperboard conveying belt is fixed at the top end of the platform base, the speed reducing motor is fixed on the platform base and is in driving connection with the paperboard conveying belt, two ends of the sliding portal frame are fixed on the platform base, a linear slide rail is arranged on the top frame of the sliding portal frame, a sliding block which is connected with the linear slide rail in a sliding way is arranged on the linear slide rail, the upper end of the track fixing frame is fixed on the sliding block, the lower end of the track fixing frame extends towards the direction of the paperboard conveying belt, the material blocking rails are fixed at the lower end of the track fixing frame, and a paperboard conveying channel is arranged between the material blocking rails.

7. The moving alignment laminator according to claim 6, wherein: the platform conveying mechanism further comprises a material distributing assembly, the material distributing assembly comprises a material distributing stopper, limiting plates, a rear material stopping plate and a sliding rod, the material distributing stopper is fixed on the sliding block and extends towards the direction of the paperboard conveying channel, the material distributing stopper is located between the material blocking rails, the limiting plates are fixed on the rail fixing frame and located on one side of the material distributing stopper, a fixing shaft is arranged at the end of the platform seat, a material lifting block which is in sliding connection with the fixing shaft is arranged on the surface of the fixing shaft, the sliding rod penetrates through the material lifting block and is in sliding connection with the material lifting block, and the rear material stopping plate is fixed at one end, close to the material distributing stopper, of the sliding rod.

8. The moving alignment laminator according to claim 6, wherein: the platform conveying mechanism further comprises a platform deviation rectifying assembly, the platform deviation rectifying assembly comprises a deviation rectifying cylinder and an adjusting plate, the deviation rectifying cylinder is fixed on the side wall of the material blocking rail, and the adjusting plate is fixed on the driving end of the deviation rectifying cylinder and located on one side of the paperboard conveying channel.

9. The mobile aligning laminating machine according to any one of claims 1 to 8, wherein: mount paper conveying mechanism including mounting the paper rack and being fixed in the paper conveyer belt of mounting the top of paper rack, detection mechanism includes base, driving motor, lead screw, removal electric eye, electric eye seat and electric eye fixed block, the both ends of base are fixed in mount paper rack is last and be located mount paper conveyer belt's top, driving motor is fixed in the surface of base, the lead screw is fixed in driving motor's epaxial, electric eye fixed block cover is located the surface of lead screw, the upper end of electric eye seat is fixed in on the electric eye fixed block, the lower extreme of electric eye seat to the direction of mounting the paper conveyer belt extends, it is fixed in to remove the electric eye the lower extreme of electric eye seat.

10. The moving alignment laminator according to claim 9, wherein: the detection mechanism further comprises a guide pillar and a guide pillar fixing plate, the guide pillar fixing plate is fixed on the surface of the base, one end of the guide pillar is fixed on the driving motor, the other end of the guide pillar penetrates through the electric eye fixing block and is fixed on the guide pillar fixing plate, and the electric eye fixing block is connected with the guide pillar in a sliding mode.

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