CN222004618U - Full-automatic paper gluing composite die cutting equipment - Google Patents

Abstract

The utility model relates to the technical field of paper compounding equipment, and in particular to a fully automatic paper gluing compounding die-cutting equipment, comprising a plurality of groups of first frames connected in sequence, wherein an unwinding mechanism is arranged in the first frames, and gluing components are installed above the first frames from the first frame to the rear frame along the working direction of the assembly line, and a die-cutting mechanism is arranged at the end along the working direction of the assembly line, and a compounding component is arranged at one end of each gluing component close to the die-cutting mechanism, and transition rollers are arranged on the first frames, and the raw materials in the first frame along the working direction of the assembly line pass through the gluing components in sequence and are compounded with the raw materials in the front unwinding mechanism through the compounding components and then cut by the die-cutting mechanism. The beneficial effects of the utility model are: it can be fully automatically operated and can perform one-time forming work, and it has a simple structure and flexible operation, and it improves production efficiency and operation safety.

Description

Full-automatic paper gluing composite die cutting equipment

Technical Field

The utility model relates to the technical field of paper compounding equipment, in particular to full-automatic paper gluing compounding die cutting equipment.

Background

In the production process, some papers with thicker thickness are compounded by a plurality of thinner papers, when the papers are compounded, glue is coated on the papers for compounding, and when two papers are compounded, only one surface of one paper is required to be coated with glue.

The utility model provides a paper gluing mechanism of publication No. "CN 214812132U", includes first frame, rotates in the frame to be connected with the glue spreader to and drive glue spreader pivoted driving motor, glue spreader's below still is provided with the compression roller that cooperates it to compress tightly the paper, still the butt has rather than the axial parallel and turn to the opposite auxiliary roll on the glue spreader, still be fixed with in the frame to glue the glue spreader with carry glue's between the auxiliary roll send gluey mechanism, glue feeding mechanism is including supplying the gluey case, supplies to be provided with the heating wire in the gluey case, and supplies to be connected with the delivery hose including the first region of depositing clear water, depositing the second region of high concentration glue, and carry out the third region of delivering glue in the third region, be connected with the power pump on the delivery hose, the one end and the third region intercommunication of delivery hose, the other end is located glue spreader and the top of the position between the auxiliary roll, thereby can glue on the paper fast.

However, the document does not disclose how to glue and then compound a plurality of sheets of paper, and the document needs to manually place the paper to be glued on a placement platform, and each time, one side of the paper needs to be manually placed between a conveying roller and a driven roller, and automation is not fully realized yet.

In addition, the gluing component in the file is driven by the driving motor, so that the existing equipment occupies a larger space, and meanwhile, the motor-driven equipment is complex in structure and high in maintenance cost.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the full-automatic paper gluing compound die cutting equipment which is capable of reducing maintenance cost by a full-automatic integrated machine and aims to overcome the defects of the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a compound cross cutting equipment of full-automatic paper rubber coating, includes a plurality of first frames that connect gradually, its characterized in that: the first frame is middle to be put up the unreeling mechanism that rotatable set up, and the rubber coating subassembly is all installed to first frame top to the rear of first frame along assembly line direction of operation, is provided with die-cutting mechanism along the end of assembly line direction of operation, each the one end that the rubber coating subassembly is close to die-cutting mechanism is provided with compound subassembly, all be provided with in the first frame and guide the raw materials in the unreeling mechanism to the at least one set of transition roller of compound subassembly after the rubber coating in the rubber coating mechanism, the raw and other materials in the first frame of edge assembly line direction of operation pass through the rubber coating subassembly in proper order and with the raw and other materials in the place ahead unreel the mechanism through compound subassembly after the die-cutting mechanism cuts off.

The technical scheme is adopted: through the setting of a plurality of groups of first frames and unreeling mechanism and cross cutting mechanism, the quantity of unreeling mechanism is preferentially more than the quantity of first frames a set of, accomplishes full-automatic operation, one shot forming work such as the compound subassembly's of paper feeding, the rubber coating of rubber coating subassembly, compound subassembly and transportation, cross cutting mechanism from unreeling mechanism's, realizes simple structure, flexible operation, has improved production efficiency and the security of operation in proper order.

The utility model is further provided with the following steps: the unreeling mechanism comprises a first driving assembly and an unreeling shaft connected with the output end of the first driving assembly, raw materials to be processed are wound on the unreeling shaft, and one end, far away from the die cutting mechanism, of the first frame is provided with at least one group of first feeding rollers; the unreeling shaft enables raw materials to sequentially pass through the first feeding roller and the composite component through unreeling, and meanwhile the unreeling shaft adjacent to the unreeling shaft enables raw materials to sequentially pass through the transition roller, the gluing component and the composite component through unreeling, so that the composite component is enabled to enable the raw materials to be bonded and conveyed to the first feeding roller on the first rear frame to be compounded with paper again.

The technical scheme is adopted: in the use, the paper in the first group unreels mechanism loops through first feed roll and the compound subassembly in the first frame of first group, and the paper in the second group unreels mechanism loops through transition roll, rubber coating subassembly and compound subassembly, when the second group paper passed through the rubber coating subassembly, the paper one side rubberized to compound subassembly and first group paper carry to first feed roll and the compound subassembly in the first frame of second group after bonding, and the paper in the third group stock form loops through transition roll, rubber coating subassembly and the compound subassembly in the first frame of second group equally, carries after bonding with first, second group paper, so reciprocates paper bonding and carries.

The utility model is further provided with the following steps: the unreeling mechanism further comprises a first supporting frame, the first driving assembly is arranged on one side of the first supporting frame in a sliding mode, and a mounting frame capable of being mounted with the first supporting frame extends towards the unreeling shaft on one side, away from the first driving assembly, of the first supporting frame; the novel lifting device is characterized in that first guide rails are arranged on two sides of the bottom of the first driving assembly, sliding blocks are arranged on the first guide rails in a sliding mode, the other ends of the sliding blocks are fixedly connected with the first support frame, downward extending installation blocks are arranged between the first guide rails and the bottom of the first driving assembly, nuts are arranged in the installation blocks, screw rods are arranged in the nuts, one end of each screw rod is connected with a hand wheel, the screw rods penetrate through one side of the first support frame, and the hand wheels are located outside the first support frame.

The technical scheme is adopted: through the arrangement of the first support frame and the installation frame, the installation frame is preferably triangular, so that stability and firmness are improved, and the support effect of the raw materials can be improved when the raw materials are placed through the unreeling shaft; simultaneously through the setting of first guide rail, sliding block and screw rod, nut, be provided with screw rod nut transmission structure between first drive assembly and first support frame, when manual rotation hand wheel, can drive first drive assembly through the sliding block along first guide rail reciprocating motion through screw rod nut transmission structure to can improve the suitability between first drive assembly and the coiled material that waits to unreel.

The utility model is further provided with the following steps: the gluing assembly comprises a gluing roller, a pressing roller and a first air cylinder, wherein the gluing roller is arranged below the pressing roller, a first driving block is sleeved on two sides of the pressing roller, mounting side plates are respectively arranged on two sides of the first rack, a first sliding groove for mounting the first driving block is formed in each mounting side plate, an output shaft of the first air cylinder is connected with the top of each first driving block, and the first air cylinder can enable the first driving block to reciprocate along the first sliding groove, so that the pressing roller can approach and keep away from the gluing roller.

The technical scheme is adopted: through the arrangement of the glue spreader, the press roll, the first air cylinder and the first driving block, in the use process, paper is positioned between the glue spreader and the press roll for gluing and conveying, and through starting the first air cylinder, an output shaft of the first air cylinder drives the first driving block to reciprocate along the first sliding groove, so that the press roll can be close to and far away from the glue spreader, after the paper is pressed, glue is applied by cooperation between the first air cylinder and the press roll, and in addition, the paper is matched with the composite component, so that glue application is finished simultaneously in the conveying process; meanwhile, compared with the structure adopting the driving motor in the prior art, the arrangement of the first cylinder reduces the occupied space of the driving mechanism, and has simple structure and lower maintenance cost.

The utility model is further provided with the following steps: still be equipped with between first frame and the glue spreader and add gluey subassembly, add gluey subassembly including storing up gluey dish, adding gluey mouth and one end and storing up gluey dish and be connected, the other end is connected with adding gluey mouth's transmission tube, store up gluey dish and erect between the installation curb plate, and be located the glue spreader below, be equipped with the through-hole that supplies the transmission tube to pass on the installation curb plate.

The technical scheme is adopted: through the setting of adding the gluey subassembly, preferably, add the gluey mouth and be loudspeaker form, be convenient for artifical the gluing, flow into through transmission pipeline and store up in the gluey dish, can realize the rubber coating when unreeling mechanism makes paper pass through the rubber coating subassembly through unreeling to be convenient for follow-up and the place ahead unreel paper in the mechanism and adhere through composite assembly.

The utility model is further provided with the following steps: the compound subassembly includes conveying roller, compound compression roller and second cylinder, the conveying roller is located compound compression roller below, conveying roller one end is equipped with first driving motor, the cover is equipped with the second drive piece on compound compression roller both sides, be equipped with the second sliding tray that supplies the installation of second drive piece on the installation curb plate respectively, the output shaft and the second drive piece top of second cylinder are connected, the second cylinder can promote second drive piece along second sliding tray reciprocating motion to make compound compression roller can be close to and keep away from the conveying roller.

The technical scheme is adopted: through the setting of conveying roller, compound compression roller, second cylinder, first driving motor and second drive piece, in the use, two sets of papers can be located between conveying roller and the compound compression roller together, through starting the second cylinder, the output shaft of second cylinder drives second drive piece along second sliding tray reciprocating motion, makes compound compression roller can be close to and keep away from the conveying roller, cooperates between the two and realizes the bonding to the paper, and simultaneously first driving motor's setting realizes the rotation of conveying roller to realize the transport function to the paper.

The utility model is further provided with the following steps: and mounting vertical plates which extend towards two sides of the composite press roll are symmetrically arranged on one side, close to the composite press roll, of the second driving block, and auxiliary rolls are arranged between the corresponding mounting vertical plates on the second driving blocks on two sides.

The technical scheme is adopted: through setting up of installation riser and auxiliary roller, improve the transport function to the paper, make paper smoother in the transportation process, improve stability in use.

The utility model is further provided with the following steps: the die cutting mechanism comprises a second frame, a second supporting frame is arranged on one side, close to the first frame, of the second frame, and a second feeding roller and a conveying assembly are sequentially arranged on the second supporting frame; the conveying assembly is provided with a workbench on one side far away from the first rack, the conveying assembly can be mutually matched with the first rack to enable paper to be conveyed onto the workbench, the workbench is provided with a lower template for supporting the paper to be die-cut, a die cutter matched with the lower template is arranged above the lower template, and the top of the die cutter is connected with a pushing cylinder capable of driving the die cutter to move up and down to realize die cutting operation.

The technical scheme is adopted: through the setting of second frame, second support frame, second feed roller and conveying subassembly, when the paper passes through second feed roller and conveying subassembly in proper order from first frame department and reaches on the lower bolster on the workstation, start the pushing cylinder this moment, make the die-cutting rule be close to lower bolster direction until cutting the paper to realize the cross cutting operation, simple structure, the simple operation improves production efficiency simultaneously.

The utility model is further provided with the following steps: the middle part of the workbench is penetrated and provided with a feed opening, a transmission belt is arranged below the feed opening, a third support frame is arranged on the other side of the second rack, a second discharging roller and a waste roller are sequentially connected to the third support frame in a rotating mode, and a second driving assembly capable of driving the waste roller to rotate is connected to one end, close to the third support frame, of the waste roller

The technical scheme is adopted: through the arrangement of the blanking opening and the conveying belt, when the die cutting operation is completed on the paper by the die cutting rule, the cut material falls onto the conveying belt through the blanking opening and is conveyed to the next working procedure, so that the full automation degree is further improved, and the manual labor is reduced; in addition, through the setting of second discharging roller, waste material roller and second drive assembly, be convenient for to the collection of waste material, improve resource utilization.

The utility model is further provided with the following steps: the compound assembly at the tail end of the production line working direction comprises a conveying roller, a compound press roller, a second air cylinder and a conveying roller assembly, wherein the conveying roller is located below the compound press roller, the conveying roller assembly comprises a first conveying roller, a second conveying roller and a third air cylinder, one end of the second conveying roller is connected with a second driving motor capable of driving the second conveying roller to rotate, a linkage belt is arranged between the conveying roller and the second conveying roller, second driving blocks are respectively sleeved on two sides of the compound press roller and the first conveying roller, mounting side plates are respectively arranged on two sides of the first rack, second sliding grooves for mounting the second driving blocks are formed in the mounting side plates, an output shaft of the second air cylinder and an output shaft of the third air cylinder are connected with the top of the second driving blocks, the second driving blocks can be driven to reciprocate along the second sliding grooves, and a first rack is located between the conveying roller assembly and a die cutting mechanism and provided with a first discharging roller.

The technical scheme is adopted: through the arrangement of the conveying roller, the composite pressing roller, the second air cylinder, the third air cylinder, the first driving motor and the second driving block, in the use process, two groups of paper can be located between the conveying roller and the composite pressing roller together, meanwhile, the arrangement of the conveying roller assembly is added, after the paper is bonded through the composite assembly, the bonded paper can be conveyed between the conveying roller assemblies, and as one end of the second conveying roller is connected with the second driving motor capable of driving the second conveying roller to rotate, a linkage belt is arranged between the conveying roller and the second conveying roller, when the second driving motor is started to drive the second conveying roller to rotate, the conveying roller can be driven to rotate together through the linkage belt, so that the conveying function of the paper is guaranteed, and the conveying speed of the paper is improved; through the arrangement of the second driving block, after the second cylinder and the third cylinder are started, the output shaft of the second driving block can drive the correspondingly connected second driving block to reciprocate along the second sliding groove, so that the composite compression roller is driven to approach or depart from the conveying roller and the first transmission roller is driven to approach or depart from the second transmission roller, the paper is compressed, and the transmission effect is further improved; through the setting of first discharging roller to can lead the transportation to the paper, make the paper can transport to the cross cutting mechanism on, further improve the transportation to the paper.

The utility model is described in further detail below with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of a partial enlarged structure of the present utility model.

Fig. 3 is a schematic structural diagram of the glue spreading assembly and the composite assembly according to the present utility model.

Fig. 4 is a schematic structural diagram of the glue adding assembly of the present utility model.

Fig. 5 is a schematic structural view of the unreeling mechanism of the present utility model.

FIG. 6 is a schematic view of a die cutting mechanism according to the present utility model.

FIG. 7 is a schematic view of the internal structure of the die cutting mechanism of the present utility model.

Fig. 8 is a schematic structural diagram of a composite component according to embodiment 3 of the present utility model.

Description of the reference numerals: the first frame 1, the mounting side plate 11, the first sliding groove 111, the second sliding groove 112, the first discharging roller 113, the through hole 114, the first feeding roller 2, the glue assembly 3, the pressing roller 31, the first driving block 311, the glue roller 32, the first cylinder 33, the glue assembly 34, the glue storage plate 341, the glue adding port 342, the transfer pipe 343, the transition roller 4, the composite assembly 5, the conveying roller 51, the first driving motor 511, the composite pressing roller 52, the second driving block 521, the mounting vertical plate 521a, the auxiliary roller 521b, the second cylinder 53, the conveying roller assembly 54, the first conveying roller 541, the second conveying roller 542, the second driving motor 542a, the linkage belt 542b, the third cylinder 543, the unreeling mechanism 6, the first driving assembly 61, the first guide rail 611, the sliding block 612, the mounting block 613, the nut 613a, the screw 613b, the hand wheel 613c, the unreeling shaft 62, the first supporting frame 63, the 631, the mechanism 7, the second frame 71, the second supporting frame 711, the second feeding roller 712, the conveying assembly b, the conveying assembly 716b, the workbench, the blanking table 716b, the second supporting frame 716b, the die cutting frame 716b, the die-cutting frame 716b, the second die-cutting frame 716b, the third driving frame 716b, the die-cutting frame 713 b, the die-cutting frame 716 b.

Detailed Description

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Example 1: the full-automatic paper gluing compound die cutting equipment comprises a plurality of groups of first frames 1 which are sequentially connected, a rotatably arranged unreeling mechanism 6 is arranged in each first frame 1, gluing components 3 are arranged above the first frames 1 from the first frame 1 to the rear along the working direction of the assembly line, die cutting mechanisms 7 are arranged at the tail ends of the first frames 1 along the working direction of the assembly line, compound components 5 are arranged at one ends, close to the die cutting mechanisms 7, of each gluing component 3, at least one group of transition rollers 4 which guide raw materials in the unreeling mechanism 6 to the gluing mechanisms and then pass through the compound components 5 are arranged on each first frame 1, raw materials in the first frames 1 along the working direction of the assembly line sequentially pass through the gluing components 3 and are cut off through the die cutting mechanisms 7 after being compounded with raw materials in the unreeling mechanism 6 at the front through the compound components 5.

The unreeling mechanism 6 shown in fig. 1, 2 and 5 comprises a first driving component 61, an unreeling shaft 62 connected with the output end of the first driving component 61 and a first supporting frame 63, raw materials to be processed are wound on the unreeling shaft 62, and one end of the first frame 1 far away from the die cutting mechanism 7 is provided with at least one group of first feeding rollers 2; the unreeling shaft 62 sequentially passes through the first feeding roller 2 and the composite assembly 5 through unreeling, and meanwhile, the unreeling shaft 62 adjacent to the unreeling shaft sequentially passes through the transition roller 4, the gluing assembly 3 and the composite assembly 5 through unreeling, so that the composite assembly 5 can enable the raw materials to be adhered and conveyed to the first feeding roller 2 on the next group of first frames 1 for paper recombination again; the first driving assembly 61 is slidably disposed on one side of the first supporting frame 63 as shown in fig. 5, and one side of the first supporting frame 63 away from the first driving assembly 61 extends toward the unreeling shaft 62 with a mounting bracket 631 capable of being mounted thereto; the first drive assembly 61 bottom both sides are equipped with first guide rail 611, slide on the first guide rail 611 and be equipped with the sliding block 612, the sliding block 612 other end and first support frame 63 fixed connection, first drive assembly 61 bottom just be equipped with downwardly extending's installation piece 613 between first guide rail 611, be equipped with nut 613a in the installation piece 613, be equipped with screw 613b in the nut 613a, screw 613b one end is connected with hand wheel 613c, and screw 613b wears to establish on first support frame 63 one side, hand wheel 613c is located outside first support frame 63, when hand wheel 613c is rotated to the manual, through the setting of screw nut transmission structure, can make first drive assembly 61 follow first guide rail 611 reciprocating motion through sliding block 612, thereby can improve the suitability between first drive assembly 61 and the coiled material that waits to blow.

The glue spreading assembly 3 shown in fig. 1-3 comprises a glue spreading roller 32, a press roller 31 and a first air cylinder 33, wherein the glue spreading roller 32 is arranged below the press roller 31, first driving blocks 311 are sleeved on two sides of the press roller 31, mounting side plates 11 are respectively arranged on two sides of the first frame 1, first sliding grooves 111 for mounting the first driving blocks 311 are formed in the mounting side plates 11, an output shaft of the first air cylinder 33 is connected with the top of the first driving blocks 311, and the first air cylinder 33 can promote the first driving blocks 311 to reciprocate along the first sliding grooves 111, so that the press roller 31 can approach and separate from the glue spreading roller 32, and the two can cooperate to glue paper; as shown in fig. 4, a glue adding assembly 34 is further disposed between the first frame 1 and the glue spreader 32, the glue adding assembly 34 includes a glue storage plate 341, a glue adding opening 342, and a transmission tube 343 with one end connected to the glue storage plate 341 and the other end connected to the glue adding opening 342, the glue storage plate 341 is erected between the mounting side plates 11 and located below the glue spreader 32, and a through hole 114 through which the transmission tube 343 passes is disposed on the mounting side plates 11, preferably, the glue adding opening 342 is in a horn shape, so as to facilitate manual glue adding.

The composite assembly 5 shown in fig. 1-3 comprises a conveying roller 51, a composite pressing roller 5231 and a second air cylinder 53, wherein the conveying roller 51 is positioned below the composite pressing roller 5231, one end of the conveying roller 51 is provided with a first driving motor 511, two sides of the composite pressing roller 5231 are sleeved with second driving blocks 521, mounting side plates 11 are respectively provided with second sliding grooves 112 for mounting the second driving blocks 521, an output shaft of the second air cylinder 53 is connected with the top of the second driving blocks 521, the second air cylinder 53 can promote the second driving blocks 521 to reciprocate along the second sliding grooves 112, so that the composite pressing roller 5231 can approach and separate from the conveying roller 51, the two can be matched to bond paper, and meanwhile, the first driving motor 511 is arranged to realize the rotation of the conveying roller 51, so that the conveying function of paper is realized. As shown in fig. 3, the second driving blocks 521 are symmetrically provided with mounting risers 521a extending to two sides of the composite pressing roller 5231 on one side close to the composite pressing roller 5231, and auxiliary rollers 521b are provided between the mounting risers 521a corresponding to each other on the second driving blocks 521 on two sides, so as to further improve the paper conveying function.

In the use process of the utility model, the paper in the first group unreeling mechanism 6 sequentially passes through the first feeding roller 2 and the compound component 5 on the first group of first frames 1, the paper in the second group unreeling mechanism 6 sequentially passes through the transition roller 4, the gluing component 3 and the compound component 5, when the second group of paper passes through the gluing component 3, one side of the paper is glued to the compound component 5 to be adhered with the first group of paper and then is conveyed to the first feeding roller 2 and the compound component 5 on the second group of first frames 1, and the paper in the third group of paper also sequentially passes through the transition roller 4, the gluing component 3 and the compound component 5 on the second group of first frames 1 and then is conveyed after being adhered with the first group of paper and the second group of paper, and the paper is adhered and conveyed in a reciprocating manner.

Example 2: as shown in fig. 6 to 7, the structure of the embodiment 2 is basically the same as that of the embodiment 1, except that the die cutting mechanism 7 includes a second frame 71, a second supporting frame 711 is provided on a side of the second frame 71 adjacent to the first frame 1, and a second feeding roller 711a and a conveying assembly 711b are sequentially provided on the second supporting frame 711; a workbench 712 is arranged on one side of the conveying component 711b far away from the first rack 1, the conveying component 711b can be mutually matched with the first rack 1 so as to promote paper to be conveyed onto the workbench 712, a lower template 712a for supporting the paper to be die-cut is arranged on the workbench 712, a die cutter 713 matched with the lower template 712a is arranged above the lower template 712a, a pushing cylinder 714 capable of driving the die cutter 713 to move up and down to realize die-cutting operation is connected to the top of the die cutter 713, a blanking opening 712b is arranged in the middle of the workbench 712 in a penetrating manner, a conveying belt 715 is arranged below the blanking opening 712b, and when the die cutter 713 completes die-cutting operation on the paper, cut materials fall onto the conveying belt 715 through the blanking opening 712b and are conveyed to the next procedure, so that the degree of full automation is further improved, and the manual labor is reduced;

A third supporting frame 716 is arranged on the other side of the second frame 71 as shown in fig. 7, a second discharging roller 716a and a waste roller 716b are sequentially connected on the third supporting frame 716 in a rotating way, so that the collection of waste materials is facilitated, the resource utilization rate is improved, a second driving component 716c capable of driving the waste roller 716b to rotate is connected at one end, close to the third supporting frame 716,

Example 3: as shown in fig. 8, the structure of embodiment 3 is basically the same as that of embodiment 1, except that the composite assembly 5 at the tail end of the working direction of the production line includes a conveying roller 51, a composite pressing roller 5231, a second cylinder 53 and a conveying roller assembly 54, the conveying roller 51 is located below the composite pressing roller 5231, the conveying roller assembly 54 includes a first conveying roller 541, a second conveying roller 542 and a third cylinder 543, one end of the second conveying roller 542 is connected with a second driving motor 542a capable of driving the conveying roller to rotate, a linkage belt 542b is disposed between the conveying roller 51 and the second conveying roller 542, the two sides of the composite pressing roller 5231 and the first conveying roller 541 are respectively sleeved with a second driving block 521, two sides of the first frame 1 are respectively provided with a mounting side plate 11, an output shaft of the second cylinder 53 and an output shaft of the third cylinder 543 are connected with the top of the second driving block 521, the second cylinder 53 can promote the second driving block 521 to reciprocate along the second sliding groove 112, and the first frame 1 is located between the conveying roller assembly 54 and the first frame 7 and the first frame 113 is provided with a linkage belt 542b, and when the second driving roller 542b is driven to rotate, and the second driving roller 542b can rotate together, and the conveying belt 542b can be driven to rotate, and the conveying belt is guaranteed.

Claims (10)

1. The utility model provides a compound cross cutting equipment of full-automatic paper rubber coating, includes a plurality of first frames that connect gradually, its characterized in that: the first frame is middle to be put up the unreeling mechanism that rotatable set up, and the rubber coating subassembly is all installed to first frame top to the rear of first frame along assembly line direction of operation, is provided with die-cutting mechanism along the end of assembly line direction of operation, each the one end that the rubber coating subassembly is close to die-cutting mechanism is provided with compound subassembly, all be provided with in the first frame and guide the raw materials in the unreeling mechanism to the at least one set of transition roller of compound subassembly after the rubber coating in the rubber coating mechanism, the raw and other materials in the first frame of edge assembly line direction of operation pass through the rubber coating subassembly in proper order and with the raw and other materials in the place ahead unreel the mechanism through compound subassembly after the die-cutting mechanism cuts off.

2. The fully automatic paper gumming composite die cutting equipment as set forth in claim 1, wherein: the unreeling mechanism comprises a first driving assembly and an unreeling shaft connected with the output end of the first driving assembly, raw materials to be processed are wound on the unreeling shaft, and one end, far away from the die cutting mechanism, of the first frame is provided with at least one group of first feeding rollers; the unreeling shaft enables raw materials to sequentially pass through the first feeding roller and the composite component through unreeling, and meanwhile the unreeling shaft adjacent to the unreeling shaft enables raw materials to sequentially pass through the transition roller, the gluing component and the composite component through unreeling, so that the composite component is enabled to enable raw materials to be bonded and conveyed to the first feeding roller on the next group of first frames to be compounded with paper again.

3. The fully automatic paper gumming composite die cutting equipment as set forth in claim 2, wherein: the unreeling mechanism further comprises a first supporting frame, the first driving assembly is arranged on one side of the first supporting frame in a sliding mode, and a mounting frame capable of being mounted with the first supporting frame extends towards the unreeling shaft on one side, away from the first driving assembly, of the first supporting frame; the novel lifting device is characterized in that first guide rails are arranged on two sides of the bottom of the first driving assembly, sliding blocks are arranged on the first guide rails in a sliding mode, the other ends of the sliding blocks are fixedly connected with the first support frame, downward extending installation blocks are arranged between the first guide rails and the bottom of the first driving assembly, nuts are arranged in the installation blocks, screw rods are arranged in the nuts, one end of each screw rod is connected with a hand wheel, the screw rods penetrate through one side of the first support frame, and the hand wheels are located outside the first support frame.

4. A fully automatic paper gumming compound die cutting device according to claim 1 or 2 or 3, characterized in that: the gluing assembly comprises a gluing roller, a pressing roller and a first air cylinder, wherein the gluing roller is arranged below the pressing roller, a first driving block is sleeved on two sides of the pressing roller, mounting side plates are respectively arranged on two sides of the first rack, a first sliding groove for mounting the first driving block is formed in each mounting side plate, an output shaft of the first air cylinder is connected with the top of each first driving block, and the first air cylinder can enable the first driving block to reciprocate along the first sliding groove, so that the pressing roller can approach and keep away from the gluing roller.

5. The fully automatic paper gumming composite die cutting equipment as set forth in claim 4, wherein: still be equipped with between first frame and the glue spreader and add gluey subassembly, add gluey subassembly including storing up gluey dish, adding gluey mouth and one end and storing up gluey dish and be connected, the other end is connected with adding gluey mouth's transmission tube, store up gluey dish and erect between the installation curb plate, and be located the glue spreader below, be equipped with the through-hole that supplies the transmission tube to pass on the installation curb plate.

6. The fully automatic paper gumming composite die cutting equipment as set forth in claim 4, wherein: the compound subassembly includes conveying roller, compound compression roller and second cylinder, the conveying roller is located compound compression roller below, conveying roller one end is equipped with first driving motor, the cover is equipped with the second drive piece on compound compression roller both sides, be equipped with the second sliding tray that supplies the installation of second drive piece on the installation curb plate respectively, the output shaft and the second drive piece top of second cylinder are connected, the second cylinder can promote second drive piece along second sliding tray reciprocating motion to make compound compression roller can be close to and keep away from the conveying roller.

7. The fully automatic paper gumming composite die cutting equipment as set forth in claim 6, wherein: and mounting vertical plates which extend towards two sides of the composite press roll are symmetrically arranged on one side, close to the composite press roll, of the second driving block, and auxiliary rolls are arranged between the corresponding mounting vertical plates on the second driving blocks on two sides.

8. The fully automatic paper gumming composite die cutting equipment as set forth in claim 1, wherein: the die cutting mechanism comprises a second frame, a second supporting frame is arranged on one side, close to the first frame, of the second frame, and a second feeding roller and a conveying assembly are sequentially arranged on the second supporting frame; the conveying assembly is provided with a workbench on one side far away from the first rack, the conveying assembly can be mutually matched with the first rack to enable paper to be conveyed onto the workbench, the workbench is provided with a lower template for supporting the paper to be die-cut, a die cutter matched with the lower template is arranged above the lower template, and the top of the die cutter is connected with a pushing cylinder capable of driving the die cutter to move up and down to realize die cutting operation.

9. The fully automatic paper gumming composite die cutting equipment as set forth in claim 8, wherein: the middle part of the workbench is penetrated and provided with a feed opening, a transmission belt is arranged below the feed opening, a third support frame is arranged on the other side of the second rack, a second discharging roller and a waste roller are sequentially connected to the third support frame in a rotating mode, and a second driving assembly capable of driving the waste roller to rotate is connected to one end, close to the third support frame, of the waste roller.

10. The fully automatic paper gumming composite die cutting equipment as set forth in claim 1, wherein: the compound assembly at the tail end of the production line working direction comprises a conveying roller, a compound press roller, a second air cylinder and a conveying roller assembly, wherein the conveying roller is located below the compound press roller, the conveying roller assembly comprises a first conveying roller, a second conveying roller and a third air cylinder, one end of the second conveying roller is connected with a second driving motor capable of driving the second conveying roller to rotate, a linkage belt is arranged between the conveying roller and the second conveying roller, second driving blocks are respectively sleeved on two sides of the compound press roller and the first conveying roller, mounting side plates are respectively arranged on two sides of the first rack, second sliding grooves for mounting the second driving blocks are formed in the mounting side plates, an output shaft of the second air cylinder and an output shaft of the third air cylinder are connected with the top of the second driving blocks, the second driving blocks can be driven to reciprocate along the second sliding grooves, and a first rack is located between the conveying roller assembly and a die cutting mechanism and provided with a first discharging roller.