CN212449659U - Automatic stacking system for multiple-specification bonding sheets - Google Patents

Abstract

The utility model provides an automatic superpose system of many specifications bonding sheet, includes that polytetrafluoroethylene membrane cuts device, polypropylene membrane cuts device, delivery track, transport vechicle, the transport vechicle drive arrangement that can move on this delivery track, is located the transfer station of a side of delivery track to and control system, the pallet has on the transport vechicle, polypropylene membrane cuts the device setting and is in polytetrafluoroethylene membrane cuts the both sides of device, is located the polypropylene membrane of polytetrafluoroethylene membrane cuts the device of the both sides of device and cuts the device and connect through connecting the guide rail, the delivery track is for being located the below of connecting the guide rail and entering polytetrafluoroethylene membrane cuts the device below. Therefore, the invention has the advantages of faster stacking, better stacking effect and higher efficiency.

Description

Automatic stacking system for multiple-specification bonding sheets

Technical Field

The utility model relates to an automatic superpose equipment field especially relates to an automatic superpose system of many specifications bonding piece.

Background

At present, when polypropylene films and polytetrafluoroethylene films of different specifications are stacked, the stacking is carried out manually, and the specific process is that a polypropylene film is taken out from the polypropylene film and stacked on a pallet or a stacking table, and then the polytetrafluoroethylene film is taken out from the polytetrafluoroethylene film which is cut into sheets in advance and stacked orderly, and stacked on the polypropylene film, and the polypropylene films and the polytetrafluoroethylene films of different thicknesses are stacked in such a way. However, the manual stacking method has the following defects in the use process: manually taking out one polypropylene film from the superposed polypropylene films, the polypropylene films are easy to be taken out at one time and are connected together, the polypropylene films are easy to be polluted, and the polypropylene films can not be regularly superposed when being placed on a pallet; the manual cutting of the polytetrafluoroethylene film is slow in cutting speed and large in cutting error, the error of the edge size of the cut polytetrafluoroethylene film is large, the cutting effect is poor, and the cutting efficiency is low. The efficiency of the whole stacking is low, and the requirement of mass production is difficult to meet.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention provides a system for automatically superposing multiple sheets of multiple specifications, which can achieve faster superposition, better superposition effect, and higher efficiency, to the society.

The utility model also provides a process flow of the automatic superpose system of many specifications bonding sheet that superpose that can be faster, that the superpose effect is better, efficiency is higher.

The technical scheme of the utility model is that: the utility model provides an automatic superpose system of many specifications bonding sheet, including polytetrafluoroethylene membrane burst device, polypropylene membrane burst device, delivery track, can be at the delivery wagon of this delivery track operation, be used for driving the delivery wagon drive arrangement of delivery wagon motion, be located the transfer station of delivery track's one end to and be used for controlling the control system of above device work, the pallet has on the delivery wagon, polypropylene membrane burst device sets up polytetrafluoroethylene membrane burst device's both sides are located the polypropylene membrane burst device of polytetrafluoroethylene membrane burst device's both sides is through connecting the guide rail and connecting, the delivery track is for being located the below of connecting the guide rail and entering polytetrafluoroethylene membrane burst device's below.

As the utility model discloses an improvement, transfer station including the transfer support body that link up around, be located internal transfer platform, the fork of transfer support to and be used for driving the fork drive arrangement that the fork horizontal direction removed.

As an improvement of the utility model, polytetrafluoroethylene membrane burst device includes the frame, is equipped with first branch and cuts the main part in one side of frame, first branch cuts the main part and includes that the first unit, first pay-off unit, first cutter unit, first pressing material unit, first pressure material unit, drawing material unit and the lift unit of unreeling that arranges the setting in proper order in the frame, the last first guide rail that is equipped with of lift unit, first pressing material unit, drawing material unit setting are in on the first guide rail of lift unit, first pressing material unit and drawing material unit can move along the horizontal direction on the first guide rail, just first pressing material unit, first pressing material unit and drawing material unit can by the lift unit drives and realizes ascending or descending.

As the utility model discloses an improvement, first unit of unreeling installs including unreeling the frame unreeling the motor and a plurality of backing roll unreel that unreel the roller on the frame, be connected with unreeling the roller, it is used for the drive to unreel the motor thereby unreel the roller and realize that the material unreels, and is a plurality of the backing roll is used for supporting the material after unreeling.

As an improvement of the utility model, first pay-off unit includes a drive arrangement, second guide rail, first support, is located first clamp flitch, the delivery sheet on the first support to and press from both sides the material cylinder, first support is located on the second guide rail, and can move along the second guide rail under a drive arrangement's the effect, first clamp flitch is located the top of delivery sheet, it is used for the drive to press from both sides the material cylinder first clamp flitch rises or descends, thereby adjusts first clamp flitch with the delivery sheet is at the interval of vertical direction.

As the utility model discloses an improvement, polypropylene membrane burst device includes the body frame body, and at the internal main part support of cutting, inhale material burst group, X axle guide rail, X axle drive arrangement that is equipped with of body frame to and Y axle guide shaft and Y axle drive arrangement, X axle guide rail (setting on body frame body upper portion, cut the main part support mounting and be in on the X axle guide rail, Y axle guide shaft is installed cut on the main part support, it sets up to inhale the material burst group Y axle guide shaft is last, and can by Y axle drive arrangement can drive it follows to inhale the material burst group Y axle guide shaft reciprocates, cut the main part support can by thereby X axle drive arrangement drive removes along X axle guide rail.

As an improvement of the utility model, the utility model also comprises a static removing device which is arranged on one side of the bottom of the material sucking and separating sheet group.

As an improvement of the utility model, inhale material burst group and set up the first sucking disc of a plurality of rows in burst support bottom including burst support and range.

As the utility model discloses an improve being close to of burst support bottom static-removing device's one end is equipped with one row of second sucking disc, every the second sucking disc correspondence sets up a fourth cylinder, every the second sucking disc that the fourth cylinder drive corresponds is along vertical direction up-and-down motion.

The utility model discloses an another technical scheme is: the utility model provides an automatic superimposed system's of many specifications bonding piece process flow, polytetrafluoroethylene membrane burst device is with polytetrafluoroethylene membrane burst, and the delivery wagon removes to the below of polytetrafluoroethylene membrane burst device along transfer orbit, polytetrafluoroethylene membrane burst device is with polytetrafluoroethylene membrane superpose on the pallet of delivery wagon, polypropylene membrane burst device absorbs a polypropylene film, the delivery wagon removes to the below of connecting guide rail along transfer orbit, polypropylene membrane burst device is with polypropylene membrane superpose on the polytetrafluoroethylene membrane on the pallet, treats that the membrane superpose on the pallet is after predetermined thickness, the delivery wagon removes to the transfer station along transfer orbit and changes the pallet.

The utility model discloses owing to including polytetrafluoroethylene membrane burst device, polypropylene membrane burst device, delivery track, can be on this delivery track transport vechicle, be used for driving the delivery wagon drive arrangement of delivery wagon motion, be located the transfer station of delivery track's one end to and be used for controlling the control system of above device work, the pallet has on the delivery wagon, polypropylene membrane burst device sets up polytetrafluoroethylene membrane burst device's both sides are located the polypropylene membrane burst device of polytetrafluoroethylene membrane burst device's both sides is connected through connecting the guide rail, the delivery track is for being located the below of connecting the guide rail and entering polytetrafluoroethylene membrane burst device's below. The utility model discloses when using, every polypropylene membrane burst device is used for cutting the polypropylene membrane of different specifications, the delivery wagon removes along delivery track under delivery wagon drive arrangement's effect, removes polytetrafluoroethylene membrane burst device, polypropylene membrane burst device according to the superpose order under, and on the delivery wagon stack board will be cut by each device to the membrane that will cut, the stack board stacks the back delivery wagon and removes the transfer platform position, changes empty stack board to the delivery wagon by the transfer platform. The utility model discloses according to the superpose order, the delivery wagon removes corresponding position and carries out the superpose, for the manual operation among the prior art, the utility model has the advantages of superpose that can be faster, superpose effect better, efficiency is higher.

Drawings

Fig. 1 is a schematic plan view of an embodiment of the present invention.

Fig. 2 is a schematic perspective view of fig. 1.

Fig. 3 is a perspective schematic view of the conveyor car of fig. 1 on a conveying track.

Fig. 4 is a schematic perspective view of the transfer station of fig. 1.

Fig. 5 is a schematic perspective view of the teflon membrane separation device in fig. 1.

Fig. 6 is a perspective view of fig. 5 from another perspective.

Fig. 7 is a schematic perspective view of the first unwinding unit in fig. 5.

Fig. 8 is a schematic perspective view of the first feeding unit in fig. 5.

Fig. 9 is a perspective view of the first cutter unit in fig. 5.

Fig. 10 is a schematic perspective view of the first material clamping unit in fig. 5.

Fig. 11 is a schematic perspective view of the first pressing unit in fig. 5.

Fig. 12 is a schematic perspective view of the drawing unit in fig. 5.

Fig. 13 is a perspective view of a pair of polypropylene film slicing apparatus connected by a connecting rail in fig. 1.

Fig. 14 is a schematic perspective view of the polypropylene film sucked in fig. 13.

Fig. 15 is a schematic structural view of the second suction cup in the material sucking and separating group in fig. 13 after sucking up the material.

Fig. 16 is a schematic view of the static eliminator in fig. 13 in operation.

Fig. 17 is a stacking pattern of the first embodiment in the process flow of the multi-gauge bonding sheet automatic stacking system.

Fig. 18 is a stacking pattern of the second embodiment in the process flow of the multiple gauge bonding sheet automatic stacking system.

Fig. 19 is a stacking pattern of the third embodiment in the process flow of the multiple gauge bonding sheet automatic stacking system.

Fig. 20 is a stacking pattern of the third embodiment in the process flow of the multiple gauge bonding sheet automatic stacking system.

Detailed Description

Referring to fig. 1 to 4, fig. 1 to 4 disclose an embodiment of an automatic stacking system for multi-specification adhesive sheets, which includes a teflon film separating device 1, a polypropylene film separating device 900, a conveying track 92, a conveying vehicle 93 capable of running on the conveying track 92, a conveying vehicle driving device 94, a transfer station 95 located at one side end of the conveying track 92, and a control system (not shown) for controlling the operation of the above devices, the transport vehicle 93 having a pallet 931 thereon, the polypropylene film slicing devices 900 are arranged at two sides of the polytetrafluoroethylene film slicing device 1, the polypropylene film slicing devices 900 at two sides of the polytetrafluoroethylene film slicing device 1 are connected through a connecting guide rail 90, the conveying track 92 is positioned below the connecting guide rail 90 and enters the lower part of the polytetrafluoroethylene film slicing device 1. The utility model discloses when using, every polypropylene membrane burst device is used for cutting the polypropylene membrane of different specifications, the delivery wagon removes along delivery track under delivery wagon drive arrangement's effect, removes polytetrafluoroethylene membrane burst device, polypropylene membrane burst device according to the superpose order under, and on the delivery wagon stack board will be cut by each device to the membrane that will cut, the stack board stacks the back delivery wagon and removes the transfer platform position, changes empty stack board to the delivery wagon by the transfer platform.

The utility model discloses in, it is concrete, transfer station 95 including the front and back through transfer support body 951, be located transfer platform 950, the fork 952 of transfer support body 951 to and be used for driving the fork drive arrangement that fork 952 horizontal direction removed. The pallet 931 on the transport vehicle 93 is moved to the transfer station 95 after being fully stacked with materials, the fork driving device drives the forks 952 on the transfer station 95 to extend, the pallet 931 on the transport vehicle 93 is taken out and placed on the transfer table 950, the stacker then takes the pallet 931 fully stacked with materials from the other end of the transfer table 950, the empty pallet 931 is placed back on the transfer table 950, and the fork 952 places the empty pallet 931 on the transport vehicle 93.

The utility model discloses in, it is concrete, delivery wagon drive arrangement 94 is rack and pinion structure.

Referring to fig. 5 to 6, fig. 5 to 6 disclose a teflon membrane separation device of the present invention, which comprises a frame 10, a first cutting main body 11 is arranged on one side of the frame 10, the first cutting main body 11 comprises a first unreeling unit 21, a first feeding unit 31, a first cutter unit 41, a first clamping unit 51, a first pressing unit 61, a pulling unit 7 and a lifting unit which are sequentially arranged on the frame 10, the lifting unit is provided with a first guide rail 81, the first material clamping unit 51, the first material pressing unit 61 and the material pulling unit 7 are arranged on the first guide rail 81 of the lifting unit, the first clamping unit 51, the first pressing unit 61 and the pulling unit 7 can move on the first guide rail 81 along the horizontal direction, and the first material clamping unit 51, the first material pressing unit 61 and the material pulling unit 7 can be driven by the lifting unit 8 to ascend or descend. The utility model discloses in, it is preferred, the lift unit includes support body 81, lifter plate 82, guiding axle 83, screw-nut structure 84 to and be used for driving motor 85 of screw-nut structure 84 work, lifter plate 82 with screw-nut structure 84 is connected, guiding axle 83 is fixed on the support body 81, and penetrate lifter plate 82, lifter plate 82 can follow under screw-nut structure 84's drive guiding axle 83 rises or descends for support body 81. When the utility model is used, the first clamping unit 51 and the first pressing unit 61 move to the most edge left (the side of the first unreeling unit 21 is the left side, namely, the first clamping unit is moved to the side close to the first unreeling unit 21), the pulling unit 7 moves to the left, the pulling unit 7 passes through the first clamping unit 51 and the first pressing unit 61, the coiled polytetrafluoroethylene membrane 911 is unreeled by the first unreeling unit 21, the first feeding unit 31 clamps the polytetrafluoroethylene membrane 911, then the polytetrafluoroethylene membrane 911 is conveyed to the direction close to the pulling unit 7 and passes through the first cutting unit 41 to be butted with the pulling unit 7, the pulling unit 7 clamps one end of the polytetrafluoroethylene membrane 911, the first feeding unit 31 retreats to stop moving after exiting the first cutting unit 41, the pulling unit 7 clamps the polytetrafluoroethylene membrane 911 to move to the right, when the pulling unit 7 stops moving after the polytetrafluoroethylene film 911 with a specified length is pulled out, the first cutting knife unit 41 presses the left end of the polytetrafluoroethylene film 911, the first clamping unit 51 presses the polytetrafluoroethylene film 911, the first cutting knife unit 41 is started to cut the polytetrafluoroethylene film 911, and after the polytetrafluoroethylene film 911 is cut, the first cutting knife unit 41 releases the polytetrafluoroethylene film 911, at this time, the first clamping unit 51 and the pulling unit 7 press the cut polytetrafluoroethylene film 911 together, the first clamping unit 51, the first pressing unit 61 and the pulling unit 7 simultaneously move rightwards to a specified position, the lifting unit descends to a specified position, the first clamping unit 51, the first pressing unit 61 and the pulling unit 7 also descend synchronously along with the lifting unit, the first pressing unit 61 presses downwards to press the cut pallet film 911 onto a stack (not shown in the figure), the first material clamping unit 51 and the material pulling unit 7 loosen the polytetrafluoroethylene film 911 to finish slitting, and the slit polytetrafluoroethylene film 911 is neatly stacked on the stacked pallet; and then the lifting unit rises to the initial position, and repeats the actions when waiting for the next material pulling. The utility model discloses a cut the process and all be full-automatic, do not need artifical section, for the artifical section among the prior art, the utility model has the advantages of sliced speed is faster, and the error of the polytetrafluoroethylene membrane 911 that cuts simultaneously is also littleer, and slicing effect and efficiency are all better.

In the present invention, preferably, a second cutting main body 12 is disposed at the other side of the frame 10, the second cutting main body 12 includes a second unwinding unit 22, a second feeding unit, a second cutter unit, a second clamping unit and a second pressing unit, the second clamping unit and the second pressing unit are disposed on the first guide rail 81 of the lifting unit, the second clamping unit and the second pressing unit can move on the first guide rail 81 along the horizontal direction, and the second clamping unit and the second pressing unit can be driven by the lifting unit to ascend or descend, in this embodiment, the second unwinding unit 22 has the same structure as the first unwinding unit 21, the second feeding unit has the same structure as the first feeding unit 31, the second cutter unit has the same structure as the first cutter unit 41, and the second clamping unit has the same structure as the first clamping unit 51, the second pressing unit has the same structure as the first pressing unit 61. The utility model discloses a polytetrafluoroethylene membrane 911, including frame 10, second halving main part 12 and first halving main part 11 share one and draw material unit 7, the working process of second halving main part 12 is the same with the working process of first halving main part 11, the aim at of setting up second halving main part 12 at the opposite side of frame 10, first halving main part 11 and second halving main part 12 cut polytetrafluoroethylene membrane 911 in turn, can increase the quantity of cutting like this, and set up first halving main part 11 and second halving main part 12 on a frame 10 and cut, the structure of complete machine is compacter, area is still less, simultaneously output is higher, can effectively improve and cut efficiency.

The utility model discloses in, it is preferred, first unit 21 of unreeling installs including unreeling frame 210 unreeling on the frame 210 unreeling roller 211, with unreel the motor 212 and a plurality of backing roll 213 that roller 211 is connected (as shown in fig. 7), during the use, the polytetrafluoroethylene membrane 911 dress of lapping is in unreel on the roller 211, it is used for the drive to unreel the motor 212 thereby unreel roller 211 and realize that polytetrafluoroethylene membrane 911 unreels, by a plurality of backing roll 213 is used for supporting the polytetrafluoroethylene membrane 911 after unreeling.

In the utility model, preferably, the first feeding unit 31 includes a first driving device 310, a second guide rail 311, a first support 312, a first material clamping plate 313 located on the first support 312, a feeding plate 314, and a material clamping cylinder 315 (as shown in fig. 8), the first support 312 is located on the second guide rail 311, and can move along the second guide rail 311 under the effect of the first driving device 310, the first material clamping plate 313 is located above the feeding plate 314, the material clamping cylinder 315 is used for driving the first material clamping plate 313 to ascend or descend, thereby adjusting the distance between the first material clamping plate 313 and the feeding plate 314 in the vertical direction. When the feeding device is used, the clamping cylinder 315 descends to press the polytetrafluoroethylene membrane 911, the first driving device 310 drives the feeding plate 314 to move rightwards, and the feeding plate passes through the first cutter unit 41 to be in butt joint with the pulling unit 7, after the polytetrafluoroethylene membrane 911 is clamped by the pulling unit 7, the clamping cylinder 315 is released, at the moment, the first feeding unit 31 retreats, and after the first cutter unit 41 is withdrawn, the first driving device 310 stops working.

In the present invention, preferably, the first cutting unit 41 includes a second bracket 411, an upper cutting die 412 located on the second bracket 411, a lower cutting die 413 located below the upper cutting die 412, a cutting knife 414 mounted on the upper cutting die 412 through a third guide rail 418, a second driving device 415 for driving the lower cutting die 413 to ascend or descend, a third driving device 416 for driving the cutting knife 414 to rotate, and a fourth driving device 417 (as shown in fig. 9) for driving the cutting knife 414 to horizontally move on the third guide rail 418, when in use, the drawing unit 7 clamps the ptfe film 911 and draws out a required length, the lower cutting die 413 ascends, the lower cutting die 413 and the upper cutting die 412 press the ptfe film 911 together, the third driving device 416 and the fourth driving device 417 start, the cutting knife 414 horizontally moves on the third guide rail 418 to cut the ptfe film 911, after cutting, the lower cutting die 413 descends to wait for the next film cutting, and the above actions are repeated.

In the utility model discloses, it is preferred, first material clamping unit 51 includes third support 511, establishes two second material clamping plates 512 at third support 511 both ends and is located every second cylinder 513 (as shown in fig. 10) above second material clamping plate 512, every second material clamping plate 512 with second cylinder 513 corresponds the cooperation, thereby through second cylinder 513 stretches out or contracts and live polytetrafluoroethylene membrane 911 at second material clamping plate 512 or loosen polytetrafluoroethylene membrane 911.

In this embodiment, the two ends of the third bracket 511 are respectively provided with a first gear 519 matching with the first guide rail 81, the third bracket 511 is provided with a fifth driving device 518 for driving the first gear 519 to rotate, and the fifth driving device 518 drives the first gear 519 to move on the first guide rail 81.

In the present invention, preferably, the first pressing unit 61 includes a fourth support 611, a pressing plate 612 installed on the fourth support 611, and a third cylinder 613 (as shown in fig. 11), wherein the third cylinder 613 is connected to the pressing plate 612 and is used for driving the pressing plate 612 to descend or ascend in the vertical direction, so as to press or loosen the ptfe film 911.

In this embodiment, the second gear 619 matched with the first guide rail 81 is respectively disposed at two ends of the fourth support 611, a sixth driving device 618 for driving the second gear 619 to rotate is disposed on the fourth support 611, and the sixth driving device 618 drives the second gear 619 to move on the first guide rail 81.

In the utility model discloses, preferably, draw material unit 7 to include fifth support 71 and install the flitch 72 that connects on fifth support 71 (as shown in fig. 12), connect the flitch 72 with delivery sheet 314 corresponds the matching. In this embodiment, the material receiving plate 72 is double-faced zigzag, so that the material receiving plate can be used for receiving the material of the first cutting main body 11 and the second cutting main body 12 on the left and right sides of the frame 10.

In this embodiment, the two ends of the fifth support 71 are respectively provided with a third gear 79 matched with the first guide rail 81, the fifth support 71 is provided with a seventh driving device 78 for driving the third gear 79 to rotate, and the seventh driving device 78 drives the third gear 79 to move on the first guide rail 81.

Referring to fig. 13 to 16, fig. 13 to 16 disclose a polypropylene film sheet separating device, which comprises a main frame 901, a main slitting body bracket 902, a material sucking and slicing group 903, an X-axis guide rail 9041 and an X-axis driving device are arranged in the main frame body 901, and a Y-axis guide shaft 9051 and a Y-axis driving device 905, wherein the X-axis guide rail 9041 is arranged at the upper part in the main frame body 901, the slitting main body bracket 902 is arranged on the X-axis guide rail 9041, and the main slitting body bracket 902 can move along the X-axis guide rail 9041, the Y-axis guide shaft 9051 is mounted on the main slitting body bracket 902, the material sucking and slicing group 903 is arranged on the Y-axis guide shaft 9051, the Y-axis driving device 905 can drive the material sucking and separating sheet set 903 to move up and down along the Y-axis guide shaft 9051, the slitting body support 902 can be driven by the X-axis drive to move along the X-axis guide 9041. The utility model discloses in, the both ends of connecting guide rail 90 are connected with the X axle guide rail 9041 of two gas permeability material burst mechanisms respectively, inhale material burst group 903 and still include burst support 9030 and arrange the first dish 9031 of inhaling of a plurality of rows that set up in burst support 9030 bottom. When the cutting machine is used, in this embodiment, the bottom of the main frame 1 is further provided with a material stacking frame 9010 for stacking the polypropylene film 912, the polypropylene film 912 is stacked on the material stacking frame 9010 below the main frame 901, the Y-axis driving device drives the material sucking and separating plate set 903 to move downwards along the Y-axis guide shaft 9051 until the material sucking and separating plate set is at a predetermined distance above the polypropylene film 912, at this time, the polypropylene film 912 is sucked by the first material sucking plate 9031 of the material sucking and separating plate set 903, the X-axis driving device drives the cutting main body support 902 to move outwards of the main frame 901 along the X-axis guide rail 9041, at this time, the material sucking and separating plate set 903 and the Y-axis guide shaft 9051 on the cutting main body support 902 and the cutting main body support 902 move outwards of the main frame 901 along the X-axis guide rail 9041 until the cutting main body support moves onto the conveying vehicle, the first material sucking plate 9031 releases the polypropylene film 912, the polypropylene film 912 falls onto the conveying vehicle, the Y-axis driving device 905 drives the material sucking and separating sheet group 903 to move upwards along the Y-axis guide shaft 9051, the X-axis driving device 904 drives the cutting main body support 902 to move inwards the main frame 901 along the X-axis guide rail 9041, at this time, the cutting main body support 902, the Y-axis guide shaft 9051 on the cutting main body support 902 and the material sucking and separating sheet group 903 return to the original positions, and then the next polypropylene film 912 is separated again, so that the circulation is performed. The utility model discloses for prior art, the structure is simpler, does not need manual operation moreover, and the process of whole fragmentation is automatic operation, and is fast, and efficiency is higher.

The utility model discloses in, further, still include static-removing device 906, static-removing device 906 sets up inhale one side of the bottom of material divides piece group 903. The utility model discloses in, for the convenience of the burst of gas permeability material the being close to of burst support 9030 bottom destatic device 906's one end is equipped with one row of second sucking disc 9032, every second sucking disc 9032 corresponds and sets up a fourth cylinder 9033, every the second sucking disc 9032 that the drive of fourth cylinder 9033 corresponds is along vertical direction up-and-down motion, second sucking disc 9032 is the bernoulli sucking disc, second sucking disc 9032 is connected with vacuum device, when using, inhale material burst group 903 and descend the predetermined height above polypropylene film 912 under Y axle drive arrangement's 905's effect, second sucking disc 9032 descends under the effect of fourth cylinder and inhales one side (as shown in figure 15) of polypropylene film 912, this moment main part support 902 is cut in the drive of X axle drive arrangement moves outside to main frame 901 along X axle guide rail 9041, cuts material burst group 903 and Y axle guide shaft 51 on the main part support this moment and all cut main part support 902 and cut together along X axle guide rail 9041 to the main frame 901 with main part support 902 along X axle guide rail 9041 this moment The frame body 901 moves outwards, the electrostatic rod 906 on the material sucking and separating group 903 is started to eliminate the static electricity on the polypropylene film 912, the material sucking and separating group 903 moves outwards of the main frame body 1, the polypropylene film 912 is scraped on the first sucking disc 9031, the first sucking disc 9031 is started to adsorb the polypropylene film 912, the uppermost polypropylene film 912 is separated from other overlapped polypropylene films 912 below, the uppermost polypropylene film 912 is adsorbed on the first sucking disc 9031 and the second sucking disc 9032, then the Y-axis driving device 905 drives the material sucking and separating group 903 to move upwards along the Y-axis guide shaft 9051 and move out of overlapping above a conveying vehicle (not shown in the figure), then the material sucking and separating group 903 descends to a preset height above the conveying vehicle, the second sucking disc 9032 descends, the second sucking disc 9032 breaks the vacuum, the polypropylene film 912 is placed on the pallet conveying vehicle, the suction piece-separating set 903 returns to the initial position, and the above actions are repeated. The utility model discloses do not need manual operation, the process of whole burst is automatic operation, can be applicable to the burst of gas permeability material, and the burst is effectual, can not take the material of below together, and the burst speed is faster, and efficiency is higher.

The utility model also provides a technological process of the automatic superpose system of many specifications bonding sheet specifically has following several kinds of embodiments:

the first embodiment is a single sheet of alternating superimposed polytetrafluoroethylene film 911 and polypropylene film 912 (as shown in figure 17): the control system controls the polytetrafluoroethylene film slicing device 1 to slice the polytetrafluoroethylene film, the conveying vehicle 93 moves to the lower part of the polytetrafluoroethylene film slicing device 1 along the conveying track 92, the teflon membrane separation apparatus 1 stacks a piece of separated teflon membrane 911 on the pallet 931 of the transport vehicle 93, and at this time, the polypropylene film slicing device 900 sucks a polypropylene film 912, the conveying vehicle 93 moves along the conveying track 92 to the position below the connecting guide rail 90, the polypropylene film separator 900 overlays the sheet of polypropylene film 912 over the polytetrafluoroethylene film 911 on the pallet 931, then the control system controls the actions of the polytetrafluoroethylene film separating device 1, the polypropylene film separating device 900 and the transport vehicle 93, and repeats the overlapping action circularly, after the film on the pallet 931 is overlapped to a preset thickness, the transport vehicle 93 moves along the transport rails 92 to the transfer station 95 for changing the empty pallet 931.

The second embodiment is substantially the same as the first embodiment except that a polypropylene film 912 (shown in fig. 18) is first laminated. The polypropylene film slicing device 900 sucks a polypropylene film 912, the conveying vehicle 93 moves along the conveying track 92 to the position below the connecting guide rail 90, the polypropylene film separator 900 stacks the sheet of polypropylene film on the pallet 931, and at this time, the control system controls the polytetrafluoroethylene membrane separation device 1 to separate the polytetrafluoroethylene membrane 911, the conveying vehicle 93 moves along the conveying track 92 to the lower part of the polytetrafluoroethylene membrane separation device 1, the teflon film separating device 1 superposes a piece of separated teflon film on the pallet 931 of the transport vehicle 93, then the control system controls the actions of the polytetrafluoroethylene film separating device 1, the polypropylene film separating device 900 and the transport vehicle 93, and repeats the overlapping action circularly, after the film on the pallet 931 is overlapped to a preset thickness, the transport vehicle 93 moves along the transport rails 92 to the transfer station 95 for changing the empty pallet 931.

The third embodiment is substantially the same as the first embodiment except that the embodiment is a staggered stacking pattern of two sheets 911 of different gauge polytetrafluoroethylene film and one sheet 912 of polypropylene film (as shown in fig. 19): the control system controls the polytetrafluoroethylene film slicing device 1 to slice the polytetrafluoroethylene films 911 of the models A, the conveying vehicle 93 moves to the lower part of the polytetrafluoroethylene film slicing device 1 along the conveying track 92, the polytetrafluoroethylene film slicing device 1 superposes the sliced polytetrafluoroethylene films 911 of the models A on the pallet 931 of the conveying vehicle 93, then the control device controls the polytetrafluoroethylene film slicing device 1 to slice the polytetrafluoroethylene films 911 of the models B, and the polytetrafluoroethylene film slicing device 1 superposes the sliced polytetrafluoroethylene films 911 of the models B on the polytetrafluoroethylene films 911 of the models A on the pallet 931 of the conveying vehicle 93.

At this time, the polypropylene film separator 900 sucks a polypropylene film, the transport vehicle 93 moves along the transport track 92 to the lower part of the connecting guide 90, and the polypropylene film separator 900 overlaps the polypropylene film 912 on the teflon film of type B on the pallet 931; the control system then controls the operations of the ptfe film separator 1, the pp film separator 900 and the transport vehicle 93, and repeats the above-mentioned stacking operation cyclically, and after the film on the pallet 931 is stacked to a predetermined thickness, the transport vehicle 93 moves along the transport track 92 to the intermediate transfer station 95 to replace the empty pallet 931.

The fourth embodiment is substantially the same as the third embodiment except that this embodiment is a staggered stack pattern of two different gauge polytetrafluoroethylene 911 films stacked with two different gauge polypropylene films 912 (as shown in fig. 20): the control system controls the polytetrafluoroethylene film slicing device 1 to slice the polytetrafluoroethylene films 911 of the models A, the conveying vehicle 93 moves to the lower part of the polytetrafluoroethylene film slicing device 1 along the conveying track 92, the polytetrafluoroethylene film slicing device 1 superposes the sliced polytetrafluoroethylene films 911 of the models A on the pallet 931 of the conveying vehicle 93, then the control device controls the polytetrafluoroethylene film slicing device 1 to slice the polytetrafluoroethylene films 911 of the models B, and the polytetrafluoroethylene film slicing device 1 superposes the sliced polytetrafluoroethylene films 911 of the models B on the polytetrafluoroethylene films 911 of the models A on the pallet 931 of the conveying vehicle 93.

At this time, the control system controls the polypropylene film slicing device 900 to suck a sheet of polypropylene film 912 of type C, the transport vehicle 93 moves along the transport track 92 to the position below the connecting guide rail 90, and the polypropylene film slicing device 900 superposes the sheet of type C on the type B of ptfe film 912 on the pallet 931; the control system then controls the polypropylene film separator 900 to suck a polypropylene film 912 with model D, and the polypropylene film separator 900 overlaps the polypropylene film 912 with model D on the polypropylene film 912 with model C on the pallet 931.

The control system then controls the operations of the ptfe film separator 1, the pp film separator 900 and the transport vehicle 93, and repeats the above-mentioned stacking operation cyclically, and after the film on the pallet 931 is stacked to a predetermined thickness, the transport vehicle 93 moves along the transport track 92 to the intermediate transfer station 95 to replace the empty pallet 931.

The utility model discloses in, it is required to explain that above-mentioned embodiment is only several kinds of embodiments of preferred, the utility model discloses in, the superpose order of polytetrafluoroethylene membrane and polypropylene membrane can be set for as required, the quantity of polytetrafluoroethylene membrane burst device 1 and polypropylene membrane burst device 900 also can be set for as required, consequently, the utility model discloses can have countless kinds of embodiments, embodiment in the utility model discloses an only list, and be not used for the restriction the utility model discloses, all be according to the utility model discloses a technical entity all should be contained in the protection scope of technical scheme of the utility model to any slight modification, equivalent replacement and improvement that the above embodiment was done.

Claims (9)

1. The utility model provides an automatic system that superposes of many specifications bonding sheet which characterized in that: comprises a polytetrafluoroethylene film slicing device (1), a polypropylene film slicing device (900), a conveying track (92), a conveying vehicle (93) capable of running on the conveying track (92), a conveying vehicle driving device (94) for driving the conveying vehicle (93) to move, and a transfer station (95) positioned at one end of the conveying track (92), and a control system for controlling the operation of the above devices, the transport vehicle (93) having a pallet (931) thereon, the polypropylene film slicing devices (900) are arranged at two sides of the polytetrafluoroethylene film slicing device (1), the polypropylene film slicing devices (900) at two sides of the polytetrafluoroethylene film slicing device (1) are connected through a connecting guide rail (90), the conveying track (92) is positioned below the connecting guide rail (90) and enters the lower part of the polytetrafluoroethylene film slicing device (1).

2. The automatic stacking system for multiple gauge bonding sheets according to claim 1, wherein: the transfer station (95) comprises a transfer frame body (951) which is through from front to back, a transfer platform (950) which is positioned in the transfer frame body (951), a pallet fork (952), and a pallet fork driving device (953) which is used for driving the pallet fork (952) to move in the horizontal direction.

3. The automatic stacking system for multi-gauge adhesive sheets according to claim 1 or 2, characterized in that: the polytetrafluoroethylene film slicing device (1) comprises a rack (10), wherein a first slicing main body (11) is arranged on one side of the rack (10), the first slicing main body (11) comprises a first unreeling unit (21), a first feeding unit (31), a first cutter unit (41), a first clamping unit (51), a first pressing unit (61), a pulling unit (7) and a lifting unit, the first unreeling unit, the first feeding unit (31), the first cutter unit (11), the first clamping unit (51), the first pressing unit (61), the pulling unit (7) and the lifting unit are sequentially arranged on the rack (10), a first guide rail (81) is arranged on the lifting unit, the first clamping unit (51), the first pressing unit (61) and the pulling unit (7) can move on the first guide rail (81) in the horizontal direction, and the first clamping unit (51) is arranged on the first feeding unit (81), The first pressing unit (61) and the pulling unit (7) can be driven by the lifting unit (8) to ascend or descend.

4. The automatic stacking system for multiple gauge bonding sheets according to claim 3, wherein: first unit (21) of unreeling installs including unreeling frame (210) unreeling roller (211), unreeling motor (212) and a plurality of backing roll (213) of being connected with unreeling roller (211) on unreeling frame (210), unreeling motor (212) is used for the drive thereby unreel roller (211) and realize material (9) and unreel, and is a plurality of backing roll (213) are used for supporting material (9) after unreeling.

5. The automatic stacking system for multiple gauge bonding sheets according to claim 3, wherein: the first feeding unit (31) comprises a first driving device (310), a second guide rail (311), a first support (312), a first material clamping plate (313) positioned on the first support (312), a feeding plate (314) and a material clamping cylinder (315), wherein the first support (312) is positioned on the second guide rail (311) and can move along the second guide rail (311) under the action of the first driving device (310), the first material clamping plate (313) is positioned above the feeding plate (314), and the material clamping cylinder (315) is used for driving the first material clamping plate (313) to ascend or descend so as to adjust the vertical distance between the first material clamping plate (313) and the feeding plate (314).

6. The automatic stacking system for multi-gauge adhesive sheets according to claim 1 or 2, characterized in that: the polypropylene film slicing device (900) comprises a main frame body (901), a slitting main body bracket (902), a material sucking slicing group (903), an X-axis guide rail (9041) and an X-axis driving device are arranged in the main frame body (901), and a Y-axis guide shaft (9051) and a Y-axis driving device (905), wherein the X-axis guide rail (9041) is arranged at the upper part of the main frame body (901), the main slitting body bracket (902) is arranged on the X-axis guide rail (9041), the Y-axis guide shaft (9051) is arranged on the slitting main body bracket (902), the material sucking and separating group (903) is arranged on the Y-axis guide shaft (9051), the Y-axis driving device (905) can drive the material sucking and separating sheet group (903) to move up and down along the Y-axis guide shaft (9051), the cutting main body bracket (902) can be driven by the X-axis driving device to move along an X-axis guide rail (9041).

7. The automatic stacking system for multiple gauge bonding sheets according to claim 6, wherein: the material sucking and separating device further comprises a static removing device (906), wherein the static removing device (906) is arranged on one side of the bottom of the material sucking and separating sheet group (903).

8. The automatic stacking system for multiple gauge bonding sheets according to claim 7, wherein: the material sucking and slicing group (903) comprises a slicing support (9030) and a plurality of rows of first suckers (9031) arranged at the bottom of the slicing support (9030).

9. The automatic stacking system for multiple gauge bonding sheets according to claim 8, wherein: one end, close to the static electricity removing device (906), of the bottom of the slicing support (9030) is provided with a row of second suckers (9032), each second sucker (9032) is correspondingly provided with one air cylinder (9033), and each air cylinder (9033) drives the corresponding second sucker (9032) to move up and down in the vertical direction.

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