EP0376007B1 - Machine for producing carrier bags with handle openings and welded-on thermoplastic reinforcement tags surrounding them - Google Patents

Description

The invention relates to a machine for producing carrier bags made of thermoplastic double-layer plastic film web with grip holes formed by cuts in the film layers and the grip holes surrounding reinforcement labels made of films made of thermoplastic plastic and welded to the inside of the film layers, with an unwinding device for the film web, possibly a folding device for Manufacture of double-layer film web, a web feed device for the continuous removal of the film web on the inlet side and step-by-step feed on the outlet side, a feed device controlled synchronously with the feed of the film web for the reinforcement labels to be cut off in sections from two film strips for welding to a film layer each with a band unwinding device with feed unit for the film strips, a separating plate arranged between the two film layers for spacing the two above one another transversely to Feed direction of the film web of film tapes that can be fed and a cutting device for separating the reinforcement labels from the film tapes, one around an axis perpendicular to the direction of advance of the film web, rotating turntable synchronously with the step feed of the film web, which protrudes with a section between the film layers of the film web and is equipped on the top and bottom with receptacles which can be loaded with vacuum for storing and holding the reinforcement labels , and a welding device for welding the reinforcement labels to the film layers is assigned to the receiving spaces protruding most between the film layers, and the separating plate is connected to the receiving location of the turntable located outside the film layers, leaving an immersion gap for the knife; and a punching device for punching the grip holes in the film web and devices for welding and separating the carrier bags transversely to the feed direction from the film web.

From DE-A-26 45 560 a machine of the generic type has already become known, in which the reinforcement labels for the grip holes are placed on a turntable by means of a feed device and are brought into a welding position by rotating them step by step. Here, the transfer and the exact placement of the reinforcement sheet made of foils on the turntable is problematic, since the thin foil easily pushes together and forms folds and slips.

The invention has for its object to improve the known machine with feeder for the reinforcement label, so that always an accurate and flawless storage of the reinforcement label takes place on the turntable and thus higher production speeds can be achieved. Continuous operation of the machine with avoidance of empty cycles, i.e. suspension of the advance of the film web is to be made possible.

The invention solves this problem by developing the feed device for the film strips Reinforcement label to be cut in such a way that grooves running on the top and bottom in the direction of advance of the film strips, that a drivable feed roller provided with annular grooves is assigned to the top and bottom of the partition and each with one arranged in the partition and with annular grooves equipped counter roller cooperates in such a way that the grooves of the preferred roller and the grooves of the counter roller face each other and form nip chambers, which are aligned with the grooves of the separating plate and through the grooves and through the nip chamber each a comb rod is arranged cantilevered, and the pull-through gap for the film strips are formed between the areas of maximum diameter of the preferred roller and counter-rollers and the course forced by the comb rods in the nip chambers, as a result of which a corrugated outlet gap for the film strips transversely to the direction of advance of the film strips is formed and, viewed in the direction of advance after the end of the separating plate, a knife which can be moved up and down transversely to the direction of advance of the film strips is arranged above or below the plane of the separating plate.

According to the invention, the feed device for the production of the reinforcement sheet is designed so that the foil strips from which the reinforcement sheet is formed are corrugated, in such a way that the apex lines of the wave crests and valleys run in the longitudinal direction and parallel to the direction of advance of the foil strips , which gives the film strips greater rigidity and, when leaving the separating plate and feeding them onto the turntable, they can be pushed forward to the pick-up position on the turntable without any buckling. After feeding the corrugated ends of the two film tapes in a size and length corresponding to the reinforcement label, the reinforcement label is cut off when the feed of the film tapes stops and the rotary plate comes to a standstill, i.e. the corrugated ends of the film tapes are cut using a knife for the upper and lower film tape .

For the corrugated device, comb rods are guided in the grooves in a self-supporting manner and are held in a comb back at the end which projects beyond the wedge-shaped region of the separating plate. The comb rods are also adjustable in this holder.

The short-term corrugation of the film tape during the transfer and until it is precisely positioned on the turntable is then canceled again, since the reinforcement labels are to be welded to the film layers around the later handle holes of the carrier bag. For this purpose, it is proposed in a further embodiment of the machine that each knife is fastened to a knife bar that is vertically movable on guide rods, that a hold-down plate is resiliently attached to the knife bar, the surface of which is ribbed or grooved parallel to the direction of advance of the reinforcement label, and which is slightly above the knife edge protrudes towards the mounting plate of the turntable. This configuration of the device ensures that when the cutter bar moves vertically to separate the reinforcement label from the film strip, the hold-down plate first hits the corrugated film strip end that rests on the turntable, presses it smoothly and holds it in place, and then the cutting process is carried out. In order to enable the subsequent holding plate to be lifted off properly from the cut-off reinforcement label lying on the turntable and sucked onto it by means of a vacuum passed through the turntable, the hold-down plate is ribbed.

In a further development of the innovation, it is proposed that the drives required for the film feed, the cutting of the reinforcement label, the movement of the turntable and the welding of the reinforcement label to the film layers required by the feed device is carried out by a driven shaft - an input shaft - either from the main drive of the machine that controls the feed of the film web, is driven or is driven by a separate drive motor. In order to enable the feed device for the reinforcement labels to be adapted to different pocket widths and thus positions of the reinforcement sheets, it is proposed to arrange the feed device for the film strips so as to be displaceable parallel to the feed direction of the film web.

In a further embodiment of the device it is provided that the individual drives for the feed rollers and unwinding device for the film web feed, the lifting movement of the knives for cutting off the reinforcement labels from the film strips via a crank disk and lever linkage, the turntable with stepping gear and the lifting movement of the welding stamps from the driven countershaft for welding the reinforcement labels are branched off via cam and lever linkage.

If the feed device is to be put out of operation while the machine is running or the machine requires empty cycles for certain storage systems of the produced carrier bags, the supply of the reinforcement labels must be interrupted for the time of the empty cycles. This is possible, for example, in that a pneumatically operable single-speed clutch is arranged before the individual drives branch off for the various functions of the feed device. It can be provided on the countershaft and switches the feed device off completely when actuated, i.e. that the turntable, the welding devices, the knives and the feed for the film strips are switched off. When the machine is started again, the clutch engages suddenly.

Further details of the machine according to the invention are described below with reference to an embodiment shown in the drawing.

Figur 1

eine schematische Seitenansicht einer Maschine zum Herstellen von Tragetaschen mit eingeschweißten Verstärkungszetteln

Figur 2

eine schematische Aufsicht auf die Maschine nach Figur 1

Figur 3a-e

verschiedene Tragetaschen in Vorderansicht und schematisch im Querschnitt

Figur 4a, 4b

eine ausschnittweise Aufsicht auf den Drehteller und Schnitt H-H nach Figur 4a in verkleinertem Maßstab für eine Zufuhreinrichtung

Figur 5,6,7

schematisch eine Aufsicht, Seitenansicht und Vorderansicht der Zufuhreinrichtung für die Verstärkungszettel

Figur 8

einen auszugsweisen Längsschnitt durch die Schneideinrichtung mit Niederhalteplatte und Drehteller

Figur 9

einen auszugsweisen Querschnitt durch die Trennplatte mit Zuführung des Folienbandes bis zur Schneideinrichtung

Figur 10

einen Querschnitt durch das gewellte Folienband

Figur 11

einen auszugsweisen Querschnitt gemäß Schnitt CD nach Figur 9

Figur 12

eine schematische Aufsicht auf den Drehteller.

Figur 13

Maschine in schematischer Teilansicht mit Leertakteinrichtung.

Show it

Figure 1

is a schematic side view of a machine for producing tote bags with welded reinforcement sheets

Figure 2

a schematic plan view of the machine of Figure 1

Figure 3a-e

various carrier bags in front view and schematically in cross section

Figure 4a, 4b

a partial plan view of the turntable and section HH according to Figure 4a on a smaller scale for a feeder

Figure 5,6,7

schematically a top view, side view and front view of the feeder for the reinforcement label

Figure 8

a partial longitudinal section through the cutting device with hold-down plate and turntable

Figure 9

an excerpt cross-section through the partition plate with feeding the film strip to the cutting device

Figure 10

a cross section through the corrugated tape

Figure 11

an excerpt cross section according to section CD of Figure 9

Figure 12

a schematic plan view of the turntable.

Figure 13

Machine in schematic partial view with empty cycle device.

With the machine shown schematically in FIGS. 1 and 2, for example, carrier bags 2 according to FIG. 3 can be produced from plastic film webs 1. The carrier bags can be provided with an inserted bottom fold 5 on the bottom, have welded side seams 6, and in the area of the pocket opening the grip holes 4, which are arranged inside the pocket 2, see FIGS. 3a to c and on the inside of welded-on reinforcement sheets 3 made of thermoplastic film are surrounded. The grip holes 4 can also be arranged on a part which projects beyond the pocket opening from the inside and is welded on to the walls of the pocket 2, reinforcement sheets 3, see FIG. 3d, e. The machine according to FIGS. 1 and 2 can be used with one lane for the production of carrier bags 2 or also with two lanes, ie for pairwise production of carrier bags 2 with the appropriate equipment. In the machine according to FIGS. 1 and 2, the film web 1 is continuously pulled off the film roll 10 and passed over a folding triangle 11 and folded in half, the folding edge, which corresponds to the bottom edge of the carrying bag, running in the machine and the film edges along one Side edge. If the carrier bag is to be formed with a bottom fold, this can be done by guiding the folded film web through the folding device 13. Thereafter, the film web is guided via a driven pair of feed rollers 16 into the feed compensation device 15, which serves as a store for the stepwise stepwise feed of the film web on the output side. The double-layer film web 1 is now transported in cycles by a pocket width and passes through the feed station 20, in which the reinforcement labels 3 are welded to the inside of the film layers of the film web in the area of the later grip hole. The finger hole is then punched with the punch 17. Correction rollers 18 for the length adjustment of the repeat according to the pocket width and a further driven pair of preferred rollers 19 are used to feed the film of a separating welding device with, for example, a separating welding knife 23 and a counter weld roller 26 via the driven pair of feed rollers 22 fed. Here is the cyclical cross-welding of the side welds 6 with simultaneous separation of the pockets 2, which fall on a storage rack 31 formed by circumferential bands or cords and are lifted from the rotating rotating suction arms 24 of a subsequent impeller 14 and on the storage device 27 at the closest storage place with receiving posts 29 are stored in a stack 2a. After a desired number of carrier bags have been deposited to form a stack, the storage spaces are conveyed further in the direction of arrow P 2 by means of a conveyor belt 28 which is moved step by step. The machine is equipped with a control panel 25 arranged on a swivel arm.

During the time required for the gradual advancement of the stack 2a and moving in of a new empty storage space into the storage position AP for the suction arms 24 of the impeller, no pockets can be put down in the equipment of the machine shown in FIGS. 1 and 2. Several empty cycles must be inserted, ie no pockets may be welded, separated and transported beforehand - this requires the compensation device 15 for the film web and the feed of the film web and the working devices are controlled accordingly. However, it is also possible, as shown in FIG. 13, to provide an intermediate depositing device 310 in the region of the depositing position AP, which expands a finger 311, which can be pneumatically moved back and forth in the feed direction P2, with receiving posts 312 for carrier bags 2 and which also opens and goes up in the direction of the arrow P4 can be moved. In the rest position, the finger 311 is drawn in, if necessary - when the storage place with the stack 2a is moved in the direction of the arrow P 2, the finger 311 is extended engagingly between the suction arms 24, as shown in FIG. 13, so that its receiving post 312 is above the Position of the receiving post 29 is and bags can be placed thereon. After completion, ie when a receiving post 29 is again in the storage position AP, the finger 311 is lowered, see illustration in FIG. 13, the pockets which have been collected are moved from the finger 311 onto the Transfer pickup post 29 and the finger 311 is retracted again in the direction of arrow P2, ie put out of action. With this device 310, idle cycles for the machine are avoided.

The impeller rotates in the direction of arrow P3. In order to increase the pull-out strength of inserted bottom folds in the carrier bags 2, it is possible to additionally connect them in the welding station 21 by welding along the side edges. The pre-welding device 21 is adjustable on traverses transverse to the feed direction T of the film web in accordance with the pocket length. The machine also includes a blower, not shown, for generating the vacuum for the suction arms 24 of the impeller 14. 30 designates a collecting container for the punching waste of the grip hole. The film web 1 is continuously withdrawn from the film roll 10 up to the feed compensation device 15 and from there it is transported step by step in each case by a pocket width, the feed device 20, the punching machine 17, possibly the feed welding device 21 and the separating welding device 23 being intermittently during the standstill of the feed. 26 work.

The basic structure of the feed device 20 for the reinforcement label 3 is shown in FIGS. 5 to 7. The superimposed film layers 1a, 1b of the folded film web are guided past the feed device 20 in the transport direction T. The feed device contains the turntable 200, which is rotatable step by step in the direction of rotation R about an axis X running perpendicular to the feed direction T and is driven by a step gear 52. The turntable 200 is arranged on the side of the film web 1 on the machine in such a way that it projects with a section between the two film layers 1a, 1b. The feed device 20 including the turntable 200 and the step mechanism 52 is mounted on a frame 32 and, if necessary, can be displaced in the direction of the arrow Z parallel to the feed direction T, corresponding to the position of the turntable with a variable pocket width to be able to change. Either a drive derived from the main drive of the machine via a drive shaft or a separate drive is provided for driving the feed device, each of which drives an intermediate shaft 33, also referred to as a countershaft 33. The individual drives for the various functions of the feed device 20 are derived from the countershaft 33. The feed device 20 has to fulfill several functions, namely from the generation of the reinforcement label 3 to the welding of the same to the foil layers. This is explained with reference to FIGS. 5 to 7, in particular FIG. 6. Two reinforcement labels 3 are required for the top and bottom foil layer. These can be produced, for example, from film strips 40a, 40b fed in parallel one above the other by simultaneous cutting. The two film strips 40a, 40b can be drawn off from a film strip roll 35, for example, by double winding or, for example, by subsequently cutting open a tube. The film strips 40a, b can be driven, for example, from the intermediate shaft 33 via a crankshaft (crank rod), not shown, to the driven feed roller pair 39. The film strips 40a, 40b are then brought up to the turntable 200 via a wedge-shaped partition plate 41 up to the height of the top and bottom of the turntable. After the upper and lower film strips 40a, 40b have been pushed forward in the desired length on the top and bottom of the turntable, with simultaneous pressing of the holding-down device 50, the film strips 40a, 40b are severed in the gap left between the turntable 200 and the separating plate 41, with which the reinforcement label is made. An upper and a lower cutting knife 220 are provided, which are fastened to a knife bar 221, which is also connected to the holding-down device in this way. The vertical movement of the knives 220 is controlled by means of a lever linkage 230 via the cam plate 234 seated on a cam shaft K. The cut-off reinforcement slips placed on the top and bottom of the turntable are vacuumed onto the turntable at their storage location captured. The turntable 200 is then rotated by one position, ie here by 60 °, by means of the step mechanism 52. After 3 cuts, the reinforcement label placed and held on the turntable has arrived in the welding position IV opposite the receiving position 1. Likewise, when the film web and the turntable 200 are at a standstill, the reinforcement label is welded to the adjacent film layer 1a or 1b by closing the upper and lower welding punches 370. The welding punches 370 are arranged to be vertically movable on the welding devices 37a and 37b, and the drive takes place via a further cam, not shown, which sits on the camshaft K and which moves a lever linkage 54 in a controlled manner, which moves the welding punches.

5 and 7, the welding devices 37a and 37b are not shown for reasons of clarity. By changing the cam disc, the welding time, i.e. the dwell time of the welding stamp 370 can be set. The counter bearing for the welding stamps is formed by the turntable 200. After the welding stamp 370 has been lifted off, the turntable is rotated again by one position in the direction of the arrow R. The vacuum is switched off in the welding position during welding and the reinforcement label is thus released. It is expedient to equip the turntable with six receiving spaces for reinforcement labels on the top and bottom. Then the reinforcement label received in loading position I reaches welding position IV after three additional cycles. After the reinforcement label has been welded on, the turntable can then cool down again until it has returned to the loading position after another three cycles. 2 or 4 positions are also possible.

In addition to the driven feed roller pair 39 for the film strips 41, feed rollers 44 are provided in the area of the separating plate 41 and are driven via the feed rollers 39 by means of circulating chain belts 45. At 36 he is Designated machine frame, 38 means the bearing of the turntable 200. So while the reinforcement labels are cut off from the foil strips when the turntable is at a standstill and the foil strips stand still and the foil web comes to a standstill while the reinforcement labels are welded on and at the same time grip hole punching and cross-cut welding of the carrier bags take place during the Foil web feed of the turntable is moved one position each and the feed of the foil tape is carried out on the turntable. Additional functions are required when the machine is at a standstill, such as lifting the welding punch. Furthermore, slide valves are required in the turntable for sucking in the reinforcement label, ie for applying the vacuum, namely opening a slide valve in the area of loading position I after a new, empty receiving space has been moved in, for example by means of a mechanical stop and closing a slide valve for stopping of the vacuum in the area of the welding position IV, for example by means of a mechanical stop after reaching the welding station through the reinforcement label with the turntable. Furthermore, the feed roller pair 39 is equipped with a brake, not shown.

For switching off, decommissioning or temporary standstill, e.g. B for idle cycles of the feed device, for example, a pneumatically operable claw coupling is provided, which is assigned to the main drive of the feed device 20. With the aid of such a coupling, not shown in detail, the feed device can be switched on and off completely.

FIG. 8 shows a detailed construction according to the invention of the knives and hold-down devices of the feed device 20 for the reinforcement labels in a sectional view according to FIG. 6 in approximately 2/3 natural size. The film strips 40a, 40b are brought over the separating plate 41, which is tapered in a wedge shape in the inlet area 41a. The partition plate ends at the height of the turntable 200, between the separating plate 41 and the turntable 200 there remains the immersion gap 211 for the knives 220. The film strips 40a and 40b are brought up on the top 412 or underside 411 of the separating plate and in the feed direction V onto the turntable 200 to the receiving space formed on the edge 210 advanced. There is a layer 201 of foam rubber on the receiving location, including bores in the turntable with connection to a pressure-generating device. When the film tape feed has come to a standstill, vacuum is applied to the receiving location 210 from the side of the turntable, so that the film tapes remain in position when sucked in. At the same time, the lifting movement in the direction of arrow S is triggered for the knives 220 which are arranged on the top and bottom in front of the turntable, ie one knife for each film strip. The knives 220 are resiliently fastened to the knife bar 221 with screws 223 with the interposition of compression springs 222. The cutter bar is moved up and down on guide rods 229 in the direction of arrow S. On the cutter bar, the hold-down plates 225 are also resiliently mounted on guide rods 226 with the interposition of compression springs 224 in slide bushes 227 facing the turntable. In the raised state, the hold-down plate 225 protrudes slightly above the knife edge 220 with its lower edge, so that when the knife or knife bar 221 moves in the direction of the turntable 200, the hold-down plate 225 first presses the film strip lying on it, and then the knife cuts the film strip and Forming the reinforcement slip is done. The cutting movement of the knife and hold-down device takes place via the dashed two mutually movable angle levers 231, 232 which engage by means of rollers 233 arranged at their front ends in niches of the cutter bar 221, not shown, and are moved via the lever angle 230, which is controlled by the cam plate 234 . The hold-down devices are grooved on their surface facing the turntable with grooves 228 running in the feed direction V.

FIG. 4a is a partial view of the Turntable 200 shown in FIG 5, which can be formed in the area of the receiving locations 210 with a straight or - as shown in dashed lines - circular front edge 207. In the case of a straight end edge, reinforcement labels 3 are rectangular, see FIG. 3a and in the case of a round end edge 207, reinforcement labels are produced in accordance with FIG. 3b, the knives 220 each following the course of the end edge 207 of the turntable 200, that is to say are straight or curved.

Figure 4b shows the section HH of Figure 4a. The holes 206 provided between the individual receiving places 210 serve to reduce the mass. The receiving spaces 210, which are each formed in pairs on the top and bottom, are characterized by a sheet metal plate 202 which is attached and fastened and which is covered on the upper side with a foam rubber layer 201. Channels 203 and a bore 204 are provided in the turntable, to which the vacuum is connected, see also section HH according to FIG. 4b. Small holes 205 lead from the channels 203 to the surface. The slide valves for switching the vacuum on and off are located in the area of the bores 204 outside the receiving locations and are not shown. So that the hold-down plate 225 does not stick to the reinforcement label when it is lifted off after it has been cut off, it is preferably formed on its surface with grooves 228 which run parallel to the direction of advance V. The bore 204 is closed at the end by means of a sealing plug 218, see also FIG. 9.

In order to enable the foil tapes to be properly fed and transferred from the separating plate 41 to the turntable 200 to the storage places 210, the rigidity of the foil tapes for the self-supporting feed in this area is increased by corrugation. This is not a permanent corrugation, but a short-term shaping that takes place after the film strips have been placed on the turntable when sucking in and pressing down using the hold-down plates is removed at the latest so that the reinforcement sheets are smooth and level. The apex lines of the shafts or ribs run in the longitudinal extension of the foil strips. For the reinforcement labels, plastic films made of thermoplastic, heat-weldable plastics are selected, which can be welded to the film web for the carrier bags. Efforts are being made to make these reinforcement labels as thin as possible in order to save material, on the other hand, there are limits to the thickness downwards, since the film strip must still be so stable that the feed for transfer from the separating plate 41 to the turntable 200 , see FIG. 8, for example, in the direction V without cantilevering through without creasing and folding. For this reason, foil tapes are usually used for the reinforcement labels with a thickness of more than 100 μ. The corrugation of the film strips achieved with the device according to the invention makes it possible to reduce their thickness with sufficient stability, so that film strips from 50 .mu.m thick can already be used. This means not only material savings, but also a shorter welding time and cooling time for the reinforcement sheets.

FIGS. 9 and 11 show a construction of the feed device according to FIGS. 5 to 7 in the area of the separating plate 41 with grooves of approximately natural size in two sectional views, with which a longitudinal corrugation of the film strips 40a, 40b, see schematic cross section according to FIG. 10, can be manufactured. The separating plate 41 extends close to the cutting plane of the knives 220 guided in the gap to the turntable. In the inlet area of the film strips 40a, 40b, the separating plate is tapered in a wedge shape, in the outlet area the top and bottom of the separating plate are parallel to one another at the same height as the turntable 200 adjoining on the other side of the cutting plane of the knives 220, see also FIG. 8. The separating plate 41 is provided in this area on the top and bottom with grooves 413 running in the direction of advance of the film strips. The film strips 40a and 40b are in these grooves pressed by comb bars 43. The comb rods 43 are cantilevered in parallel in the grooves 413 and are held outside the partition plate 41 in a comb back 42, which is attached to the frame 32. The comb rods 43 end self-supporting with the separating plate 41 or shortly before. Furthermore, in the area of the separating plate 41, again driven feed rollers 44 are provided, which are driven by the feed rollers 39 via chains 45, see FIG. 6. As a counter-roller to the feed rollers 44, counter-rollers 46 are arranged in the separating plate 41 in the wedge-shaped tapered area Friction are taken. Both the feed rollers 44 and the counter-rollers 46 are grooved, the grooves 441 of the feed rollers 44 being aligned with the grooves 461 of the counter-rollers 46 and forming nip chambers 47 between them. The gap chambers 47 are again aligned in the longitudinal direction with the grooves 413 of the separating plate and the comb rods 43 are also guided cantilevered through these gap chambers 47. In the non-grooved areas of the rollers 44, 46, the feed takes place in the gap 48 of the film strips 40a and 40b via the frictional engagement. The parts of the film strips 40a, 40b which are guided through the gap chambers 47 or grooves 413 are deformed in an undulating manner in these areas by the comb bars 43 and thus emerge in a corrugated manner at the end of the separating plate 41 and allow a perfect self-supporting feed by pushing onto the rotary plate. By actuating the cutting knives 220 in the direction of arrow S, after the corrugated foil strips have been held in place on the support locations 210, the foil strips are severed on the top and bottom sides of the turntable, and the reinforcement labels 3a, 3b are thus formed.

Claims (5)

1. Machine for producing carrier bags from thermoplastic double-layer plastics foil sheeting with handle holes formed by cuts in the foil layers and reinforcement tags surrounding the handle holes, bonded with the insides of the foil layers and made of thermoplastic plastics foil, the machine having a winding-off device for the foil sheeting, possibly, a folding device for producing double-layer foil sheeting, a sheeting drawing-in arrangement for continuously drawing off the foil sheeting on the run-in side and timed step feed on the run-off side, a supply device, which is controlled in timing synchronisation with the feed of the foil sheeting, for the reinforcement tags to be separated in sections from two foil bands for bonding onto a respective foil layer, the supply device having a band winding-off device with feed rollers for the foil bands, a separating plate arranged between the two foil bands for the purpose of distancing the two foil bands, which bands can be supplied one upon the other transversely relative to the feed direction of the foil sheeting, and a cutting device for separating the reinforcement tags from the foil bands, having a rotating plate which can be rotated about an axis perpendicular to the feed direction of the foil sheeting in timing synchronisation with the timed step feed of the foil sheeting, which plate projects with one section between the foil layers of the foil sheeting and on the upper and lower side is provided with receiving locations, to which vacuum can be applied, for the depositing and the retention of the reinforcement tags, and with a welding device which is for welding the reinforcement tags to the foil layers which is associated with the receiving locations, which project furthest between the foil layers, on the upper and lower side respectively and the separating plate being attached to the receiving location of the rotating plate located outside the foil layers, leaving a gap into which the blade can penetrate; and also having a punching device for punching the handle holes into the foil sheeting and devices for welding and separating the carrier bags from the foil sheeting transversely relative to the feed direction, characterised in that the separating plate (41) of the supply device (20) for the reinforcement tags has grooves (413) extending on the upper and lower side in the feed direction of the foil bands (40a, 40b), in that a respective special roller (44), which can be driven and is provided with annular grooves (441), is associated with the upper and lower side of the separating plate and cooperates with a respective counter-roller (46), which is arranged within the separating plate (41) and is provided with annular grooves (461), in such a way that the grooves (441) of the special roller (44) and the grooves (461) of the counter-roller (46) stand opposite each other and form gap chambers (47) which are in alignment with the grooves (413) of the separating plate (41), and, arranged in a self-supporting manner and so as to extend through the grooves (413) and also through the gap chamber (47) there is a respective ridged rod (43), and the passage gap (48) for the foil bands is formed between the areas of maximum diameter of the special rollers (44) and counter-rollers (46) and the course forced by the ridged rods (43) in the gap chambers (47), whereby an undulating outlet gap for the foil bands is formed transversely relative to the feed direction of the foil bands, and viewed in the feed direction after the end of the separating plate (41), a respective blade (220), which can be moved up and down transversely relative to the feed direction of the foil bands, is arranged above and below the separating plate plane respectively.
2. Machine according to claim 1, characterised in that the separating plate (41) is tapered in a wedge-shaped manner in the inlet area of the foil bands, the special rollers (44) and counter-rollers (46) are arranged in the wedge-shaped section and the ridged rods (43) are supported at the end in a ridged back (42) which ends brought out over the wedge-shaped area of the separating plate (41), in opposition to the feed direction of the foil bands.
3. Machine according to claim 1 or 2, characterised in that each blade (220) is secured to a blade beam (221) which can be moved vertically on guide rods (229), in that secured in a yielding and resilient manner to the blade beam there is a holding-down plate (225), the upper surface of which is ribbed or grooved in a manner parallel to the feed direction of the reinforcement tags (3) and which plate protrudes somewhat over the blade-cutting edge in the direction of the receiving plate (210) of the rotating plate (200).
4. Machine according to one of the claims 1 to 3, characterised in that the supply device (20) is provided with a driven intermediate shaft (33) from which there branch off individual drives

   1. for the feed rollers (39) for winding off the foil bands (40a, 40b) and the foil band feed;

   2. for the lifting movement (S) of the blades (220) for cutting off the reinforcement tags from the foil bands (40a, 40b) by way of a cam disc and lever rod system;

   3. for the rotating plate (200) with step-by-step gearing (52) and control of the vacuum connections;

   4. for the lifting movement of the welding dies (370) for welding on the reinforcement tags by way of cam disc and lever rod system.
5. Machine according to claim 4, characterised in that the drive of the supply device can be switched on and off by means of a pneumatically operable one-stop clutch.

Images