EP0462157A1

EP0462157A1 - System for joining webs of material.

Info

Publication number: EP0462157A1
Application number: EP90904316A
Authority: EP
Inventors: Herbert Schoenmeier; Peter Weiss; Karl Thievessen; Ewald G Welp; Runald Meyer; Manfred Weis; Egbert Most
Original assignee: Jagenberg AG
Current assignee: Jagenberg AG
Priority date: 1989-03-06
Filing date: 1990-03-06
Publication date: 1991-12-27
Anticipated expiration: 2010-03-06
Also published as: FI914207A0; JPH0629102B2; FI104370B; CA2049006A1; EP0462157B1; CA2049006C; DE59001323D1; WO1990010591A1; DE3907136A1; JPH04501845A; ES2052252T3; US5288034A

Abstract

Dispositif pour relier la fin d'une bande de matériau (4) qui se déroule d'un premier rouleau (17) avec le début de la bande d'un nouveau rouleau (1) qui va remplacer le premier (17) dans une machine dérouleuse. Ce dispositif comporte des mécanismes pour sectionner la bande en train de se dérouler (4), pour tenir la fin de bande ainsi obtenue et pour presser cette fin de bande contre la périphérie d'un nouveau rouleau (1) qui va remplacer le précédent en collant la première à la seconde. Ce dispositif comporte en outre un élément de raccord (6) qui se pose contre la bande en train de se dérouler (4), se déplace au-delà du diamètre d'un rouleau plein (1) et se presse contre sa périphérie. Cet élément de raccord (6) comporte un élément de sectionnement de bande (15) et un élément de retenue (16), qui se trouve derrière l'élément de sectionnement de bande (15) dans le sens de déroulement de la bande lorsqu'il est posé contre la bande en train de se dérouler (4).Device for connecting the end of a strip of material (4) which unwinds from a first roll (17) with the start of the strip of a new roll (1) which will replace the first (17) in a machine unwinder. This device comprises mechanisms for cutting the strip in the process of unwinding (4), for holding the end of strip thus obtained and for pressing this end of strip against the periphery of a new roll (1) which will replace the previous one in sticking the first to the second. This device further comprises a connecting element (6) which is placed against the strip in the process of being unwound (4), moves beyond the diameter of a full roll (1) and presses against its periphery. This connecting element (6) has a tape cutting element (15) and a retaining element (16) which is located behind the tape cutting element (15) in the direction of tape unwinding when it is placed against the strip being unrolled (4).

Description

DESCRIPTION

Device for connecting material webs

Technical field

The invention relates to a device for connecting the end of a material web running from a first winding roll to the beginning of the web of a new winding roll that is exchanged for the first winding roll, according to the preamble of patent claim 1.

In unwinding machines for winding rolls made of material webs, for example paper or cardboard webs, splice devices are known which connect the end of the material web running to a processing machine with the start of the web of a new roll. If the machine contains fixed holding devices for the winding rolls, the remaining roll is cut off when the processing machine is at a standstill, the separated end of the running web is held in place and, after the separated remaining roll has been removed and a new winding roll has been inserted, is attached, for example glued, to the new roll. - -

State of the art

In order to automate the splice process, a generic device is known from DE-PS 34 40 107, which has a storage device for storing a supply of web material of the running material web, a cutting device for severing the running material web and between the cutting device and the storage device has driven suction roller which receives a part of the stored stock of web material and brings into pressure contact with the outer periphery of a new roll in order to establish an adhesive connection with the beginning of the new roll, which is provided with an adhesive strip. The suction roll is arranged on a swivel arm which has a pivot point above the maximum outer diameter of the new winding roll and which extends substantially horizontally in the rest position. The device shown there is structurally complex because it requires separate drives for clamping the running web, moving the storage device, rotating and pivoting the suction roller, cutting device and switching on the suction air. In addition, the cutting knife must be moved separately from its cutting position, since this is in the area of the running web during unwinding. These necessary drives require a complex one

Control device. In addition, due to its space requirement, this device is less suitable for use on reel unwinding machines which are arranged immediately in front of a subsequent reel cutting and winding machine.

Presentation of the invention

The invention has for its object to provide a generic device that can be used with the least possible design and control engineering effort even in confined spaces.

This object is achieved with the features of patent claim 1. According to the invention, the elements for severing the running web, for holding the web end created in this way and for pressing against the outer circumference of the new winding roll inserted are realized in a single splice element, as a result of which the design effort, for example the number of drives, is reduced.

A further advantage is that the device according to the invention can be used in unwinding machines with a different withdrawal direction of the paper web, even with a changing withdrawal direction.

The subclaims contain advantageous embodiments of the invention, the individual features being combinable with one another in the manner of a modular system for the greatest possible versatility.

In order to maintain the tension of the running, separated web during the movement of the splice element, it contains a rotary drive according to claim 3, the torque of which is adjustable.

The movement of the splice element required for the splice process is advantageously carried out by means of swivel levers (patent claim 4) in order to be able to glue the start of full rolls with large differences in diameter to the running web. According to claim 5, the splice element is linearly movable in lateral guides. An exclusively linear movement is possible, but limits the diameter of the new rolls to be glued to a certain area. The combination of a linear and a swiveling movement by means of linear guides attached to swiveling levers is preferred, since it makes the contact and pressing point of the splice element on the full roller variably selectable within a large range. This is particularly advantageous if both winding rolls with web take-off are unwound from above and from below. The embodiment with the suction zones arranged on both sides next to the separating element according to claim 6 is able to make the connection both when the web is withdrawn from above and when the web is withdrawn from below.

The clamping element according to claim 7 enables an automated change from a web take-off from above to a web take-off from below and vice versa. Claim 8 contains a particularly advantageous embodiment of the clamping element.

Claims 9 and 10 contain a splice element with an advantageous web separation and web holding element, in which the newly created web end is held mechanically with needles. The mechanical holding of the web can alternatively or additionally, e.g. B. for stiff types of paper, used for holding by means of suction air. Needles arranged on both sides of the separating element (e.g. according to claim 11) enable use in changing directions of rotation of the supply rolls.

The elastic outer surface of the splice element according to claim 12 ensures a uniform contact pressure over the entire web width. Alternatively, the splice element can be divided over the working width in order to adapt to a non-straight course of the surface of a full roll.

Brief description of the drawing

The drawing serves to explain the invention on the basis of schematically illustrated exemplary embodiments.

Show it

1 - 3 in side view the structure and operation of a device according to the invention for connecting the running web with a new roll in web take-off from top to bottom, 4 shows the side view of an embodiment with only a slightly inclined path of the drawn-off path,

5 and 6 is a side view of an embodiment which is suitable for use in web withdrawal from above and from below. 5 shows the mode of operation with web take-off from above and FIG. 6 with web take-off from below,

10 can be very schematically a section through a splice element having a clamping element for the end of the outgoing web, with the connection-when changing the rolling direction ^'from a roll to the next made - the Fig. 7.

Fig. 11 in a partially sectioned oblique view a further embodiment of a splice element, for use in changing directions of rotation of the supply rolls.

Ways of Carrying Out the Invention

The embodiment of the invention shown in FIGS. 1 to 3 serves to connect the end of a running web to the start of the web of a new parent roll, the rolls being suspended so that the web is pulled off from above. The rolls therefore rotate clockwise when unwinding when the web is pulled off to the bottom right - as shown in FIGS. 1-3.

The device shown is used for unwinding paper rolls that are wound on continuous metal axes, which are referred to as reels, and can have a weight of over 50 t with a web width of 8 m and more. 1 shows a side view after the start of the unwinding process. The still full mother roll 1 is suspended with its reel 2 in a unwinding frame with two side stands 3. An existing lateral brake generator, which can both brake the winding roll 1 in generator operation and drive it in motor operation, is not shown in the simplified drawings. The paper web 4 is pulled off from above and slightly deflected by a guide roller 5 to a subsequent roll cutting and winding machine, where it is longitudinally divided into individual webs and wound up into smaller winding rolls.

The device according to the invention for connecting the end of a running web to the beginning of the web of a new parent roll contains as essential features a holding element for the running web, a separating element arranged behind it in the direction of the web end, and a pressing element which contacts the held web part of the running web brings outermost position of the new mother roll and is therefore arranged in front of it in the area of the holding element or in the direction of the web end. According to the invention, these three elements are advantageously realized as a structural unit in a splice element 6, which is described in more detail below:

A pipe 7 extending over the entire working width with elastic, e.g. gximmierter surface 8 is rotatably mounted in the free end of two lateral levers 9 by means of a drive, not shown, with adjustable torque. The levers 9 are pivoted at their other end to bearing blocks 10 fastened to the floor about the pivot axis 11, so that the tube 7 from the position shown in FIG. 1 outside the path of the paper web 4 in the direction of the arrow 12 up to the vicinity the storage of the drum 2 can be pivoted by means of a swivel drive 13.

The tube 7 has on its outer surface an axially extending groove 14 across the working width, in the as a separating element a cutting knife 15, which is provided with a cutting drive and can be moved radially out of the groove, is arranged. Alternatively, a traversing knife, that is to say which can be moved across the working width, can be arranged on the tube 7. Counterclockwise, the groove 14 is followed by a suction zone 16 which also extends over the working width and is formed by a plurality of suction openings. A suction fan, not shown, is used to generate a vacuum inside the tube 7. The device according to the invention works as follows:

If the parent roll 1 is unwound to a predetermined remainder during unwinding, the unwinding process is braked. The remaining size is selected so that there are at least three to four layers of paper on the reel 2 when it is at a standstill. Shortly before the rest roll 17 comes to a standstill, the splice device 6 is pivoted from the outside in the direction of the arrow 12 against the taut paper web 4, so that when the standstill is stopped, the suction zone 16 lies flat against the web 4 and the suction openings are sufficiently covered. In the pivoted-in position shown in FIG. 2, the groove 14 with the cutting knife 15 is also covered by the web 4. The tube 7 lies against the remaining roll 17 or stops at a short distance therefrom. Subsequently, a vacuum is generated in the pipe 7 with the suction fan, so that the web 4 adheres along the suction zone 16. Thereafter, the web is cut transversely with the knife 14, the remaining roll 17 is unhooked from the stand 3 and the splice element 6 is pivoted back so far that it is possible to hang in a new roll 1. When pivoting back, the tube 7 is rotated clockwise so that the web 4 is kept taut due to the movement of the suction zone 16 against the web running direction. The web tension is adjusted via the torque of the rotary drive of the tube 7 and kept essentially constant.

At the beginning of the web of the new roll 1, an adhesive seam 18 was attached, for example a double-sided adhesive strip, before hanging - 2 -

or a trace of glue. The new roll 1 was suspended or rotated so that the adhesive seam 18 is opposite the direction of rotation of the roll 1 at a distance from the pressure point 19 of the tube 7, which is shorter than the web remnant held on the tube 7 behind the pressure point 19 . To connect the end of the running web 4 to the start of the roll 1, the tube 7 is then pivoted against the full roll 1 and is under pressure (FIG. 3). By switching on the preferred devices for the web 4, e.g. the subsequent winding machine, both the tube 7 and due to the contact under friction, the roller 1 is rotated. As a result, the adhesive seam 18 moves through the pressurized nip at the pressure point 19, and so a durable adhesive connection is established between the rest of the web 4 and the beginning of the roll 1.

The acceleration of the roller 1 from standstill can be assisted by the drum drive or triggered alone, especially with very high roller weights. It is advantageous if the roll 1 - as described above - is at least partially moved by the running web 4, since this keeps it taut at all times. A control is expediently provided which, when the permissible web tension of the running web 4 is exceeded, switches on the drum drive for support.

After the two tracks are connected, the splice element 6 is pivoted back further by the track 4 until the waiting position shown in FIG. 1 is reached. The swiveling away from the full roll 1 also takes place at the beginning with the web 4 now connected in order to keep it taut at all times. The newly inserted roller 1 can then be accelerated to working speed.

4 shows an embodiment of the invention in very confined spaces and with a guide roller 5 located approximately at the level of the web 4 that has been pulled off. Bahn 4 -

is therefore subtracted from the full roll 1 in a direction inclined only slightly downwards. In this exemplary embodiment, the swivel levers 9 are not articulated in a frame 3.1, but in a height dependent on the required length of the levers 9. Except for this difference, the device according to FIG. 4 corresponds to the device shown in FIGS. 1 to 3, since there the web 4 is also pulled off from above, the roll 1 thus also rotates clockwise during unwinding.

5 and 6, an embodiment of the invention is shown, which can advantageously be used both for unwinding with web withdrawal from above (FIG. 5) and with web withdrawal from below (FIG. 6). In addition, this embodiment is particularly suitable for installation in confined spaces.

5 and 6 corresponds to the above-described device according to FIGS. 1 to 3, with the splice element 6 being arranged in the pivoting levers 9 in their longitudinal direction as an additional feature. The length of the swivel lever 9 and the adjustment path of the splice element 6 is chosen such that, in the case of a swivel position outside the area of a full roll 1, the splice element 6 both up to above the path 4.1 when the path is pulled off from above (position A in FIG. 5) as well as up to below the course 4.2 with web withdrawal from below (position A 'in FIG. 6). For this purpose, the tube 7 is supported at both ends in a slide which can be moved by means of a motor in guides extending over the length of the swivel levers 9. In the present example, a motor with a drive pinion is attached to each slide, which mesh in each case with racks attached to the pivot levers 9. The tube 7 has a suction zone 16.1, 16.2 on both sides of the groove 14.

The method of operation when web 4.1 is pulled off from above is shown schematically in FIG. 5: After the start of the unwinding process, the splice element 6 is in the rest position A above the course of the web 4.1. As the diameter of the parent roll 1 decreases, the path of the web moves downward until the unwinding process is braked at a predetermined diameter of the remaining roll 17. The splice element 6 is then moved downward in the pivot levers 9 until the tube 7 dips into the web 4.1 (dashed line in FIG. 5, item B). The tube 7 is rotated into the cutting position in which both the groove 14 and the suction zone 16.1 are covered by the web 4.1. The suction blower is then put into operation to hold the web 4.1 and the web 4.1 is cut with the knife 15. After the separation, the remaining roll is removed from the stands 3 and the splice element 6 is moved upwards in the swivel levers 9. During the upward movement, the tube 7 is rotated clockwise in order to keep the web 4.1 taut. The splice element 6 thus reaches the position C, the swivel arms 9 possibly being pivoted further in the direction of the guide roller 5 in order to make room for a new full roller 1. After this has been hung into the stand 3 with a prepared adhesive seam 18, the tube 7 is pivoted against its outer surface, and the adhesive connection between the end of the running web 4.1 and the beginning of the new web is produced in the manner described above. When the machine restarts, the splice element 6 is moved into the rest position A, and thus back into the initial position.

In Fig. 6, the operation of the device is roughly shown schematically with a supply roll 1 with web take-off from below. The splice element 6 is located in the rest position below the web 4.2 (position A ^1). This position corresponds to position B in FIG. 5. In the case of a roll 1 suspended in this way, the path of the web moves upward with a decreasing diameter. When the remaining diameter 17 is reached, the unwinding is stopped and the tube 7 is moved against the web 4.2 from below. The tube 7 is moved to the position B ', in which the web 4.2, the suction zone 16.2 and the groove 14 with the knife 15 are flat covers. In position B ', the web 4.2 is cut and held in the manner described. The remaining roll 17 is then removed and a new roll 1 with pre-positioned adhesive seam 18 is hung in. After the roll 1 has been hooked in, the position of the adhesive seam 18 is in the region below the pressure point 19. The splice element 6 is then moved against the circumference of the roll 1 by moving it downward in the pivoting levers 9 and additionally against the roll 1 can be pivoted. At the same time, the tube 7 is rotated counterclockwise in order to keep the web 4.2 taut and to provide a web remainder of a certain length below the pressure point 19 on the roll 1 (position C). In the operating mode shown in FIG. 6, the adhesive connection is established by rotating the full roll 1 counterclockwise and the tube 7 clockwise. As a result, the adhesive seam 18 is moved through the nip at the pressure point 19 and the connection between the two webs is thus established.

In principle, it would also be possible to create a connection with an exclusively linear movement of the splice element 6, e.g. B. by fixed lateral guides for the splice element 6. However, the additional pivoting option about the axis 11 shown in the exemplary embodiment according to FIGS. 5 and 6 has several significant advantages:

On the one hand, the additional swivel option enables operation with full rollers that have large differences in diameter. Furthermore, due to the combined linear and pivoting movement, the pressure point 19 can be fixed in a constant manner with a changing diameter of the full roll 1. This enables the adhesive seam 18 to be applied outside the stand 3 within a constant area. In addition, the splice element 6 can be moved completely out of its working area (position D in FIG. 5) in order to make the area between the running roller 1 and the guide roller 5 accessible for other purposes. In the embodiment described above, when the unwinding direction is changed during the first splicing process, the new web start must be manually folded around the splice element 6. The special embodiment of the splice element 6 shown in FIGS. 7 to 10 in its structure and function enables an automatic connection to the start of the web of a new supply roll which is processed in a different direction of rotation than the previous roll, that is to say the automatic change from a roll to Web take-off from above according to FIG. 5 to a roll with web take-off from below according to FIG. 6 and vice versa.

In Figs. 7 -.10 guide tube 7 shown in cross-section has a widening on the outside groove 14 which is centrally disposed in the knife 15 ^'. A suction zone 16.1, 16.2 extends on both sides of the groove 14. In addition, there is a clamping element 20 in the interior of the tube 7, which is able to clamp the web end of the running web 4 produced by cutting with the knife 15 in the groove 14. The clamping element 20 is composed of two levers 20.1 pivotably mounted on both ends of the tube 7 outside the path region in the groove 14, between the free ends of which a wire rope 20.2 is tensioned. The wire rope can be swiveled to both groove inner walls by means of a swivel drive and is thus able to clamp web ends coming from both directions. In order to achieve a uniform clamping effect with larger groove lengths, the clamping area in the groove 14 can be designed such that the wire rope 20.2 comes to rest on an arcuate line.

7-10, the operation of the splice element 6 is shown when changing the web take-off from below to a web take-off from above. When the web is drawn off from below (see FIG. 6), the tube 7 rotates counterclockwise to tension the running web 4, and the active suction zone 16.2 directly adjoins the groove 14 in the clockwise direction. After the running web 4 has been severed by the knife 15, the web end is held by the suction zone 16.2 (FIG. 7). Then the clamping element 20 pivots, engages the web end in the region of the groove 14 and -

it clamps on the widening groove wall (Fig. 8). After clamping, the suction fan is switched off. When the tube 7 is subsequently turned clockwise, the web 4 held by the clamping element 20 releases from the suction zone 16.2 and is placed on the suction zone 16.1 on the other side of the groove (FIG. 9). After the suction fan is switched on again, the clamping element 20 is released and the running web 4 is held exclusively by the suction zone 16.1 (FIG. 10). In this position, the splice element 6 is ready to carry out an adhesive connection with a web start pulled off from above. In this respect, FIG. 10 corresponds to position C in FIG. 5.

When changing the unwinding direction from web take-off up to web take-off below, the web end is correspondingly transferred from the suction zone 16.1 to the suction zone 16.2, with the rotation in the other direction - also in the paper travel direction - and the clamping element 20 the start of the web on the opposite inner wall of the Groove 14 clamped.

11 shows a further embodiment of a splice element 6 for use with changing directions of rotation of the supply rolls. In this embodiment too, the suction pipe 7 has a groove 14 extending over its entire length with flanks 14.1, 14.2 which are bevelled outwards in the region of the surface of the pipe 7, to which suction zones 16.1, 16.2 are connected on both sides. The groove 14 serves as a guide for a carriage 21 which is adapted in cross section and which can be moved over the working width by means of a drive. Following the bevelled flanks 14.1, 14.2, parallel sides 14.3 of the groove 14 first follow, and then widen again,

The slide 21, which is adapted to the groove 14 in the manner of a zipper slide, has two side walls 21.1, 21.2, between which a cutting knife 22 is fastened at the front in the direction of movement for severing the web 4. The sides of the walls 21.1, 21.2 facing the flanks 14.1, 14.2 of the groove 14 run towards it in a wedge shape in order to press the edges of the web 4 which arise when cutting through against the beveled flanks 14.1, 14.2.

On both sides of the groove 14, plungers 23 are arranged in the suction pipe 7 at regular intervals in the direction of the groove 14, the rounded ends of which in the cutting direction can be moved into the region of the groove 14 through openings in the groove walls 14.3. On its upper side, each plunger 23 has a holder 23.1 for a barbed needle 24, which enters the area of the groove 14 through recesses in the beveled flanks 14.1, 14.2 during a corresponding movement of the plunger 23. The punctures known from the paper industry or also pointed screws can be used as needles 14.

On its underside, each tappet 23 has a plate-shaped projection 23.2 which is clamped between two hoses 25, 26 which can be pressurized with compressed air and which extend over the length of the suction pipe 7. Each plunger 23 with its needle 24 can thus be inserted into the area of the groove 14 by inflating the respective outer tube 25 - and extended from the area of the groove 14 by inflating the inner tube 26.

FIG. 11 shows the severing of the web when the unwinding direction changes from web take-off above to web take-off below. The end to be held of the running web 4 is designated 4.1- the web remnant of the remaining roll 17 to be cut off (see FIG. 2) with 4.2. Before severing the web 4, the tappets 23 are moved with the needles 24 on the web side 4.1 to be held by inflating the associated outer tube 25 into the area of the groove 14. The plungers 23 on the other side with the needles 24 are located outside the area of the groove 14, ie the inner hose 26 on this side contains compressed air, while the outer hose 25 is vented. Then the carriage 21 is parallel with the knife 22 moved to the axis of the tube 7 through the groove 14 and thus cut the web 4. During the movement of the slide 21, the part 21.3 of the side wall 21.1 facing the groove wall 14.3 first presses the tappets 24 out of the area of the groove 14 into the suction pipe 7 against a spring force exerted by the pressure in the hose 25. At the same time, the web edges created during cutting are folded over and pressed against the flanks 14.1 and 14.2. As the carriage 21 continues to move, the plungers 23 suddenly jump into the area of the groove 14 with the needles 24 as soon as they are no longer held back by the side walls 21.3. The needles 24 penetrate into the web end 4.1 resting on the flank 14.1 and hold this in place by means of their barbs. Subsequently, the suction fan is switched off and during the subsequent turning of the ^'tube 7 counterclockwise, the web solves 4.1 of the suction zone 16.1 and is placed on the suction zone 16.2, after the web remnant 4.2 was removed. After switching on the suction blower again, the needles 24 are drawn out of the area of the groove 14 and thus out of the web 4 by supplying compressed air to the inner tube 26 and venting the outer tube 25. In this position, the splice element 6 is ready to carry out an adhesive connection with a web start pulled off from below.

When the unwinding direction changes from the web train below to the web train above, the web end is accordingly transferred from the suction zone 16.2 to the suction zone 16.1. Then, on the opposite side, the needles 24 hold the path start newly created during cutting, which is then to the left in FIG. 1.

The configuration of the splice element 6 shown in FIG. 11 has the advantage that no holding elements have to reach around the cutting blade when the direction of rotation of the supply roll changes. The hoses 25, 26 used to move the needles 24 also serve to apply the spring force to the Let needles suddenly penetrate into the web 4. The required penetration force of the needles 24 can be set as a function of the web material via the pressure in the tubes 25.

Even if the unwinding direction of the supply rolls does not change, it may be necessary with stiffer types of paper (e.g. cardboard) to additionally hold the web ends mechanically with the needles 24 shown in FIG. 11. Since the rolling direction does not change, needles are only required on one side of the groove 14.

Sufficiently tear-resistant webs can also be held mechanically by the needles 24 only. If the required web tension can be applied by means of the needles 24 without the risk of tearing, the surface-acting suction zones 16.1 or 16.2 are not absolutely necessary and can therefore possibly be omitted.

The embodiments of the invention described in FIGS. 1 to 11 are advantageously constructed in the manner of a modular system. Starting from the device according to FIGS. 1 to 3, this can be equipped or retrofitted with a linearly movable splice element 6 according to FIGS. 5 and 6 in order to automatically connect full rolls with web take-off from above or below to the running web. By equipping or retrofitting with the clamping element 20 shown in FIGS. 7-10 or the splice element according to FIG. 11, the device according to FIGS. 5 and 6 is enabled to provide a fully automatic web connection even when the unwinding direction is changed at the same time to perform the full roll 1.

It is an essential advantage of the device according to the invention that the adhesive seam 18 does not have to be positioned exactly, but only within a certain area. This enables a very simple roll preparation of the new roll for the splicing process, and there is no need for complex control devices which operate the adhesive seam 18 to produce the adhesive connection, e.g. B. by turning the full roll,

Claims

- PATENT REQUIREMENTS

1.

Device for connecting the end of a web of material running from a first winding roll to the start of the web of a new winding roll that is exchanged for the first winding roll on a unwinding machine

- With means for cutting through the running web, for holding the generated web end and for pressing the web end against the outer circumference of the new new winding roll to produce an adhesive connection, characterized by an application to the running web (4), outside the area of a full winding roll (1) movable splice element (6), which can be pressed onto the outer circumference thereof, which contains a web separating element (15) and a holding element (16) which, when in contact with the running web (4), lies behind the web separating element (15) in the web running direction. located.

Second

Device according to Claim 1, a splice element (6) consisting of a rotatable one that extends over the working width

Intake pipe (7) with an axial groove (14), in the as a separating element

(15) a cutting knife is arranged, with a suction zone

(16) with suction openings against the direction of rotation of a full roller (1) connects to the groove (14). - 42 -

3rd

Apparatus according to claim 1 or 2, g e k e n n z e i c h n e t d u r c h a rotary drive with adjustable torque for the splice element (6) for maintaining the tension of the running web (4) when the splice element (6) moves.

4th

Device according to one of claims 1 to 3, so that the splice element (6) is mounted on the free end of two lateral pivot levers (9).

5th

Device according to one of claims 1 to 4, so that the splice element (6) can be moved linearly in lateral guides, which are preferably attached to lateral pivot levers (9).

6th

Apparatus according to one of Claims 2 to 5, so that suction zones are arranged on both sides of the separating element (15).

7.

Apparatus according to Claim 6, a clamping element (20 or 24) arranged between the two suction zones (16.1, 16.2) for holding the newly created web end.

8th.

Device according to claim 7, characterized in that the holding element (20) consists of a wire cable (20.2) which is pivotably mounted in the groove (14) and can be pivoted onto the inner walls of the groove.

9th

Device according to one of Claims 1 to 6, characterized by a splice element (6) consisting of a rotatable tube (7) which extends over the working width and has an axial groove (14) in which a movable carriage (21) is arranged with a cutting knife (22), the side walls (21.1) are designed such that they create the newly created web end (4.1) on a groove flank (14.1), and through a row of needles (24) arranged in the tube (7) for Holding the web end (4.1), the tips of which can be moved through openings in the groove flanks (14.1) with the tips of the web end (4.1).

10th

Device according to claim 9, so that the needles (24) are fastened to plungers (23) which are supported by a side wall (21.3) of the slide (21) against a spring force from the area of the groove (24) so that they can be pressed.

11th

Device according to claim 10, so that the tappets (23) are connected on both sides of the groove (14) with two hoses (25, 26) which can be acted upon by compressed air and extend over the length of the tube (7).

12th

Device according to one of claims 1 to 11, that the splice element (6) has an elastic surface (8).