EP0525729A1 - Method of and apparatus for applying labels of sealable material to containers and containers so labelled - Google Patents

Abstract

To provide containers (1) with an all-round label (2) of sealable material, the sealable material is drawn from a supply roller in a continuous mode of operation, an individual label (2) is cut off and then fed by its front edge (4) to the container, attached by means of at least one narrow area of adhesive in the region of the front edge, wound up by rotation of the container and subsequently connected by sealing the rear edge (5) of the label to the front edge of the label. <IMAGE>

Description

The invention relates to a method and a device for equipping vessels with a label made of sealable material and vessels equipped in this way according to the preamble of claims 1, 11 and 27.

Such a device is known from US Pat. No. 4,694,633. By using a narrow, curved vacuum suction strip, the machine described there is able to completely wrap a label made of sealable material around a vessel, the overlap area being sealed after the wrapping. The suction bar arranged between the outer wall of the tube and the inside of the label during the winding and sealing process is then pulled out in the axial direction of the tube. A disadvantage is the fact that, due to the principle, the label cannot be wound firmly onto the vessel without an intermediate distance, but a certain intermediate distance is always present, so that the label has to be shrunk over the entire area by heat treatment for attachment to the vessel after sealing. As a result, this machine is only limited to processing labels made of heat-shrinkable material. The compulsory full-surface heat treatment incurs additional cost, may crease the appearance, and in some cases, such as the labeling of already filled aerosol cans, cannot be used for safety reasons. Furthermore, this previously known machine is mechanically very complex and accordingly sensitive due to the use of a thin suction bar and the necessary control, especially against damage to the suction bars.

Another device for wrapping vessels is known from U.S. Patent 4,272,311. In this device, the vessels to be treated are guided in a straight line past an application station, a label strip being pulled off a supply roll, glued on the inside, and the front edge of the strip being applied to the container by a circumferential belt, and the latter is set in rotation for winding. Only after the tape has already been partially wrapped around the container is the label separated from the tape in that the tape is held in place by a clamping device and the label already attached to the container is torn off or cut along a perforation line from the tape. In the further course, the separated label is rolled up completely onto the container. It is also proposed that in the processing of a sealable label, the overlap area can be sealed in addition to the surface gluing by unrolling on a stationary sealing tool. Because the glued label is only separated from the tape after it has been partially wound onto the vessel, the tape having to be stopped, a disadvantageous discontinuous mode of operation results in the area of the tape feed, which permits only very low production outputs. The maximum performance is moreover severely restricted by the proposed sealing device, since, due to the function, the sealing time then available is not sufficient for a reliable connection of the front and rear edges of the label due to the short rolling of the overlap area on the stationary sealing tool. With this machine, it is therefore not necessary to dispense with large-area gluing of the inside of the label to the outer wall of the container, which is perceived as disadvantageous, in particular when processing thin and transparent plastic films, for optical reasons. The previously known device is not suitable for achieving high production outputs of, for example, 40,000 bottles to 80,000 bottles or cans per hour, as is common today in the beverage industry.

Based on this prior art, the invention has for its object to provide a method and an apparatus for equipping vessels with a label made of sealable material and vessels equipped in such a way that high production performance can be achieved with little effort and at the same time high operational reliability.

This object is achieved by the features specified in the characterizing part of claims 1, 11 and 27.

Due to the fact that a single label is cut from a label tape in continuous operation, its front edge is attached to a container and glued, and then the label is wound tightly onto the container without a gap and the label rear edge is sealed to the label front edge in the overlap zone extremely easy way to equip tubes with high performance without negatively affecting the visual appearance of very thin or transparent labels. This is mainly due to the fact that very little adhesive has to be applied either to the label or to the container to fix the front edge of the label to the container before the winding-up process, since the adhesive is only used as a winding aid, ie it should ensure that the label during does not fall off the container when it is wound up. The label is actually attached by sealing the label edges in the overlap area. The dimensions of the label to be wound can also be chosen so that the upper one and protrude the lower longitudinal edge of the label radially inwardly drawn end regions of a vessel, in particular on the head or the bottom, this protrusion of the label can be applied to the contour of the vessel after winding by targeted heat shrinking. In this case in particular, an adhesive can be chosen to adhere the label to the container, the adhesive strength of which can deteriorate over time after sealing, since the label is held in a form-fitting manner on the outer wall of the container by tightly winding and shrinking on certain sections of the label. For example, in the case of suitable label and tube material, e.g. plastic bottles, a solvent can also be used as an adhesive, which when applied to the label or the tube forms a sticky zone which, at least for a short time, allows the label to be attached and wound up, but after a few minutes or after a heat treatment, some or all of its adhesive effect loses. Such a design is particularly interesting for reusable containers because of the easier removal of the labels.

If, due to the design, a short period of time has to be bridged between the completion of the winding process of the label and the subsequent heat sealing of the overlap area, it must be ensured that the trailing edge of the label remains on the container in the meantime. This can be accomplished, for example, by mechanically pressing the label against the container or advantageously by briefly affixing the label to the container while it is being wound up in the area in front of the trailing edge until the seal, although the overlap area is kept free of adhesive .

When processing labels that are not yet in contact with the outer contour of the vessel after being wound up in certain areas, it is particularly advantageous if the free-standing sections of the label on the inner side facing the vessel are kept supported during the sealing process, so that the overlap area is over if possible the entire height of the label can be sealed. The protruding portions of the label can then be shrunk on without the overlap bursting open.

According to a particularly advantageous development of the invention, the sealing time can be kept constant regardless of the current working speed. This allows the integration of a machine according to the invention in a production line with upstream and downstream treatment machines without the quality of the sealed seam, e.g. is influenced by too high or too little heat input.

• Fig. 1 bis 4 jeweils eine schematische Draufsicht einer Ausstattungsmaschine ohne deren Oberteil nach vier verschiedenen Ausführungen,
• Fig. 5 bis 7 und 10 jeweils einen Querschnitt durch den Überlappungsbereich von ausgestatteten Gefäßen mit drei verschiedenen Klebemustern und die Geometrie der Heißsiegeleinrichtung,
• Fig. 8 eine perspektivische Darstellung eines ausgestatteten Gefäßes mit einem Klebemuster nach Fig. 6 und
• Fig. 9 einen vertikalen Schnitt durch den äußeren Rand des Drehtisches einer Ausstattungsmaschine gemäß den Fig. 1 bis 4 mit einem axial eingespannten Gefäß.

Various exemplary embodiments of the invention are described below with reference to several figures. Show it:

• 1 to 4 each show a schematic plan view of an equipment machine without the upper part according to four different versions,
• 5 to 7 and 10 each show a cross section through the overlap area of equipped vessels with three different adhesive patterns and the geometry of the heat sealing device,
• Fig. 8 is a perspective view of an equipped vessel with an adhesive pattern according to Fig. 6 and
• 9 shows a vertical section through the outer edge of the turntable of an equipment machine according to FIGS. 1 to 4 with an axially clamped vessel.

The equipment machine shown in FIG. 1 has a drivable turntable 15 which is rotatably mounted about a vertical axis and which carries a plurality of turntables 16 arranged on a circle (23) in the region of its outer circumference. These turntables 16 are intended for receiving the vessels 1 to be equipped and can execute a specific turning program by means of an associated control device 20 (see FIG. 9) during a revolution on the turntable 15. The vessels 1 to be equipped are supplied to the turntables 16 by a feed conveyor 17, which is only indicated schematically. Each turntable 16 is assigned a lifting and lowering centering bell 19 (see FIG. 9), with the aid of which the vessels 1 can be clamped axially between the bottom and the head after being fed by the feed conveyor 17.

Immediately in the area behind the feed conveyor 17, on the radially outer side of the rotating table 15 rotating clockwise, a gluing device 12 acting directly on the vessels 1 passing by is arranged. The gluing device 12 shown in FIG. 1 is designed as a rotating glue roller with which, for example, hot glue (for example in the case of glass bottles or metal cans) or also solvents (for example plastic containers) can be applied. The glue pattern transferred to the vessel 1 depends on both the vessel and the glue roller surface. If both have a continuous, cylindrical shape along their line of contact, a narrow vertical strip of glue is transferred to the vessel In the case of hot glue in particular, however, a few glue points can already suffice to adhere the label (see FIG. 8), so that a glue roller with a plurality of projecting ring webs arranged one above the other can be used for this.

Seen in the direction of rotation of the turntable 15, a transfer device 9 for applying the separated individual labels 2 to the containers 1 on the radially outer side of the turntable 15 is arranged behind the gluing device 12. In the exemplary embodiment shown in FIG. 1, the transfer device 9 is designed as a vacuum cylinder 14 which can be driven to rotate in the same direction as the rotary table 15. The already cut labels 2 adhering to the vacuum cylinder 14 are separated from a tape 8 by a cutting device 7 arranged in front of the vacuum cylinder 14, which tape 8 is pulled off by a tape pulling device 6 from a supply roll (not shown) in synchronism with the machine output, in accordance with the print image in a positionally appropriate manner. The cutting device 7 consists of a fixed knife 29 and an associated rotating vacuum knife drum 30.

Opposite the vacuum cylinder 14, on the radially inner side of the turntable orbit 23, a curved, stationary guide element 21 is arranged, the surface of which rests on the containers 1 and, during the winding up of the labels 2, guides the part of the label not yet in contact with the container 1 and pull the label taut at the same time so that it fits snugly against the container. For this purpose, the guide element 21 can additionally be equipped with vacuum channels, not shown. The length of the guide element 21 is such that its rear end leads the trailing edge of the label 5 to at least the complete winding and formation of the overlap area 3.

A guide body 28 runs synchronously with the turntable 15 on the radially inner side of the turntable orbit 23, in which sealing jaws 22, which are guided in a radially movable manner, are held. The guide body 28 carries a number of sealing jaws 22 corresponding to the number of the turntables 16 on the turntable 15, which are aligned with the turntables 16 in the correct position. The control device 24 for actuating the sealing jaws 22 is arranged in the interior of the guide body 28. The control device 24 consists essentially of two axially offset control cams 25 and 26, which are continuously adjustable relative to each other in or against the direction of rotation of the turntable 15. Each sealing jaw 22 carries at its radially inner end a cam roller 27 which bears against the cam contour of the control cams 25 and 26. For this purpose, the sealing jaws 22 and the cam rollers 27 are permanently acted upon in the direction of the control cams 25 and 26 by a spring device (not shown).

The front control curve 25 of the control device 24 is held stationary on the center column 31, while the rear control curve 26 is pivotably mounted on the center column 31. The rear control cam 26 can be pivoted continuously between two limit positions by means of an actuating device (not shown). While the front control curve 25 determines the beginning of the sealing process with its rising curve flank, the falling curve flank at the end of the rear control curve 26 is decisive for the end of the sealing process. By adjusting the rear control cam 26 relative to the front control cam 25, the angle of rotation, while a sealing jaw 22 rests on the overlap area 3 of a label 2, can be increased or decreased in accordance with the current running speed of the turntable 15. Due to the infinitely variable adjustability of the rear control cam 26, the sealing time can be kept constant within certain limits by varying the control angle, the control angle increasing with increasing power or decreasing with decreasing power.

The front control cam 25 is positioned with its rising flank in such a way that the sealing jaws 22 are controlled radially outward shortly before the rear end of the fixed guide element 21 and are applied to the overlap area 3 of a label 2 immediately after the end of the guide element 21. Shortly before reaching the conveyor 18, the falling flank of the rear cam 26 begins, so that the sealing jaws 22 slide radially inward and the sealed containers 1 can be removed from the turntable 15 by the conveyor 18 and discharged. For this purpose, when the discharge conveyor 18 is reached, the centering bell 19 resting on the head of a vessel 1 is raised.

The rotation program of the turntable 16 is designed so that a vessel 1 after passing through the gluing device 12 is at the latest when reaching the vacuum cylinder 14 with the applied adhesive zone 13 to the label leading edge 4 on the vacuum cylinder pointing in opposite directions to the turntable 15 in rotation. After completion of the winding-up process by at least one complete revolution, the rotary movement of the vessel relative to the rotary table 15 is stopped with an overlap area 3 oriented inwards to the moving sealing jaw 22 in order to carry out the sealing.

The exemplary embodiment shown in FIG. 2 corresponds to that of FIG. 1 in its basic structure one, but differs in the movement conditions in the area of the transfer device 9 and when the labels 2 are wound onto the containers 1.

In contrast to the exemplary embodiment according to FIG. 1, in the second exemplary embodiment the vacuum cylinder 14 is driven counter to the direction of rotation of the turntable 15. In addition, at the moment of the label transfer in the area of the vacuum cylinder 14 and during subsequent winding of the label, the vessel 1 is moved by the turntable 16 in the direction of rotation of the turntable 15, in such a way that a vessel 1 rolls on the vacuum cylinder 14 without slippage when the label leading edge 4 is fed.

Due to the rotation of the vessels 1 in the same direction with respect to the turntable 15, the guide element 21 is arranged in a stationary manner on the radially outer side of the orbit of the vessels in this embodiment.

The embodiment according to FIG. 2 enables the processing of longer labels with the same pitch of the turntable 15 compared to the embodiment according to FIG. 1 and offers more favorable transfer conditions on the vacuum cylinder 14.

Since the heatable sealing jaws 22, as in the exemplary embodiment according to FIG. 1, are arranged on the radially inner side of the rotary plate orbit 23, but after winding up a label 2 whose overlap area 3 is directed radially outward, the vessel must at least be sealed around another 180 are rotated so that the overlap area 3 is assigned to a sealing jaw 22 opposite. In order to prevent the label rear edge 5 from falling off the container during the 180 ° rotation, it must be fixed on the container until the sealing jaw 22 is put on. The trailing edge of the label can be fixed mechanically, for example in a manner not shown, if a pressure or guide element, which is associated with the turntable 16 and thus also with the vessel 1 and is provided with the latter, is provided at the latest in the region of the rear end of the fixed guide element 21 is applied to the vessel 1 in order to hold the rear part of the wound label 2 on the vessel until the overlap region 3 is assigned to the sealing jaw 22. A pressure or guide element of this type, like the sealing jaw 22, can be mounted on the guide body 28 in a radially displaceable manner and can be actuated by a corresponding control device.

Instead of this mechanical solution, the label trailing edge 5 can be held on the container with less effort after winding up, in that the label 2 near the label trailing edge, like the label leading edge, is only attached to the container with narrow glue zones or points before the overlap area 3 the label 2 is permanently attached by sealing. In comparison to the first exemplary embodiment according to FIG. 1, this variant does not require any additional mechanical devices. It is only necessary in the area of the transfer device 9 when applying the leading edge 4 of the label by the vacuum cylinder 14 to the vessel 1, the rotational movement of the vessel 1 by the turntable 16 to the rotational movement of the vacuum cylinder 14 so that the leading edge 4 of the label by the gluing device 12th applied to the container 1 does not completely cover the adhesive zones, but a part thereof - as seen in the direction of rotation of the turntable 15 - remains free in front of the front edge 4 of the label. This still uncovered part of the adhesive zones comes into contact with the label in the area of the label rear edge 5 during the subsequent winding of the label, but the overlap area 3 is kept glue-free for subsequent sealing (see FIGS. 6 and 8).

The embodiment according to FIG. 3 differs from that of FIG. 2 by a different heat sealing device 11. This consists of a curved heating element 32 held stationary on the radially outer side of the vascular orbit, which is supported by a thin heat-resistant but heat-permeable film-like band 33, e.g. Teflon film is wrapped around and also serves as a guide. The belt 33 is deflected by a respective deflection roller 34 and 35 at the two ends of the heating element 32, the deflection roller 35 being drivable synchronously with the instantaneous rotational speed of the turntable 15, in such a way that the belt 33 rests on the vessels 1 with its radially inner drum and circulates with these non-slip.

The winding process of a label 2 proceeds until the rear end of the guide element 21 is reached in the same way as in the exemplary embodiment according to FIG. 2. After the winding has taken place, however, the rotary movement of the vessel 1 is controlled by the control device 20 of the turntable 16 in the region of the rear end of the Guide element 21 stopped so that the overlap region 3 points radially outwards and in this position is guided past the heat sealing device 11 in a stationary manner relative to the turntable 15. The heat sealing device 11 can be designed in several parts in accordance with the embodiment in FIG. 3, that is to say a plurality of similar heat sealing devices 11 are arranged one behind the other on the circumference of the rotary table 15 and, in order to adapt the sealing process to different machine outputs, can be moved radially outward from the vessels by actuating devices (not shown) be moved. At full power, the two heat sealing devices 11 assume their radially inner position, while, for example, at half power to avoid overheating of the overlap regions 3, the rear heat sealing device 11 - seen in the direction of rotation of the rotary table 15 - can be disengaged radially outwards. This design enables at least a gradual adaptation of the sealing time to different machine outputs. In the event of an emergency stop of the equipment machine caused by a fault, all the heat sealing devices 11 can be disengaged from the outside at the same time.

In the exemplary embodiment according to FIG. 4, the heat sealing device consists of a plurality of sealing rollers 36 arranged alternately offset one behind the other on the radially inner and outer side of the orbit of the vessels. In contrast to the previously described exemplary embodiments, the vessels 1 continue to be continuous even after completion of the winding process when passing through the sealing section by the control device of the turntable 16 rotated in the same direction about its own axis. The stationary, heatable sealing rollers 36 are arranged one behind the other on the rotary table 15 such that the overlap area 3 is alternately briefly acted upon by one of the sealing rollers 36 when it points radially inwards or radially outwards. To avoid slippage between the label surface and the surface of the sealing rollers 36, the sealing rollers can be driven synchronously with the speed of the label surface adhering to the container. The sealing rollers 36 can be retracted radially inwards or outwards from the vessels in a manner not shown, so that, similar to the embodiment according to FIG. 3, a gradual adaptation of the sealing time taking into account the current power of the machine or the Running speed of the turntable 15 is possible.

5 to 7 each show a horizontal section through part of the vessel wall in the region of the overlap region 3 of a vessel 1 which has already been sealed. The three different designs differ only in the adhesive zones 13 used to wind up a label 2.

In the variant according to FIG. 5, only the label leading edge 4 is glued to the outside of the vessel wall 38 by means of narrow adhesive zones 13. The label rear edge 5 is held exclusively by the seal in the overlap area 3 with the label front edge 4. 5, the adhesive zone 13 can be offset laterally with a certain distance from the front edge 4 of the label so that it is no longer directly below the overlap area 3 to be sealed. As can also be seen, the sealing of the label rear edge 5 with the label front edge 4 in the overlap area 3 can take place by means of a sealing jaw 22 which is movable radially to the vessel 1 and which can be heated by a rod-shaped, electrical heating cartridge 37. In order to prevent label material from adhering to the sealing jaw 22 due to the action of heat during the sealing process, at least the part of the sealing jaw that comes into contact with the label surface can be coated with Teflon film. In addition to the adjustable and controllable temperature of the sealing jaw 22, the sealing effect can also be influenced by its contact pressure against the vessel. The sealing jaw 22 is therefore acted upon by an adjustable spring device, not shown, which at the same time compensates for any diameter tolerances that may occur in the vessels.

In the embodiment according to FIG. 6, not only the label front edge 4 is glued to the vessel wall 38 by the adhesive zone 13, but also the rear section of the label 2 in the vicinity of the rear edge 5, whereby, however, the overlap area 3 between the label front edge 4 and the label rear edge 5 remains free of glue. This is necessary to achieve a perfect seal. 6 can also be seen in FIG. 8. A continuous vertical glue strip along the front edge 4 of the label is not absolutely necessary for winding up the label 2. Two to three narrow adhesive zones 13 arranged one above the other are sufficient, which can be applied, for example, by means of a glue roller acting directly on the vessels with projecting ring webs or else by spray nozzles.

The only point-by-point application of adhesive indicated in FIG. 8 can also be used in the adhesive samples according to FIGS. 5 and 7. FIG. 7 contains an adhesive bond similar to that in FIG. 6, with the difference that no glue is applied in the overlap area 3 between the label front edge 4 and the vessel wall 38. The adhesive zones 13 are each arranged at a certain distance from the label leading edge 4 or the label trailing edge 5. The advantage of this variant lies in the fact that after the overlap area 3 has been sealed, it lies closely against the vessel wall 38 due to a lack of material and adhesive accumulation, which is positive for optical reasons.

5 to 7 can not only be applied directly to the vessel, as shown in the exemplary embodiments according to FIGS. 1 to 4, but also directly to the ent speaking areas of the inside of the label. The gluing devices required for this must then be arranged on the periphery of the vacuum cylinder 14. There, the individual labels 2 which have already been separated are held by the vacuum cylinder with the inside facing outward. 5, the vacuum cylinder 14 can be provided in the area of the label leading edge 4 with a radially movable slide, so that a smooth glue roller with a small radial distance can be placed on the vacuum cylinder 14 for gluing the leading edge 4. With such slides, the label leading edge 4 can also be transferred from the vacuum cylinder 14 to the vessel 1 passed by the turntable 15.

The label 2 applied to the vessel 1 shown in FIG. 8 is attached to the vessel wall 38 with the glue pattern according to FIG. 6. While the label 2 is only glued to the vessel wall 38 with three narrow adhesive zones 13, which are arranged one above the other in the area of the label leading edge 4, the overlap area 3 is sealed continuously over the entire height.

When equipping a vessel that has radially inwardly drawn sections in the head and / or bottom area that are to be covered after the furnishing process by a label attached to the vessel contour, a label can initially be applied directly to the cylindrical part in the manner described above be glued and wound through narrow adhesive zones. To seal the overlap area 3, support is then required on the inside of the overlap area where the overlap area 3 has not yet come into contact with the outer wall 38 of the vessel so that it can be sealed over the entire height. After sealing, the protruding sections of the label can be applied to the contour of the vessel by means of a targeted shrinking treatment.

9 shows a vessel 1 clamped axially between a turntable 16 and a centering bell 19, in which the upper label edge projects beyond the cylindrical region of the vessel clamped between head and bottom in the direction of the head. To support the overlap area 3 in this protruding part of the label, a support surface designed as a tongue 39 is attached to the centering bell 19.

An advantageous embodiment of the sealing jaw 22 can be seen in FIG. 10. The surface of the sealing jaw 22 coming into contact with the overlap area is concavely curved and has a larger radius of curvature R _s than the vessel surface or the overlap area 3. The radius of curvature of the vessel surface is denoted by R _G. This geometric design of the sealing jaw 22 enables particularly good heat seal seams.

Claims (31)

1. A method for equipping vessels with a label made of sealable material, which is provided in roll form, the label being applied by direct winding onto the cylindrical section of the vessel to form an overlap area and affixed by heat sealing the front and rear edges of the labels lying in the overlap area is characterized in that the sealable material is withdrawn from a supply roll and a label is completely separated, which is then fed with its front edge to the cylindrical section of the vessel and attached by at least one narrow adhesive zone located in the area of the front edge, by at least a complete revolution of the tube is wound up and subsequently connected to the front edge of the label by sealing the rear edge of the label. 2. The method according to claim 1, characterized in that the label is held fixed after the complete winding up to heat sealing in the region of the rear edge on the vessel. 3. The method according to any one of claims 1 or 2, characterized in that the narrow adhesive zones are applied directly to the vessel before winding up the label. 4. The method according to at least one of the preceding claims, characterized in that the label is fixed in the area in front of the trailing edge by at least one narrow adhesive zone on the vessel, but the overlap area is kept free of adhesive. 5. The method according to at least one of claims 1 to 4, characterized in that the front edge of the label is fed to the vessel such that a part of the adhesive zones - seen in the winding direction of the vessel is in front of the front edge and the part of the adhesive zones not covered by the front edge when winding up the label with a section in the area of the rear edge of the label comes into contact. 6. The method according to at least one of the preceding claims, characterized in that at least the portions of the overlap area which are not in contact with the outer contour of the vessel after the label has been wound up are kept supported during the sealing process on the inside of the label facing the vessel. 7. The method according to at least one of the preceding claims, characterized in that after the heat sealing of a shrinkable label, at least the areas of the wound label which are not completely in contact with the outer contour of the vessel are applied to the outer contour of the vessel by a heat treatment. 8. The method according to at least one of the preceding claims, characterized in that the sealing time is kept substantially constant regardless of the current working speed. 9. The method according to at least one of the preceding claims, characterized in that the adhesive effect of the adhesive zones diminishes after heat sealing. 10. The method according to at least one of the preceding claims, characterized in that the adhesive zones are formed as adhesive points lying one above the other along a line approximately along the label leading edge. 11. Device for equipping a vessel (1) with a label (2) made of sealable material, which is provided in roll form, the label (2) being wound directly onto the cylindrical section of the vessel (1) to form an overlap area (3 ) applied and fastened by heat sealing the front (4) and rear edge (5) of the label lying on top of one another in the overlap region (3), characterized in that the sealable material is drawn off from a supply roll in a continuous sequence by a tape pulling device (6) by a cutting device (7) a label (2) is separated from the belt (8) and this is fed with its front edge (4) through a transfer device (9) to a vessel (1) which is guided past the transfer device (9) by means of a transport device (by rotation) of the container (1) wound onto it and the label front (4) and rear edge (5) in the overlap area (3) by a Heat sealing device (11) is sealed, with at least one of the labels (2) and / or the container (1) being applied to the container (1) by a gluing device (12) before the leading edge (4) of the label (2) is fed Front narrow edge (4) assigned narrow adhesive zone (13) is applied. 12. The apparatus according to claim 11, characterized in that the transfer device (9) is designed as a rotationally drivable vacuum cylinder (14). 13. The apparatus according to claim 11, characterized in that the transport device (10) is designed as a rotatably drivable turntable (15) with at least one turntable (16) rotatably mounted thereon for receiving a vessel (1), the vessel (1) being formed by a feed conveyor (17) can be fed to the turntable (16) and can be removed by a discharge conveyor (18). 14. The apparatus according to claim 13, characterized in that the rotary plate (16) positionally a rotatable centering bell (19) for axially clamping a vessel (1) on the head and bottom between the rotating plate (16) and centering bell (19) and a control device (20th ) for executing a turning program during a rotation of the turntable (15) from the feed conveyor (17) to the discharge conveyor (18). 15. The apparatus according to claim 12, characterized in that the vacuum cylinder (14) on the radially outer side of the turntable (15) - seen in the circumferential direction - is arranged in the area after the feed conveyor (17). 16. The apparatus according to claim 15, characterized in that a gluing device (12) acting on the vessel is arranged on the rotary table (15) in the region between the feed conveyor (17) and the vacuum cylinder (14). 17. The apparatus according to claim 14, characterized in that the control device (20), the turntable (16) and the vessel (1) held thereon at the latest when reaching the vacuum cylinder (14) and feeding the leading edge of the label (4) until at least complete winding of the label (2) rotated. 18. The device according to at least one of the preceding claims, characterized in that for sealing the overlap area (3) facing the heat sealing device (11) and held stationary in this position relative to the rotary table (15). 19. The device according to at least one of the preceding claims, characterized in that - seen in the direction of rotation of the rotary table (15) - in the area after the vacuum cylinder (14) for guiding, tightening and pressing the label (2) one or more stationary guide elements (21 ) are arranged on the rotary table (15). 20. The device according to at least one of the preceding claims, characterized in that each turntable (16) with a rotating table (15) is associated with a guide or pressure element. 21. The device according to at least one of the preceding claims, characterized in that each rotary plate (16) is assigned a position-related, with the rotary table (15) synchronously rotating heat sealing device (11), which comprises a heatable sealing jaw (22). 22. The apparatus according to claim 21, characterized in that the sealing jaw (22) is arranged on the radially inner side of the turntable orbit (23). 23. Device according to one of claims 21 or 22, characterized in that the sealing jaw (22) is mounted so as to be movable radially to the vessel (1) and the radial movement can be controlled by a control device (24). 24. The device according to claim 23, characterized in that the control device (24) for keeping the sealing time constant at different running speeds of the turntable (15) is adjustable. 25. The device according to claim 24, characterized in that the control device (24) is formed by a two-part control curve (25, 26), the two parts of the control curve (25, 26) being continuously adjustable relative to one another. 26. The apparatus according to claim 21, characterized in that the surface of the sealing jaw (22) coming into contact with the overlap region (3) is concavely curved, the sealing jaw (22) having a larger radius of curvature (R _s ) than the overlap region (3 ) or the surface of the vessel. 27. Vessel with a cylindrical section, onto which a sealable label (2) is wound to form an overlap area (3) between the front (4) and rear (5) labels and the rear (5) label is sealed onto the front (4) label , characterized in that the label (2) is fixed to the cylindrical section of the vessel (1) by at least one narrow adhesive zone (13) in the area of the label front edge (4) and possibly in the area of the label rear edge (5), while the remaining area is kept free of glue. 28. A vessel according to claim 27, characterized in that in a vessel (1) with radially inwardly drawn jacket sections, in particular at the bottom and head area and a label (2) projecting beyond the drawn jacket sections, the rear label edge (5) over the entire height of the label (2) is sealed to the front edge of the label (4). 29. Vessel according to one of claims 27 or 28, characterized in that the adhesive effect of the adhesive zones (13) between the label (2) and the vessel wall (38) diminishes after sealing. 30. A vessel according to claim 29, characterized in that the adhesive zones (13) are formed by solvents. 31. A vessel according to claim 28, characterized in that the label (2) after a heat treatment of the radially inwardly drawn jacket sections of the vessel (1) associated label areas completely firmly against the vessel wall (38).

Images