EP1081046A1 - Machine for producing and enveloping melt-portions - Google Patents

Abstract

A device for the production and wrapping of Portions of melt with an endless rotating conveyor belt, as well as with at least one on an upper strand of the Conveyor belt moving in the conveying direction, by means of a film feed device on the upper run can be applied, and with a melt application unit, which is assigned to the upper run of the conveyor belt, is known.

According to the invention, at least on the upper run (2) of the belt (1) a longitudinal web (10) carried in the tape running direction covers the moving film web (9), and the melt feed unit (4) is designed so that the melt as at least one melt strand (S) in a flowable state continuously on the upper strand (2) of the belt (1) moving film web (9) is abandoned.

Use for hot melt adhesive portions (SP).

Description

The invention relates to a device for producing and Wrapping of melt portions, in particular portions of hot melt adhesive, with at least one endless conveyor belt, and with at least one on an upper run of the conveyor belt in the conveying direction moving film web, which means a film feeder can be applied to the upper run is, and with a melt feed unit that the upper strand is assigned to the conveyor belt.

Such a device is known from DE 299 01 565 U1. The known device has an endlessly rotating conveyor belt on, the upper strand with a carried matrix is. On the matrix moving with the conveyor belt put on a foil. On this film is a Melt flow unit portioned a flowable melt introduced into the respective matrix recesses. The in the Melt portions introduced in the matrix recesses are in the Course of the conveyor path in the belt running direction through different Coolant is applied to cool the melt portions. Then the output side of the conveyor belt Underlay including the melt portions applied subtracted from the matrix and the conveyor belt and one fed further conveyor. By appropriate The film is cut lengthwise and crosswise into film cuts divided, each a single portion of melt surround. Finally, the melt portions collapsed, the film cut sized so large is that it folds in on all sides completely enclosing the melt portions guaranteed. The melt portions are now ready for packaging storable and transportable.

The object of the invention is a device of the beginning mentioned type to create a simplified operation enables.

This object is achieved in that on the upper run of the Band carried at least one longitudinal web in the tape running direction is covered by the moving film web, and that the melt feed unit is designed such that the Melt as at least one melt strand in flowable Condition continuously on the upper strand of the belt moving film web is abandoned. By the invention The solution is the production of the melt portions simplified, since the melt is continuously fed. A discontinuous portioning in different Matrix recesses as provided in the prior art is avoided by the solution according to the invention, whereby a significantly simplified mode of operation results. Only a continuous one can be used Melt strand or several, parallel to each other running melt strands are abandoned. With several Correspondingly, melt strands are also several lying side by side Foil sheets provided. In addition, with several Melt strands also a correspondingly increased number provided by longitudinal webs, which are carried in the tape running direction are. Because these longitudinal webs are used on the bottom to create a longitudinal groove for each melt strand, through the one in the manner of a film hinge in the longitudinal direction running folding axis created for the melt strand is so that the melt strand about half of its Width and double its thickness collapsible or -pressable and therefore collapsible in a general sense is. The solution according to the invention is suitable for both single-belt and double-belt systems. With a double belt system also becomes the lower band strand of the upper band still assigned at least one moving film web.

In an embodiment of the invention is a continuously working Folding device for folding the at least one, continuously applied melt strand on the film web including the underlying film on about half the width and about twice the thickness along the longitudinal groove formed by the longitudinal web is provided. The Folding can therefore be compared to the prior art considerably simplified because the melt strand is continuous is folded and not individual portions of melt each have to be folded separately.

In a further embodiment of the invention, the folding device movable guide elements designed in this way are that they have a horizontal or vertical orientation of the collapsed melt strand. Depending on whether the melt strand is horizontal or vertical is aligned, the further processing of the Melt strand accordingly vertically or horizontally.

In a further embodiment of the invention is in the conveying direction a smoothing device is arranged behind the folding device, a smoothing on the top of the melt strand Exerts pressure. This ensures that the melt strand has a substantially uniform thickness.

In a further embodiment of the invention is in the conveying direction behind the folding device a conveyor for the folded melt strand provided opposite the conveyor belt has a changed conveyor function, the a separator aligned transversely to the conveying direction for dividing the folded melt strand into several positioned one behind the other in the conveying direction Melt portions is assigned, and that between the Folding device and the conveyor with modified Conveying function a buffer route is provided. To a Separation of the continuous melt strand into separate ones The separating device works to effect melt portions discontinuous, i.e. clocked. Accordingly, the assigned Conveyor also one in particular in the sense a funding function changed in a cycle. The buffer line serves the at least one, continuously funded Melt strand to catch and delay to adjust to the particularly timed funding function in the area the separating device.

The separating device preferably has a heated cutter bar on a bruise against a heated counter support, preferably in the form of a counter roller. The Cutter bar is followed by a hold-down device, which with slight clamping effect prevents the squeezed Roll up melt portions upwards. Essential to It is separating that the corresponding film web is also reliable is cut transversely to each melt portion to provide a film cut in a suitable size. Both the cutter bar and the hold-down device are with a drive, preferably with a pneumatic Drive. The conveyor device assigned to the separating device has a provided with a clocked drive Alloting belt and the melt portions continuously laxative puller tape. The counter support, i.e. the heated counter roll, can by a release agent application device be added to prevent the film web or emerging melt components in the area of the parting surfaces cause the counter roller to stick.

In a further embodiment of the invention, means for sealing from during a separation process on the melt portions emerging surface sections not covered by foil intended. Film strips can be used as a means of sealing be attached to the open end faces accordingly. This can be done by a continuously working device or by manually attaching the film strips.

In a further embodiment of the invention, means for gripping and stacking the melt portions in packaging containers intended. This will make full automation of the different process steps for manufacturing and wrapping the melt portions and ready-to-use Packaging created in larger packaging units.

Fig. 1

zeigt schematisch eine Ausführungsform einer erfindungsgemäßen Vorrichtung in einer Seitenansicht,

Fig. 2

in vergrößerter Darstellung einen Schnitt durch die Vorrichtung nach Fig. 1 entlang der Schnittlinie II-II in Fig. 1,

Fig. 3

in schematischer Darstellung einen weiteren Teil der Vorrichtung nach Fig. 1,

Fig. 4

eine Draufsicht auf den Vorrichtungsteil nach Fig. 3,

Fig. 5 bis 7

verschiedenen Teilbereiche einer Klappeinrichtung der Vorrichtung nach den Fig. 1 bis 4,

Fig. 8

in vergrößerter Darstellung in einer Draufsicht einen Teilbereich der Vorrichtung nach den Fig. 1 bis 4, die das Umlegen eines zusammengeklappten Schmelzenstranges von einer vertikal ausgerichteten in eine horizontale Position darstellt,

Fig. 9

in vergrößerter, schematischer Darstellung einen weiteren Ausschnitt der Vorrichtung nach Fig. 3 im Bereich einer Pufferstrecke,

Fig. 10

einen weiteren Ausschnitt der Vorrichtung nach Fig. 3 im Bereich einer Trennvorrichtung zum Vereinzeln des Schmelzenstranges in Schmelzenportionen,

Fig. 11

in einer Draufsicht einen Teil der Vorrichtung nach Fig. 3 in einem ausgangsseitigen Endbereich, bei dem seitliche Stirnflächen der Schmelzenportionen durch Folienstreifen versiegelt werden und

Fig. 12

in vergrößerter, perspektivischer Darstellung eine zusammengeklappte Schmelzenportion, die mit einer Vorrichtung nach den Fig. 1 bis 11 hergestellt wurde.

Further advantages and features of the invention result from the claims and from the following description of preferred exemplary embodiments of the invention, which are described with reference to the drawings.

Fig. 1

schematically shows an embodiment of a device according to the invention in a side view,

Fig. 2

2 shows an enlarged representation of a section through the device according to FIG. 1 along the section line II-II in FIG. 1,

Fig. 3

a schematic representation of a further part of the device according to FIG. 1,

Fig. 4

3 shows a plan view of the device part according to FIG. 3,

5 to 7

different partial areas of a folding device of the device according to FIGS. 1 to 4,

Fig. 8

1 to 4, which shows the folding over of a collapsed melt strand from a vertically oriented into a horizontal position,

Fig. 9

3 shows an enlarged section of the device according to FIG. 3 in the area of a buffer section,

Fig. 10

3 in the region of a separating device for separating the melt strand in melt portions,

Fig. 11

in a top view of part of the device according to FIG. 3 in an end region on the outlet side, in which lateral end faces of the melt portions are sealed by foil strips and

Fig. 12

in an enlarged, perspective view, a folded portion of melt, which was produced with a device according to FIGS. 1 to 11.

A device for the production and wrapping of hot melt adhesive portions 1 has an endless by two drums revolving conveyor belt 1, whose horizontal upper run Coolants 6, 7, 8 are assigned. The coolants 6, 7, 8 have air cooling 6, 8, which according to the illustration 1 acts on an upper side of the upper run and at against which the cooling air flow from the back of the belt the tape running direction flows forward. The air cooling points a refrigeration compressor 8. From a bottom a cooling of the upper run 2 of the conveyor belt 1 by a created with water spray cooling 7. This also extends like air cooling 6, 8 over a large area the length of the upper run 2.

The conveyor belt 1 designed as a steel belt is on his Top with at least two aligned in the conveying direction and spaced-apart baffle bars 3, the are fixed on the surface of the conveyor belt 1. The encircling baffle bars 3 serve as a side boundary for the - as described in more detail below - to be applied, flowable melt in the form of hot melt adhesive. Between each two adjacent storage strips 3 is thus in the area of the upper run 2 each over the length of the upper run continuous bed for receiving a flowable Melt strand S created. Every bed on the upper run 2 between two adjacent storage strips 3 is also a film web 9 assigned to the bed between each lines two storage strips 3 such that the storage strips 3 are still covered by the film web 9. The Foil web 9 is the via a film feeder 5 Upper run 2 of the conveyor belt 1 fed on the input side. If more than one bed by a corresponding number of storage rails 3 to form at least two parallel to each other guided melt strands S is provided in correspondingly, one for each melt strand S. own film web 9 is provided so that the film feed device 5 at least two rollers arranged side by side for unwinding corresponding film webs 9.

For the application of a continuous melt strand S on the upper run 2 of the continuously rotating conveyor belt 1, a melt feed unit 4 is provided, which for each bed of the upper dream between two neighboring ones Stowage bars 3 each have a pouring head 4 in the form of a Has pipe socket or a slot die. Out the casting head 4 is melted, i.e. the hot melt adhesive, in flowable condition in the respective bed on the underlying Film web 9 applied, causing the melt due their fluidity runs within the bed and that Fills the bed between the storage rails 3 completely. Because of the continuous task by means of the respective casting head 4 and the continuously supported upper run 2 results there is a continuous melt strand S on each film web 2. Each melt strand S passes through the coolant, whereby it is cooled to a viscous mass. The hot melt adhesive in The shape of the respective melt strand S is after passing through the coolant 6 to 8 in the form of extremely tough, however still deformable mass basically ready for use. However, it is extremely sticky and in this open state not manageable.

For this reason, between each film web 9 and the upper run 2 of the conveyor belt 1 in the middle of each bed formed between the storage rails 3, a longitudinal web running through the entire upper run 2 in the form of a separating cord 10 is provided. The thickness of the separating cord 10 is somewhat less than the height of the melt strand S. The separating cord 10 is fed on the input side in the region of the feed of the film web 9 and wound up again at the end of the conveyor belt. Alternatively, so-called lost separating cords can be provided, which are removed and disposed of on the output side of the conveyor belt. Finally, it is also possible to carry the respective separating cord around on the conveyor belt 1. Each separating cord 10 forms a longitudinal groove in the underside of the melt strand S, which at the same time forms a type of film hinge in the region of the top of the melt strand. Each melt strand S can thus be folded along its central longitudinal axis, which forms a corresponding folding axis, together with the underlying film web 9, which adheres to the melt strand S, to approximately half its width and twice its thickness. For this purpose, as can be seen from FIGS. 3 to 8, a folding device K is provided. The folding device K in the illustrated embodiment, as can be seen from FIGS. 5 to 7, has three folding roller pairs K ₁ to K ₃ , which gradually compress the melt strand S in a vertical orientation. The first two folding roller pairs K ₁ and K ₂ are aligned with each other in a V-shape with increasing angle. The third pair of folding rollers K ₃ has two vertically aligned, spaced-apart rollers, between which the vertically aligned and collapsed melt strand S is passed. The folding roller pairs K ₁ to K ₃ can be driven. The three folding roller pairs K ₁ to K ₃ are arranged one behind the other in the conveying direction of the respective melt strand S. In the case of two or more melt strands S, an increased number of folding devices K is provided accordingly. It is also possible to equip the folding device K with only a single pair of folding rollers which, if necessary, can be pivoted like scissors. Instead of the vertical orientation of the collapsed melt strand S, the folding device K can also be designed such that one half of the melt strand S is folded over the hinge axis formed by the separating cord 10 to the other, horizontal half of the melt strand S.

In the illustrated embodiment, this is done after folding of the melt strand S (Fig. 7) flipping from the vertically aligned state to the horizontal overlying state of the melt strand S (Fig. 8). For this a smoothing device G is provided, the two a peeling gap has smoothing rollers forming the melt strand S. Both the upper and the lower smoothing roller of the Smoothing device G is each provided with a drive 14, 15. The distance between the superimposed smoothing rollers, the lower part of a downstream of the conveyor belt 1, short conveyor belt is slightly less than the thickness of the collapsed melt strand S, so that a smoothing of the melt strand S to a uniform one Measure is achieved. 9 it can be seen that the Smoothing device G also get by with a single drive 14 can, provided one power transmission to the other Smoothing roll takes place, in the present case by means of a belt drive.

Around each melt strand S in evenly large melt portions Splitting SP is funded by everyone who is continuously funded Melt strand S is assigned a separating device T (FIGS. 3, 4, 10), in the conveying direction behind the conveyor belt 1, behind the folding device K and behind the smoothing device G is positioned. The separating device T is designed in such a way that that the melt strand S in uniform melt portions SP separated by crushing. Thereby the respective film web that envelops the melt strand S, completely separated with. To enable this separation process must be discontinuous, i.e. timed feed of the melt strand S. However, since the previous ones Devices including the folding device K and the smoothing device G work continuously is for everyone Melt strand S a buffer path P is provided, in which the Accumulate melt strand S, i.e. can be collected as long as a separation process is carried out and therefore no Feed takes place in the area of the separating device T.

The buffer section P is formed by several support rollers, which the melt strand S compared to the previous horizontal Guide the funding slack. In addition is a pair of guide rollers 17 is provided which the side edges of the melt strand S leads to prevent the Melt strand S evades to the side. After the buffer line P becomes the melt rod S an input roller pair a feed conveyor belt 11, wherein the input roller pair clamps the melt strand S between them and with a clocked drive 12 is provided. Here is the clocked Drive 12 of the upper input roller of the pair of input rollers assigned. The lower roller is driven indirectly, by moving from the circulating feed conveyor belt 11 is enclosed, which in turn is synchronously clocked Drive 13 is provided in the area of the output roller. The Infeed conveyor belt 11 thus has a step drive 13.

As can be seen from FIG. 4, is a common one Separating device T for a total of three running side by side Melt strands S are provided. In the same way, however a separate separating device T for each melt strand S. be provided. If only one melt strand S is conveyed is, the separating device T accordingly for the Squeeze this single melt strand S designed his. As can be seen from FIG. 10, the separating device has T one heated by a heater 23 Cutter bar 22 on the one running transversely to the conveying direction horizontal pivot axis 24 in the direction of the dashed line Arrow on an unspecified frame by means of a drive, also not specified is pivotable. The drive is synchronized with the timing the feed conveyor 11 matched. By heating of the knife of the cutter bar 22 is improved Crushing and severing the melt strand S to achieve this which enables the same large portions of melt SP. The knife bar 22 and in particular opposite the knife is a counter support below the melt strand S. in the form of a counter roller 18 provided with a drive 19 is provided and also has a heating device 20. In addition, the counter roller 18 is a release agent application device 21 assigned to prevent hot melt adhesive or film adheres to the jacket of the counter roller 18. The drive 19 of the counter roller 18 is synchronous with the drive 13 of the feed conveyor 11 and to drive the cutter bar 22 clocked.

The separating device T also has a hold-down device 26, the in the region of a pivot axis 25 on the frame of Separating device T according to the dashed arrow in FIG. 10 is pivotable and has a slight clamping effect on the Melt strand S or the separated melt portion SP exercises. This hold-down device 26 prevents the Melt strand S or the separated melt portion SP poses or rolls up during the separation process. The severed Melt portions SP are made by a continuously rotating Peeling tape 30, which moves by means of a drive 28 is transported on.

By squeezing and separating the melt strand S. individual, equally large melt portions SP are the in Conveying direction front and rear end faces of the Melt portions SP open, i.e. not covered by foil and therefore sticky and difficult to handle. These portions of melt SP are therefore according to FIGS. 11 and 12 by the Peel tape 30 from still means for sealing these end faces supplied, in the illustrated embodiment Film strips 31 on the open end faces of the melt portions SP are applied. For this purpose, the peeling tape 30 a the melt portions SP perpendicular to the direction of conveyance assigned to the removal belt 30 further conveying belt 16, which is provided with a drive 29. The outfeed conveyor 16 is formed by several band parts running in parallel, between those retractable in the flight of the peeling tape 30 Roles are arranged. By redirecting the melt portions SP by means of the discharge belt 16 are the open ones End faces now on opposite sides of the discharge belt 16 aligned. These opposite sides is for the application of a film strip 31 each a film strip unwinding block 32 is assigned. Of this the respective endless film strip 31 is pulled off, guided past a film pressure roller 33, whereby each endless film strip 31 on the respective end face adheres to the melt portion SP, which continuously leads past becomes. At a distance behind the film pressure roller 23 a separating knife 34 is provided on each side, the between two consecutive melt portions one vertical pull cut across the adherent Performs film strip, causing the endless film strip on each side in a corresponding strip cut divided for each individual melt portion SP becomes. Each melt portion SP is therefore completely made of film surrounded and easy to handle for further packaging.

Claims (8)

Device for the production and wrapping of melt portions, in particular hot melt adhesive portions, with at least one endlessly rotating conveyor belt, as well as with at least one film web running in the conveying direction on an upper run of the conveyor belt, which can be applied to the upper run by means of a film feed device, and with a melt application unit, which runs the upper run assigned to the conveyor belt,
characterized in that
On the upper run (2) of the conveyor belt (1) at least one longitudinal web (10) is carried in the belt running direction, which is covered by the moving film web (9), and that the melt feed unit (4) is designed in such a way that the melt as at least one melt strand ( S) in the flowable state is continuously fed onto the film web (9) running with the upper run (2) of the conveyor belt (1). Apparatus according to claim 1, characterized in that a continuously operating folding device (K, K ₁ to K ₃ ) for collapsing the at least one melt strand (S) applied continuously to the film web (9) including the underlying film web (9) by about half the width and approximately twice the thickness is provided along the longitudinal groove formed by the longitudinal web (10). Apparatus according to claim 1, characterized in that the folding device (K) has movable guide elements (K ₁ to K ₃ ) which are designed in such a way that they bring about a horizontal or vertical alignment of the collapsed melt strand (S). Device according to claim 3, characterized in that in the conveying direction behind the folding device (K) Smoothing device (G) is arranged on the top of the melt strand (S) exerts a smoothing pressure. Device according to claim 3, characterized in that in the conveying direction behind the folding device (K) Conveyor (11) for the collapsed melt strand (S) is provided opposite the conveyor belt (1) has a changed conveying function that crosses separating device (T) aligned with the conveying direction Divide the folded melt strand (S) into several positioned one behind the other in the conveying direction Melt portions (SP) is assigned, and that between the Folding device (K) and the conveyor (11) with modified Conveying function provided a buffer section (P) is. Device according to claim 5, characterized in that the conveyor (11) is provided with a drive (13) which is a clocked feeding of the melt strand (S) to the separator (T). Device according to one of the preceding claims, characterized in that means (31 to 34) for sealing from during a separation process on the melt portions (SP) emerging surface sections not covered by foil are provided. Device according to one of the preceding claims, characterized in that means for gripping and stacking the melt portions (SP) are provided in packaging containers are.

Images