EP3328739A1

EP3328739A1 - Method for operating a tubular-bag machine for producing bags with a transverse bottom seam and a transverse head seam, which is different from the bottom seam

Info

Publication number: EP3328739A1
Application number: EP17751021.1A
Authority: EP
Inventors: Volker Dersch
Original assignee: Rovema GmbH
Current assignee: Rovema GmbH
Priority date: 2016-07-18
Filing date: 2017-07-11
Publication date: 2018-06-06
Anticipated expiration: 2037-07-11
Also published as: WO2018015217A1; US20190248520A1; DE102016213087B4; ES2763808T3; DE102016213087A1; EP3328739B1; US10946991B2

Abstract

The invention relates to a method for operating a tubular-bag machine (10) having a transverse-sealing apparatus which can be driven around two axes and is intended for producing tubular bags (01), wherein a film web (04), once a flexible film tube has been formed, is closed by a transverse bottom seam (02) and a transverse head seam, wherein, prior to the transverse bottom seam being formed, at least one peripheral region of the film web (04) of the tubular bag (01) is folded in laterally, in order for a side gusset to be formed, by a side-gusset former (18) which can be moved transversely to the longitudinal axis of the film web (04), and wherein in each case two transverse bottom seams (02) of adjacent tubular bags (01) are formed in a single operating step of the transverse-sealing apparatus, and wherein in each case two transverse head seams of adjacent tubular bags are formed in a single operating step of the transverse-sealing apparatus, and wherein the tubular bags (01) are formed with alternating orientations in the withdrawal direction, wherein the side-gusset former (18), when forming the side gusset, interacts, in the region of the transverse bottom seams (02), with a fixed folding shaper (19) arranged on the inside of the film web (04), wherein the minimum distance of the transverse-sealing apparatus from the folding shaper (19) is altered in an alternating manner in the withdrawal direction over the closed movement path for formation of the transverse head seams and of the transverse bottom seams, wherein the minimum distance of the transverse-sealing apparatus from the folding shaper (19) during production of the two transverse head seams is greater than the minimum distance of the transverse-sealing apparatus from the folding shaper (19) during production of the transverse bottom seams (02).

Description

Method for operating a tubular bag machine for producing bags with a

Floor cross seam and a different head cross seam

The invention relates to a method for operating a Schlauchbeutel- machine for the production of bags with a bottom cross seam and a different head transverse seam according to the preamble of claim 1.

For various packaging tasks in the packaging industry, tubular bags are known in which the bottom cross-seam is formed in a different way than the cross-head seam. For example, tubular bags are known in which the bottom transverse seam is folded laterally to form, for example, a footprint, whereas the head transverse seam is formed as a simple longitudinal cross-seam. The tubular bags then differ in terms of the seams on the head or bottom.

In conventional manufacturing processes for the production of

Tubular bags are produced by a two-axis driven transverse jaws j eweils a head-transverse seam and a bottom-transverse seam by a corresponding film welding process at each work cycle. The head and bottom transverse seams produced in this way delimit neighboring tubular bags from one another, so that the Formation of the individual bags then with a separator, such as a cutting knife, the film must be severed between the commonly produced bottom and top cross seams.

If tubular bags are to be produced in which the bottom cross seam differs from the cross head seam, namely folded in, the joint production of a bottom cross seam and a head cross seam during a single working cycle of the transverse sealing jaws is not possible, since in the manufacture of the Bottom cross seam, the film of the tubular bag must be folded, whereas the production of the head cross seam prohibits the folding of the film.

In order to produce such tubular bags with mutually different bottom cross seams and cross-head seams, a manufacturing method is known from DE 38 24 753 AI, wherein in each case two bottom cross seams of adjacent bags are formed in a first operation of the transverse sealing jaws and thereafter in a second operation, in each case two head transverse seams. In this method, it turns out that the individual bags are made in the withdrawal direction of the tube with alternating orientation, so that in each case adjacent bags are pre-sealed alternately either with the head cross seam or with the bottom cross seam.

In the manufacture of tubular bags with folded bottom seam, the use of so-called lateral butterflies is required, with which the film is folded laterally before the welding of the bottom cross seam in the desired manner to form a gusset. The quality of the gusset is thereby significantly improved by the fact that the side moth cooperates in the formation of the folded bottom cross seams with a fixed, arranged on the inside Faltformstück (barge). Due to the interaction of the side sill with the folding mold, the film is optimally guided in the area of the gusset and can fold in the desired manner. The use of Faltformstücken on the inside of the film web at However, the formation of the gusset throws in the production of tubular bags with different cross seams at the head and bottom significant problems. Because with these methods, two bottom cross seams and then two cross head seams are produced alternately with the transverse sealing jaws. When sealing the folded bottom transverse seams, it is desirable that the transverse sealing jaws have a particularly small distance from the folding fitting in order to ensure optimum wrinkling. Conversely, too small a distance of the transverse sealing jaws for Faltformstück when sealing the unfolded head transverse seam of great disadvantage, since at too small a distance of the transverse sealing jaws to the inner Faltformstück unwanted wrinkles in the unfolded head transverse seam can form. In the known methods for operating a

Flow wrap machine for the production of bags with folded bottom cross seam and non-folded head cross seam was therefore dispensed with the use of internal Faltformstücken, however, adversely affects the folding quality when folding the side gusset negative.

Based on this prior art, it is therefore an object of the present invention, a new method for operating a

To provide a tubular bag machine for the production of bags with folded bottom cross seam and non-folded head cross seam, in which an optimum wrinkle quality in the formation of the gusset is achieved and at the same time a trouble-free sealing of the unfolded head cross seam is made possible.

This object is achieved by a method according to the teaching of claim 1.

Advantageous embodiments of the invention are the subject of the subclaims. The inventive method is first of all characterized in that on the inside of the film web a Faltformstück is stationary, which cooperates in the formation of the gusset with the movable Seitenfalter. In order to avoid the unwanted formation of wrinkles in the region of the head transverse seams which are not to be folded in, it is provided according to the invention that the spacing of the

Quersiegelbacken to the fixed Faltformstück in the formation of the head transverse seams is another than in the formation of the bottom transverse seams. In other words, this means that the transverse sealing jaws are in each case moved depending on whether two head transverse seams or two bottom transverse seams are sealed with the transverse sealing jaws, in a different position along the Z axis.

The minimum distance of the transverse sealing jaws to the fixed folding molded piece in the production of the two head transverse seams is significantly greater than the minimum distance between the transverse sealing jaws and the folding shaped piece in the production of the floor cross seams. By thus achieved additional distance of the transverse sealing jaws to the fixed Faltformstück during Siegeins the head transverse seams unwanted wrinkling in the area of the head transverse seams - caused by the Faltformstück - largely reduced or completely avoided. When sealing the bottom transverse seams, however, a lesser minimum distance between the transverse sealing jaws is provided for Faltformstück so that the functions of the laterally movable Seitenfalter can be optimally supported by the fixed Faltformstück when folding the film in the bottom cross-seam. In other words, this means that the transverse sealing device on its closed biaxial trajectory in the production of bottom cross seams anfährt a higher position than in the production of the head transverse seams, as far as the withdrawal direction is directed vertically downwards. In the method according to the invention, the travel of the transverse sealing jaws is varied depending on whether two head transverse seams or two bottom transverse seams are to be sealed in the next working cycle. Nonetheless, most production processes require the manufacture of tubular bags each having a constant height between the bottom cross-seam and the head cross-seam. In order to realize this constant bag length of all sealed bags in a simple manner, it is provided according to a preferred variant of the method that the withdrawal speed of the withdrawal device during the formation of a first bag bag corresponds to a first speed profile

Abzugsgeschwindigeit the trigger device in the formation of an immediately following second tubular bag corresponds to a different second velocity profile. In contrast to conventional tubular bag production processes in which the take-off speed of the film web follows the same speed profile for all tubular bags, the speed profile of the take-off speed is alternately changed in this preferred process variant. By this alternating change in the speed profile of the take-off speed, it is possible to compensate for the change in the minimum distance of the cross-seal jaws from the fold mold such that the bag length of all sealed bags is substantially constant.

It is particularly advantageous if the withdrawal speed at which the film web is withdrawn in the longitudinal direction, is alternately changed in the formation of adjacent bags between a maximum speed and a minimum speed. By this variation of the take-off speed, it is particularly easy to compensate for the change in the minimum distance between the transverse sealing jaws and the folding-shaped piece in such a way that the bag length of all sealed bags is substantially constant. For which type of tubular bags the process according to the invention is used is basically arbitrary. The method according to the invention is particularly important in the manufacture of tubular bags in which strip-like closing elements which can be brought into releasable engagement in the region of the transverse head seam are fastened transversely to the longitudinal axis of the film web. Because in this type of tubular bags, the production with different head cross-seams and floor cross seams is essential if a floor space is desired in the area of the floor cross seam. A variant of the method according to the invention is explained below by way of example with reference to the schematic drawings.

Show it:

1 shows a tubular bag with a folded bottom cross seam and a non-folded head cross seam in lateral view;

Fig. 2 shows the tubular bag according to FIG. 1 in cross section along the

Section line I-I;

FIG. 3 shows the tubular bag according to FIG. 1 in a cross section along the section line II - II; FIG. Fig. 4 is a side view of several according to the invention

Method manufactured tubular bag without transection;

5 is a schematic side view of a tubular bag machine with biaxially driven transverse sealing jaws during the sieving of the two folded bottom transverse seams of two adjacent tubular bags;

Fig. 6, the bagging machine of FIG. 5 during the victory of the adjacent, not folded head transverse seams of two adjacent tubular bag in a side view. FIG. 1 shows a side view of an exemplary embodiment of a tubular bag O 1 produced by the method according to the invention. The tubular bag O l has a folded bottom cross seam 02 and a non-folded head cross seam 03. To form an endless longitudinal tube from a film web, the film web 04 is longitudinally sealed with a longitudinal sealing device along a longitudinal seam 05 before filling and prior to the production of the transverse seams 02 and 03. Due to the folded bottom cross seam 02, a base can be formed on the bottom 06 of the tubular bag 01. In the area of the unfolded head transverse seam 03, namely directly underneath the head transverse seam 03, strip-like closing elements 07 and 08, which can be brought into releasable engagement, can be seen, which enable re-closing of the tubular bag 01 opened by the user after the head cross-seam has been removed. Fig. 2 shows the tubular bag 01 in cross section along the section line II. It can be seen that the tubular bag 01 is not folded in the region below the head transverse seam 03.

3 shows the tubular bag 0 1 along the section line II-II. In this area, the film web 04 is laterally folded on two lateral folds 09, thereby forming an at least slight standing surface on the bottom 06.

FIG. 4 shows a plurality of tubular bags 01 produced by the method according to the invention, wherein in the representation according to FIG. 4 the severing of the individual tubular bags 01 after filling and sealing is not shown. The closing elements 07 and 08 are not shown in Fig. 4.

In each case, the adjacent tubular bags 01 are sealed in such a way that either the two adjacent bottom transverse seams 02 and, in the next working cycle, the two adjacent head transverse seams 03 are sealed with the transverse sealing jaws. This is required in each case alternately fold laterally the film tube formed from the film web 04, whereupon then the bottom cross seams 02 are sealed and then in each case subsequent work cycle to refrain from folding the film web and to seal the not folded head transverse seams 03.

The inventive method for producing the tubular bag 01 is to be explained in more detail with reference to the illustration in Fig. 5 and Fig. 6.

The tubular bag machine 10 shown in FIG. 5 has a frame 11, at the upper region of which a forming shoulder 12 is arranged, via which the ribbon-like film web 04 is conducted to form a longitudinal tube. In the region of the forming shoulder 12, the film web 04 is formed in the longitudinal direction, wherein the outer edges are arranged overlapping, to subsequently welded together to form the longitudinal seam 05 to each other. The welding of the foil web edges takes place by means of a longitudinally welded device 13, which is shown only schematically and which is arranged on the outside of a filling tube 14 in the longitudinal direction. As a result of the folding over of the film web 04 in the region of the forming shoulder 12 and the welding by the longitudinal welding device 13, a film tube which is in principle endless is formed, which encloses the filling tube 14. By means of two take-off belts 15, which are driven longitudinally adjacent to the filling tube 14, the film web 04 or the endless tube formed therefrom is moved downwards.

By means of the filling tube 14, in an unillustrated manner, contents are poured, which exit from the filling tube 14 and enter the interior of the film tube. Below the filling tube 14 a biaxially driven transverse welding device 16 is arranged. The two transverse sealing jaws 1 7 in the Z direction, i. in the conveying direction of

Tube bag 01, and towards each other, that are driven transversely to the conveying direction. When sealing the tubular bag 01, the transverse sealing jaws 1 7 are pressed against each other and the film web 14th welded by heat. At the same time, the transverse sealing jaws 17 of the transverse sealing device 16 are moved in the Z direction in order to follow the conveying movement of the tubular bag 01 from top to bottom.

5 shows the tubular bag machine 10 during the sealing of two folded floor cross seams, wherein according to the illustration of FIG. 5 the transverse sealing jaws 17 of the transverse sealing device 16 occupy their highest point in the Z direction. To form the gussets 09 in the area to be sealed bottom cross seams 02 laterally movable Seitenfalter 1 8 are used, which are transverse to the conveying direction of

Tube bag 01 are pressed against the film web 04. In order to realize optimal wrinkling, the two side folders 1 8 interact with a folding former 19 arranged on the inside of the film web 04. The Faltformstück 19 is mounted in the extension of the filling tube 14, wherein the cross section of the Faltformstücks 19 just the desired wrinkling by retracting the Seitenfalter 1 8 corresponds.

In Fig. 6, the bagging machine 10 is during the next

Working clocks to form two unfolded head transverse seams 03 shown. The transverse sealing device 16 with the transverse sealing jaws 17 assumes its highest point during the circulation as shown in FIG. It can be seen that the transverse sealing jaws 17 has a greater distance 20 when the sealing of the unfolded cross-head seams 03 is brought to a collapse relative to the folded form piece 19. By this additional distance 20 of the transverse sealing jaws 17 for Faltformstück 19 at the beginning of the seal to seal the two

Head transverse seams 03, an undesirable wrinkling in the region of the head transverse seams 03, as otherwise caused by the Faltformstück 19, avoided. The Seitenfalter 1 8 are during the working cycle for sealing the two head transverse seams 03 out of engagement of the film web 04th In order to compensate for the additional distance 20 to the seal start of the seal for the production of the two head transverse seams with respect to the bag length, the withdrawal speed of the two discharge belts 15 is varied. By varying the take-off speed of the take-off belts 15, the change in distance, ie the variation of the Z coordinates of the transverse sealing jaws 17 at the beginning of the seal of the bottom transverse seams 02 on the one hand and the head transverse seams 03 on the other hand can be compensated.

Claims

claims

A method for operating a tubular bag machine (10) with biaxially driven transverse sealing device (16) for producing tubular bags (01), wherein a film web (04) after forming a film tube with a bottom cross seam (02) and a head cross seam (03) closed is at least one edge region of the film web (04) of the tubular bag (01) for forming a side fold (09) with a transversely to the longitudinal axis of the film web (04) movable Seitenfalter before forming the bottom cross seam

(1 8) is folded in laterally, and wherein in each case two bottom transverse seams (02) of adjacent tubular bags (01) are formed in one operation of the transverse sealing device (16), and in each case two head transverse seams (03) of adjacent tubular bags be formed in a single operation of the transverse sealing device (1 6), and wherein the tubular bag (01) are formed in the withdrawal direction with an alternating orientation,

characterized,

in the formation of the lateral fold (09) in the region of the bottom transverse seams (02), the lateral folder (18) cooperates with a fixed folding former (1 9) arranged on the inside of the film web (04), the minimum distance of the transverse sealing device (16) is alternately changed to the folding mold (19) in the drawing direction on the closed path of movement in the formation of the head transverse seams and bottom cross seams, wherein the minimum distance of the transverse sealing device (16) to the folding mold piece (19) in producing the two head Transverse seams (03) is greater than the minimum distance between the transverse sealing device (16) for Faltformstück

(19) when making the bottom cross seams (02). Method according to claim 1,

characterized,

that the take-off speed of the draw-off device (15) during the formation of a first tubular bag (Ol) corresponds to a first speed profile, wherein the take-off speed of the draw-off device (15) corresponds to a different second speed profile when forming an immediately following second tubular bag.

Method according to claim 2,

characterized,

the take-off speed of the draw-off device (15) with which the film web is withdrawn in the longitudinal direction is changed alternately between a maximum speed and a minimum speed such that the alternating change in the minimum distance of the transverse sealing device (16) to the folding shaped part (19) compensates for the tubular bag length all sealed tubular bag (01) is kept constant.

Method according to one of claims 1 to 3,

characterized,

in that, adjacent to the head transverse seam (03) of the tubular bag (01), strip-shaped closing elements (07, 08) which can be brought into releasable engagement are fastened transversely to the longitudinal axis of the film web (04).