DE3821919A1 - Collapsible container for liquids having an integral removal element - Google Patents

Abstract

The container has an integral removal element (10) which has a bung (12), a liquid guiding body (14) and a film hinge (16) connecting these parts. The guiding body (14) can be pivoted from a position (14') parallel to the bung axis which it adopts when the removal element (10) is fixedly welded to a first web of film by advancing a second web of film into a position perpendicular to the bung axis. The webs of film are welded to one another around the removal element (10). When the container is being filled, the liquid guiding body (14) pivots into the position (14') parallel to the bung axis, causing the container to collapse about the liquid guiding body (14) during evacuation. <IMAGE>

Description

The invention relates to a collapsible container for rivers with one bung and one inside the container located liquid guiding body, which is articulated to the bung is appropriate.

Such a container is known from WO-A-85 04 383. He contains a strip-shaped liquid guide body, the is connected to a mounting ring via a film hinge. The assembly is used to establish the articulated connection ring snapped onto the inside of the bung. At the Ferti the container is first the bung on a first Foil sheet welded. You then essentially run one second film web running parallel to the first film web approaches and guides the liquid guide between the webs  so that the mounting ring is aligned with the bung. The bung and assembly ring are then pressed together others locked. The film web is then welded NEN in a closed contour around the bung and now articulated to it, lying between the sheets Liquid guide body around. The finished welded containers are cut from the tape. They are in one for the ver auspicious, collapsed flat form in front of itself the liquid guide body is substantially perpendicular to the Axis of the bung extends. Thanks to the articulated connection the liquid guide body when filling the container in swirl in the volume of the liquid until essentially Lichen is aligned parallel to the axis of the bung and extends perpendicular to the bottom seam of the container. It is so ensured that the container when emptied by the resulting vacuum around the liquid guide body kolla beers, and that a complete emptying of the liquid guide body along to the bung.

With the production of the known container goes a considerable material and labor costs. Bung and liquid keitsleitkörper are individual parts that are manufactured separately and have to be kept in stock. The assembly of The bung and the guide body between the film webs is an expense operation because the liquid guide body with high precision  sion must be introduced to get the mounting ring in exact alignment to bring with the bung. The expenditure on equipment for assembly station is accordingly high, and go with their operation running costs. Also, the merge operation error prone. A container with the bung not properly inserted latched assembly ring is committee. Incidentally, can also at a container that is in perfect condition in the shipping comes from improper handling of the mounting ring in the Rest rotated or released from rest, which is a mistake positioning of the liquid guide body results in that limit or destroy its effectiveness can.

The object of the invention is a container of the type mentioned and to provide a process for its manufacture, by means of which with less material and labor, a higher loading drive safety is achieved.

This task is the case of a container of the type mentioned Kind solved in that the bung, the liquid guide and the joint between them in material ver Confined parts of a Ent made in one piece are elements of acceptance. This removal element is in one welded to the sheet pile with one sheet of film. The liquid guide body is in this process aligned substantially parallel to the axis of the bung  and then in a position substantially perpendicular to that Axis of the bung pivoted, whereupon the film webs around the Removal element to be welded together.

With the one-piece production of the removal element goes a reduction in material and manufacturing costs. Since there is no locking connection between the bung and the mounting ring, one comes with a in the manufacture of the removal element simpler tool. Due to the fact that only there is a single removal element, the warehouse Keeping and handling technology simplified. You save one complex and error-prone joining operation, whereby increases the operational safety of the manufacturing plant and the Operating costs and the committee are reduced. thanks the one-piece material composite is also no further unintentional twisting or complete loosening of the liquid feitsleitkörper to fear from the bung.

The fact that the bung already when welding the foils web is connected to the liquid guide, brings however, there are new manufacturing requirements. The welding tool must not be guided by the liquid guide hinder what the invention by pivoting the Ensure liquid guide body parallel to the axis of the bung is achieved. This takes up additional space on the Welding station, but also the advantageous option  along with the removal element on the pivoted liquid guide body and both the bung and the liquid position guiding body more precisely than this after the State of the art was possible. Before welding the Foil tracks, the liquid guide body is in one position pivoted transversely to the axis of the bung. This happens in a preferred variant of the invention in that the liquid guide when the second Fo lienbahn takes. This saves special management elements for the liquid guide.

The bung can be a radially protruding fastener have flange with which it is welded to the film web becomes. The liquid guide body preferably sets radially inside of the mounting flange on the outer edge of an inner one Face of the bung. With this arrangement, the feast welding the sheet on the mounting flange through the liquid pivoted parallel to the axis of the bung guide body in no way obstructed.

According to what has been said, it goes without saying that this is between the bung and fluid guide provided joint on a Ver pivot the liquid guide between positions should be parallel and perpendicular to the bung axis. The joint is preferred in a manufacturing technology Variant formed by a film hinge.  

That be the bung, the joint and the liquid guide content removal element is preferably a one-piece Plastic part.

The invention is based on one in the drawing voltage illustrated embodiment explained in more detail. It demonstrate:

Fig. 1 is a side view of a removal member; and

FIG. 2 shows an axial top view of the removal element with a view in the direction II of FIG. 1.

The removal element 10 is a one-piece injection molded part made of plastic with a bung 12 and a liquid guide body 14 , which are connected to one another via a film hinge 16 . The bung 12 is essentially circular cylindrical. It has an outer nozzle body 18 , on which a connector is placed for filling and emptying a collapsible container provided with the removal element 10 . In the base of the nozzle body 18 there is a radially outwardly projecting flange 20 which serves to weld the removal element 10 to the wall of the container consisting of a single or multilayer film web. In the manufacture of the container, a hole is punched into the film web through which the socket body 18 , but not the flange 20 , fits. The removal element 10 is fed from the inside of the container and inserted with the socket body 18 through the opening, whereupon the film web is welded to the flange 20 at the edge of the opening.

The liquid guide body 14 attaches to the inner end face 22 of the bung 12 facing away from the nozzle body 18 . The film hinge 16 is located on the outer periphery of the end face 22 . It has a tangential hinge axis about which the liquid guide body 14 can pivot ver at least 90 °.

The liquid guiding body 14 is an elongated rectangular strip with a flat back 24 and a number of ribs 26 projecting therefrom which extend in the longitudinal direction and which, in the assembled state, are directed towards the interior of the container. The Flüssigkeitsleitkörper 14 can assume a position shown in Fig. 1 by the solid line radial position, in which it extends perpendicular to the central axis of the bung 12th This position exists during the transportation and storage of a collapsed empty container. Thanks to the film hinge 16 of the Flüssigkeitsleitkörper 14 'can swing in a drawn with a dashed line 14 axial position, it extends in parallel to the central axis of the bung 12th The liquid guide body 14 is brought into this position 14 ', while the flange 20 of the bung 12 is welded to the film web. The swing back into the radial position 14 takes place when approaching a second film web, which is welded to the sheet 12 fastened to the bung 12 to one of the liquid-conducting bodies 14 containing bags. If the second film web is guided in a suitable manner, it can simply take the liquid guide body 14 resting thereon with the smooth back 24 into the radial position. When filling the container, the liquid guide body automatically pivots into the axial position 14 '.

List of reference numbers

10 removal element
12 bung
14 liquid guide body in radial position
14 ' liquid guide body in the axial position
16 film hinge
18 nozzle body
20 flange
22 end face
24 backs
26 rib

Claims (8)

1 collapsible container for liquids with a bung and a liquid keitsleitkörper located in the interior of the container, which is articulated to the bung, characterized in that the bung ( 12 ), the liquid sigkeitsleitkörper ( 14 ) and the joint between them in a composite material standing parts of a removal element ( 10 ) made in one piece. 2. Container according to claim 1, characterized in that the bung ( 12 ) has a radially outwardly projecting fastening supply flange ( 20 ), and that the liquid guide body ( 14 ) radially inside thereof on the outer edge of an inner end face ( 22 ) of the bung ( 12 ) applies. 3. Container according to claim 1 or 2, characterized in that the joint is designed for pivoting the liquid guide body ( 14 ) between positions ( 14 , 14 ') parallel and perpendicular to the bung axis. 4. Container according to one of claims 1 to 3, characterized in that the joint is a film hinge ( 16 ). 5. Container according to one of claims 1 to 4, characterized in that the removal element ( 10 ) is preferably made of plastic by injection molding. 6. A method for producing a collapsible container for liquids, in which a sheet is attached to a first sheet of flexible, liquid-impermeable material, a second sheet of flexible, liquid-impermeable material is brought in and the sheets are articulated in a closed contour around the sheet attached, lying between the webs liquid guide around each other liquid-tight, characterized in that one uses a one-piece removal element ( 10 ), in which the bung ( 12 ), the liquid guide body ( 14 ) and the joint located therebetween miteinan in the material composite that one aligns the liquid guide body ( 14 ) substantially parallel to the bung axis se, while the bung ( 12 ) is attached to the first track, and that one the liquid guide body ( 14 ) in a position ( 14 ' ) essentially perpendicular to the column and axis pivoted before the webs are joined together. 7. The method according to claim 6, characterized in that the removal element ( 10 ) for fastening the bung ( 12 ) on the first track on the substantially parallel to the bung axis aligned liquid guide body ( 14 ). 8. The method according to claim 6 or 7, characterized in that one takes the liquid guide body ( 14 ) when approaching the second path and thereby pivoted it into position ( 14 ') substantially perpendicular to the bung axis.