EP4344840A1 - Device for separating a flat element, in particular a plastic film into individual components - Google Patents

Abstract

In a device for separating at least one particularly conveyed surface element, in particular a plastic film or a plastic film composite material, into individual components, with at least one punching tool which has at least one punching bar working against an anvil which is held by a support frame, it is provided that the punching bar and the support frame are connected to one another via a pendulum joint, wherein the pendulum axis of the pendulum joint runs transversely to the longitudinal axis of the punching bar.

Description

The invention relates to a device for separating at least one particularly conveyed surface element, in particular a plastic film or a plastic film composite material, into individual components, with at least one punching tool which has at least one punching bar working against an anvil which is held by a support frame.

Plastic films or plastic composite materials are used to produce packaging for food, everyday goods, tools and the like. A rolled-up plastic film, for example, is separated into individual components after containers have been formed, for example by deep-drawing, and the containers are filled and sealed.

The above-mentioned separating devices are used for this separation work. They include at least one punching tool, with which individual components of the plastic film can be separated even at high speeds. Punching tools work with high forces, which are necessary in order to achieve a reliable separation during the crush separation carried out by punching.

The problem is that forces are regularly introduced into punching tools at certain points, for example centrally at one point or at two points, for example at the free ends of a punching tool. Due to the different force inputs, high forces and when the punching beam and anvil are pressed together, high forces occur which can lead to a slight bending of the tools involved in the punching. The result of this bending is gaps between the punching tools, which result in insufficient punching. Frequent corrections are necessary, and the additional force required during punching leads to premature wear of the punching tools.

The invention is therefore based on the object of providing a device of the type mentioned at the outset, with which a clean separation of the plastic film or the plastic film composite material is possible.

This object is achieved according to the invention in that the punching beam and the framework are connected to one another via a pendulum joint, wherein the pendulum axis of the pendulum joint runs transversely to the longitudinal axis of the punching beam.

In the device according to the invention, the punching beam is not held in a rotationally fixed manner in a support structure. Rather, the punching beam is mounted via a pendulum joint, which enables the punching beam to pivot relative to the support structure in which the punching beam is held.

The pendulum option means that the punching bar can rest in the correct position on the anvil as a counterpart during punching. In addition, the pendulum joint provides a central suspension of the punching beam, which allows the punching beam to bend at its free ends when higher forces occur. If corresponding counterforces are applied to the outer sides of the anvil, exactly the opposite deflection occurs in the anvil. A trough forms there because the forces are applied to the outside. Punching beam and anvil can get close put together so that the desired clean separation occurs.

The pendulum axis is aligned transversely to the longitudinal axis of the punching beam and thus parallel to a conveying direction of the plastic film or the plastic film composite material.

The punching beam is preferably suspended from the pendulum joint; for this purpose, the stand structure preferably has a receptacle for the pendulum joint.

According to a further development of the invention, the holder is a cross member which is arranged above the surface element transversely to a conveying direction of the surface element. The cross member is designed like a yoke support and is arranged above the plastic film or plastic film composite material to be separated. For this purpose, it is held by the support structure and the cross member can stand on corresponding supports at its free ends. These supports are then arranged on both sides of the surface element being conveyed.

A next development of the invention provides that the cross member is formed from at least three shell elements, with the outer shell elements being connected to the stand structure and with the middle shell element carrying the punching beam and being suspended from the pendulum joint. After this training, the cross member is designed to be compact. Three shell elements of the same design can lie congruently on top of each other, the two outer shell elements are connected in a stationary manner to the frame structure, they hold the middle shell element between them via the pendulum joint. The middle shell element can therefore swing freely between the two outer shell elements, while the middle shell element carries the punching beam.

A next development of the invention provides that the middle shell element is accommodated in the stand structure in a height-adjustable manner. Here an adaptation to different punching tasks can be made with different surface elements. The height changeability is preferably ensured by an eccentrically designed section of the pendulum joint, which carries the middle shell element. The pendulum joint is arranged in the outer shell elements and can be adjusted in its rotational position from the outside, for example by knurling its outer edge. The eccentric section is also assigned a fixing element for fixing a height of the shell element in order to fix the height of the pendulum joint for punching tasks.

With regard to the height-variable accommodation of the pendulum joint in the frame, an alternative to the invention provides that the pendulum joint is accommodated in a wedge-shaped frame. The pendulum joint can be moved in such a wedge-shaped frame; with a horizontally changed orientation of the wedge-shaped frame and a displacement of the wedge-shaped frame, a change in the height arrangement of the pendulum joint can be achieved.

A spindle drive is preferably assigned to the wedge-shaped frame. The spindle drive is attached to the wedge-shaped frame in such a way that when the spindle drive is operated, the position of the wedge-shaped frame changes. In this respect, the change in position of the wedge-shaped frame can be carried out from the outside by an appropriately designed spindle drive. A fixing element is preferably assigned to the spindle drive in order to determine a specific position of the spindle drive and the wedge-shaped frame.

Figur 1:

eine schematische Seitenansicht einer Vorrichtung zum Fördern eines Flächenelementes und zum Einformen von Behältern, Versiegeln der Behälter und Abtrennen der Behälter voneinander;

Figur 2:

eine perspektivische Teilansicht der zu trennenden Behälter;

Figur 3:

eine perspektivische Ansicht der erfindungsgemäßen Vorrichtung zum Stanzen des Flächenelementes während eines Stanzvorgangs;

Figur 4:

eine perspektivische Teilschnittansicht eines Bauteils der erfindungsgemäßen Vorrichtung;

Figur 5:

eine Seitenansicht des Bauteils gemäß Figur 4;

Figur 6:

eine perspektivische Teilschnittansicht des Bauteils gemäß Figuren 4 und 5; und

Figuren 7 bis 9:

perspektivische Teilschnitt- und Seitenansichten einer alternativen Ausführungsform eines Bauteils der erfindungsgemäßen Vorrichtung.

An embodiment of the invention is shown in the drawing. Show it:

Figure 1:

a schematic side view of a device for conveying a surface element and for forming containers, sealing the containers and separating the containers from one another;

Figure 2:

a partial perspective view of the containers to be separated;

Figure 3:

a perspective view of the device according to the invention for punching the surface element during a punching process;

Figure 4:

a perspective partial sectional view of a component of the device according to the invention;

Figure 5:

a side view of the component according to Figure 4 ;

Figure 6:

a perspective partial sectional view of the component according to Figures 4 and 5 ; and

Figures 7 to 9:

Perspective partial section and side views of an alternative embodiment of a component of the device according to the invention.

The device in Figure 1 has a machine frame 1 that supports several work stations. 2 designates a deep-drawing station. In this, containers 5 are formed into a surface element 4, in particular a film strip, unrolled from a roll 3. After the containers 5 have been formed, the surface element 4 is transported further along arrow 6, for example filled with objects and guided to a sealing station 26. The containers 5 are sealed in this sealing station 26 with a sealing film 7.

The containers 5 are then transported to a cutting station 8. In this cutting station 8, the containers 5 are cut with a rotating knife 9 parallel to the conveying direction of the surface element 4. Cutting transversely to the conveying direction of the surface element 4 is carried out with a punching device 10.

Figure 2 shows a component of the punching device 10, namely the punching bar 11 of the punching tool. This extends over the entire width of the surface element 4, which is held in chains 12 at its longitudinal edges for its transport. The Figure 2 The containers 5 shown are to be separated from one another transversely to the conveying direction (arrow 6) of the surface element 4 using the punching device 10. Punching takes place along a line 13.

Figure 3 shows the punching device 10 during a punching process. A surface element 4 is punched, which is fed to the punching device 10 along the conveying direction marked by arrow 6. The in Figure 2 Punching beam 11 shown is accommodated in a frame structure 14. A punching lower tool 15 is also accommodated in the stand structure 14.

The framework 14 comprises a cross member 16 which rests on posts 17. The cross member 16 is formed from three shell elements 18, 18' and 19.

Figures 4 and 5 show that the shell element 19 is connected to the shell elements 18 and 18' via a pendulum joint 20. The shell element 19 can swing within the two outer shell elements 18, 18`, as shown by the double arrow 25 in Figure 5 The shell element 19 carries the punching beam 11.

Figures 4 and 6 show that the pendulum joint 20 has an eccentric section, which allows a change in the height of the shell element 19 relative to the shell elements 18, 18'. On the A disk 21 is arranged in the eccentric section of the pendulum joint 20. This is accommodated in the middle shell element 19. Height adjustments can be made via knurled sections 22, a fixing element 23 corresponds to a row of holes 24. The rotational position of the pendulum joint 20 can be determined using the fixing element 23.

Figures 7 and 8th show an alternative embodiment of the shell element 19. The shell element 19 is again connected to the shell elements 18 and 18 'via the pendulum joint 20, but an alternative mechanism for changing the height of the shell element 19 is designed. This alternative mechanism comprises a wedge-shaped frame 26a which is arranged obliquely to the horizontal. A spindle drive 27 is assigned to the frame 26a and is attached to the frame 26a. Figure 8 immediately shows the shell element 19.

Figure 9 shows that the spindle drive 27 is guided outwards within the shell element 19 up to a handle 28. Another handle 29 is provided, this serves to clamp the spindle drive 27.

Figure 8 shows that the wedge-shaped frame 26a has its wedge shape within a frame cutout, i.e. on the inside of the frame 26a. Moving this frame 26a causes a change in the height of the arrangement of the shell element 19.

Claims (10)

Device for separating at least one particularly conveyed surface element, in particular a plastic film or a plastic film composite material, into individual components, with at least one punching tool which has at least one punching bar working against an anvil and which is held via a frame,
characterized,
that the punching beam (11) and the stand frame (14) are connected to one another via a pendulum joint (20), the pendulum axis of the pendulum joint (20) running transversely to the longitudinal axis of the punching beam (11). Device according to claim 1, characterized in that the punching bar (11) is suspended on the pendulum joint (20). Device according to claim 1 or 2, characterized in that the support structure (14) has a receptacle for the pendulum joint (20). Device according to claim 3, characterized in that the receptacle is a cross member (16) which is arranged transversely to a conveying direction of the surface element (4) above the surface element (4). Device according to claim 4, characterized in that the cross member (16) is formed from at least three shell elements (18, 18', 19), wherein the outer shell elements (18, 18`) are connected to the framework (14) and wherein the middle shell element (19) carries the punching beam (11) and is suspended from the pendulum joint (20). Device according to one of the preceding claims, characterized in that the shell element (19) is accommodated in the support structure (14) in a height-adjustable manner. Device according to claim 5 and 6, characterized in that the shell element (19) is received in the pendulum joint (20), wherein the pendulum joint (20) is rotatably received in the outer shell elements (18, 18') and wherein the pendulum joint (20) has an eccentrically formed section in its extension. Device according to claim 7, characterized in that the eccentric section is assigned at least one fixing element (23) for fixing a height position of the shell element (19). Device according to claims 5 and 6, characterized in that the pendulum joint (20) is accommodated in at least one wedge-shaped frame (26a). Device according to claim 9, characterized in that at least one spindle drive (27) is associated with the wedge-shaped frame (26a).

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