Method of sealing tubular or bag-shaped packaging casings...

Package making – Methods – Forming or partial forming a receptacle and subsequent filling

Reexamination Certificate

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Details

C053S417000, C053S138400, C053S567000

Reexamination Certificate

active

06219998

ABSTRACT:

This invention relates to a method of sealing tubular or bag-shaped packaging casings filled with a tough filling, where a neck without filling is produced by crimping the packaging casing at a crimping point while at the same time displacing the filling disposed there, and by setting two closure clips. The invention also relates to a sealing device comprising a crimping element.
It is known to seal filled tubular or bag-shaped packaging casings by means of a crimping element. The crimping element usually is disposed behind the orifice of the filling tube of a filling machine. The packaging casing is sealed at one end and has been drawn onto the filling tube such that the sealed end of the packaging casing is disposed before the orifice of the filling tube.
For filling purposes, the filling is pressed through the filling tube into the packaging casing sealed at one end. In doing so, further packaging casing material is withdrawn from a reservoir on the filling tube. This withdrawal of packaging casing material from the reservoir on the filling tube is counteracted by a casing brake, which urges the packaging casing in the vicinity of the filling tube orifice onto the outer surface of the filling tube and retards the same in this way. The braking force of the casing brake, which upon filling the packaging casing must be overcome by the filling pressure, determines the height of the filling pressure.
When filling the packaging casing has been completed, the same must also be sealed at its second end. This is effected with the aid of a crimping element, which may constitute a crimping flap or a spreader-type crimping element comprising two crimping shears.
In the case of a spreader-type crimping element, the packaging casing to be sealed is crimped behind the orifice of the filling tube by two crimping shears first of all located directly beside each other, so that there is obtained a short neck without filling. Subsequently, the two crimping shears are spread apart for extending the neck without filling, i.e. the crimping shear remote from the filling tube is moved away from the crimping shear close to the filling tube in longitudinal direction of the filling tube. The two crimping shears are spread apart to such an extent that the resulting neck without filling is long enough to be sealed with two closure clips. After the closure clips have been set and closed, the neck can be cut through between the two closure clips. The packaging casing just filled is thus sealed at both ends, while the next packaging casing to be filled is sealed at its one end.
In the case of a crimping flap, it is superfluous to extend the neck upon crimping, since the crimping flap is so wide that it already crimps the neck upon sealing along a length which is sufficient for setting two closure clips.
In the case of a tough filling, e.g. sealing compounds, cements, bitumen, silicone, polyurethane and the like materials, the crimping element can crimp the filled packaging casing only with difficulty. In the case of a spreader-type crimping element it is just as difficult to subsequently spread the crimping shears for extending the neck without filling. In particular in the case of packaging casings with a diameter of more than 30 mm there is a risk that the packaging casing may get porous spots or even cracks upon crimping and spreading. Even if these are only very small injuries, air and moisture may penetrate through the same into the packaging casing, which depending on the type of filling may lead to the same getting hard. This is true in particular when the material for the packaging casing—as is often the case with such filling—consists of aluminum or a composite aluminum foil and is used as steam barrier. Even if in the case of the composite aluminum foil only the aluminum layer is damaged, air and moisture penetrate through the remaining plastic film, as the same does not form an adequate steam barrier.
To overcome the above disadvantages, it is known from DE-OS 38 11 421 to withdraw the filled packaging casing against the force of the casing brake before crimping the same by means of the crimping shears. There is obtained a pinched area behind the orifice of the filling tube, which facilitates the further crimping by means of the crimping shears and the spreading thereof. This prior art involves the disadvantage that the force required for withdrawing the filled packaging casing can be introduced into the packaging casing only with difficulty. When the withdrawal force is introduced for instance via the closure clip at the one sealed end of the packaging casing, there is a risk that the closure clip will be withdrawn from the packaging casing. In addition, there is a risk that the filling strand in the packaging casing will break uncontrolled at the crimping point. It is a further disadvantage that in the known method the diameter and the length of the pinched area very much depend on the viscosity of the filling.
It is therefore the object underlying the invention to eliminate as far as possible the disadvantages of the prior art by means of a novel method or a novel device.
In accordance with the invention this object is solved by a method as described above, where the packaging casing is compressed to an adjustable degree beside the crimping point prior to crimping. By compressing the filled packaging casing there is produced an area beside the crimping element, in which the packaging casing already has a smaller diameter has been pre-crimped so to speak—and which at the same time falls short of filling to an exactly controllable degree. Only after this compression is the packaging casing crimped to such an extent that a neck without filling is obtained, while at the same time displacing the filling disposed at the crimping point.
In accordance with a preferred aspect of the method, where the neck is produced by closing two crimping shears and is subsequently extended in that the one crimping shear is moved away from the second stationary crimping shear, the packaging casing is compressed beside the stationary crimping shear on its side facing away from the movable crimping shear, before the crimping shears are closed. This aspect of the method amounts to the fact that the filled packaging casing is compressed between the crimping shears and the orifice of the filling tube.
While compressing the packaging casing, additional packaging casing material is preferably withdrawn from a reservoir. In this way it is avoided that the packaging casing is excessively stretched upon compressing the same, as an excessive stretching might already lead to a damage of the packaging casing.
There is also preferred an aspect of the method according to which the packaging casing is released again after compressing and before crimping the same. This involves the great advantage that upon closing the crimping shears the filling can easily escape into that area of the packaging casing which has previously been compressed. Depending on the length and the degree of the compression of the packaging casing, this advantage will even be noted when spreading the crimping shears.
In accordance with the invention, the solution of the above object also consists in a sealing device as described above, which has an additional clamping means for compressing the package beside the crimping element. With such a sealing device, the inventive method can be performed with all its advantages.
The clamping means preferably has squeezing skids or squeezing rollers, which can be pressed onto the packaging casing. The shape of the squeezing skids or squeezing rollers determines the shape of the compressed packaging casing. This is in particular true for the length along which the packaging casing is compressed. When the squeezing rollers are rotatably supported, they have the further advantage that the withdrawal of additional packaging casing material during the compression is facilitated.
In the case of a sealing device disposed at the caster of the outlet of a filling machine, the squeezing skids or squeezing rollers can preferably b

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