The invention relates to a device for sealing-in pouring spouts in bags, comprising at least one station for opening the bag, a station for inserting the pouring spout into the opened bag, and at least one station for sealing the bag and the pouring spout.
The bags at issue are used for packaging goods which are dischargeable or free-flowing, i.e fillable. As a rule, such bags comprise a multi-layer plastic composite material. Such bags are in particular gaining increased use as butt-ended bags because, due to their flexible outer skin, they offer considerable advantages during transport of the full bags and during disposal of the empty bags.
Sealing-in pouring spouts in such bags is known from the state of the art in a multitude of embodiments. Basically, for sealing-in the pouring spout, the bag may first have to be cut, then opened so as to make it possible to insert the pouring spout into the opening in the bag, wherein after this, the pouring spout, which is then located in the bag opening, is tightly sealed to the bag by means of sealing jaws. As a rule, the devices, known from the state of the art, for sealing-in pouring spouts in bags operate in cycles with the bags in the device being transported on a circuit. Such movement on a circuit is the usual method because as a rule the bags are held by means of grippers, which after picking up and processing the bags have to be transported back to their point of pickup.
Starting from the state of the art as described above, it is the object of the present invention to provide a device for sealing-in pouring spouts in bags, with which device pouring spouts can be sealed into bags at a high cycle speed with very modest equipment-related expenditure.
According to the invention, the above-derived and shown object is met in that the stations for bag processing are arranged on a linear transport system for the bags, which linear transport system is formed by two transport belts, and in that the stations for bag processing are all arranged in a grid of equal spacing. The design according to the invention of a device for sealing-in pouring spouts ensures that bag transport between the stations for bag processing is achieved with very modest mechanical expenditure at a high transport speed and cycle speed.
In a first advantageous embodiment of the device according to the invention, the transport belts are toothed belts. Using toothed belts as transport belts ensures precise positioning even at high transport speeds and cycle speeds since there is no possibility of slippage occurring between the drive and the transport belts.
At the same time, the use of toothed belts ensures excellent positioning accuracy of the bags relative to the stations for bag processing.
Providing a step motor for cycled driving of the transport belts, due to the design principle of a step motor, ensures the attainment of excellent positioning accuracy while at the same time achieving excellent acceleration of the transport belts.
There are now a multitude of options for designing and improving the device according to the invention for sealing-in pouring spouts in bags. In this context we refer for example not only to the subordinate claims of claim 1, but also to the description of a preferred embodiment in conjunction with the drawing. The drawing shows the following:
The embodiment shown in
According to the invention, the above-described stations 2–8 for bag processing are arranged on a linear transport system 11 for the bags 1, which linear transport system 11 is formed by two transport belts 9, 10, wherein the stations 2–8 for bag processing are all arranged with equal spacing from the adjacent station in order to ensure, during cycled movement of the bags 1 in the linear transport system 11, that the bags are in a processing position when the linear transport system 11 comes to a halt. Of course, it is also imaginable to render one station or several on the linear transport system inoperative or to do entirely without it/them, as long as the stations for processing are arranged in a grid of equal spacing, if the respective processing step, for example the cutting of bags, is not required.
The teeth 14 of the transport belt 9 and the tooth arrangement 15 of the drive roller 12 ensure that the transport belt 9 can be driven by the drive roller 12 without there being any slippage.
Number | Date | Country | Kind |
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101 46 485 | Sep 2001 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP02/10461 | 9/18/2002 | WO | 00 | 10/8/2004 |
Publishing Document | Publishing Date | Country | Kind |
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WO03/024799 | 3/27/2003 | WO | A |
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WO 9505317 | Feb 1995 | WO |
Number | Date | Country | |
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20050039415 A1 | Feb 2005 | US |