Method for forming and filling spout film bags and device therefor

Abstract

An apparatus and method for forming and filling spout film bags which are transferred by a transfer wheel including blowing nozzles, to a filler arranged downstream of the transfer wheel. A blowing nozzle can be placed on the spout upper edge of the spout of a spout film bag and then a defined pressure pulse can be introduced into the interior of the spout film bag through the spout by the blowing nozzle to form the spout film bag. The apparatus can include a transfer wheel having a plurality of receiving stations and blowing nozzles assigned to the receiving stations, the blowing nozzles being able to be placed on the spout upper edges of the spouts in order to introduce a defined pressure pulse, and a filler, arranged downstream of the transfer wheel, for filling the formed spout film bags.

Claims

1. A method for forming and filling spout film bags supplied via a transfer wheel comprising blowing nozzles to a filler positioned downstream of the transfer wheel characterized in that a respective one of the blowing nozzles is placed on the spout upper edge of the spout of a spout film bag and thereafter, a defined pressure pulse for forming the spout film bag is introduced through the spout into the interior of the spout film bag by means of the blowing nozzle, wherein a magnitude of the defined pressure pulse is calculated on the basis of type information of the spout film bag, such as at least one of fill volume, film bag format, and film material, wherein the magnitude comprises an indication of a time period for the duration of the introduction of the pressure pulse and an indication regarding the amount of a medium to be introduced, and wherein calculating the magnitude is performed by means of an evaluation and control unit, and wherein at least one of inputting the type information and reading out the type information from a data storage is performed.

2. The method of claim 1, in which prior to placing the blowing nozzle on the spout upper edge, the spout of the spout film bag is received at a receiving station of the transfer wheel that includes a plurality of receiving stations, wherein the blowing nozzle is assigned to the receiving station.

3. The method of claim 1, wherein additionally the blowing nozzle is controlled by the evaluation and control unit, thereby introducing the defined pressure pulse having the calculated magnitude into the interior of the spout film bag.

4. The method of claim 1, wherein after forming the spout film bag the spout film bag is supplied by the transfer wheel to the filler downstream thereof and the spout film bag is filled in the filler.

5. A device for forming and filling spout film bags and for performing the method of claim 1, comprising a transfer wheel including a plurality of receiving stations and blowing nozzles assigned to the receiving stations, the blowing nozzles being configured to be placed on spout upper edges of the spout for introducing a defined pressure pulse, the device further comprising a filler downstream of the transfer wheel for filling the formed spout film bags, and further comprising an evaluation and control unit configured to calculate a magnitude of the pressure pulse on the basis of type information of the spout film bag, such as at least one of fill volume, film bag format and film material, wherein the magnitude comprises an indication of a time period for the duration of the introduction of the pressure pulse and an indication regarding the amount of a medium to be introduced.

6. The device of claim 5, wherein the evaluation and control unit is further configured to control the blowing nozzles, thereby enabling the introduction of the defined pressure pulse having the calculated magnitude into the interior of the spout film bag.

7. The device of claim 5, wherein one end of the blowing nozzles is configured to be placeable on the spout upper edge of the spout of a spout film bag, wherein the defined pressure pulse is introducible through the one end and through the spout into the spout film bag.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) For a better understanding and for illustration purposes, aspects of the invention are illustrated in the attached figures in an exemplary manner.

(2) In the figures:

(3) FIG. 1 is a top view of a device for forming spout film bags,

(4) FIG. 2 is a side view of the device for forming spout film bags,

(5) FIG. 3a is a schematic view of a blowing nozzle and a spout,

(6) FIG. 3b is a schematic view of a blowing nozzle placed on a spout upper edge, and

(7) FIG. 4 is a method for forming or shaping spout film bags.

DETAILED DESCRIPTION OF THE INVENTION

(8) FIG. 1 illustrates a top view of the device 1 for forming spout film bags 2. A transfer wheel 3 comprises a plurality of receiving stations 4, of which eight stations are shown in this case. The transfer wheel 3 is configured to be rotatable around an axis 5 in at least one first direction 6. The device 1 comprises a support or leverage 7, attached to which are blowing nozzlesnot shown hereused for forming or shaping the spout film bags 2. In this case, a respective one of the blowing nozzles is assigned to a respective one of the receiving stations 4. Optionally, one blowing nozzle may comprise a plurality of nozzle openings. In order to introduce a defined pressure pulse into the interior of a spout film bag 2, the blowing nozzle is placed on the spout upper edge. At five of the receiving stations 4 there are schematically illustrated spout film bags 2 received therein, wherein each one of the receiving stations 4 has received a spout 8 of a spout film bag 2.

(9) FIG. 2 illustrates a side view of the device 1 for forming spout film bags 2. A respective one of the blowing nozzle 9 is assigned to each of the two illustrated receiving stations 4. The blowing nozzles 9 are movable in a vertical direction 10 by means of the support or leverage 7 on which they are mounted such that the blowing nozzles 9 may be placed on the spout upper edge of the respective spouts 8. Here, the blowing nozzles 9 are illustrated in a schematic manner only. Their configuration is so as to enable their placement on the spout upper edge of a spout 8 so that the defined pressure pulse may be introduced into the spout film bag 2. FIGS. 3a and 3b are detailed views in this respect. After the placement of a blowing nozzle 9 on the spout upper edge of a spout 8, gas and/or any other substance is introduced into the interior of the spout film bag 2 in the form of a pressure pulse, thereby obtaining a forming or shaping of the spout film bag 2, wherein a defined form or shape of the spout film bag 2 and a defined cavity in the interior of the spout film bag 2 are obtained.

(10) The blowing nozzles 9 associated with the respective receiving stations 4 are arranged on the leverage 7 that may be rotated together with the transfer wheel 3 around the rotation axis 5 so that a blowing nozzle 9 assigned to a receiving station 4 is moved together with this receiving station 4 by rotating the transfer wheel 3.

(11) FIG. 3a shows the relative arrangement of a nozzle 9 and a spout 8 of a spout film bag 2. For a better visualization, the respective receiving station 4 is not illustrated. The blowing nozzle 9 is movable in the vertical direction by means of the leverage 7 and may thus be placed on the spout upper edge 11. The illustrated blowing nozzle 9 comprises a passage 12 for the defined pressure pulse. In the area 13 of the blowing nozzle 9 that is in contact with the spout upper edge 11, the blowing nozzle 9 may protrude from the spout 8, that is, the outer diameter of the blowing nozzle 9 in the area 13 is greater than the outer diameter of the spout 8. In this manner, placement of the blowing nozzle 9 on the spout upper edge 11 results in a substantially tight sealing with respect to the environment, so that the pressure pulse introduced into the spout film bag 2 by the blowing nozzle 9 is substantially received in its entirety in the interior of the spout film bag 2, since leakage into the environment is suppressed.

(12) It may also be contemplated that the outer diameter of the blowing nozzle 9 in the area 13 substantially corresponds to the outer diameter of the spout 8 or is substantially equal thereto.

(13) It is also contemplated that the blowing nozzle 9 further comprises an alignment device in the area 13, for instance, a protruding circular hollow cylinder that may be at least partially inserted into the interior 14 of the spout 8. To this end, the circular hollow cylinder has preferably a diameter that is less than the inner diameter of the spout 8 so that, for instance, a clearance of 0.5 mm is obtained.

(14) FIG. 3b shows a schematic view of the blowing nozzle 9 placed on the spout upper edge 11. In the area 13 of the blowing nozzle being seated on the spout upper edge 11, the blowing nozzle 9 protrudes from the spout 8. The passage 12 in the blowing nozzle 9 for the defined pressure pulse is arranged above the interior 14 of the spout 8 such that the defined pressure pulse may be introduced into the spout film bag 2 without leaking into the environment.

(15) FIG. 4 illustrates a flow chart of a method for forming spout film bags. In step 100, a spout of a spout film bag is received by a receiving station of the device for forming spout film bags as described above. By means of a blowing nozzle associated with or assigned to the receiving station, a gas is introduced into the interior of the spout film bag with a pressure pulse in step 101. For introducing the pressure pulse into the interior of the spout film bag, the blowing nozzle is placed on the spout upper edge. Since it may be required to differently configure the magnitude of the pressure pulse for different types of spout film bags so as to obtain a target form or shape of the spout film bag, in step 102, type information of the spout film bag may be input into an evaluation and control unit and/or may be read out from a data storage. Based on this type information, a magnitude of the pressure pulse is calculated in step 103. In step 104, the blowing nozzle is controlled by the evaluation and control unit, thereby enabling the control of the magnitude of the pressure pulse that is used in step 101.

(16) While there have been shown and described fundamental novel features of the invention as applied to the preferred and exemplary embodiments thereof, it will be understood that omissions and substitutions and changes in the form and details of the disclosed invention may be made by those skilled in the art without departing from the spirit of the invention. Moreover, as is readily apparent, numerous modifications and changes may readily occur to those skilled in the art. Hence, it is not desired to limit the invention to the exact construction and operation shown and described and, accordingly, all suitable modification equivalents may be resorted to falling within the scope of the invention as claimed. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.