The invention is directed to an apparatus for emptying a flexible liner of a packaging container. More particularly, the invention is directed to an apparatus having a pulling unit that has a movable pulling element, onto which a fastening section of the liner can be fastened, wherein the fastening section of the liner can be pulled up and let down by means of the pulling element of the pulling unit, so as to empty the liner, and having a stripping device that comprises one or more stripping bodies that are set up for stripping a section of the liner so as to empty the liner.
In a plurality of application areas, it is necessary to supply material capable of flow, in other words fluids having different viscosity, to technical facilities or systems. In the pharmaceutical industry and the foods sector, in particular, fluids that are filled into corresponding packaging containers must regularly be supplied to machines and systems.
In this connection, the fluid to be filled in is usually delivered in a packaging container that comprises an outer container and a flexible liner arranged within the container. The fluid to be filled in is situated within the flexible liner, wherein the liner is protected against damage by the container.
The liner usually has an outlet tap to which a pump device for pumping out the material situated in the liner can be connected. In order for material that can be pumped out to be constantly present in the region of the outlet tap during the emptying process of the liner, emptying apparatuses are used to support feed of the material to be filled in, in the direction of the outlet tap.
In the state of the art, wringer devices that can be driven manually are known, for example, by means of which the flexible liner can be wrung out during the emptying process. This and other solutions are time-consuming and require the deployment of personnel. In the case of highly viscous substances, in particular, a comparatively large amount of material remains in the liner in the case of the known solutions, so that only partial emptying of the liner is implemented. The material that remains in the liner is usually disposed of together with the liner. In the case of expensive materials, in particular, as they are frequently used in the pharmaceutical industry, this results in a significant impairment of the economic efficiency of the corresponding process.
Furthermore, emptying apparatuses are known in the state of the art, with which only liners that have a centrally arranged center outlet can be emptied. In practice, however, liners and containers have become prevalent, which have an outlet tap arranged at the side, so that a great number of known apparatuses cannot be used for emptying corresponding liners.
The task on which the invention is based therefore consists in increasing the degree of emptying during emptying of flexible liners, and, in this regard, preferably reducing the emptying effort. This is supposed to be implemented, in particular, for containers having a side outlet.
This task is accomplished by means of an apparatus of the type stated initially, wherein the apparatus according to the invention has a lifting device that is set up for moving the stripping device in the vertical direction.
The invention makes use of the recognition that feed of the material situated within the liner, to the outlet tap, can be significantly improved by means of a stripping device that can be moved in the vertical direction, so that the degree of emptying that can be achieved is significantly increased. By means of the combination of the movable pulling element of the pulling unit and the stripping device that can be moved in the vertical direction, the liner can be pulled up and let down several times during emptying, and furthermore can be stripped several times. As the result of such emptying, only a slight residual amount of material remains in the liner after the emptying process has been completed.
Preferably, a material capable of flow, for example a fluid, is stored in the liner to be emptied. The fluid can be a highly viscous fluid, for example. The stripping device is fastened to the lifting device, so that the lifting device can move the stripping device in a vertical direction. By means of the lifting device, the stripping device can be moved upward and downward in the vertical direction. The packaging container can comprise a container, within which the liner to be emptied is arranged. The liner can have an outlet tap, with which a pumping device for pumping out the material contained in the liner can be connected. The outlet tap preferably extends through an outlet opening of the container, wherein the outlet opening of the container is preferably arranged in a lower region of a side wall of the container. The packaging container therefore preferably has a side outlet. The liner can be a film sack or a film bag. The pulling element of the pulling unit can be a pulling cable, for example. The fastening section of the liner, which section can be fastened to the pulling element, preferably comprises an inlet tap of the liner, by way of which the liner was originally filled with the material capable of flow.
In a preferred embodiment of the apparatus according to the invention, the pulling unit has a non-manual drive, by means of which the pulling element can be moved to pull up and let down the fastening section of the liner. The drive of the pulling unit can be a motor drive, a hydraulic drive or a pneumatic drive. The drive of the pulling unit can be a linear drive that comprises one or more hydraulic cylinders, pneumatic cylinders or electric cylinders, for example. Furthermore, the drive of the pulling unit can be an electromechanical linear drive. Furthermore, the pulling unit can have one or more deflection elements, for example deflection rollers, by way of which the pulling element is deflected. As a result, the movement direction of the drive of the pulling unit can be converted for pulling up and letting down the fastening section of the liner.
In another preferred embodiment of the apparatus according to the invention, the lifting device has a non-manual drive, by means of which the stripping device can be moved in the vertical direction. The drive of the lifting unit can be a motor drive, a hydraulic drive or a pneumatic drive. The drive of the lifting device can be a linear drive, which comprises, for example, one or more hydraulic cylinders, pneumatic cylinders or electric cylinders. Furthermore, the drive of the lifting device can be an electromechanical linear drive.
In another embodiment, the apparatus according to the invention has a control device that is set up for controlling the drive of the pulling unit and/or the drive of the lifting device. In particular, the control device is set up for controlling the drive of the pulling unit and the drive of the lifting device independently of one another or adapted to one another. By way of a corresponding controller, the result can be achieved that pulling up and letting down the fastening section of the liner is implemented at the same time as or with a time offset from the vertical movement of the stripping device.
In a further embodiment of the apparatus according to the invention, the control device is set up for controlling the drive of the pulling unit in such a manner that the fastening section of the liner is constantly held under tension during emptying of the liner. Preferably, the pulling force applied to the fastening section of the liner during emptying of the liner is essentially kept constant or kept within an acceptable pulling force range. If the stripping device is automatically moved upward and downward by the lifting device, multiple times, one after the other, during emptying of the liner, the fastening section of the liner is also automatically pulled up and let down multiple times, one after the other, during emptying, so that the pulling force applied to the fastening section of the liner during emptying of the liner is essentially kept constant or within the acceptable pulling force range. Preferably, therefore, multiple movement cycles of the fastening section of the liner occur during emptying of the liner, wherein the fastening section of the liner is both pulled up and let down during a movement cycle. As the result of the multiple pulling up and letting down of the liner, a significant increase in the degree of emptying that can be achieved takes place. Due to the fact that pulling up and letting down take place automatically, the emptying process is significantly simplified.
Furthermore, an apparatus according to the invention is preferred, in which the control device is set up for controlling the drive of the pulling unit in such a manner that pulling up the fastening section of the liner is interrupted during emptying of the liner, if the pulling force exceeds a pulling force limit value. Thereby damage to the liner, which is attributable to the pulling force of the pulling unit, is prevented from taking place. Tearing of the liner while the fastening section of the liner is being pulled up is thereby effectively prevented. Furthermore, the control device is preferably set up for allowing the fastening section of the liner to be let down, so as to prevent the pulling force limit value from being exceeded. If the pulling force applied to the fastening section of the liner is increased during a downward movement of the stripping device, the fastening section of the liner is therefore let down if the pulling force limit value is exceeded, so that the fastening section of the liner follows the stripping device in the vertical direction.
Furthermore, an apparatus according to the invention is preferred, in which the control device is set up for controlling the drive of the lifting device in such a manner that the stripping device is automatically moved upward and downward by the lifting device, during emptying of the liner, preferably multiple times, one after the other. Because the stripping device is automatically moved upward and downward during emptying of the liner, multiple times, one after the other, multiple stripping cycles are implemented during emptying of the liner. Since the fastening section of the liner is also pulled up and let down multiple times during emptying of the liner, different sections of the liner are stripped during emptying, so that the degree of emptying that can be achieved is further increased.
In another embodiment of the apparatus according to the invention, the control device is set up for controlling the drive of the pulling unit and the drive of the lifting device in such a manner that simultaneously pulling up the fastening section of the liner and a downward movement of the stripping device brought about by the lifting device are prevented during emptying of the liner. This is preferably achieved in that the fastening section of the liner is always kept pulled, and letting down the fastening section of the liner is implemented, so as to prevent the pulling force limit value from being exceeded if an increase in pulling force results from the downward movement of the stripping device. Alternatively or in addition, the control device is set up for controlling the drive of the pulling unit and the drive of the lifting device in such a manner that simultaneously letting down the fastening section of the liner and the upward movement of the stripping device brought about by the lifting device is prevented during emptying of the liner. This is preferably achieved in that the fastening section of the liner is always kept pulled, and the pulling force applied to the fastening section of the liner is always kept essentially constant or within an acceptable pulling force ranged during emptying of the liner. Thereby opposite movements of the liner and of the stripping device are essentially prevented. Therefore a pulling unit that is reduced in force can be used, and thereby the risk of damage to the liner during the emptying process is significantly reduced.
In a further embodiment of the apparatus according to the invention, the control device is set up for controlling the drive of the pulling unit and the drive of the lifting device in such a manner that pulling up the fastening section of the liner takes place at the same time with the upward movement of the stripping device brought about by the lifting device, during emptying of the liner. This is preferably achieved in that the fastening section of the liner is always kept pulled, and the pulling force applied to the fastening section of the liner during emptying of the liner is essentially kept constant or within an acceptable pulling force range. Alternatively or in addition, the control device is set up for controlling the drive of the pulling unit and the drive of the lifting device in such a manner that letting down the fastening section of the liner takes place at the same time with the downward movement of the stripping device brought about by the lifting device, during emptying of the liner. This is preferably achieved in that the fastening section of the liner is always kept pulled, and letting down the fastening section of the liner is implemented so as to prevent the pulling force limit value from being exceeded if an increase in pulling force results from the downward movement of the stripping device. The pulling path when pulling up the fastening section of the liner and the lifting path of the upward movement of the stripping device can be different from one another. The release path when letting down the fastening section of the liner and the lifting path of the downward movement of the stripping device can differ from one another.
Furthermore, an apparatus according to the invention is preferred, which has a filling level detection device that is set up for detecting the filling level of the liner during emptying of the liner. By means of detection of the filling level of the liner, pulling up and letting down the fastening section of the liner, adapted to the filling level of the liner, can take place by means of the pulling element of the pulling unit. Furthermore, the stripping device can be controlled as a function of the detected filling level of the liner.
In a particularly preferred embodiment of the apparatus according to the invention, the filling level detection device is fastened to the lifting device. Therefore the lifting device is set up for moving the filling level detection device in the vertical direction. Thereby at least part of the filling level detection device moves in the same manner as the stripping device, which is also fastened to the lifting device. In particular, the filling level detection device can also be fastened to the lifting device by way of the stripping device.
Furthermore, an apparatus according to the invention is advantageous, in which the filling level detection device has a guide that is fastened to the lifting device in locally fixed manner, and a contact device that is guided within the guide and can be moved in the vertical direction, relative to the guide, wherein a contact section of the contact device is set up for coming into contact with the liner during a downward movement of the lifting device, wherein as the result of the contact with the liner and the further downward movement of the lifting device, a relative movement of the contact device and of the guide is brought about. The filling level of the liner can be detected by way of the relative movement of the contact device and of the guide. Preferably one or more sensors is/are arranged on the guide and/or on the contact device, by way of which sensor(s) the path of the relative movement can be detected.
In a further embodiment of the apparatus according to the invention, the control device is set up for controlling the drive of the lifting device as a function of the filling level of the liner detected by the filling level detection device. If the path of the relative movement of the contact device and of the guide reaches a limit value, for example if the contact device reaches a reversal point, preferably the downward movement of the lifting device is interrupted and the upward movement of the lifting device is brought about.
Furthermore, an apparatus according to the invention is advantageous, in which the stripping device has stripping bodies configured as stripping rollers, which have axes of rotation that are essentially parallel. The stripping bodies can be displaceable relative to one another, for example for insertion or positioning of the liner to be emptied. The stripping device can have movable, in particular pivoting brackets. Furthermore, the stripping bodies can be brought into contact with one another. In particular, one stripping body has at least one groove, and another stripping body has at least one material ridge wherein the at least one groove and the at least one material ridge can be brought into contact with one another. If the stripping bodies are configured as stripping rollers, the at least one groove and the at least one material ridge can be circumferential, so that great stability of the stripping bodies is implemented even during the rotational movement. The stripping bodies can make a stripping opening available, through which the liner extends during emptying. By means of displacement of at least one stripping body, the stripping opening can be opened and/or its size can be changed.
In particular, an apparatus according to the invention is preferred, which has a frame structure to which the lifting device together with the stripping device and preferably the filling level detection device, as well as a guide link for the pulling element of the pulling unit are fastened, wherein the frame structure can preferably be displaced in the horizontal direction, relative to a base frame. By means of displacement of the frame structure in the horizontal direction relative to the base frame, the apparatus can be brought into a setup state, in which placement of the liner in the region of the stripping opening and fastening of the fastening section of the liner to the pulling element is simplified. By means of the displacement of the frame structure, the apparatus can then subsequently be moved to a working state. Preferably, the apparatus comprises a non-manual drive for displacement of the frame structure. Furthermore, the base frame and/or the frame structure can be tilted and/or inclined relative to the horizontal. For this purpose, the base frame and/or the frame structure can be coupled with a further drive.
In the following, preferred embodiments of the invention will be explained and described in greater detail, making reference to the attached drawings. In this regard, the figures show:
The apparatus 10 has a base frame 12, onto which a frame structure 14 is set. The frame structure 14 can be displaced in the horizontal direction by way of the rails 16a, 16b of the base frame 12. By means of the horizontal displacement of the frame structure 14, the apparatus 10 can be switched from a setup state to a working state, wherein in the setup state of the apparatus 10, the liner 106 can be positioned in the apparatus 10 in a suitable manner and fastened to it. In the working state of the apparatus 10, emptying of the liner 106 can then take place. The horizontal displacement of the frame structure 14 takes place by way of a drive 30, wherein the drive 30 can be a pneumatic or hydraulic setting cylinder. An appropriate pneumatic pressure or hydraulic pressure can be made available to the apparatus 10 by way of connectors 18. Furthermore, a housing 20 is fastened to the base frame 12, wherein the housing 20 comprises the power supply and the control device 40.
A pulling unit 22 is arranged on the frame structure 14, which unit has a movable pulling element 26 configured as a pulling cable. The pulling element 26 can be fastened onto a fastening section 108 of the liner 106, wherein the fastening section 108 of the liner 106 usually comprises the inlet tap of the liner 106, by way of which the liner 106 was filled with the flowable material. The fastening section 108 of the liner 106 can be pulled up and let down by means of the pulling element 26 of the pulling unit 22, so as to empty the liner 106. For this purpose, the pulling element 26 is connected with the drive 24 of the pulling unit 22, which drive is configured as a setting cylinder. By means of a linear movement of the drive 24, a movement of the pulling element 26 is implemented, wherein pulling up and letting down the liner 106 can be implemented by way of the deflection rollers 36a, 36b, over which the pulling element 26 runs.
Furthermore, the apparatus 10 comprises a stripping device 28, by means of which the liner 106 can be stripped empty, section by section, during the emptying process. For this purpose, the liner 106 must be inserted into the apparatus 10, before the emptying process, in such a manner that it extends along a stripping region of the stripping device 28, wherein the stripping region can be formed, in particular, by means of a stripping opening 54 of the stripping device 28. The apparatus 10 furthermore comprises a lifting device 32, by means of which the stripping device 28 can be moved in the vertical direction. The lifting device 32 has a non-manual drive 34a, 34b, which is implemented by means of two setting cylinders that are arranged essentially parallel. The setting cylinders 34a, 34b can be hydraulic or pneumatic setting cylinders or electric cylinders.
Furthermore, the apparatus 10 comprises a filling level detection device 38, by means of which the filling level of the liner 106 can be detected during emptying of the liner 106. The filling level detection device 38 is also fastened to the lifting device 32, so that both the stripping device 28 and the filling level detection device 38 can be moved in the vertical direction by means of the lifting device 32. The control device 40 of the apparatus 10 is set up for controlling the drive 34a, 34b of the lifting device 32 as a function of the filling level of the liner 106, as detected by the filling level detection device 38.
Furthermore, the stripping device 28 has two opposite brackets 50a, 50b arranged below the stripping bodies 46a, 46b. The brackets 50a, 50b can be pivoted by way of the setting cylinders 52a, 52b, wherein the pivot axes of the brackets 50a, 50b 0are essentially arranged parallel to one another. The axes of rotation of the stripping bodies 46a, 46b configured as stripping rollers and the pivot axes of the brackets 50a, 50b lie in a horizontal plane, wherein the axes of rotation of the stripping bodies 46a, 46b are arranged at a right angle to the pivot axes of the brackets 50a, 50b.
The stripping body 46a has material ridges 56a, 56b that run around the outer sides and engage into corresponding circumferential grooves 58a, 58b of the stripping body 46b. By means of the circumferential material ridges 56a, 56b and the circumferential grooves 58a, 58b, stabilization of the stripping bodies 46a, 46b takes place, on the one hand, and on the other hand, in this way reciprocal transfer of rotational movements of a stripping body 46a, 46b during stripping of the liner 106 is achieved.
Furthermore, the contact device 44 can be moved in the vertical direction by means of the setting cylinders 64.
The control device controls the drive 24 of the pulling unit 22 and the drive 34a, 34b of the lifting device 32 in such a manner that pulling up the fastening section 108 of the liner 106 and moving the stripping device 28 downward, brought about by means of the lifting device 32, is prevented from occurring simultaneously during emptying of the liner. Furthermore, control of the drive 24 of the pulling unit 22 and of the drive 34a, 34b of the lifting device 32 takes place in such a manner that letting down the fastening section 108 of the liner 106 and the upward movement of the stripping device 28, brought about by means of the lifting device 32, is prevented from occurring simultaneously during emptying of the liner 106.
Furthermore, the drive 24 of the pulling unit 22 and the drive 34a, 34b of the lifting device 32 are controlled in such a manner that pulling up the fastening section 108 of the liner 106 takes place simultaneously with the upward movement of the stripping device, brought about by means of the lifting device 32, during emptying of the liner 106. Furthermore, letting down the fastening section 108 of the liner 106 takes place simultaneously with the downward movement of the stripping device 28, brought about by means of the lifting device 32, during emptying of the liner 106. The pulling path when pulling up the fastening section 108 of the liner 106 and the lift path of the upward movement of the stripping device 28 differ from one another multiple times during the emptying process. Furthermore, the release path when letting down the fastening section 108 of the liner 106 and the lift path of the downward movement of the stripping device 28 differ from one another multiple times during the emptying process.
Between the states shown in
Likewise, the fastening section 108 of the liner 106 was pulled up and let down multiple times by means of the pulling unit 22, between the states shown in
10 apparatus
12 base frame
14 frame structure
16
a, 16b rails
18 connectors
20 housing
22 pulling unit
24 drive
26 pulling element
28 stripping device
30 drive
32 lifting device
34
a, 34b drive
36
a, 36b deflection rollers
38 filling level detection device
40 control device
42 guide
44 contact device
46
a, 46b stripping bodies
48
a, 48b setting cylinders
50
a, 50b bracket(s)
52
a, 52b setting cylinders
54 stripping opening
56
a, 56b material ridge
58
a, 58b grooves
60 contact section
62 fastening frame
64 setting cylinders
66
a, 66b sensors
100 container
102 side wall
104 outlet opening
106 liner
108 fastening section
Number | Date | Country | Kind |
---|---|---|---|
20 2018 106 355.3 | Nov 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2019/078296 | 10/17/2019 | WO | 00 |