This application claims foreign priority benefits under 35 U.S.C. § 119(a)-(d) to German patent application number DE 10 2019 219 833.3, filed Dec. 17, 2019, which is incorporated by reference in its entirety.
The present disclosure relates to work stations for packaging machines with a lifting mechanism for raising a lower tool.
A packaging machine configured as a thermoformer is known from DE 103 51 567 B4 in which at least one tool can be moved to a lowered and to a raised position with a toggle lever. The tool has an electric linear drive as a drive which drives the toggle lever.
DE 42 16 210 A1 describes a packaging machine with a deep-drawing station comprising an upper part and a lower part that can be lowered relative to the former to a lowered position or raised to a raised position, respectively. For moving the lower part, a lifting device is provided which comprises a toggle lever system. The toggle lever system is operated by way of a piston-cylinder device.
DE 10 2009 008 452 B3 describes a deep-drawing packaging machine with a work station which comprises a stationary tool half and a movable tool half. The stationary tool half is attached to the upper ends of guide struts. The movable tool half can be moved along the guide struts by way of guide bushings and can therefore be moved towards and away from the stationary tool half. The movable tool half is moved towards and away from the stationary tool half using an electric lifting mechanism. The electric lifting mechanism consists of a first lifting device for causing a raising motion with a large stroke and a second lifting device for causing a raising motion with a small stroke. The second lifting device generates a force which presses the movable tool half against the stationary tool half. The first lifting device consists of a first electric motor and a toggle lever linkage. The first lifting device causes a large stroke of the movable tool half which has been reached once a dead center of the toggle lever linkage has been reached. The second lifting device comprises an electric motor and an eccentric shaft which connects a first lever of the toggle lever linkage to a second lever of the toggle lever linkage. When the output shaft of the second electric motor is rotated, the second lever of the toggle lever linkage is raised or lowered relative to the first lever of the toggle lever linkage, whereby a stroke of the second lever is generated.
There is a need for a lifting mechanism for raising a lower tool of a work station of a packaging machine having good power transmission. There is a need for a lifting mechanism for raising a lower tool of a work station of a packaging machine that can be produced inexpensively. There is a need for a lifting mechanism for raising a lower tool of a work station of a packaging machine having good stability.
The disclosure relates to a work station for a packaging machine and a method for operating a work station for a packaging machine. The dependent claims indicate advantageous embodiments of the disclosure.
A work station according to the disclosure for a packaging machine comprises an upper tool, a lower tool, and a lifting mechanism. The lower tool is guided for a closing motion that is directed along a vertical direction towards the upper tool. The lifting mechanism comprises a toggle lever mechanism which connects the lower tool to a support structure. The lifting mechanism comprises a first actuator assembly and a second actuator assembly. The first actuator assembly is configured to apply a first force for raising the lower tool. The second actuator assembly is configured to apply a second force for raising the lower tool. The first actuator assembly acts upon the lower tool, while bypassing the toggle lever mechanism. The second actuator assembly acts upon the toggle lever mechanism.
Within the context of the disclosure, forces that actually lead to the lower tool being raised as well as forces that act upon the lower tool upwardly, but do not lead to an actual motion of the lower tool, are forces “for raising the lower tool”. In particular, a contact pressure with which the lower tool is pressed against the upper tool from below is a “force for raising the lower tool” in the sense of the disclosure or part of such a force.
As two actuator assemblies are provided for applying forces for raising the lower tool, the individual actuator assemblies can be dimensioned smaller than if only a single actuator assembly were provided. Suitable adaptation of the lifting forces acting upon the lower tool in dependence of the operating situation of the work station is facilitated. For example, in certain operating states, only one of the two actuator assemblies may be active for exerting a force upon the lower tool, while the other actuator assembly is inactive. In operating states in which increased force is required to raise the lower tool, in particular when the lower tool is to be pressed against the upper tool, both actuator assemblies may be active.
A toggle lever mechanism has the property that the transmission ratio between the force applied and the resulting force shifts continuously during the motion of the toggle lever mechanism. The toggle lever mechanism therefore has ranges of motion in which it provides a transmission ratio that is favorable for transmission of a large force, but also ranges of motion in which the transmission ratio is unfavorable for the transmission of a large force. As the first actuator assembly acts upon the lower tool while bypassing the toggle lever mechanism, the effect of the first force applied by the first actuator assembly upon the lower tool is independent of the current operating state of the toggle lever mechanism. This may ensure that the lower tool may be raised efficiently even when the toggle lever mechanism is in a state in which it has a transmission ratio that is unfavorable for good transmission of force. The second actuator assembly acts upon the toggle lever mechanism and allows the leverage provided by the toggle lever mechanism to be used to raise the lower tool.
The first actuator assembly may act directly upon the lower tool. The first actuator assembly may act upon an element rigidly connected to the lower tool. The first actuator assembly may act upon an element which carries the lower tool without there being an articulate connection between the lower tool and the element upon which the first actuator assembly acts. The first actuator assembly may act upon the lower tool without the involvement of an articulate connection. It is also conceivable that there is, for example, at most one articulate connection between the lower tool and the actuator assembly.
The lower tool may be raised relative to the support structure by way of the first force. The lower tool may be raised relative to the upper tool by way of the first force. The lower tool may be raised relative to the support structure by way of the second force. The lower tool may be raised relative to the upper tool by way of the second force.
The upper tool may be attached in a stationary manner to a frame of the work station. The support structure may be attached in a stationary manner to a frame of the work station or it may be part of the frame of the work station. The support structure may be stationary with respect to the upper tool.
The first actuator assembly may be configured to raise the lower tool by a first stroke. The second actuator assembly may be configured to raise the lower tool by a second stroke. The first stroke may be larger than the second stroke. The first actuator assembly may be optimized for providing a large stroke and the second actuator assembly may be optimized for providing a large force for raising the lower tool. The larger first stroke of the first actuator assembly may make it possible that the lower tool is already moved relatively close to the upper tool by the first actuator assembly.
The second actuator assembly may be configured to be activated to apply the second force after the lower tool has been raised by the first actuator assembly. By switching on the second actuator assembly, an increased force can be provided for pressing the lower tool against the upper tool after the lower tool has been raised by the first actuator assembly.
The first actuator assembly and the second actuator assembly may be configured to apply the first force and the second force simultaneously, at least temporarily. As a result, a particularly high force may be made available temporarily for raising the lower tool. In particular, a large force for pressing the lower tool against the upper tool may be obtained.
The first actuator assembly raising the lower tool preferably leads to an adjustment of the toggle lever mechanism even without active operation of the second actuator assembly. If the toggle lever mechanism is adjusted when the lower tool is raised by the first actuator assembly, the transmission ratio of the toggle lever mechanism changes. The presence of the unfavorable range of the transmission ratio of the toggle lever mechanism does not have a negative effect when the lower tool is raised by the first actuator assembly, since the first actuator assembly acts upon the lower tool while bypassing the toggle lever mechanism. In particular, an unfavorable range of the transmission ratio of the toggle lever mechanism may be overcome while the lower tool is being raised by the first actuator assembly.
The first actuator assembly raising the lifting mechanism preferably leads to an extension of the toggle lever mechanism. When the toggle lever mechanism is extended, the transmission ratio for the second force for raising the lower tool by the second actuator assembly may be increased.
The second actuator assembly may be configured to provide a pressing force for pressing the lower tool against the upper tool.
In principle, it may be sufficient to have the toggle lever mechanism comprise a single toggle lever structure that connects the lower tool to the support structure. However, the toggle lever mechanism preferably comprises multiple toggle lever structures which each connect the lower tool to the support structure. Providing multiple toggle lever structures may ensure improved force absorption by the lower tool. In addition, the provision of multiple toggle lever structures may improve the stability of the lower tool. The second actuator assembly preferably acts upon the multiple toggle lever structures.
The second actuator assembly may comprise an element variable in length. The element variable in length may act simultaneously upon two oppositely disposed toggle lever structures. The element variable in length acting upon two oppositely disposed toggle lever structures achieves an improved introduction of force into the toggle lever structures. The element variable in length may comprise, for example, a pneumatic cylinder, a spindle drive, or an electric linear drive.
The first actuator assembly and/or the second actuator assembly may comprise an element variable in length. This may be, for example, a pneumatic cylinder, a spindle drive, or an electric linear drive.
The lower tool may be suspended on rods. The rods may be, for example, firmly connected to the upper tool. The first actuator assembly may be suspended on the rods. The second actuator assembly may be suspended on the rods.
The second actuator assembly may act upon the toggle lever mechanism in such a way that a transmission ratio of the second force applied by the second actuator assembly—due to the toggle lever mechanism—develops a greater effect for raising the lower tool, the further the toggle lever mechanism is extended.
The disclosure also relates to a method for operating a work station for a packaging machine. The method may be suitable, designed, and/or configured for operating the work station according to the disclosure. Features described with regard to the work station may be transferred to the method and vice versa.
A method according to the disclosure for operating a work station for a packaging machine comprises raising a lower tool along a vertical direction towards an upper tool by applying a first force by way of a first actuator assembly. The first actuator assembly acts upon the lower tool while bypassing a toggle lever mechanism, where the toggle lever mechanism connects the lower tool to a support structure. The method also comprises the application of a second force for pressing the lower tool against the upper tool by way of a second actuator assembly. The second actuator assembly acts upon the toggle lever assembly.
Raising the lower tool by way of the first actuator assembly preferably adjusts the toggle lever assembly.
The toggle lever assembly is preferably first adjusted by raising the lower tool using the first actuator assembly to a working range with improved leverage (improved transmission ratio). The second actuator assembly subsequently actively actuates the toggle lever assembly to further raise the lower tool and/or to press the lower tool against the upper tool.
While the second force is being applied, the first force may also be applied, at least temporarily.
The disclosure shall be illustrated below in more detail using embodiments, where
In forming station 7, packaging trays are formed in base film web 15 by deep drawing. Forming station 7 comprises a forming tool upper part 7a and a forming tool lower part 7b which is movable relative to the former, both of which interact to deep-draw the packaging trays in base film web 15. The packaging trays formed in base film web 15 are filled in loading stretch 17 with products to be packaged. The filled packagings are closed in sealing station 9 by sealing a top film 19 onto base film 15. Scaling station 9 comprises a sealing tool upper part 9a and a sealing tool lower part 9b which is movable relative to the former, both of which interact to close the packaging trays with top film 19. The closed packages are separated from the film composite in cutting station 11. Cutting station 11 comprises a cutting tool upper part 11a and a cutting tool lower part 11b movable relative to the former. Cutting tool upper part 11a and cutting tool lower part 11b interact to separate the packagings from the film composite.
The disclosure relates to a work station 3 for a packaging machine 1. Work station 3 can be, for example, forming station 7, sealing station 9 or cutting station 11 of a deep-drawing packaging machine. It would also be conceivable, however, that work station 3 is employed in a packaging machine 1 of a different kind, for example, in a tray sealer.
Work station 3 comprises an upper tool 21 and a lower tool 23. Examples of upper tool 21 in packaging machine 1 described above are forming tool upper part 7a, sealing tool upper part 9a, or cutting tool upper part 11a. Examples of lower tool 23 in packaging machine 1 described above are forming tool lower part 7b, sealing tool lower part 9b, or cutting tool lower part 11b.
In the embodiment shown, upper tool 21 is attached to machine frame 5 in a stationary manner. This may be done, for example, using screw holes. Upper tool 21 in
In the embodiment shown, lower tool 23 also comprises a support member 23b on which working member 23a is supported. In the embodiment shown, support member 23b of lower tool 23 comprises two parallel, horizontal carrier elements 29. Working member 23a of lower tool 23 may simply stand on support member 23b. Working member 23a may be firmly connected to support member 23b, for example, using screw connections. No articulate connection is provided between support member 23b and working member 23a of lower tool 23.
Work station 3 comprises a lifting mechanism 31 for raising lower tool 23 and for applying the closing force for pressing lower tool 23 against upper tool 21 As can likely be seen best in
As can likely be seen best from
Lifting mechanism 31 also comprises a second actuator assembly 51 which comprises two second pneumatic cylinders 53 in the embodiment shown. Second pneumatic cylinders 53 each connect two oppositely disposed toggle lever structures 43. As can be seen from
First actuator assembly 33 acts upon lower tool 23 while bypassing toggle lever mechanism 41, as can be seen from
If lower tool 23 is to be raised from the lowered position (open work station 3) shown in
First actuator assembly 33 may be dimensioned substantially such that it applies the force required for raising lower tool 23, i.e., may counteract at least the weight force of lower tool 23. The additional force for pressing lower tool 23 against upper tool 21 may be provided by second actuator assembly 51. Second pneumatic cylinders 53 of second actuator assembly 51 may be dimensioned to be relatively small due to the division of the force between first actuator assembly 33 and second actuator assembly 51 when lower tool 23 is pressed against upper tool 21 and due to the good transmission ratio in toggle lever mechanism 41.
Lower tool 23, first actuator assembly 33 and second actuator assembly 51 are supported by vertical rods 27. The stroke of lower tool 23 may be adjusted in a simple manner by adjusting vertical rods 27 on upper tool 21.
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102019219833.3 | Dec 2019 | DE | national |
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Entry |
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German Search Report dated Dec. 17, 2019, Application No. 10 2019 219 833.3, Applicant MULTIVAC SEPP Haggenmueller SE & Co. KG. 5 Pages. |
European Communication with Search Report (with English Machine Translation) dated May 11, 2021, Application No. 20210091.3-1016, Applicant MULTIVAC Sepp Haggenmueller SE & Co. KG, 12 Pages. |
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Number | Date | Country | |
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20210179307 A1 | Jun 2021 | US |