The present disclosure relates to the field of infeed devices, particularly to an infeed alignment device for a picking device in a filling machine.
When producing carton packages a filling machine for folding and filling a substance such as a liquid or semi-liquid is used. The filling machine can use different types of base materials and shape of the base material. A type of package is produced by using carton blanks as the base shape which is then folded and filed with a desired substance. These carton blanks are normally made elsewhere and shipped in boxes to a location of the filling machine so that they can be loaded into the machine by an infeed device. Since the carton blanks are made somewhere else and shipped to the location of the filling machine it is not always the same batch that is used one after the other but more normally an operator just loads the next stacked carton blank box that is on a pallet. It is also so that inside the box the carton blanks can somewhat move and thus be shifted around. There is also a tolerance of how much variation each blank can have as a width and a height. Today these factors are handled by an operator standing by the infeed device and filling machine to visually check so that the carton blanks are loaded correctly in the infeed device and distributed to the filing machine. The distribution to the filing machine from the infeed device is in a quite high speed of at least a few blanks per second so the accuracy of the position of the blanks are of high importance. And, if something goes wrong the operator need to push the carton blanks into place or align them in the infeed device so that the filing machine is able to use the blanks. This is time consuming and stops the running of the filing machine in an unwanted way.
Hence, an improved infeed alignment device which solves at least some or all of the above drawbacks is desired.
It is an object of the present inventive concept to mitigate, alleviate, or eliminate one or more of the above-identified deficiencies in the art and disadvantages singly or in combination.
According to a first aspect of the inventive concept, an infeed alignment device for aligning a carton blank such that a picking device can pick the carton blank comprising an upper alignment member for pushing on an upper part of the carton blank, a lower alignment member for pushing on a lower part of the carton blank, and wherein the upper and/or lower alignment member is configured to push in a push direction on the top and/or the bottom of the carton blank such that the carton blank is in a picking position for the picking device.
According to a second aspect of the inventive concept, a method of aligning a carton blank such that a picking device can pick the carton blank, comprising, providing an infeed alignment device. Aligning an upper part of the carton blank by an upper alignment member and/or aligning a lower part of the carton blank by a lower alignment member, and wherein the aligning is performed by the upper and/or lower alignment member pushing on the top and/or bottom of the carton blank in a pushing direction.
Further examples of the disclosure are defined in the dependent claims, wherein features for the third and subsequent aspects of the disclosure are as for the first to second aspects mutatis mutandis.
Some examples of the disclosure provide for pushing on the upper and/or lower part of a carton blank.
Some examples of the disclosure provide for adjusting a carton blank at two locations, respectively.
Some examples of the disclosure provide for carton blank to easily be pushed into a correct entry position by use of a low force.
Some examples of the disclosure provide for that a carton blank is in a correct position and can be picked at a desired time.
Some examples of the disclosure provide for a carton blank to be pushed at both a top and a bottom to prevent any tilting of the carton blank.
Some examples of the disclosure provide for an upper and a lower alignment member to be moved opposite to a pushing direction of a blank.
Some examples of the disclosure provide for an external force to be applied to a push member.
Some examples of the disclosure provide for an infeed alignment device being connected to a picking device.
Some examples of the disclosure provide for an infeed alignment device to be synchronized with a picking device.
Some examples of the disclosure provide for a carton blank to be in a correct position at a time when a picking device is ready to pick the carton blank.
Some examples of the disclosure provide for an infeed alignment device to not push on any carton blank when a picking device picks the carton blank.
Some examples of the disclosure provide for a reliable connection.
Some examples of the disclosure provide for a more robust, fail safe connection.
Some examples of the disclosure provide for an upper and lower alignment member being biased in a direction opposite to a pushing direction.
Some examples of the disclosure provide for an upper and lower alignment member being pushed at a same time.
The above, as well as additional objects, features and advantages of the present invention/inventive concept, will be better understood through the following illustrative and non-limiting detailed description of different embodiments of the present invention/inventive concept, with reference to the appended drawings, wherein:
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In an example, the infeed alignment device 10 is connected to the picking device. By connecting the infeed alignment device 10 to the picking device, the infeed alignment device 10 is synchronized with the picking device. This allows the infeed alignment device 10 to have the carton blanks in the correct position at the time when the picking device is ready to pick the carton blank. It further allows the infeed alignment device 10 to be synchronized such that is will not push on any blanks when the picking device picks the carton blank so it can easily pick it.
In an example, the connection between the infeed alignment device 10 and the picking device is a mechanical connection 18. By using the mechanical connection the reliability of the connection is simple, robust, fail safe and will move when the mechanics of the picking device will move. In an example, the mechanical connection 18 comprises a rod having a cog wheel that is configured to be connected to a similar connection from the picking device such that they are mechanically connected. In an example, the rotating member 23 is a part of the mechanical connection 18 or connected to it.
In an example, the connection is an electrical connection which synchronizes the infeed alignment device 10 and the picking device to perform any operations at the desired time. In an example, a filing machine comprises the infeed alignment device 10 and/or the picking device.
An exemplary way of aligning the carton blanks will be described below. Such a way comprises aligning the carton blank such that a picking device can pick the carton blank by aligning 200 the upper part of the carton blank by the upper alignment member 11. It further comprises aligning 210 the lower part of the carton blank by the lower alignment member 12, and wherein the alignment is performed by the upper and/or lower alignment members 11, 12 pushing on the top and/or bottom of the carton blank in the pushing direction.
In an example, the upper and lower alignment members 11, 12 are biased in a direction opposite to the pushing direction.
In an example, the upper and lower alignment members 11, 12 are pushed at the same time.
In example, the push member 16 is pushed such that it pushes on both the upper and lower alignment members 11, 12 opposite to the push direction.
In an example, the push member 16 comprises the circular member 17 and the circular member 17 is moved such that the circular member 17 in turn affects the push member 16 to push on the upper and lower alignment members 11, 12 in the push direction.
In an example, the infeed alignment device 10 is synchronized with the picking device. In an example, the synchronization is performed by a mechanical connection.
From the description above follows that, although various embodiments of the invention have been described and shown, the invention is not restricted thereto, but may also be embodied in other ways within the scope of the subject-matter defined in the appended claims.
Number | Date | Country | Kind |
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16202178.6 | Dec 2016 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/080197 | 11/23/2017 | WO | 00 |