This application is the U.S. National Phase under 35 U.S.C. § 371 of International Application PCT/EP2018/057408, filed Mar. 23, 2018, which claims priority to EP Application No. 17167141.5, filed Apr. 19, 2017, the entire contents of each of which are incorporated by reference herein and made a part of this specification.
The present invention generally relates to the field of filling systems and feeding systems thereof for feeding carton blanks. More particularly, the present invention relates to a feeding system having a rotary feeder with a pivotable linkage for transporting carton blanks from a magazine to a folding- and transportation unit. A filling system and a related method of feeding carton blanks with a rotary feeder are also provided.
In the field of carton based packaging for liquid food products, there are generally two main types of systems; roll fed systems and blanks fed systems. In the roll fed systems, a roll of packaging material is fed to the system where it is shaped into a tube, which in turn is filled with a liquid food product and then transversally sealed off into individual containers along the tube. In the carton blanks fed systems, the packaging material is prepared before being fed to the system by cutting the packaging material into pieces, wherein each piece corresponds to one package. Each piece is shaped into a sleeve-shaped body being longitudinally sealed, and possibly provided with weakening lines in order to facilitate further folding. The sleeve shaped packaging material pieces are usually referred to as blanks. In the filling machine these are stacked in a planar configuration in a magazine, i.e. in a configuration where the sleeve-shaped blanks has been collapsed into a flat shape, usually with the openings placed vertically. According to one way of operating a blank fed system, a blank is fetched from the magazine by a rotary feeder, and then manipulated so that the sleeve assumes a more or less rectangular cross-section. One end of the sleeve is closed and sealed such that a package with an open end is formed. Next, the package is filled with a liquid product via the open end, and finally the open end of the package is sealed and closed.
The blanks may be produced at one site, sometimes referred to as a converting factory, and transported to another site where the filling system is placed. During the transportation there is a risk that the blanks are squeezed together such that inner sides of the blanks stick to each other, or that close lying blanks stick to each other. Therefore, is a challenge to make sure that the blanks can be fetched, one-by-one, from the magazine at high speeds, e.g. fetching more than one blank per second, and in a robust way with few unwanted interruptions. Failure to provide a reliable feeding system will thus significantly impede the development of high-speed filling systems, and limit the throughput of the production line. A further problem stems from relative movement between the rotary feeder and the stationary magazine in such high-speed systems. The carton blanks must be extracted from their planar stacked configuration in the magazine to the rotary feeder with high accuracy, which is further challenged by the flexible nature of the planar blanks, meaning there will be an inherent delay of the momentaneous position thereof relative the rotary feeder. The arrangement of the trajectory of the feed paths of the carton blanks and the rotary feeder is thus critical to assure a reliable extraction of the blanks as the speed of the system is increased. Prior art systems have problems in achieving such reliability due to less optimal arrangement of such feed paths.
Hence, an improved feeding system would be advantageous and in particular allowing for avoiding more of the above mentioned problems and compromises, and providing for a more reliable extraction of carton blanks from a magazine in a rotary feeder in a high-speed production line.
Accordingly, examples of the present invention preferably seeks to mitigate, alleviate or eliminate one or more deficiencies, disadvantages or issues in the art, such as the above-identified, singly or in any combination by providing a device according to the appended patent claims.
According to a first aspect a feeding system for carton blanks is provided. The feeding system comprises a rotary feeder comprising a pivotable linkage, and a gripper head connected to the pivotable linkage via a gripper arm, wherein the gripper arm is connected to an outer periphery of the pivotable linkage at a first rotational joint, whereby the gripper arm is rotatable around a first rotational axis thereof. The feeding system comprises a magazine configured to store a plurality of stacked carton blanks each having a planar configuration in a magazine plane of the magazine, when stored therein, the carton blanks being stacked in a stacking direction, parallel with a normal axis to the magazine plane. The pivotable linkage is configured to be movable along a general feed path such that the gripper head follows an approach path towards a picking position at which the gripper head engage with a carton blank in the magazine, and subsequently follows a delivery path, from the picking position to a delivery position. The magazine comprises a cassette in which the carton blanks are confined, when stored in the magazine, the cassette being dimensioned so that the carton blanks are confined to extend in said magazine plane between proximal and distal internal surfaces of the cassette along a cassette direction which is perpendicular to the stacking direction and said first rotational axis. The proximal internal surface is arranged to align proximal edges of the carton blanks in a proximal alignment plane being perpendicular to the cassette direction, the proximal alignment plane extending between the gripper head and said first rotational axis, at least when the gripper head is in the picking position, wherein, at least when the gripper head is in the picking position, the first rotational joint is positioned in relation to the magazine such that there is a separation distance between the proximal alignment plane and the first rotational axis, the separation distance extending in an off-set direction being parallel with the cassette direction.
According to a second aspect a filling system is provided comprising a feeding system according to the first aspect and carton blanks. The feeding system comprises a rotary feeder comprising a pivotable linkage, and a gripper head connected to the pivotable linkage via a gripper arm, wherein the gripper arm is connected to an outer periphery of the pivotable linkage at a first rotational joint, whereby the gripper arm is rotatable around a first rotational axis thereof. The feeding system comprises a magazine configured to store a plurality of stacked carton blanks each having a planar configuration in a magazine plane of the magazine, the carton blanks being stacked in a stacking direction, parallel with a normal axis to the magazine plane. The pivotable linkage is configured to be movable along a general feed path such that the gripper head follows an approach path towards a picking position at which the gripper head engage with a carton blank in the magazine, and subsequently follows a delivery path, from the picking position to a delivery position. The magazine comprises a cassette in which the carton blanks are confined, and the cassette being dimensioned so that the carton blanks are confined to extend in said magazine plane between proximal and distal internal surfaces of the cassette along a cassette direction which is perpendicular to the stacking direction and said first rotational axis. The proximal internal surface is arranged to align proximal edges of the carton blanks in a proximal alignment plane being perpendicular to the cassette direction, the proximal alignment plane extending between the gripper head and said first rotational axis, at least when the gripper head is in the picking position, wherein, at least when the gripper head is in the picking position, the first rotational joint is positioned in relation to the magazine such that there is a separation distance between the proximal alignment plane and the first rotational axis, the separation distance extending in an off-set direction being parallel with the cassette direction.
According to a third aspect a method of feeding carton blanks with a rotary feeder is disclosed. The rotary feeder comprises a pivotable linkage, the pivotable linkage being connected to a gripper head via a gripper arm at a first rotational joint, whereby the gripper arm is rotatable around a first rotational axis thereof. The method comprises moving the pivotable linkage along a general feed path such that the gripper head follows an approach path towards a picking position at which the gripper head engage with a carton blank in a magazine, and subsequently follows a delivery path, from the picking position to a delivery position. The magazine is configured to store a plurality of stacked carton blanks each having a planar configuration in a magazine plane of the magazine, when stored therein, the blanks being stacked in a stacking direction, parallel with a normal axis to the magazine plane. The magazine comprises a cassette in which the carton blanks are confined, when stored in the magazine. The cassette is dimensioned so that the carton blanks are confined to extend in the magazine plane between proximal and distal internal surfaces of the cassette along a cassette direction which is perpendicular to the stacking direction and said first rotational axis, and wherein the proximal internal surface is arranged to align proximal edges of the carton blanks in a proximal alignment plane being perpendicular to the cassette direction. The proximal alignment plane extends between the gripper head and said first rotational axis, at least when the gripper head is in the picking position. Moving the pivotable linkage along a general feed path comprises positioning the first rotational joint in relation to the magazine such that there is a separation distance between the proximal alignment plane and the first rotational axis, the separation distance extending in an off-set direction being parallel with the cassette direction.
Further examples of the invention are defined in the dependent claims, wherein features for the second and third aspects of the disclosure are as for the first aspect mutatis mutandis.
Some examples of the disclosure provide for a filling system that can operate at a higher speed to increase throughput.
Some examples of the disclosure provide for a feeding system in a filling machine that is more reliable at higher speeds.
Some examples of the disclosure provide for a feeding system that is more robust.
Some examples of the disclosure provide for a feeding system that can extract individual carton blanks from a stacked carton blank magazine with increased accuracy and at higher speed.
It should be emphasized that the term “comprises/comprising” when used in this specification is taken to specify the presence of stated features, integers, steps or components but does not preclude the presence or addition of one or more other features, integers, steps, components or groups thereof.
These and other aspects, features and advantages of which examples of the invention are capable of will be apparent and elucidated from the following description of examples of the present invention, reference being made to the accompanying drawings, in which;
Specific examples of the invention will now be described with reference to the accompanying drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the examples set forth herein; rather, these examples are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. The terminology used in the detailed description of the examples illustrated in the accompanying drawings is not intended to be limiting of the invention. In the drawings, like numbers refer to like elements.
The feeding system 100 comprises a magazine 130 which configured to store a plurality of stacked carton blanks 201, each having a planar configuration in a magazine plane 109 of the magazine 130, when stored therein. The carton blanks 201 are stacked in a stacking direction 110, which is parallel with a normal axis 111 to the magazine plane 109. Thus, each of the carton blanks 201 has been folded into a planar configuration and lie on top of each other in the magazine 130. The pivotable linkage 102, 103, is configured to be movable along a general feed path 112 such that the gripper head 104 follows an approach path 113 towards a picking position 114 at which the gripper head engage with a carton blank 201 in the magazine 130 (the position shown in
The magazine 130 comprises a cassette 117 in which the carton blanks 201 are confined, when stored in the magazine 130. The cassette 117 is dimensioned so that the carton blanks 201 are confined to extend in the magazine plane 109 between a proximal internal surface 118 and a distal internal surface 119 of the cassette along a cassette direction 120 which is perpendicular to the stacking direction 110 and the first rotational axis 108.
Furthermore, the first rotational joint 108 is positioned in relation to the magazine 130 such that there is a separation distance 123 between the proximal alignment plane 122 and the first rotational axis 108, at least when the gripper head 104 is in the picking position 114, as illustrated in e.g.
When the gripper head 104 is in the picking position 114 and in engagement with a first carton blank 201 that extends along a first longitudinal axis 125, which is parallel with the cassette direction 120, the first rotational axis 108 may be positioned such that the first longitudinal axis 125 extends between the gripper head 104 and the first rotational axis 108 in the stacking direction 110, which is illustrated in the geometrical overview of
The first rotational axis 108 and the gripper head 104 may be movable along respective approach paths 113, 113′, that are at least partly aligned substantially in parallel with the stacking direction 110, when the gripper head 104 is in the picking position 114, as illustrated in e.g.
The approach path 113 and the delivery path 115 of the gripper head 104 may be at least partly aligned substantially in parallel, when the gripper head 104 is in the picking position 114.
The proximal alignment plane 122 and the first rotational axis 108 may be separated by the separation distance 123 while a first blank 201, engaged by the gripper head 104, is in contact with the magazine 130. This is illustrated for example in the sequence of snapshots in
The first rotational joint 107 may rotate in a first direction when following the approach path 113′, until the gripper head 104 arrives at the picking position 114 and contacts a first carton blank 201. The first direction may be a counter-clockwise direction, in e.g.
The pivotable linkage 102, 103, may comprise a first link 103 and a second link 102. One end of the first link 103 is connected to the gripper arm 105 via the first rotational axis 108 and an opposite end of the first link is connected to the second link 102, at a second rotational axis 132. The first and second links 102, 103, rotate in a first direction relative to each other when following the approach path 113, until the gripper head 104 arrives at the picking position 114 and contacts a first carton blank 201. The proximal alignment plane 122 and the first rotational axis 108 may be separated by the separation distance 123 while the first and second links 102, 103, rotate in a second direction relative to each other, opposite the first direction, when the gripper head 104 lifts the first carton blank 201 from the magazine 130. Thus, prior to the position of the first and second link 102, 103, in
The second link 102 may be connected further to the rotary feeder 101 via a third rotational axis 133, to provide at least three degrees of freedom, which advantageously improves the extraction of the carton blanks 201 from the magazine 108.
The gripper head 104 may have an engagement surface 129 configured to contact the carton blanks 201, as illustrated in
A filling system 200 is also disclosed comprising a feeding system 100 as described above and carton blanks 201. The feeding system 100 comprises a rotary feeder 101 comprising a pivotable linkage 102, 103. A gripper head 104 is connected to the pivotable linkage via a gripper arm 105 which is connected to an outer periphery 106 of the pivotable linkage at a first rotational joint 107, whereby the gripper arm is rotatable around a first rotational axis 108 thereof. A magazine 130 is configured to store a plurality of stacked carton blanks each having a planar configuration in a magazine plane 109 of the magazine, and the carton blanks being stacked in a stacking direction 110, parallel with the normal axis 111 to the magazine plane. The pivotable linkage is configured to be movable along a general feed path 112 such that the gripper head follows an approach path 113 towards a picking position 114 at which the gripper head engage with a carton blank in the magazine, and subsequently follows a delivery path 115, from the picking position to a delivery position 116. The magazine comprises a cassette 117 in which the carton blanks are confined, the cassette being dimensioned so that the carton blanks are confined to extend in said magazine plane between proximal 118 and distal 119 internal surfaces of the cassette along a cassette direction 120 which is perpendicular to the stacking direction and said first rotational axis. The proximal internal surface is arranged to align proximal edges 121 of the blanks in an proximal alignment plane 122 being perpendicular to the cassette direction, the proximal alignment plane extending between the gripper head and said first rotational axis, at least when the gripper head is in the picking position. At least when the gripper head is in the picking position, the first rotational joint is positioned in relation to the magazine such that there is a separation distance 123 between the proximal alignment plane and the first rotational axis, the separation distance extending in an off-set direction 124 being parallel with the cassette direction.
The method 300 may comprise aligning 303 the approach paths 113, 113′, of the first rotational axis 108 and the gripper head 104 substantially in parallel with the stacking direction 110, when the gripper head 104 is in the picking position 114, as discussed above, providing for the mentioned advantages.
Further, the method 300 may comprise aligning 304 the approach path 113 and the delivery path 115 of the gripper head 104 substantially in parallel with the stacking direction 110, when the gripper head 104 is in the picking position 114, as discussed above, providing for the mentioned advantages.
The gripper head 104 may have an engagement surface 129 configured to contact the carton blanks 201. The engagement surface 129 forms an angle 127 with the first rotational axis 108 and the cassette direction 120. The method 300 may comprise aligning 305 the gripper head 104 such that the angle 127 is substantially zero when the gripper head 104 first contacts a first carton blank 201, prior to lifting the first blank 201 from the magazine 130, as discussed above, providing for the mentioned advantages.
The present invention has been described above with reference to specific examples. However, other examples than the above described are equally possible within the scope of the invention. The different features and steps of the invention may be combined in other combinations than those described. The scope of the invention is only limited by the appended patent claims.
More generally, those skilled in the art will readily appreciate that all parameters, dimensions, materials, and configurations described herein are meant to be exemplary and that the actual parameters, dimensions, materials, and/or configurations will depend upon the specific application or applications for which the teachings of the present invention is/are used.
Number | Date | Country | Kind |
---|---|---|---|
17167141 | Apr 2017 | EP | regional |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2018/057408 | 3/23/2018 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2018/192739 | 10/25/2018 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5144789 | Focke | Sep 1992 | A |
5234314 | Ganz | Aug 1993 | A |
5715657 | Mondani | Feb 1998 | A |
6666447 | Keller | Dec 2003 | B2 |
8602956 | Monti | Dec 2013 | B2 |
20020091052 | Baumeister et al. | Jul 2002 | A1 |
Number | Date | Country |
---|---|---|
105857747 | Aug 2016 | CN |
10204932 | Aug 2003 | DE |
1196709 | Jul 1970 | GB |
WO 9842604 | Oct 1998 | WO |
WO 2012028436 | Mar 2012 | WO |
WO 2015091977 | Jun 2015 | WO |
Entry |
---|
International Search Report and Written Opinion of the International Searching Authority for International Application No. PCT/EP2018/057408, dated Jun. 11, 2018, in 12 pages. |
Extended European Search Report issued in European Patent Application No. 17167141, dated Oct. 30, 2017, in 9 pages. |
Search Report issued in Chinese Patent Application No. 201810300255.8, dated Jul. 17, 2020, in 2 pages. |
Office Action issued in Chinese Patent Application No. 201810300255.8, dated Jul. 27, 2020, in 5 pages. |
European Search Report issued in European Patent Application No. 18163513, dated Aug. 31, 2018, in 2 pages. |
Office Action issued in Japanese Patent Application No. 2019-556902, dated Sep. 17, 2021, in 8 pages. |
Number | Date | Country | |
---|---|---|---|
20200039768 A1 | Feb 2020 | US |