STACK OF CARTON BLANKS

Technical field

The present disclosure relates to an alignment device. More

particularly to an alignment device for a stack of carton blanks to be used in a filling machine.

Background

When producing carton packages a filling machine which can fold and fill a substance such as a liquid or semi-liquid is used. The filling machine can use different types of base materials and shapes of the base material. A type of packages is produced by using carton blanks as the base shape and which is then folded and filed with a desired substance. These carton blanks are normally made 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 in thickness and height. Today an operator is standing by the infeed device and filling machine to visually check so that the carton blanks are loaded correctly in the infeed device from the box and distributed to the filing machine. And, if something goes wrong which normally has to do with the stack of carton blanks being miss-aligned or other related types of effects of the carton blanks, the operator needs to solve it by manually stopping the machine and handling the carton blank or blanks. This is time consuming and stops the running of the filing machine in an unwanted way which leads to a loss of production.

Hence, an improved alignment device which solves at least some or all of the above drawbacks is desired.

Summary

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 disclosure, an alignnnent device for aligning stacked carton blanks, the carton blanks comprising a first edge and a second edge, the second edge positioned opposite the first edge

comprising, at least a first and a second alignment member, wherein the first alignment member is arranged adjacent to the first edge and adapted to exert a force onto the first edge and wherein the second alignment member is arranged opposite the second edge and adapted to exert a force onto the second edge, and the first alignment members is a roller.

According to a second aspect of the disclosure, an infeed machine for a filing machine, or a filling machine comprising an alignment device is disclosed.

According to a third aspect of the disclosure, a method of aligning a stack of carton blanks in parallel, the carton blanks comprising a first edge and a second edge, the second edge positioned opposite the first edge, the method comprises, providing an alignment device comprising, at least a first and a second alignment member, wherein the first alignment member is arranged adjacent to the first edge and adapted to exert a force onto the first edge and wherein the second alignment member is arranged opposite the second edge and adapted to exert a force onto the second edge, and the first alignment members is a roller; and pulling and/or pushing the alignment device on the stacked carton blanks so that they are aligned.

Further examples of the disclosure are defined in the dependent claims, wherein features for the fourth and subsequent aspects of the disclosure are as for the first to third aspects mutatis mutandis.

Some examples of the disclosure provide for alignment members to provide forces on carton blanks.

Some examples of the disclosure provide for an alignment member which can easily roll on carton blanks.

Some examples of the disclosure provide for pushing in a

perpendicular direction to a length of a carton blank stack.

Some examples of the disclosure provide for aligning a carton blank stack.

Some examples of the disclosure provide for contacting at least a part of the height of the carton blank.

Some examples of the disclosure provide for contacting at least one carton blank. Some examples of the disclosure provide for at the same time align several carton blanks at once.

Some examples of the disclosure provide for a lower force of aligning than if aligning all or almost all of the carton blanks at the same time.

Some examples of the disclosure provide for a contact surface being the height of a carton blank.

Some examples of the disclosure provide for a pair of rollers that easily slides on the carton blank(s).

Some examples of the disclosure provide for perpendicularly moving and aligning a carton blank or blanks.

Some examples of the disclosure provide for a first and second alignment member being spaced in a length direction of a carton blank stack.

Some examples of the disclosure provide for a first and second alignment member being spaced so that a small non-contacting surface between them is created.

Some examples of the disclosure provide for a first alignment member pushing on a first edge of a carton blank and a second alignment member pushing on a second edge of a carton blank.

Some examples of the disclosure provide for an alignment device adapted to align carton blanks that have a high degree of twisting or otherwise is not parallel arranged in a stack of carton blanks.

Some examples of the disclosure provide for a simpler alignment device.

Some examples of the disclosure provide for an alignment device comprising a surface on which carton blanks can slide on.

Some examples of the disclosure provide for a surface that easily allows for carton blanks to move against when being pushed by an alignment device.

Some examples of the disclosure provide for carton blanks to more easily be aligned since the carton blanks can easily move in a length direction of the carton blanks stack.

Some examples of the disclosure provide for an alignment device that allows for carton blanks to be pushed against and at the same time slide on, without making any marks in the carton blank.

Some examples of the disclosure provide for an alignment device which covers a part of the height of a carton blank so that the carton blank can more easily be moved in a length direction. Some examples of the disclosure provide for a lower friction between a carton blank and a first and/or second alignment member.

Some examples of the disclosure provide for a first and second alignment member being slidably connected by a sliding mechanism.

Some examples of the disclosure provide for a sliding mechanism that allows a first and/or second alignment member to move along a stack of carton blanks.

Some examples of the disclosure provide for pushing on both sides of a carton blank.

Some examples of the disclosure provide for any movement of one of a first and/or second alignment member affecting at least the other one.

Some examples of the disclosure provide for a synchronized movement and/or translation of force from at least one alignment member to the other(s).

Some examples of the disclosure provide for motorizing and/or automating an alignment device for aligning carton blanks.

Some examples of the disclosure provide for a gripping member so that an operator can easily manually use an alignment device.

Some examples of the disclosure provide for a safety back up.

Some examples of the disclosure provide for moving at least one carton blank.

Some examples of the disclosure provide for pushing and/or pulling in a substantially length direction of a stacked carton blanks.

Some examples of the disclosure provide for sliding by a sliding mechanism a first and/or second alignment member in a parallel direction to carton blanks.

All references to "a/an/the [element, device, component, means, step, etc]" are to be interpreted openly as referring to at least one instance of said element, device, component, means, step, etc., unless explicitly stated otherwise. The steps of any method disclosed herein do not have to be performed in the exact order disclosed, unless explicitly stated.

Brief description of the drawings

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: Figure 1 a llustrates a front view of a manual alignment device.

Figure 1 b Ilustrates a side view of a manual alignment device,

Figure 2a llustrates a front view of a manual alignment device,

Figure 2b llustrates a side view of a manual alignment device,

Figure 3a llustrates a top-side view of a manual alignment device, Figure 3b llustrates a bottom view of a manual alignment device, Figure 4a llustrates a side view of an automatic alignment device, Figure 4b llustrates a top view of an automatic alignment device, Figure 5a llustrates a front-side view of an automatic alignment device, Figure 5b llustrates a back-side view of an automatic alignment device.

Figure 6a illustrates a top-side view of a manual alignment device on a stack of carton blanks.

Figure 6b illustrates a side view of an automatic alignment device on a stack of carton blanks.

Figure 7 illustrates a flow chart of a method of using an alignment device.

Detailed description

Figs. 1 a-1 b, 3a-6b illustrates examples of an alignment device for aligning stacked carton blanks 14. The carton blank 14 comprises a first edge 141 and a second edge 142 wherein the second edge is positioned opposite the first edge. The alignment device comprises at least a first 1 1 and a second 12 alignment member. The first alignment member 1 1 is arranged adjacent to the first edge 141 and adapted to exert a force onto the first edge

141 and wherein the second alignment member 12 is arranged adjacent the second edge 142 and adapted to exert a force onto the second edge 142, and the first alignment member 1 1 is a roller. By having two alignment members 1 1 , 12 which are adapted to provide forces on the carton blanks and one of them being a roller 1 1 that can easily roll on the carton blanks 14 so that they are pushed in a perpendicular direction to a length X of the carton blank 14 stack. Thus aligning the carton blank 14 stack.

As disclosed above and illustrated in figures 2a and 2b, the carton blanks 14 are stacked in a box and shipped to the filing machine. When arriving at the filing machine the carton blanks 14 can be stacked as disclosed in figure 2a. Thus they are shifted next to each other. This means that the stack has a certain length X. As also can be seen in these figures 2a and 2b the shape of the carton blank 14 is such that it is a bit wider at the first 1 1 and second 12 edges since the carton blank 14 is folded, than the middle of the carton blank 14. This means that there is a natural tendency to also be arranged in this shifted style of the carton blanks 14 as illustrated in figure 2a. However, this makes it very difficult for the filing machine to pick the carton blanks 14 and fill them with any substance since the carton blanks 14 are not at the same or expected position, which leads to among others the issues discussed above. So, by using the alignment device 1 1 as disclosed herein, the stack 14 will look like figure 2b. Here the carton blanks 14 have been aligned so that the first 1 1 and second 12 edges of the carton blanks 14 are parallel. As seen in figure 2b this means that the length of the stack increases. The number of carton blanks 14 in figure 2a and 2b are the same for illustrative purposes.

In an example, the first alignment member, roller, 1 1 has a contact surface against the stacked carton blanks 14 of at least a part of a height and a thickness of one stacked carton blank 14. The use of the roller 1 1 with the contact surface of at least the thickness and part of the height of at least one of the carton blanks 14 the alignment device 1 1 pushes on each one of the carton blanks 14 individually to move them perpendicularly so that they get aligned. In an example, the contact surface against the carton blanks 14 is at least a part of the height of one carton blank and at least the thickness of a plurality of carton blanks 14. By contacting at least a part of the height of the carton blank 14 and contacting several carton blanks 14 at the same time the alignment of more carton blanks 14 are achieved at once. Further, the force required to align the carton blanks 14 when pushing on one or a few of the carton blanks 14 with the alignment device 10 is lower than if pushing at all or almost all at the same time. This is due to the shape of the carton blanks 14 and that they are thicker at the ends 1 1 and 12 than the rest of the carton blank 14 and therefore lock into to each other. They will then not be easily moved parallel to each other due to friction and the need to increase in the length X direction. Further, if more force is used to push on the carton blanks 14, trying to align the carton blanks 14 they will normally only bend and not align. In an example, the contact surface is the height of the carton blank 14.

In an example, as e.g. illustrated in figure 1 a and 3a, the first 1 1 and the second 12 alignment members are a pair of rollers. By having a pair of rollers the alignment members 1 1 and 12 easily slides on the carton blank(s) 14 so that they push on both sides of the carton blank(s) 14 such that the carton blank(s) 14 is perpendicularly moved and will be aligned as discussed above. In an example the first 1 1 and second 12 alignment members are any combination of rollers, such as the first alignment member 1 1 being one roller and the second alignment member 12 comprising two rollers, or e.g. as disclosed in figure 3b the first 1 1 and the second 12 alignment member comprises two rollers each. In an example, each pair of the first and second alignment members 12 are spaced in the length direction X by a distance of a few cm, close enough to abut, or they comprise a cutout so that they interact with each other creating a less non-contacting surface between them. Other variants to reduce any non-contact surface between the first and/or second alignment members 1 1 , 12 and the carton blanks 14 are easily envisaged as well. In an example, the first 1 1 and second 12 alignment members push on different carton blanks 14. In an example the carton blank 14 has twisted and one of the two rollers of the first alignment member 1 1 pushes on the first edge 141 of the carton blank 14. And, on the other edge 142 of the carton blank 14, the roller 12 in a different row in the length direction X compared to the one roller 1 1 pushing on the first edge 141 , the second alignment member 12 pushes on the second edge 142 of the carton blank 14. By using the alignment device 10 having a plurality of rollers 1 1 , 12 it is possible to align carton blanks 14 that have a high degree of twisting or otherwise is not parallel arranged in the stack of carton blanks 14.

In an example, as e.g. illustrated in figures 4a-b, the second alignment member 12 is a fixed counter member. By having at least one roller 1 1 arranged on one side 141 of the carton blank 14 and the other side 142 having a fixed counter member 12, the alignment device 1 1 is much simpler to construct since there is only one moving part, i.e. the at least one roller 1 1 . Further, the fixed counter member 12 allows for the carton blanks 14 to slide on the fixed counter member 12 while being in contact with it in a length direction X. In an example, the fixed counter member 12 is a plate, railing, or an element having a large flat surface on which the carton blanks 14 can slide on. By having the fixed counter member 12 being the plate or any other of the objects the carton blanks 14 are pushed against a surface that easily allows for the carton blanks 14 to move when being pushed by the roller 12 sliding on the opposite side of the carton blank 14. This allows for the blanks 14 to more easily be aligned since the stack easily can move in the length direction X. In other examples, the fixed counter member 12 is a rod, a pipe, a plate having a curved shape or anything else that allows for the carton blanks 14 to be pushed against and at the same time slide on, without making any marks in the carton blank 14. In an example the fixed counter member 12 comprises a cutout, bend or only covers a part of the height of the carton blankl 4 so that the carton blank can more easily be moved in a length direction X. This is due to a lower friction between the carton blank 14 and the fixed counter member 12 than if the fixed counter member 12 covers the entire height or almost the entire height of the carton blank 14.

In an example, as e.g. illustrated in figures 4a-5b the first, alignment member, roller, 1 1 and the second alignment member, the fixed counter member, 12 are mechanically slidably connected by a sliding mechanism 15 for moving the roller 1 1 in a parallel direction to the fixed counter member 12. By having the roller 1 1 and the fixed counter member 12 being slidably connected by the sliding mechanism 15 the roller 1 1 can slide along the fixed counter member 12 and push on the carton blanks 14 arranged there between. In an example there is no mechanical connection between the first and second alignment member 1 1 , 12. In an example the first alignment member 1 1 , the roller, is simply rolled against the carton blank 14 and second alignment member 12 is arranged on the other side of the carton blank 14, fixed or movable as discussed herein. In an example the first and second alignment members 1 1 , 12 are rollers and connected with each other by a sliding mechanism 15 that allows them to move along the stack of carton blanks 14 and push on both sides of the carton blank 14. Illustrated in e.g. fig. 4a , the sliding mechanism 15 is attached to the fixed counter member 12, but other locations for attaching the sliding mechanism is envisaged. In an example the sliding mechanism 15 is attached to the infeed device and the alignment device 10 is comprised in the infeed device. In an example, an infeed machine for a filing machine comprises the alignment device 10 as e.g. illustrated in figure 6b.

In an example, as e.g. illustrated in figure 1 a or 4a, at least the first 1 1 and second 12 alignment member or one of the first and second alignment members 1 1 , 12 members are mechanically connected by a connection member 18 such that any movement of one of the alignment members 1 1 , 12 affects at least the other one 1 1 , 12. By mechanically connecting the at least two alignment members 1 1 , 12 with the connection member 18, any movement on one of the alignment members 1 1 , 12 affects the movement of at least one of the other of the alignment members 1 1 , 12. This allows for a synchronized movement and/or translation of force from at least one alignment member 1 1 , 12 to the other(s) 1 1 , 12.

In an example, as e.g. illustrated in figures 4a-5b, the alignment device

10 further comprises a driving mechanism 20 for moving at least one of the first 1 1 and/ or second 12 alignment member. By having the driving

mechanism 20, such as motor, it is possible to motorize and/or automate the alignment devicel 0 to align the carton blanks 14. Examples of driving mechanisms 20 are pneumatic, belt, chain, electric or other types of driving mechanisms.

In an example, illustrated in e.g. figure 1 a and 6a, the connection member 18 comprises a gripping member 19 for gripping the alignment device 10 to manually align the carton blanks 14. By having the gripping member 19 an operator can easily manually use the alignment device 10 as a separate alignment device 10, or if placed in an infeed machine when not being motorized or if the motorization is broken as e.g. a safety back up.

In an example, as illustrated in figure 7, a method of aligning a stack of carton blanks 14 in parallel is disclosed. The carton blanks 14 comprises a first edge 141 and a second edge 142, the second edge 142 positioned opposite the first edge 141 and the method comprises, providing 200 the alignment device 10. The method also comprises pulling and/or pushing 210 the alignment device 10 on the stacked carton blanks 14 so that they are aligned.

In an example, the method further comprises, moving the carton blanks 14 by the roller 1 1 having a contact surface against the stacked carton blanks 14 of at least a part of the height and at least a thickness of one carton blank

1 1 .In an example, the method further comprises pushing and/or pulling in a substantially length direction X of the stacked carton blanks 14.

In an example, the method further comprises sliding by a sliding mechanism 15 the roller 1 1 in a parallel direction to a fixed counter member 12. In an example, the method further comprises moving at least one of the alignment members 1 1 , 12 by a driving mechanism 20, such as a described above.