EP4245513A1 - System for unstacking carton blanks - Google Patents

Abstract

System for unstacking cardboard blanks, comprising a stacking magazine (3) for receiving a stack (7) of cardboard blanks (2), the stacking magazine (3) having a retention system (10), at least one first die (4), comprising a first trough (18) for shaping the cardboard blanks (2), and a transport device (6) with at least one first gripping unit (15) for gripping and moving cardboard blanks (2), the transport device (6) being configured to hold at least one cardboard blank ( 2) to grab it from the stack (7), transport the cardboard blank (2) into the first trough (18) and shape the cardboard blank (2) while exerting a force.

Description

The present invention relates to a system for unstacking cardboard blanks according to claim 1, a thermoforming packaging machine or tray sealing machine comprising a system for unstacking cardboard blanks according to claim 9, a method for unstacking cardboard blanks according to claim 10.

From the DE 10 2017 121 438 A1 a thermoforming packaging machine is known. From the DE 10 2012 001 817 A1 a tray sealing machine is known.

To produce packaging trays with a cardboard tray, unfolded cardboard blanks are usually unstacked from a stacking device, folded in a die using a pressing movement and fed to a packaging machine or a thermoforming packaging machine or a tray sealing machine. However, these work steps are complex and require several work stations.

The object of the invention is to provide an improved system for unstacking cardboard blanks and a method for unstacking cardboard blanks. This task is solved by the features of claims 1 and 10.

The system according to the invention for unstacking cardboard blanks comprises a stacking magazine for receiving a stack of cardboard blanks, the stacking magazine having a retention system, at least a first die comprising a first trough for shaping the cardboard blanks, and a transport device with at least one gripping unit for gripping and moving of cardboard blanks, wherein the transport device is configured to grab at least one cardboard blank from the stack, transport the cardboard blank into the first trough and shape the cardboard blank while applying a force. This system makes it possible to separate the cardboard blanks from a stack of cardboard blanks in a work station and to give them a specific (especially 3-dimensional, erect) shape. For the purposes of the invention, “shaping” or “shaping” means an at least partial and at least sectional erection of a cardboard blank.

It is also possible to separate the cardboard blanks from a stack of cardboard blanks in a work station and to give them a specific shape and to fix them in a transport system of a packaging machine, for example a thermoforming packaging machine or a tray sealing machine. The retaining system can have holding plates which are vertically formed in relation to side stacking magazine supports in order to hold the cardboard blanks in the stacking magazine. The first die can be attached below the stacking magazine. The die can have at least one suction unit, whereby the cardboard blank formed in the die remains fixed in the trough of the die until it is transferred further. The matrix can have several, for example two to four, suction units. The transport unit can have several, for example two to four, gripping units. The die can have several troughs arranged next to one another. The die can be integrated into a transport system. The conveyor belt can be a feed belt with projecting mold plates.

It is advantageous if the transport device is configured to grab the cardboard blank by suction and pull it into the first trough. The gripping units of the transport device can have at least one suction unit.

The first die preferably has at least one first through-opening, wherein the transport device is configured to move a section of the gripping unit through the first through-opening. As a result, the cardboard blanks can be transported in a substantially vertical movement path between a stacking position in the stacking magazine and a depositing position in the first trough of the die. The first die can, for example, have 2 to 4 through openings.

In a particularly advantageous embodiment, the transport device is configured to exert pressure on the cardboard blank from above and to press the cardboard blank into the first trough. In this embodiment variant, there is no need for a through opening in the die
to be available. In this embodiment variant, it is particularly advantageous to provide a distance between the die and the stacking magazine that is at least 20 cm, preferably 20 cm to 100 cm. The transport device can have a robot arm to grab the cardboard blanks individually, turn them over and push them into the first trough. The robot arm may include a suction unit to grasp the cardboard blanks.

Preferably, the system has a second die for shaping cardboard blanks, the second die comprising an opening, the transport device being configured to transport the cardboard blank from the stack through the second die into the first trough. This allows the cardboard blanks to be preformed first through the second trough and the preformed cardboard blanks can be pulled further into the first trough to obtain their final shape. This two-stage shaping simplifies and improves alignment of the side walls of the cardboard blanks. The second die can have several, for example two to four, through openings.

The second die is preferably arranged below the stacking magazine. It is also possible to arrange the second die above the stacking magazine.

It is advantageous if an upper opening width of the second die is larger than an upper opening width of the first trough. The upper opening width can correspond to a distance between two side supports of the stacking magazine for holding flat cardboard blanks. It is also possible for a lower opening width of the second die to be smaller than the upper opening width of the first trough in order to more easily accommodate a cardboard blank preformed in the second die into the first trough.

Advantageously, the first trough has a first bottom surface and side walls, the side walls of the first trough having a first angle of inclination relative to the first bottom surface, the second die having inclined side walls, the inclined side walls of the second die having a second angle of inclination that is smaller than is the first angle of inclination. As a result, the cardboard blanks are first set up laterally in the second die, which simplifies the later introduction of these pre-shaped cardboard blanks into the first trough and makes the final shaping easier.

The invention further relates to a thermoforming packaging machine comprising a system for unstacking cardboard blanks according to one of the variants described above. The thermoforming packaging machine can be intended for the production of packaging with folded cardboard blanks, which are lined on the inside with a film in order to be able to package foodstuffs in a gas-tight and long-lasting manner. The system for unstacking cardboard blanks can be arranged in front of the forming station of the thermoforming packaging machine. The cardboard blanks formed or folded in the system for unstacking cardboard blanks can be manually inserted into a transport system or feed belt, whereby the transport system brings the shaped cardboard blanks to the forming station in order to be inserted manually or automatically into the lower parts of the molding tool. The shaped or folded cardboard blanks can be fixed directly in a transport system or feed belt of the thermoforming packaging machine, with the transport system bringing the shaped cardboard blanks to the forming station in order to be inserted manually or automatically into the lower mold parts. The transport system of the thermoforming packaging machine can be designed uniformly with the first die of the system for unstacking cardboard blanks, i.e. the first die can be part of the transport system of the thermoforming packaging machine.

The invention further relates to a tray sealing machine comprising the system for unstacking cardboard blanks according to one of the variants described above. The tray sealing machine can be equipped with a sealing device. The sealing device can comprise a rigid upper tool part which maintains its position during the sealing process. The sealing device can also include a movable shell holder which is intended to hold a shell. The tray, comprising a product, can be guided into the sealing device by a conveyor belt. In a predetermined position in the sealing device, the shell can be gripped by the shell holder and moved upwards against the upper part of the tool. The tray can be closed with a cover film, which is passed through the sealing device. The trays can be cardboard blanks. The system for unstacking cardboard blanks of the tray sealing machine can be arranged in front of the tray receiving station. The shaped or Folded cardboard blanks can be fixed directly in a transport system or feed belt, with the transport system feeding the shaped cardboard blanks to the tray receiving station.

The invention further relates to a method for unstacking cardboard blanks, comprising the following method steps: receiving a stack of cardboard blanks in a stacking magazine, the stacking magazine having a retention system, providing at least a first die, comprising a first trough for shaping cardboard blanks,

Gripping at least one cardboard blank by a transport device with at least one gripping unit, transporting the cardboard blank by means of the transport device from the stack into the first trough, shaping the cardboard blank in the first trough while exerting a force on the cardboard blank by means of the transport device. This system makes it possible to separate and shape the cardboard blanks from a stack of cardboard blanks in a work station. It is also possible to separate the cardboard blanks from a stack of cardboard blanks in a work station and to give them a specific shape and to fix them in a transport system of a packaging machine, for example a thermoforming packaging machine or a tray sealing machine.

Advantageously, the cardboard blank is sucked in from below by the gripping unit and pulled into the first trough. This allows the cardboard blanks to be transported in a vertical movement path between a stacking position in the stacking magazine and a depositing position in the first trough of the die. The first die can have a first through opening. A section of the gripping unit can be moved through the first through opening. The gripping units of the transport device can have at least one suction unit.

Advantageously, pressure is exerted on the cardboard blank from above by the gripping unit and the cardboard blank is pressed into the first trough. In this embodiment variant, there do not have to be any through openings in the die. It is particularly advantageous in this embodiment variant to provide a distance between the die and the stacking magazine that is at least 20 cm, preferably 20 cm to 100 cm. The transport device can have a robot arm to grab the cardboard blanks individually, turn them over and push them into the first trough. The robot arm can include a suction unit.

Advantageously, the cardboard blank is transported from the stack first into a second die and then into the first trough of the first die. This allows the cardboard blanks to be first preformed by the second die (ie, partially erected) and the preformed cardboard blanks to be drawn further into the first trough to obtain their fully erected final shape. This two-stage shaping simplifies and improves the straightening of the side walls of the cardboard blanks. A section of the gripping unit can be moved through a through opening.

The second die is preferably arranged below the stacking magazine. It is also possible to arrange the second die above the stacking magazine.

It is advantageous if an upper opening width of the second die is larger than an upper opening width of the first trough. The upper opening width can correspond to a distance between two side supports of the stacking magazine for holding flat cardboard blanks. It is also possible for the lower opening width of the second die to be smaller than the upper opening width of the first trough in order to more easily accommodate a cardboard blank preformed in the second die into the first trough.

All of the features disclosed in connection with the system for unstacking carton blanks can be used individually or together in the method for unstacking carton blanks. All of the features disclosed in connection with the method for unstacking carton blanks can be used individually or together in the system for unstacking carton blanks.

• Fig. 1 eine perspektivische Ansicht des erfindungsgemäßen Systems zum Entstapeln von Kartonzuschnitten,
• Fig. 2 eine schematische Teilseitensicht der ersten Matrize und der zweiten Matrize,
• Fig. 3 eine schematische Seitenansicht des Systems,
• Fig. 4 eine schematische Seitenansicht des Systems,
• Fig. 5 eine schematische Tiefziehverpackungsmaschine umfassend das System zum Entstapeln von Kartonzuschnitten in einer Seitenansicht,
• Fig. 6 eine schematische Schalenverschließmaschine umfassend das System zum Entstapeln von Kartonzuschnitten in einer perspektivischen Ansicht.
• Fig. 1 zeigt das erfindungsgemäße System zum Entstapeln von Kartonzuschnitten 2. Das System 1 weist ein Stapelmagazin 3, eine erste Matrize 4, eine zweite Matrize 5 und eine Transportvorrichtung 6 auf.

An embodiment according to the invention is shown by the following figures. Show:

• Fig. 1 a perspective view of the system according to the invention for unstacking cardboard blanks,
• Fig. 2 a schematic partial side view of the first die and the second die,
• Fig. 3 a schematic side view of the system,
• Fig. 4 a schematic side view of the system,
• Fig. 5 a schematic thermoforming packaging machine comprising the system for unstacking cardboard blanks in a side view,
• Fig. 6 a schematic tray sealing machine comprising the system for unstacking cardboard blanks in a perspective view.
• Fig. 1 shows the system according to the invention for unstacking cardboard blanks 2. The system 1 has a stacking magazine 3, a first die 4, a second die 5 and a transport device 6.

The stacking magazine 3 has lateral vertical supports 8 for holding a stack 7 of cardboard blanks 2. The supports 8 extend from a base frame 9 of a restraint system 10 of the system 1. The base frame 9 has essentially horizontal holding elements 11 in order to hold the cardboard blanks 2 in the stacking magazine 3. The holding elements 11 partially cover the cardboard blanks 2 from below.

The transport device 6 is attached to the base frame 9 of the stacking magazine 3. The transport device 6 has a substantially horizontal plate 12, which can move back and forth along a first vertical axis 14 by a lifting device 13 of the transport device 6. A first gripping unit 15 and a second gripping unit 16 are attached to the plate 12. The gripping units 15, 16 include suction cups (not shown) which are connected to a vacuum pump (not shown) through a first tube 17.

The first die 4 includes a first trough 18 for shaping (i.e. erecting) the cardboard blanks 2. A first through opening 19 and a second through opening 20 are provided in the first die 4. The first and second through openings 19, 20 extend along a depth 21 of the first die 4. A section 22 of a first gripping unit 15 of the transport device 6 is movable through the first through opening 19 and a section 22 'of a second gripping unit 16 of the transport device 6 through the second through opening 20 movable.

The second die 5 is attached to the base frame 9.

Fig. 2 shows a schematic partial view of the first die 4 and the second die 5. The first die 4 has an upper opening width 24, side walls 25 and a bottom surface 26. The side walls 25 of the first trough 18 have a first angle of inclination 27 relative to the first bottom surface 26. The second die 5 comprises an opening 23 with an upper opening width 24 'and a lower opening width 28. The second die 5 comprises inclined side walls 25' and straight side walls 29, the inclined side walls 25' having a second inclination angle 30 relative to the lower opening width 28 . The upper opening width 24 'of the second die 5 is larger than the upper opening width 24 of the first trough 18. The lower opening width 28 of the second die 5 is smaller than the upper opening width 24 of the first trough 18. The second inclination angle 30 is smaller than the first Tilt angle 27.

Fig. 3 shows a schematic side view of the system 1. In order to pull a cardboard blank 2 from the stack 7 into the opening 23 of the second die 5 and preform it, the section 22 of the first gripping unit 15 is passed through the first through opening 19 of the first die 4 and the section 22 ' the second gripping unit 16 moves through the second through opening 20 of the first die 4. The lowest cardboard blank 2 in the stacking magazine 3 is gripped from below by suction. This cardboard blank 2 is drawn into the opening 23 of the second die 5 and preformed (ie partially erected) by the side walls 25 'of the second die 5. In the Fig. 3 the cardboard blank 2 is shown in its preformed state 31 in the opening 23 of the second die 5.

Fig. 4 shows a schematic side view of the system 1. The one in the Figure 3 The cardboard blank 2 shown, preformed in the opening 23 of the second die 5, is inserted into the first trough 18 drawn into the first die 4 and formed here in a final shape 32, for example in a shell shape. The first die 4 further comprises a first suction cup opening 33 with a first suction cup 34 and a second suction cup opening 35 with a second suction cup 36, which is connected to a vacuum unit, not shown. When the cardboard blank 2 lies against a bottom surface 26 of the first trough 18, this cardboard blank 2 is fixed there by means of the first suction cups 34 and second suction cups 36 and the vacuum of the gripping units 15, 16 is switched off. The cardboard blanks 2 formed or folded or erected in the first trough 18 will remain fixed in the first die 4 until another handover.

Fig. 5 shows schematically a thermoforming packaging machine 37 comprising the system 1 for unstacking cardboard blanks 2 with the features stated above. The deep-drawing packaging machine 37 has a forming station 38, a sealing station 39 and a cutting station 40, which are arranged in this order in a working direction R on a machine frame 41. On the input side there is a feed roller 42 on the machine frame 41, from which a first film web 43 is drawn off. The cardboard blanks 2 formed in the system 1 are each individually removed from the first die 4 by means of a manipulator 44 and brought to a feed belt 45 arranged on the thermoforming packaging machine 37 and inserted into the forming station 38, in which a film is formed into the formed cardboard blanks 2 .

Fig. 6 shows schematically a tray sealing machine 46 comprising the system 1 for unstacking cardboard blanks 2. The tray sealing machine 46 has a sealing station 47 for sealing trays with a lid film. The sealing station 47 has an upper tool part and a shell holder (not shown). The cardboard blanks 2 formed in the system 1 are each individually removed from the first die 4 by means of a manipulator 48 and brought to a feed belt 49 arranged on the tray sealing machine 46.

Claims (15)

System (1) for unstacking cardboard blanks (2), comprising - a stacking magazine (3) for receiving a stack (7) of cardboard blanks (2), the stacking magazine (3) having a retention system (10), - at least one first die (4), comprising a first trough (18) for shaping the cardboard blanks (2), and - a transport device (6) with at least one first gripping unit (15) for gripping and displacing cardboard blanks (2), the transport device (6) being configured to grab at least one cardboard blank (2) from the stack (7). Transport the cardboard blank (2) into the first trough (18) and shape the cardboard blank (2) while exerting a force. System according to claim 1, characterized in that the transport device (6) is configured to grab the cardboard blank (2) by suction and pull it into the first trough (18). System according to claim 1 or 2 , characterized in that the first die has at least one first through opening (19), the transport device (6) being configured to pass a section (22) of the first gripping unit (15) through the first through opening (19). to move through. System according to claim 1, characterized in that the transport device (6) is configured to exert pressure on the cardboard blank (2) from above and to press the cardboard blank (2) into the first trough (18). System according to one of the preceding claims, characterized in that the system (1) has a second die (5) for shaping cardboard blanks (2), the second die (5) comprising an opening, the transport device being configured to to transport the cardboard blank (2) from the stack (7) through the second die (5) into the first trough (18). System according to claim 5, characterized in that the second die (5) is arranged below the stacking magazine (3). System according to claim 5 or 6, characterized in that an upper opening width (24') of the second die (5) is greater than an upper opening width (24) of the first trough (18). System according to one of claims 5 to 7, characterized in that the first trough (18) has a first bottom surface (26) and side walls (25), the side walls (25) of the first trough (18) facing the first bottom surface (26 ) have a first angle of inclination (27), the second die (5) having inclined side walls (25'), the inclined side walls (25') of the second die (5) having a second angle of inclination (30) relative to the opening, which is smaller than the first inclination angle (27). Thermoforming packaging machine (37) or tray sealing machine (46) comprising a system (1) for unstacking cardboard blanks (2) according to one of claims 1 to 8. Method for unstacking cardboard blanks (2), comprising the following process steps: - receiving a stack (7) of cardboard blanks (2) in a stacking magazine (3), the stacking magazine (3) having a retention system (10), - Providing at least one first die (4), comprising a first trough (18) for shaping cardboard blanks (2), - Gripping at least one cardboard blank (2) by a transport device (6) with at least one gripping unit (15), - Transporting the cardboard blank (2) from the stack (7) into the first trough (18) using the transport device (6), - Shaping the cardboard blank (2) in the first trough (18) while exerting a force on the cardboard blank (2) by means of the transport device (6). Method according to claim 10, characterized in that the cardboard blank (2) is sucked in from below by the first gripping unit (15) and pulled into the first trough (18). Method according to claim 10, characterized in that pressure is exerted on the cardboard blank (2) from above by the first gripping unit (15) and the cardboard blank (2) is pressed into the first trough (18). Method according to one of claims 10 to 12, characterized in that the cardboard blank (2) is transported from the stack (7) first into a second die (5) and then into the first trough (18) of the first die (4). Method according to claim 13, characterized in that the second die (5) is arranged below the stacking magazine (3). Method according to claim 13 or 14, characterized in that an upper opening width (24') of the second die (5) is larger than an upper opening width (24) of the first trough (18).

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