DE102022118554A1 - Method and testing device for optical stack control when palletizing goods - Google Patents

Abstract

The invention relates to a method and a testing device for optical stack control when palletizing goods. In order to provide a method and a device that enable a reliable and comprehensive check of a parking position on a stack of goods and are particularly simple in construction and only require a small amount of installation space, it is provided that in the method according to the invention, data is first recorded at least one Contour of a stack of goods or a carrier of the stack and / or at least one surface at least in a storage position of the goods by means of an optical sensor and subsequently an evaluation of the recorded data for errors at least in the area of the storage position to prevent a collision of the goods to be stacked, one Damage to the goods to be stacked, damage to a palletizer for palletizing the goods and / or to prevent incorrect stacking occurs.

Description

The invention relates to a method for optical stack control when palletizing goods and a testing device for optical stack control when palletizing goods.

When palletizing goods, a number of errors can occur, resulting in at least a deteriorated quality of the stack of goods on the pallet. In the worst case, an error can even lead to the palletizing process being aborted and therefore to an undesirable interruption of operations. Various sources of error are conceivable.

First of all, a foreign object, for example a tool or a part of the goods that were previously damaged during palletizing, can lie on the parking position of an item to be palletized, which leads to a collision when the item to be palletized is placed down. This can result in damage to the goods to be palletized or the palletizing device. At least the structure of the stack is significantly disturbed, which leads to subsequent, uneven stack formation.

Another source of error can also be a palletizing error that has already occurred in a position below the current parking position, which leads to the storage area in the current parking position having an incorrect height and/or an incorrect inclination. This results in an error that continues over the height of the stack, which overall has a negative impact on the stability of the stack.

A number of devices and methods are known from the prior art for detecting an object protruding beyond the surface of the storage area or a collision that has already occurred during palletizing. First of all, a resilient head suspension of a palletizer is known, the head being resiliently mounted or pivotable for lifting and positioning the goods to be palletized and thus being able to detect a collision due to the deflection of the head. However, these spring head suspensions of the prior art have the disadvantage that a collision must first take place in order to be detected, so that errors and the resulting operational interruptions cannot be avoided in this way.

In addition, methods are known in the prior art in which a traveling light barrier checks the free area above the top layer to determine whether an object is resting there. However, due to the system, a traveling light barrier can only monitor the area of the light beam, which results in spaces in which an object cannot be detected. In particular, an area directly on the surface of the previous layer or on the surface for placing the goods cannot be monitored precisely and detection of an uneven surface and depressions in the surface cannot be detected using a light beam from a light barrier. In addition, a light barrier requires a reflector that moves to the same extent opposite the pallet, which is often not possible due to the spatial conditions and in particular the available installation space. In addition, a traveling reflector significantly increases the cost of the testing device.

Finally, it is known from the prior art that a light barrier is arranged in the head of the palletizer, which checks the free area above the top layer. However, a light barrier in the area of the head often requires a lack of installation space and also a corresponding reflector. In addition, light barriers are no longer reliable at high movement speeds, so that the goods to be stacked can no longer be stopped in a timely manner.

The invention is therefore based on the object of providing a method and a device which enable a reliable and comprehensive check of a parking position on a stack of goods and are particularly simple in construction and require only a small amount of installation space.

The object is achieved according to the invention by a method for optical stack control according to claim 1 and by a testing device for optical stack control according to claim 9. Advantageous developments of the invention are specified in the dependent claims.

In the method according to the invention for optical stack control when palletizing goods, data is first recorded at least one contour of a stack of goods or a carrier of the stack and / or at least one surface at least in a storage position of the goods by means of an optical sensor. The recorded data is subsequently evaluated for errors at least in the area of the storage position in order to prevent a collision of the goods to be stacked, damage to the goods to be stacked, damage to a palletizer for palletizing the goods and / or to prevent incorrect stacking.

The testing device according to the invention for optical stack control when palletizing Goods has at least one optical sensor for detecting data of at least one contour of a stack of goods or a carrier of the stack and / or for detecting data of at least one surface at least in a storage position of the goods and an evaluation unit for evaluating the recorded data for errors in the area the parking position to prevent a collision of the goods to be stacked, damage to the goods to be stacked, damage to a palletizer for palletizing the goods and / or to prevent incorrect stacking.

The inventors have recognized that only by means of an optical sensor is it possible to reliably detect both an object protruding from the surface in the area of the storage position or resting on it as well as a depression, gap or incorrect inclination in order to prevent incorrect stacking or damage to the object to be palletized To prevent good or the palletizer.

Palletizing goods in the sense of the invention basically concerns all palletizing applications as well as other processes in which at least two goods, preferably at least two layers of at least two goods each and particularly preferably more than two layers of more than two goods each, are stacked and/or specifically on top of each other or must be arranged next to each other. Precise positioning of the individual goods in relation to each other and/or to a carrier, in particular a pallet, is preferably necessary. In addition, it is also conceivable to arrange only a single item on a carrier. The corresponding device for stacking or palletizing can basically be designed in any way. Palletizing is preferably carried out using a corresponding robot and particularly preferably using a 2-column palletizing system.

The goods to be palletized can in principle be any item. The goods to be palletized are preferably food containers and particularly preferably beverage containers, such as bottles made of glass or plastic or tin cans. In addition, the goods to be palletized can also be containers, trays, boxes or the like, in particular beverage containers.

A stack in the sense of the invention can basically be formed from any number of goods, with the stack preferably being formed exclusively from goods to be palletized and/or with all goods preferably being identical to one another. In addition, the stack preferably has several layers of one or more goods arranged one above the other, with all layers particularly preferably being arranged congruently on top of one another. The term "layer" refers to the entirety of all goods arranged in a height level, with palletizing preferably taking place in several layers that extend exactly one above the other, with the goods to be palletized in each of the layers being oriented differently to one another and/or to the goods in a previous layer and/or can be palletized in position.

The carrier can be any component or assembly and can be used as a base for forming a stack. However, forming a stack in the sense of the invention without a carrier is also conceivable. In the simplest case, the carrier can be a sheet of metal, a cardboard layer or a plate, for example made of wood or a composite material. However, it is advantageous to use a pallet made of wood, plastic and/or metal as a carrier. Also preferably, the carrier for stacking goods, especially in a first layer, has a flat surface. In addition, it is preferred that the surface of the carrier corresponds to the dimensions of the stack to be formed.

According to the invention, the stack control is carried out optically, i.e. the stack control is based on the acquisition of data using at least one optical sensor. The testing device can have only a single optical sensor or several optical sensors. In addition, the at least one optical sensor can be supplemented by at least one further, non-optical sensor. In principle, each optical sensor of the testing device can be designed in any way. If the testing device has more than a single optical sensor, all optical sensors can be identical to one another, which facilitates a joint evaluation of all sensor data, but can also differ from one another, which can lead to more reliable detection of errors. Each optical sensor can be, for example, a camera, a laser sensor, in particular a LIDAR, or any other optical sensor.

According to the invention, however, the optical sensor must be designed in such a way that data can be recorded at least on a contour or at least one surface of a carrier, a stack or the top surface of a stack. Accordingly, the optical sensor is fundamentally not a light barrier that can only detect the presence of an object, but not any data specific to the surface or contour. The function of is particularly preferably based optical sensor on optical image capture and/or distance determination.

The testing device also preferably has at least one lighting unit, which particularly preferably emits light in the visible spectrum, for example monochrome light, colored light or white light, and/or light that is invisible to a person, in particular IR light. The lighting is particularly preferably arranged in the area of the optical sensor. In particular, the lighting is preferably arranged surrounding a lens of an optical camera. Furthermore, the lighting is preferably LED lighting, although any other lighting is also conceivable.

According to the invention, the data recorded by means of the at least one optical sensor relates to the contour and/or the surface of a stack and/or a carrier, bottom, intermediate and cover layers which lie outside the contour of the block.

A secure locking of boxes and containers can be detected. The recorded data can in particular include the position, the orientation, the dimension, the position and/or the inclination of a carrier, a stack and/or goods that have already been stacked. In addition, the type of goods, their orientation, their quantity and/or their quality can also be recorded.

The data can be recorded for each item to be palletized once, repeatedly, periodically or continuously. The data is preferably recorded at least as long as an item to be palletized is moved in the area of the carrier or the stack and/or until the item to be palletized is positioned in the storage position. Particularly preferably, the detection takes place during the entire palletizing process and very particularly preferably continuously. However, in order to simply confirm, for example, that the parking position is free and/or error-free, it is sufficient to record the data once for each item to be palletized and/or before palletizing on a previously empty layer or before the start of a new layer.

According to the invention, testing is carried out at least in the storage position and/or on the storage area of the goods to be palletized, the storage area preferably being the surface for placing the goods and/or the storage position being the entire volume occupied by the palletized goods. Preferably, an area surrounding the storage area and/or the entire volume of movement of the goods to the storage position is also checked across goods that have already been palletized and/or storage positions that are still free. Very particularly preferably, the entire head surface, the entire free or outer surface, the entire accessible contour of the stack and/or the carrier is checked in the area of all possible storage positions.

The head surface is basically understood to mean the surface of a carrier or a stack, which is at the top in relation to the set-up position and/or on which a new layer of goods is to be placed and/or on which the parking positions of the goods currently to be palletized extend. Particularly preferably, the head surface is formed from all storage surfaces arranged next to one another. The head surface can also be formed by goods from a previous layer that have already been palletized.

According to the invention, the optical sensor checks at least one contour of a stack or a carrier of the stack, in particular a pallet, and/or at least one surface on which the goods are to be stacked, it being preferred that an optical sensor simultaneously examines several sides of the contour and/or or checks multiple contours and/or multiple surfaces of the stack. When testing the surface, the priority is to check whether the surface is free and/or whether there are objects protruding from the surface and/or depressions in the surface in the tested area, so that the goods to be palletized are not properly moved to their parking position and/or there cannot be parked properly. A check of the contour, on the other hand, determines data on the external shape of the stack, at least one side of the stack and/or at least one surface, in particular the top surface, the stack and/or the carrier. This includes in particular data on the inclination, curvature and/or sales of the surface as well as the shape of the surface area examined as a whole.

According to the invention, the recorded data is evaluated in order to detect errors, whereby only part of the recorded data or all of the recorded data can be used for this purpose. The errors detected by the evaluation could in particular be an incorrect palletization of at least one item, incorrect positioning, alignment and/or orientation of a previously palletized item, unevenness of the surface, the presence of contamination or foreign objects and/or damage to the stack or already stacked goods. Furthermore, the evaluation is preferably used to recognize that the stacking or palletizing took place without errors, so that quality control is achieved in the area of the palletizer or during stacking.

The evaluation is carried out by means of an evaluation unit, which can be arranged either in the area of the at least one optical sensor or at a remote position. In addition, the evaluation unit can also be part of a control unit or a data processing unit that can fulfill any other functions.

A preferred embodiment of the method according to the invention provides that data from a part of the head surface and in particular the entire head surface of the carrier and/or the stack are recorded by means of the at least one optical sensor and an evaluation is carried out in order to ensure that the storage position is free and/or or a storage surface of the storage position is correctly aligned. In particular, it is preferred to check the existing stack based on the recorded data for tilted, offset or otherwise incorrect positioning of goods that have already been palletized in order to avoid further incorrect positioning resulting from this.

A particularly preferred embodiment of the method according to the invention provides that data from several contours and/or several surfaces of the stack or the carrier of the stack are simultaneously recorded by means of the at least one optical sensor and an evaluation is carried out in order to ensure that the storage position is free and In particular, no objects are positioned in the storage area. In particular after an interruption in operation and/or after the palletizing device has started up, it makes sense to check for objects in the area of the storage positions or on the head surface, since such standing objects may have been positioned there or forgotten. Accordingly, a check for standing or protruding objects can only be carried out after a business interruption or can be carried out periodically or even continuously.

The at least one optical sensor can in principle be positioned arbitrarily, it being preferred that at least one optical sensor is positioned in relation to the carrier and/or to the stack in such a way that three surfaces of the stack or the carrier of the stack can be detected at the same time . For this purpose, the optical sensor is preferably aligned with a corner of the carrier or the stack and/or positioned in a position that is elevated relative to the storage position or the head surface, in particular in relation to a set-up position of the carrier or the stack. The angle to two surfaces is preferably 45° each with a deviation of less than 15°, particularly preferably less than 10° and very particularly preferably less than 5°. The positioning is particularly preferably carried out with precise angles with a deviation of less than 1°.

In order to be able to capture data consistently well during the palletizing process, a further development of the method according to the invention for optical stack control is preferred in which the optical sensor is offset in height after completing a layer during palletizing, i.e. after a cycle of palletizing, and in particular by one of the Distance corresponding to the height of a completed layer is raised. The height of the finished layer typically corresponds to the height of an individual item to be palletized in the palletizing orientation.

Accordingly, an embodiment of the testing device according to the invention for optical stack control is particularly advantageous in which the optical sensor is arranged to be height-adjustable by motor in order to keep the height of the sensor constant in relation to the top surface of the stack or to the storage position in all positions of palletizing. For this purpose, the optical sensor is preferably displaceable along a linear height guide and in particular can be moved continuously. The height of the optical sensor is preferably adjusted by means of an electric motor, in particular by means of a servo motor or by means of a stepper motor. In addition to motorized adjustability, mechanical height adjustment is also conceivable.

Furthermore, it is conceivable that, in addition or as an alternative to a height adjustment, the optical sensor is also arranged to be pivotable manually or by motor about at least one axis, preferably about at least two axes, about the angle of the optical axis of the sensor in relation to the stack or to the carrier and in particular to be able to adjust in relation to the parking position.

In particular, it is preferred that the testing device is formed from a base plate and a stand arranged thereon, on which the at least one optical sensor is arranged. The stand is preferably adjustable in length and particularly preferably has a linear guide on the stand for height adjustment.

In order to enable particularly reliable testing in all positions during palletizing, it is also preferred that the optical sensor is positioned at all times in such a way that the optical axis of the optical sensor is above the storage position and/or above the top surface of the stack. The angle of the optical axis to the head surface or to the surface of the stack is preferably kept the same in every position. The angle of the optical axis is preferably between 1° and 45°, particularly preferably between 5° and 35° and very particularly preferably between 5° and 20°.

In a preferred development of the method according to the invention, after completing a layer during palletizing, i.e. after a cycle of palletizing, the recorded data is used to check that none of the palletized goods and/or no other object is above the head surface or above the surface of the current Position stands out, with data acquisition and / or such checking preferably taking place exclusively after a layer has been completed, so that it is ensured that all storage positions of the subsequent layer are free.

Although the optical sensor can capture any data of the surface and/or the contour, it is preferred that the optical sensor captures a 2D image or a 3D image of the carrier or the stack at least in the storage position, preferably of the entire corresponding surface and the evaluation is carried out using a software application with image evaluation algorithms. As part of the evaluation, 3D contour recognition is preferably carried out in order to record the contours and/or the surface profile at least in the area of the storage position.

Finally, a preferred development of the testing device according to the invention for optical stack control has several optical sensors that simultaneously record data, the recorded data then being processed together in the evaluation unit in order to preferably determine a three-dimensional determination of at least the storage position and particularly preferably the entire surface of the stack in the area the top layer. All optical sensors are preferably designed to be identical to one another. Furthermore, the optical sensors are preferably arranged on different, opposite sides or aligned with different corners of the carrier or stack in order to enable particularly reliable three-dimensional detection.

• 1 eine perspektivische Ansicht einer Prüfvorrichtung zum Palettieren von Gütern an einem schematischen Stapel aus solchen Gütern,
• 2 eine gegenüber der 1 um 180° gedrehte perspektivische Ansicht der Prüfvorrichtung, und
• 3 eine Aufsicht der in den 1 und 2 dargestellten Prüfvorrichtung.

An exemplary embodiment of the testing device according to the invention is explained in more detail below with reference to the drawings. Show in the figures:

• 1 a perspective view of a testing device for palletizing goods on a schematic stack of such goods,
• 2 one opposite the 1 Perspective view of the testing device rotated by 180°, and
• 3 a supervision of the in the 1 and 2 shown test device.

One in the 1 - 3 The testing device 6 shown is intended to monitor the palletizing of goods into a stack 1 on a pallet as a carrier 2 and, in particular, to ensure that there is no foreign object in the respective storage position of a good and that the palletizing proceeds properly, so that an error-free and therefore particularly stable stack 1 is formed on the carrier 2.

For this purpose, an empty carrier 3 is first transported to the testing device 6 by means of a transporter 12 with rollers 13. The correct positioning of the carrier 2 is monitored by means of a first and a second light barrier 14, 15 in the area of the transporter 12, whereby the carrier 2 must have completely passed through the first light barrier 14 and the second light barrier 15 must not have recognized the carrier 2 yet .

The testing device 6 is set up next to the transporter 12. For this purpose, it has a rod-shaped stand 10 with a base plate 9, the stand 10 being aligned vertically and orthogonally to the transport plane of the transporter 12. On the top of the stand 10, a camera is arranged as an optical sensor 4, the detection area 11 of which is directed at an angle onto a head surface 5, i.e. onto the horizontal top of the carrier 2.

Before a first layer of goods is placed on the carrier 2 using a palletizer (not shown), in particular a 2-column palletizer, in order to form a base of a stack 1, an image of the carrier surface is captured using the optical sensor 4. As part of a subsequent evaluation, it is checked whether the carrier surface is empty and properly flat. If foreign objects or a defect in the carrier surface are detected, the carrier 2 is discarded and the testing process is repeated with another carrier 2. If the carrier 2 is recognized as error-free, a first layer of goods is placed on the carrier 2.

In order to be able to carry out a further test of the surface 3 of the single-layer stack 1 using the optical sensor 4 of the testing device 6, the optical sensor 4 must first be raised along the stand 10 by the height of the first layer on the carrier 2. For this purpose, the stand 10 has a linear guide 8, the testing device 6 having a servo motor 7 for adjusting the height of the optical sensor 4. After the optical sensor 4 has been raised accordingly, so that the angle of the optical axis of the optical sensor 4 to the surface 3 of the stack 1 is now again identical to the angle to the carrier surface during the previous acquisition of image data, an image is again captured by means of the optical sensor 4.

The image of the surface 3 of the stack 1 is then evaluated, using image evaluation algorithms to examine both the top surface 5 of the stack 1 for missing objects and the contour of the stack 1 to determine whether it is positioned incorrectly within the stack 1 There are goods that have led to a defect in the head surface 5, such as gaps, protrusions or an incorrect angle.

If the stack 1 formed so far is recognized as error-free, another layer of goods is placed on the previous stack 1. This process is repeated until the top layer is formed and stack 1 is complete. A final check can then be carried out using the optical sensor 4, with the outer contour of the stack 1 being examined in particular in order to confirm that the stack 1 was formed completely and without errors.

In addition, after each item has been placed in a layer, an inspection can be carried out to both confirm that the item has been placed without errors and to ensure that no errors have occurred in the meantime that affect the next placement position to be covered with an item. In addition, it is conceivable that a continuous test is carried out using the optical sensor 4, at least as long as a good is being moved using the palletizer.

Finally, it makes sense to carry out an appropriate check when the palletizer is switched on or started up again after an interruption to ensure that no foreign objects have been placed in the area of the stack 1 or the carrier 2 when the palletizer is switched off or that there has been no change in the palletizer already partially formed stack 1 was made. Bottom, intermediate and top layers that lie outside the contour of the block can be recognized. A secure locking of boxes and containers can be detected

Reference symbol list

1

stack

2

carrier

3

surface of the stack

4

optical sensor

5

head area

6

Testing device

7

servo motor

8th

Linear guide

9

Footplate

10

Stand

11

Detection area

12

carrier

13

roll

14

first light barrier

15

second light barrier

Claims (11)

Method for optical stack control when palletizing goods, with the steps: - Detecting data of at least one contour of a stack (1) of goods or a carrier (2) of the stack (1) and/or at least one surface (3) at least in a storage position of the goods by means of an optical sensor (4), and - Evaluating the recorded data for errors at least in the area of the storage position to prevent a collision of the goods to be stacked, damage to the goods to be stacked, damage to a palletizer for palletizing the goods and / or to prevent incorrect stacking. Method for optical stack control Claim 1 , characterized in that data from a head surface (5) of the carrier (2) and/or the stack (1) are recorded by means of the at least one optical sensor (4) and an evaluation is carried out to ensure that the storage position is free and/or or a storage surface of the storage position is correctly aligned. Method for optical stack control Claim 1 or 2 , characterized in that data from several contours and/or several surfaces (3) of the stack (1) or the carrier (2) of the stack (1) are simultaneously recorded by means of the at least one optical sensor (4) and an evaluation is carried out, to ensure that the storage position is clear and that no objects are positioned in the area of the storage area. Method for optical stack control according to at least one of the preceding claims, characterized in that at least one optical sensor (4) is positioned in relation to the carrier (2) and/or to the stack (1) in such a way that three surfaces (3) are simultaneously of the stack (1) or the carrier (2) of the stack (1) can be detected. Method for optical stack control according to at least one of the preceding claims, characterized in that after completing a layer during palletizing, the optical sensor (4) is raised by a distance corresponding to the height of a completed layer. Method for optical stack control according to at least one of the preceding claims, characterized in that the optical sensor (4) is positioned at all times in such a way that the optical axis of the optical sensor (4) is above the storage position. Method for optical stack control according to at least one of the preceding claims, characterized in that after completing a layer during palletizing, the recorded data is used to check that none of the palletized goods and/or no other object protrudes beyond the surface (3) of the current layer , whereby data acquisition and/or such checking preferably takes place exclusively after a layer has been completed. Method for optical stack control according to at least one of the preceding claims, characterized in that the optical sensor (4) detects a 2D image or a 3D image of the carrier (2) or the stack (1) at least in the storage position and evaluates it by means of a software application with image evaluation algorithms. Testing device (6) for optical stack control when palletizing goods - an optical sensor (4) for detecting data of at least one contour of a stack (1) of goods or a carrier (2) of the stack (1) and / or at least one surface (3) at least in a storage position of the goods, and - an evaluation unit for evaluating the recorded data for errors in the area of the storage position to prevent a collision of the goods to be stacked, damage to the goods to be stacked, damage to a palletizer for palletizing the goods and / or to prevent incorrect stacking. Testing device for optical stack control Claim 9 , characterized in that the optical sensor (4) is arranged to be height-adjustable by motor in order to be able to keep the height of the sensor (4) constant in all positions of palletizing in relation to the head surface (5) of the stack (1) or to the storage position. Testing device for optical stack control Claim 9 or 10 , characterized by several optical sensors (4) that simultaneously record data, the recorded data then being processed together in the evaluation unit in order to preferably determine a three-dimensional determination of at least the parking position and particularly preferably the entire surface (3) of the stack (1) in the area the top layer.

Images