EP4352579A1

EP4352579A1 - Method and system for supporting a working step during the production of a product

Info

Publication number: EP4352579A1
Application number: EP22730264.3A
Authority: EP
Inventors: Friedrich Manz; Jan-Patrick Ködderitzsch; Joshua Gordon David Frisch; Marco Hoffmann; Sabrina Trunk
Original assignee: SEW Eurodrive GmbH and Co KG
Current assignee: SEW Eurodrive GmbH and Co KG
Priority date: 2021-06-07
Filing date: 2022-05-24
Publication date: 2024-04-17
Also published as: DE102022001829A1; WO2022258366A1

Abstract

The invention relates to a method for supporting a working step during the production of a product, wherein components (12) required for performing the working step are provided, tools required for performing the working step are provided, and a working surface (10) on which the working step is to be performed is provided. An animated image sequence (15) of the working step to be performed is projected onto the working surface (10) by a video projector (20), and the animated image sequence (15) comprises images of the components (12) required for performing the working step and images of the tools required for performing the working step. The invention relates to a system for supporting a working step during the production of a product, comprising components (12) required for performing the working step, tools required for performing the working step, and a working surface (10) on which the working step is to be performed. The system further comprises a video projector (20) which projects an animated image sequence (15) of the working step to be performed onto the working surface (10), and the animated image sequence (15) comprises images of the components (12) required for performing the working step and images of the tools required for performing the working step.

Description

Method and system for supporting a work step in the manufacture of a product

Description:

The invention relates to a method for supporting a work step in the manufacture of a product, with the components required for carrying out the work step being provided, the tools required for carrying out the work step being provided and a work surface on which the work step is to be carried out being provided. The invention also relates to a system for supporting a work step in the manufacture of a product, which comprises components required for carrying out the work step, tools required for carrying out the work step and a work surface on which the work step is to be carried out.

In manufacturing a product, it is common to provide components needed to perform the operation, provide tools needed to perform the operation, and provide a work surface on which to perform the operation. The work step is then carried out by a worker. The manufacture of the product includes a large number of such work steps. When performing a work step, errors sometimes occur, especially if the work step is not known to the worker performing the work.

DE 102017002 963 A1 discloses a manufacturing plant and a method for operating a manufacturing plant to manufacture a product. The production facility includes a vehicle on which a robotic arm is arranged. The vehicle with the robot arm acts as an assistant when assembling a product.

A method for operating a production facility and a production facility are also known from DE 102017002 964 A1. The production plant has a higher-level controller.

From the document Funk, Markus & Lischke, Lars & Mayer, Sven & Shirazi, Alireza & Schmidt, Albrecht, (2018), "Teach Me How! Interactive Assembly Instructions Using Demonstration and In-Situ Projection, D01: 10.1007/978-981 -10-6404-3_4, Online: https://www.researchgate.neUpublication/321019188 are a generic method and a generic system for supporting a work step in the manufacture of a product is known.

The invention is based on the object of specifying a method and a system for supporting a work step in the manufacture of a product.

The object is achieved by a method for supporting a work step in the manufacture of a product having the features specified in claim 1. Advantageous refinements and developments are the subject of the dependent claims. The object is also achieved by a system for supporting a work step in the manufacture of a product with the features specified in claim 8. Advantageous refinements and developments are the subject of the dependent claims.

In a method according to the invention for supporting a work step in the manufacture of a product, components required for carrying out the work step are provided, tools required for carrying out the work step are provided and a work surface is provided on which the work step is to be carried out. An animated image sequence of the work step to be carried out is projected onto the work surface by a video projector. The animated image sequence has images of the components required to carry out the work step and images of the tools required to carry out the work step.

For example, the work step to be carried out includes screwing a screw into a drilled hole using a cordless screwdriver. In this example, the screw represents a component required to carry out the work step, and the cordless screwdriver represents a tool required to carry out the work step. The work step is to be carried out on a work surface provided for this purpose. Images of the screw, images of the cordless screwdriver and an animated sequence of images of the screw being screwed into the drill hole using the cordless screwdriver are thus projected onto the work surface. The work step takes place at a workstation set up for this purpose. A worker at the workstation who carries out the work step in the manufacture of the product can thus see which components are to be processed with which tool and how. The worker is thus supported in carrying out the work step. Errors during the execution of the work step can thus be avoided. According to an advantageous embodiment of the invention, after the end of the work step, the components required to carry out the work step are removed from the work surface. In this case, the work step to be carried out is, for example, part of a pre-assembly and takes place on a table or on a workbench. In this example, the work surface on which the work step is to be carried out is a surface of the table or workbench which remains at the work station after the work step has been completed. If necessary, the processed components are brought to another work station for further processing.

According to a further advantageous embodiment of the invention, at least one component required to carry out the work step is firmly connected to the work surface during the work step, and after the end of the work step the at least one component required to carry out the work step remains on the work surface. In this case, the work step to be carried out is, for example, final assembly. In this example, the work surface on which the work step is to be carried out is a surface of a base plate. The work step includes fastening the component, for example a screw, to the base plate. After completion of the work step, the base plate is removed from the workstation together with the components attached to it.

According to a preferred embodiment of the invention, the images of the components required to carry out the work step and/or the images of the tools required to carry out the work step are projected by the video projector onto a location on the work surface where the work step is to be carried out. For example, a screw to be driven into a drilled hole is projected to a location on or immediately adjacent to the drilled hole. This provides the worker with even more support when carrying out the work step.

According to an advantageous embodiment of the invention, the animated image sequence of the work step to be carried out includes a movement of at least one required component during the work step and/or a movement of at least one required tool during the work step. The animated image sequence of the work step to be carried out includes, for example, the movement of a screw into a drilled hole, with the screw being turned by a cordless screwdriver. According to an advantageous development of the invention, an image sequence of the execution of the work step is recorded by a camera and stored. If an error is detected in the manufactured product, it is possible to analyze the work step at which the error occurred by evaluating the stored image sequence.

According to an advantageous embodiment of the invention, the stored image sequence is evaluated by an evaluation unit. The evaluation unit checks in particular whether the work step has been completed and/or whether the work step has been carried out correctly. If the work step has been carried out and completed correctly, a corresponding message is generated and the next work step is carried out. If the evaluation unit detects an error during the execution of the work step, a corresponding message is also generated and the worker is requested to correct it.

A system according to the invention for supporting a work step in the manufacture of a product comprises components required for carrying out the work step, tools required for carrying out the work step and a work surface on which the work step is to be carried out. The system also includes a video projector, which projects an animated image sequence of the work step to be carried out onto the work surface.

The animated image sequence has images of the components required to carry out the work step and images of the tools required to carry out the work step.

For example, the work step to be carried out involves screwing a screw into a drilled hole using a cordless screwdriver. In this example, the screw represents a component required to carry out the work step, and the cordless screwdriver represents a tool required to carry out the work step. The work step is to be carried out on a work surface provided for this purpose. The video projector projects images of the screw, images of the cordless screwdriver and an animated sequence of images of the screw being screwed into the drill hole using the cordless screwdriver onto the work surface. The work step takes place at a workstation set up for this purpose. A worker at the workstation who carries out the work step in the manufacture of the product can thus see which components are to be processed with which tool and how. The worker is thus supported in carrying out the work step. Errors during the execution of the work step can thus be avoided. According to an advantageous development of the invention, the system also includes a camera which records and stores an image sequence from the execution of the work step. If an error is detected in the manufactured product, it is possible to analyze the work step at which the error occurred by evaluating the stored image sequence

According to an advantageous embodiment of the invention, the system also includes an evaluation unit which evaluates the stored image sequence, the evaluation unit checking in particular whether the work step has been completed and/or whether the work step has been carried out correctly. If the work step has been carried out and completed correctly, the evaluation unit generates a corresponding message and the next work step is carried out. If the evaluation unit detects an error when carrying out the work step, a corresponding message is also generated and the worker is asked to correct it.

The invention is not limited to the combination of features of the claims. For the person skilled in the art, there are further meaningful combinations of claims and/or individual claim features and/or features of the description and/or the figures, in particular from the task and/or the task posed by comparison with the prior art.

The invention will now be explained in more detail with reference to figures. The invention is not limited to the exemplary embodiments shown in the figures. The figures represent the subject matter of the invention only schematically. It shows:

FIG. 1: a plan view of a workstation according to a first embodiment,

FIG. 2: a side view of the workstation according to the first embodiment,

Figure 3: a plan view of a workstation according to a second embodiment and

FIG. 4: a side view of the work station according to the second embodiment.

FIG. 1 shows a plan view of a workstation according to a first embodiment. The workstation is located in a technical installation, for example in a production plant. The technical system is used to manufacture products, for example to manufacture gears for electric motors or to manufacture driverless transport vehicles. The work station has a system for supporting a work step in the manufacture of a product.

The system includes components 12, not shown here, which are required to carry out the work step, and tools, not shown here, which are required to carry out the work step. Said components 12 include, for example, screws and metal profiles with drilled holes. These tools include, for example, a cordless screwdriver.

The system also includes a work surface 10 on which the work step is to be carried out. Said work surface 10 is in the present case a surface of a workbench 30. The work step to be carried out includes, for example, screwing a screw into a drilled hole in a metal profile using a cordless screwdriver.

The system also includes a video projector 20, not shown here. The video projector 20 projects an animated image sequence 15 of the work step to be carried out onto the work surface 10. The video projector 20 is, for example, a beamer. The animated image sequence 15 has images for carrying out the work step required components 12 and images of the tools required to carry out the work step.

FIG. 2 shows a side view of the work station shown in FIG. 1 according to the first embodiment. The system includes a shelf 35. Load carriers, not shown here, are arranged on the shelf 35 and contain the components 12 required to carry out the work step. The load carriers are, for example, crates or boxes. In the present case, the shelf 35 is firmly connected to the workbench 30 .

The system also includes a mount 25 to which the video projector 20 is attached. The holder 25 is attached to the shelf 35 . The video projector 20 is arranged at least approximately vertically above the work surface 10 and projects the animated image sequence 15 downward onto the work surface 10.

In this example, the work step to be carried out is part of a pre-assembly and takes place on the surface of the workbench 30 . After completion of the work step, the components required to carry out the work step are removed from the work surface 10, ie from the surface of the workbench 30, and brought to a further work station for further processing. The workbench 30, and thus also the work surface 10, remain at the workstation after the end of the work step.

FIG. 3 shows a plan view of a work station according to a second embodiment. The workstation is located in a technical installation, for example in a production plant. The technical system is used to manufacture products, for example to manufacture gears for electric motors or to manufacture driverless transport vehicles. The work station has a system for supporting a work step in the manufacture of a product.

The system includes components 12 that are required to carry out the work step and tools, not shown here, that are required to carry out the work step. Said components 12 include, for example, screws and metal profiles with drilled holes. In the present case, a holder with two fans attached to it is shown as component 12 . These tools include, for example, a cordless screwdriver. The system also includes a work surface 10 on which the work step is to be carried out. In the present case, said work surface 10 is a surface of a base plate 40 of a driverless transport vehicle. The work step to be carried out includes, for example, screwing a screw into a drilled hole in the base plate 40 using a cordless screwdriver to fasten said holder to the surface of the base plate 40, i.e. to the work surface 10. The said components 12, i.e. the holder and the screw, are used in the process firmly connected to the work surface 10.

The system also includes a video projector 20, not shown here. The video projector 20 projects an animated image sequence 15 of the work step to be carried out onto the work surface 10. The video projector 20 is a beamer, for example. The animated image sequence 15 has images of the components 12 required to carry out the work step and images of the tools required to carry out the work step.

FIG. 4 shows a side view of the work station shown in FIG. 3 according to the second embodiment. The system includes an assembly carriage 45. The base plate 40 of the driverless transport vehicle is clamped on the assembly carriage 45.

The system also includes a mount 25 to which the video projector 20 is attached. The holder 25 is attached to the assembly carriage 45 . The video projector 20 is arranged at least approximately vertically above the work surface 10 and projects the animated image sequence 15 downward onto the work surface 10.

In this example, the work step to be carried out is part of a final assembly and takes place on the surface of the base plate 40 . After completion of the work step, the components 12 required to carry out the work step, in this case the holder with the fans attached to it and the screw, remain on the work surface 10. After the end of the work step, the base plate 40 is removed from the work station together with the components 12 attached to it . reference list

10 work surface 12 component

15 animated sequence of images

20 video projector

25 bracket

30 workbench 35 shelf

40 base plate

45 assembly trolley

Claims

Patent Claims:

1. A method for supporting a work step in the manufacture of a product, in which the components (12) required to carry out the work step are provided, the tools required to carry out the work step are provided and a work surface (10) is provided on which the work step is to be carried out, characterized in that an animated image sequence (15) of the work step to be carried out is projected onto the work surface (10) by a video projector (20), and that the animated image sequence (15) contains images of the components (12) required to carry out the work step and images of the has the tools required to carry out the work step.

2. The method according to claim 1, characterized in that after the end of the work step, the components (12) required to carry out the work step are removed from the work surface (10).

3. The method according to claim 1, characterized in that at least one component (12) required to carry out the work step is firmly connected to the work surface (10) during the work step, and in that after the end of the work step the at least one component required to carry out the work step (12) remains on the work surface (10).

4. The method according to any one of the preceding claims, characterized in that the images of the components (12) required to carry out the work step and/or the images of the tools required to carry out the work step are projected from the video projector (20) onto a point on the work surface (10 ) are projected on which the work step is to be carried out.

5. The method according to any one of the preceding claims, characterized in that the animated image sequence (15) of the work step to be carried out comprises a movement of at least one required component (12) during the work step and/or a movement of at least one required tool during the work step.

6. The method according to any one of the preceding claims, characterized in that an image sequence of the implementation of the work step is recorded by a camera and stored.

7. The method as claimed in claim 6, characterized in that the stored image sequence is evaluated by an evaluation unit, the evaluation unit checking in particular whether the work step has been completed and/or whether the work step has been carried out correctly.

8. System for supporting a work step in the manufacture of a product, comprising components (12) required to carry out the work step, tools required to carry out the work step and a work surface (10) on which the work step is to be carried out, characterized in that the system further comprises a video projector (20), which projects an animated image sequence (15) of the work step to be carried out onto the work surface (10), and that the animated image sequence (15)

Has images of the components (12) required to carry out the work step and images of the tools required to carry out the work step.

9. System according to claim 8, characterized in that the system further comprises a camera which records and stores an image sequence from the execution of the work step.

10. The system as claimed in claim 9, characterized in that the system further comprises an evaluation unit which evaluates the stored image sequence, the evaluation unit checking in particular whether the work step has been completed and/or whether the work step has been carried out correctly.