EP4111391A1

EP4111391A1 - Method for producing a product, and technical plant

Info

Publication number: EP4111391A1
Application number: EP21703668.0A
Authority: EP
Inventors: Josef Schmidt; Gero Bockelmann; Frank SCHÖNUNG; Alexander Fuchs; Tanja Walz
Original assignee: SEW Eurodrive GmbH and Co KG
Current assignee: SEW Eurodrive GmbH and Co KG
Priority date: 2020-02-27
Filing date: 2021-02-04
Publication date: 2023-01-04
Also published as: DE102021000561A1; US20230127352A1; WO2021170362A1

Abstract

The invention relates to a method for producing a product in a technical plant (5), wherein: after receipt of an order for the production of the product, components required for producing the product are identified, and work steps required for producing the product are identified; identified components and identified work steps are entered into a product file (20), and the product file (20) is stored on a transport system (10); after the product file (20) has been stored on the transport system (10), the components entered in the product file (20) are acquired by the transport system (10), and the acquisition of each component is documented in the product file (20), and the work steps entered in the product file (20) are executed, and the execution of each work step is documented in the product file (20); and the product file (20) remains on the transport system (10) until the acquisition of each component entered in the product file (20) is documented in the product file (20) and until the execution of each work step entered in the product file (20) is documented in the product file (20). The invention also relates to a technical plant (5) for producing a product, which plant is designed to carry out the method according to the invention and comprises at least one transport system (10) which has a digital data memory (12) on which the product file (20) can be stored.

Description

Process for the manufacture of a product and technical system

Description:

The invention relates to a method for manufacturing a product in a technical installation, after receipt of an order for manufacturing the product, components that are required for manufacturing the product are identified and work steps that are required for manufacturing the product are identified. The invention also relates to a technical installation for manufacturing a product, which is set up to carry out the method according to the invention.

The technical system is in particular an industrial application, for example a production plant. Usually, when an order to manufacture a product is received, components that are required to manufacture the product and work steps that are required to manufacture the product are identified. For this purpose, a central server is provided in the technical system, for example, which processes the order and in particular identifies the components and work steps. For this purpose, corresponding configurations of the products to be manufactured are known in the server. Recorded components and work steps carried out are reported to the server via a network so that the current processing status of the product is known in the server. The central server provides computing power for this and the network enables the transmission of the required data.

From DE 102013000596 A1 a system for series production is known which has various work stations. The workstations are each designed to carry out a work step.

A system and a method for processing customer orders are known from DE 102017 005 145 A1. Customer orders are evaluated and associated product packages are identified. Work packages are assigned to the product packages, and each work package is assigned a workstation for performing a work item.

The invention is therefore based on the object of improving a method for producing a product in a technical installation and a technical installation for producing a product. Processes for the production of products and the technical systems provided for this are also known from the documents US 2019/0243345 A1, US 2004/0084520 A1 and WO 2019/234249 A1.

The object is achieved by a method for manufacturing a product in a technical installation with the features specified in claim 1. Advantageous refinements and developments are the subject of the subclaims. The object is also achieved by a technical system for manufacturing a product with the features specified in claim 10. Advantageous refinements and developments are the subject of the subclaims.

In a method according to the invention for manufacturing a product in a technical installation, after an order for manufacturing the product has been received, components that are required for manufacturing the product are identified and work steps that are required for manufacturing the product are identified. Identified components and identified work steps are entered in a product file, and the product file is stored on a transport system. After the product file has been stored on the transport system, the components entered in the product file are picked up by the transport system, and the inclusion of each component is documented in the product file, and the work steps entered in the product file are carried out, and each work step is carried out in the product file documented. The product file remains on the transport system until the inclusion of each component entered in the product file is documented in the product file, and until the execution of each work step entered in the product file is documented in the product file. Then the manufacturing of the product is complete.

The components and the work steps are identified, for example, by a central server. A feedback of the recorded individual components and the individual work steps carried out to the server via a network is not required. Feedback to the server over the network is not required until the product has been manufactured. It is sufficient that the current processing status of the product in the transport system is known. This advantageously reduces the load on the central server, and the computing power to be provided by the server is lower as a result. The amount of data that is available via the Network between the transport system and the central server are transmitted, reduced, whereby the load on the network is reduced.

For example, the product is manufactured entirely on the transport system. The partially manufactured product remains on the transport system until the manufacture of the product has been completed. All work steps are carried out on the product located on the transport system, in particular all components are mounted on the product on the transport system.

It is also conceivable that the partially manufactured product is removed from the transport system in order to carry out certain work steps and, after such a work step has been carried out, is placed back on the transport system. Such a work step is, for example, a painting process.

According to an advantageous embodiment of the invention, after the identification of the components that are required for the manufacture of the product and after the identification of the work steps that are required for the manufacture of the product, a fixed sequence for receiving the identified components and performing the identified work steps is established specified once. The fixed order is entered in the product file. The components entered in the product file are then recorded and the work steps entered in the product file are carried out in the fixed order until the recording of every component entered in the product file is documented in the product file and until each work step recorded in the product file has been carried out is documented in the product file.

The fixed sequence is preferably specified by the central server on which suitable sequences are known or created for each product to be manufactured. The transport system does not require any computing power to create such an order. As a result, the transport system can be implemented cost-effectively.

When identifying the components that are required for the manufacture of the product, at least one storage location is preferably determined at which at least one identified component is available, and the at least one storage location determined is documented in the product file. The transport system becomes the at least one determined storage location moved, and the at least one identified component is picked up at the at least one determined storage location.

When identifying the work steps that are required for manufacturing the product, at least one work station is determined at which at least one work step to be carried out can be carried out, and the at least one work station determined is documented in the product file. The transport system is moved to the at least one determined work station, and the at least one identified work step is carried out at the at least one determined work station.

According to another advantageous embodiment of the invention, after the product file has been stored on the transport system, a digital computer of the transport system creates a temporary sequence for receiving the identified components and for carrying out the identified work steps. Then the component to be picked up next in accordance with the temporary sequence is picked up by the transport system, or the work step to be carried out next in accordance with the temporary sequence is carried out.

The creation of a temporary sequence and the recording of the component to be recorded next in accordance with the temporary sequence or the implementation of the work step to be carried out next in accordance with the temporary sequence are preferably repeated until the recording of each component entered in the product file is documented in the product file, and until the execution of each work step entered in the product file is documented in the product file.

The digital computer of the transport system provides a corresponding computing power for creating such a temporary sequence. There are work steps in the manufacture of the product, the sequence of which is variable. The order in which components are picked up is also partially variable. For example, it is irrelevant whether the gear wheels or the shafts are added first in the manufacture of a transmission. By repeatedly creating a temporary sequence, it is possible to react immediately to unplanned events in the technical system and thus to optimize the manufacture of the product. There are, however, certain requirements for the temporary sequence that must be adhered to during the creation by the digital computer. For example, a thread must first be cut in a gear housing before a screw is screwed in there. When creating the temporary sequence, the digital computer of the transport system preferably determines a storage location at which the component to be picked up next according to the temporary sequence is available, and the storage location determined is documented in the product file. The transport system is moved to the determined storage location, and the component to be picked up next according to the temporary sequence is picked up at the determined storage location.

When creating the temporary sequence, the digital computer of the transport system preferably determines a workstation at which the next work step to be carried out according to the temporary sequence can be carried out, and the determined workstation is documented in the product file. The transport system is moved to the determined work station, and the work step to be carried out next in accordance with the temporary sequence is carried out at the determined work station.

According to a preferred development of the invention, the digital computer of the transport system creates the temporary sequence in such a way that a distance of the transport system is minimized during the manufacture of the product and / or that a period of time for the manufacture of the product is minimized. By minimizing the distance traveled by the transport system, operating costs of the transport system in particular are reduced. Minimizing the time it takes to manufacture the product increases the productivity of the technical system.

In the repeated creation of a temporary sequence, a response is made in particular to current and / or unplanned events in the technical system in order to optimize the manufacture of the product. Examples of such events are a high utilization of a determined workstation, a temporary lack of availability of an identified component or a failure of a determined workstation due to a technical defect.

When such an event occurs, the digital computer of the transport system creates a further temporary order which differs from the previous temporary order. If no disruptive event occurs, the digital computer of the transport system retains the previous temporary sequence.

A technical system according to the invention for manufacturing a product is set up to carry out the method according to the invention. The technical system according to the invention comprises at least one transport system which has a digital data memory on which the product file can be stored.

In a technical system according to the invention, the utilization of the central server is advantageously reduced, and as a result the computing power to be provided by the server is lower. The amount of data that is transmitted via the network between the transport system and the central server is also advantageously reduced, as a result of which the load on the network is reduced.

According to a preferred embodiment of the invention, the at least one transport system is designed as an autonomously driving vehicle which has a drive device and a control unit for controlling the drive device. The drive device comprises in particular an electrical energy store, an electric motor, a transmission and drive wheels. The transport system, which is also referred to as a driverless transport vehicle, also has a wireless communication interface for communication with a server, for example via a wireless network.

According to an advantageous development of the invention, the at least one transport system has a digital computer which is set up to create a temporary sequence for receiving the identified components and for performing the identified work steps. The digital computer contains the corresponding software to create the aforementioned temporary order. By repeatedly creating a temporary sequence, it is possible to react immediately to unplanned events in the technical system and thus to optimize the manufacture of the product.

The technical installation preferably comprises at least one storage location at which at least one identified component is available, and at least one work station at which at least one identified work step can be carried out. This enables the product to be manufactured in the technical system.

The invention is not restricted to the combination of features of the claims. For the person skilled in the art, there are further sensible possible combinations of claims and / or individual claim features and / or features of the description and / or of 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. They show:

Figure 1: a schematic representation of a technical system and

Figure 2: a schematic representation of a transport system.

FIG. 1 shows a schematic representation of a technical installation 5. The technical installation 5 is in the present case an industrial application, for example a production plant. The technical system 5 is used to manufacture products, for example for the manufacture of gearboxes for electric motors. The technical system 5 comprises a central server 30 which, among other things, receives and processes orders for the manufacture of products.

The technical installation 5 comprises a first storage location 41 and a second storage location 42. At the first storage location 41 and at the second storage location 42, components are available which are required for the manufacture of a product. Said components are, for example, gear housings, gears, shafts or screws.

The technical installation 5 comprises a first work station 51 and a second work station 52. At the first work station 51 and at the second work station 52, work steps can be carried out which are necessary for the manufacture of a product. The work steps mentioned are, for example, the cutting of threads in a gear housing or the insertion of gears and shafts in a gear housing.

The technical installation 5 also comprises several transport systems 10, only one transport system 10 being shown here. The transport systems 10 are autonomously driving vehicles, which are also referred to as driverless transport vehicles. The transport systems 10 are moved in particular to the storage locations 41, 42 and to the work stations 51, 52. The transport systems 10 communicate with the server 30 via a wireless network. FIG. 2 shows a schematic representation of a transport system 10. The transport system 10 is set up in particular to transport a partially manufactured product as well as a completely manufactured product. The product can thus be completely produced on the transport system 10.

The transport system 10 comprises a digital data memory 12 for storing electronic files. The data memory 12 is used in particular to store product files 20. In the present case, a product file 20 is stored in the data memory 20, in which identified components and identified work steps are entered.

The transport system 10 comprises a digital computer 14 which, among other things, serves to create temporary sequences for receiving identified components and for performing identified work steps. For this purpose, the digital computer 14 accesses the data memory 12, in particular the product file 20. Furthermore, the digital computer 14 serves to document the execution of each work step in the product file 20 and to document the inclusion of each component in the product file 20.

The transport system 10 comprises a wireless communication interface 16, which is used in particular for communication with the server 30 via the wireless network. Via the communication interface 16, the transport system 10 receives, for example, the product file 20 prepared by the server 30. The transport system 10 also reports via the communication interface 16 to the server 30 when the inclusion of each component entered in the product file 20 is documented in the product file 20, and if so the implementation of each work step entered in the product file 20 is documented in the product file 20. The transport system 10 thus reports to the server 30 via the communication interface 16 when the manufacture of the product has been completed.

The transport system 10 comprises a drive device, not shown here, which has an electrical energy store, an electric motor, a gearbox and drive wheels. The transport system 10 also includes a control unit for controlling the drive device.

The control unit is integrated into the digital computer 14, for example. List of reference symbols

5 Technical system 10 Transport system

12 data memory

14 digital computers

16 Communication interface 20 Product file 30 Server

41 first storage place

42 second storage location

51 first workstation

52 second workstation

Claims

Patent claims:

1. A method for the manufacture of a product in a technical installation (5), after receipt of an order for the manufacture of the product

Components that are required for manufacturing the product are identified and work steps that are required for manufacturing the product are identified, characterized in that identified components and identified work steps are entered in a product file (20), and the product file (20 ) is stored on a transport system (10), after the product file (20) is stored on the transport system (10), the components entered in the product file (20) are received by the transport system (10), and each component is recorded in the Product file (20) is documented, and the work steps entered in the product file (20) are carried out, and the implementation of each work step is documented in the product file (20), and the product file (20) remains on the transport system (10) until the inclusion of each component entered in the product file (20) is documented in the product file (20), and until the implementation of each work step entered in the product file (20) is documented in the product file (20).

2. The method according to claim 1, characterized in that after the identification of the components which are necessary for the production of the product, and after the identification of the work steps which are necessary for the production of the product, a fixed sequence for receiving the identified components and for Implementation of the identified work steps is specified once, and the fixed sequence is entered in the product file (20), and that the components entered in the product file (20) and the

Implementation of the work steps entered in the product file (20) are carried out in the fixed order until the inclusion of each component entered in the product file (20) is documented in the product file (20), and until the implementation of each is entered in the product file (20) Work step is documented in the product file (20).

3. The method according to claim 2, characterized in that during the identification of the components which are required for manufacturing the product, at least one storage location (41, 42) is determined at which at least one identified component is available, and the at least one identified Storage location (41, 42) is documented in the product file (20), and that the transport system (10) is moved to the at least one determined storage location (41, 42), and that the at least one identified component at the at least one determined storage location ( 41, 42) is recorded.

4. The method according to any one of claims 2 to 3, characterized in that during the identification of the work steps which are required for manufacturing the product, at least one work station (51, 52) is determined at which at least one work step to be carried out can be carried out, and the at least one determined work station (51, 52) is documented in the product file (20), and that the transport system (10) is moved to the at least one determined work station (51, 52), and that the at least one identified work step on the at least a determined workstation (51, 52) is performed.

5. The method according to claim 1, characterized in that after the product file (20) is stored on the transport system (10) by a digital computer (14) of the transport system (10) a temporary sequence for receiving the identified components and for performing the identified work steps is created, and the component to be picked up next in accordance with the temporary sequence is picked up by the transport system (10), or the work step to be carried out next in accordance with the temporary sequence is carried out.

6. The method according to claim 5, characterized in that the creation of a temporary sequence and the recording of the component to be recorded next in accordance with the temporary sequence or the implementation of the work step to be carried out next in accordance with the temporary sequence are repeated until each is recorded in the product file (20) the component entered is documented in the product file (20), and until the implementation of each work step entered in the product file (20) is documented in the product file (20).

7. The method according to any one of claims 5 to 6, characterized in that the digital computer (14) of the transport system (10) when creating the temporary sequence, a storage location (41, 42) is determined at which the according to the temporary sequence as The next component to be picked up is available, and the determined storage location (41, 42) is documented in the product file (20), and that the transport system (10) is moved to the determined storage location (41, 42), and that according to the temporary sequence the next component to be picked up is picked up at the determined storage location (41, 42).

8. The method according to any one of claims 5 to 7, characterized in that the digital computer (14) of the transport system (10) when creating the temporary sequence, a workstation (51, 52) is determined at which the according to the temporary sequence as next work step to be carried out can be carried out, and the determined workstation (51, 52) is documented in the product file (20), and that the transport system (10) is moved to the determined workstation (51, 52), and that the according to the temporary sequence next work step to be carried out is carried out at the determined workstation (51, 52).

9. The method according to any one of claims 5 to 8, characterized in that the temporary sequence is created by the digital computer (14) of the transport system (10) such that a distance of the transport system (10) is minimized during the manufacture of the product, and / or that a period of time for manufacturing the product is minimized.

10. Technical system (5) for manufacturing a product, set up to carry out the method according to one of the preceding claims, comprising at least one transport system (10) which has a digital data memory (12) on which the product file (20) can be stored.

11. Technical system according to claim 10, characterized in that the at least one transport system (10) is designed as an autonomously driving vehicle which has a drive device and a control unit for controlling the drive device.

12. Technical system (5) according to one of claims 10 to 11, characterized in that the at least one transport system (10) has a digital computer (14) which is set up to create a temporary sequence for receiving the identified components and for carrying out the to create identified work steps.

13. Technical system (5) according to one of claims 10 to 12, further comprising at least one storage location (41, 42) at which at least one identified component is available, and at least one workstation (51, 52) at which at least one identified Work step is feasible.