METHOD FOR FITTING PARTS TO STEEL PROFILES AS WELL A SYSTEM FOR PERFORMING THE METHOD

Abstract

Method and assembly for assisting a fitter in fitting parts to profiles for manufacturing construction elements of a steel construction. With the method, by using a software application fitting information is generated on the basis of the information obtained from 3D-model data of a 3D-model of the steel construction. The software application interprets 3D-model data and generates for at least one mark or phase of the steel construction a digital or physical list of parts which provides the logistical order in which the parts are supplied to the fitter and a digital or physical list of profiles which provides the logistical order in which profiles are supplied to the fitter. Additionally, specific welding parameter information for each part which has to be welded to a respective profile and graphical information which is presented on a screen which is in the working environment of the fitter may be generated.

Claims

1. A method for assisting a fitter in fitting parts to profiles for manufacturing construction elements of a steel construction, the parts consisting of plates, profiles or bolts, wherein the method comprises: providing a computer system in which a 3D-model of the steel construction is created by means of a CAD-program; providing a software application for generating fitting information, wherein the software application interprets 3D-model data of the 3D-model and generates for at least one mark or phase of the steel construction from the 3D-model data at least the following fitting information: a digital or physical list of parts which provides the logistical order in which the parts are supplied to the fitter; a digital or physical list of profiles which provides the logistical order in which profiles are supplied to the fitter; specific welding parameter information for each part which has to be welded to a respective profile; and graphical information which is presented on a screen which is in the working environment of the fitter, wherein the graphical information includes at least one of: various views of a profile in combination with a part to be connected with the profile; information on how to position a part relative to a profile; and information with respect to distances of the part relative to reference points, the reference points including at least one of an end face of the profile, holes in the profile or markings on the profile, so as to determine a precise position of the respective part on the respective profile relative to the reference points, wherein the fitting information is provided to the fitter and wherein the fitter performs the following method steps for the at least one mark or phase of the steel construction for which the profiles have to be fitted by the fitter: a) obtain the digital or physical list of profiles generated by the software application for the respective mark or phase and determine whether a next upcoming profile is available for processing, and a1) if available, taking a next upcoming profile from the list for processing by the fitter and proceed at step b); and a2) if not available, end the method; b) obtain the digital or physical list of parts generated by the software application for the respective mark or phase and present a next upcoming part from the list to the fitter; c) orient and position the part in the correct orientation and position relative to the reference points of the profile using the graphical information which is presented on the screen which is in the working environment of the fitter; d) tack-weld the respective part to the respective profile; and e) determine whether all parts for the respective profile have been connected to the profile and restart at step b) if the determination is “no” and restart at step a) if the determination is “yes”.

2. The method according to claim 1, wherein step d) includes: d1) prepare final welds for the part which has been tack-welded onto the respective profile in accordance with the specific welding parameter information determined by the software application.

3. The method according to claim 1, wherein step e) includes before a restart is made at step a): e1) prepare final welds for all the parts which have been tack-welded onto the respective profile in accordance with the specific welding parameter information determined by the software application.

4. The method according to claim 1, wherein step a2) includes before ending the method: a3) prepare final welds for all the parts which have been tack-welded onto the respective profiles of the mark or phase in accordance with the specific welding parameter information determined by the software application.

5. The method according to claim 1, comprising: pre-collecting the parts and placing the parts in a supply order in accordance with the digital or physical list of parts generated by the software application; and performing step b) by taking a subsequent or upper part from the supply order.

6. The method according to claim 1, comprising: pre-collecting the profiles on a transport system in a supply order in accordance with the digital or physical list of profiles generated by the software application; and performing step a) by subsequently transporting the profiles to the fitter with the transport system.

7. The method according to claim 1, wherein the fitting information also includes information relating to the dimensions of the parts relative to the reference points, and wherein the fitter, after executing step b) and before executing step c) checks whether the part to be tack-welded to the profile indeed fulfills the dimensional requirements relative to the reference points.

8. The method according to claim 1, wherein the fitting information which is generated by the software application includes: a digital or physical schedule showing the work order in which the various profiles and parts have to be processed; and wherein the method includes: processing the various profiles and parts in accordance with the work order shown on the digital or physical schedule.

9. The method according to claim 8, wherein the fitting information which is generated by the software application includes: status information which allows for live monitoring of the status of the fitting process of the respective mark or phase.

10. The method according to claim 1, wherein the method includes: automatically uploading the specific welding parameter information for each part which has to be welded to a respective profile into the welding apparatus.

11. The method according to claim 10, wherein the automatically uploading of welding information for a specific weld is triggered by a user who taps on the screen at a position where that weld shown on the screen.

12. An assembly for use in the method according to claim 1, wherein the assembly comprises: a computer system in which a 3D-model of the steel construction is created by means of a CAD-program; a screen which is in the working environment of the fitter who has to perform the method; and a software application for generating fitting information, wherein the software application is configured to interpret 3D-model data of the 3D-model and to generate for each mark or phase of the steel construction from the 3D-model data at least the following fitting information: a digital or physical list of parts which provides the logistical order in which the parts are supplied to a fitter; a digital or physical list of profiles which provides the logistical order in which profiles are supplied to the fitter; specific welding parameter information for each part which has to be welded to a respective profile; and graphical information presented on the screen in the working environment of the fitter, wherein the graphical information includes at least one of: various views of a profile in combination with a part to be connected with the profile; information on how to position a part relative to a profile; and information with respect to distances of the part relative to reference points, the reference points including at least one of an end face of the profile, holes in the profile or markings on the profile, so as to determine a precise position of the respective part on the respective profile relative to the reference points.

13. The assembly according to claim 12, wherein the assembly includes a part collector device in which parts are collected and placed on in a supply order in accordance with the digital or physical list of parts generated by the software application.

14. The assembly of claim 12, wherein the assembly includes a transport system configured to subsequently supply profiles to the fitter in a supply order in accordance with the digital or physical list of profiles generated by the software application.

15. The assembly of claim 12, wherein the software application is configured to generate fitting information which additionally includes: a digital or physical schedule showing the work order in which the various profiles and parts have to be processed.

16. The assembly of claim 12, wherein the software application is configured to generate fitting information which additionally includes: status information which allows for live monitoring of the status of the fitting process of the respective mark or phase.

17. The assembly of claim 12, wherein the assembly includes a welding apparatus and wherein the software application is configured to: automatically upload the specific welding parameter information for each part which has to be welded to a respective profile into the welding apparatus.

18. The assembly according to claim 17, wherein the software application is configured to trigger the automatically uploading of the specific welding parameter information for a specific weld when a fitter taps on the screen at the position where that weld is shown on the screen.

19. The method according to claim 2, comprising: pre-collecting the parts and placing the parts in a supply order in accordance with the digital or physical list of parts generated by the software application; and performing step b) by taking a subsequent or upper part from the supply order.

20. The method according to claim 3, comprising: pre-collecting the parts and placing the parts in a supply order in accordance with the digital or physical list of parts generated by the software application; and performing step b) by taking a subsequent or upper part from the supply order.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0070] FIG. 1 shows a schematic representation of an example of the assembly according to the invention; and

[0071] FIGS. 2A and 2B show a flow diagram of the method according to the invention.

DETAILED DESCRIPTION

[0072] FIG. 1 shows a schematic representation of an example of the assembly according to the invention. For a detailed description of the assembly reference is made to the summary. The various reference numbers in the figure refer to the following:

TABLE-US-00001 10 assembly 12 computer system 14 CAD-program 16 screen 18 software application 20 digital or physical list of parts 22 digital or physical list of profiles 24 specific welding parameter information 26 graphical information; 28 part collector device 30 profile transport system 32 schedule of work order

[0073] FIGS. 2A and 2B show a flow diagram of an embodiment of the method according to the invention. In this figure each method step is represented by a block. The figure merely elucidates the various steps and for a detailed description of the method reference is made to the summary. In fact, the embodiment shown in FIGS. 2A and 2B is in accordance with the embodiment claimed in claim 4.

[0074] The various embodiments which are described above may be implemented independently from one another and may be combined with one another in various ways. The reference numbers used in the detailed description and the claims do not limit the description of the embodiments nor do they limit the claims. The reference numbers are solely used to clarify by referring to the non-limiting example in the figures.