METHOD FOR AIDING THE MASKING OF WORKPIECE SURFACES TO BE PAINTED OR TREATED

Abstract

The invention provides a method of assisting masking a part (100), the method comprising, prior to working on the part, the steps of: using a numerical model (1) of the part to define at least one virtual surface (2) for masking by extracting from the model a geometrical surface of the part that is to be masked, and by duplicating said geometrical surface; and assigning instructions (3) about masking to the virtual surface for masking as defined in this way; then when an operator is working on a part matching the numerical model, taking at least one image of the part and enabling the operator to view the image of the part with the virtual surface for masking superposed thereon while also displaying the associated instructions; and after the part matching the numerical model has been masked, taking an image of the masked part and comparing on the image the real masked surface with the virtual surface for masking.

Claims

1. A method of assisting masking a part, the method comprising, prior to working on the part, the steps of: using a numerical model of the part to define at least one virtual surface for masking by extracting from the model a geometrical surface of the part that is to be masked, and by duplicating said geometrical surface; and assigning instructions about masking to the virtual surface for masking as defined in this way; then when an operator is working on a part matching the numerical model, taking at least one image of the part and enabling the operator to view the image of the part with the virtual surface for masking superposed thereon while also displaying the associated instructions; and after the part matching the numerical model has been masked, taking an image of the masked part and comparing on the image the real masked surface with the virtual surface for masking.

2. The method according to claim 1, wherein there are implemented both a shape recognition algorithm that recognizes the part on the image that has been taken and also an augmented reality algorithm that superposes the previously-defined virtual surface for masking on the image of the part.

3. The method according to claim 2, wherein the part is placed on a workstation provided both with a camera suitable for taking images of the part and also with an inspection screen for displaying the image of the part with the virtual surface for masking and the instructions superposed thereon.

4. The method according to claim 1, wherein the part is placed on a workstation provided both with a camera suitable for taking images of the part and also with an inspection screen for displaying the image of the part with the virtual surface for masking and the instructions superposed thereon.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] The invention can be better understood in the light of the following description of a particular embodiment of the invention, given with reference to the figures of the accompanying drawings, in which:

[0019] FIG. 1 is a view of a screen displaying the numerical model of a part for masking in a perspective view, and showing the definition of a virtual surface for masking;

[0020] FIG. 2 is a view of a masking workstation on which a part has been placed, the workstation being provided with a camera and with an inspection screen; and

[0021] FIG. 3 is a view of an inspection image taken by the camera after masking has been performed.

DETAILED DESCRIPTION OF THE INVENTION

[0022] With reference to FIG. 1, the method of the invention begins with a step of using a numerical model 1 of a part to define a virtual surface 2 for masking that corresponds to an area of the part that is to be masked during a subsequent operation of painting or treating the part. To do this, it is appropriate to extract from the numerical model the surface(s) defining the part in the area for masking, and to duplicate it in order to make an independent numerical model referred to herein as the virtual surface 2 for masking. If a plurality of areas of the part need to be masked during a single surface treatment or painting operation, it is convenient to group together the virtual surfaces for masking in a single group. On a landing-gear part, mention may be made, by way of example, of the group of masks needed for a single operation of applying a primer, a finishing paint, or an anti-gravel coating. Thereafter, the method of the invention includes a step of associating instructions 3 both for making the masks modelled by the virtual surfaces for masking and also for inspecting them.

[0023] For example, if the model of the part is made using the computer assisted design (CAD) software published under the CATIA trademark by the supplier DASSAULT SYSTEMES, then the CATIA software is used to extract and duplicate the surfaces that define the numerical model of the part in the area that is to be masked, and the CATIA COMPOSER tool is used to group together the virtual surfaces for masking as defined in this way. Then by using the tool under the DIOTACONNECT trademark from the supplier DIOTA SOFTWARE, which is accessible in CATIA COMPOSER, the instructions for making and/or inspecting masks are associated with each virtual surface for masking, or with each group, where applicable.

[0024] FIG. 2 shows a workstation including a reception space 4 for receiving the part 100 and a gantry 5 carrying a camera 6 suitable for taking images of the part 1. The workstation is also provided with an inspection screen 7, specifically a touchscreen. When the part 100 is placed on the workstation, the camera 4 takes images of the part. Masking software that is activated during the masking operations implements a shape recognition algorithm in order to recognize, in the images taken by the camera 6, the edges of the part 100 so as to identify the part and determine its orientation in three-dimensional space. Thereafter, the software displays the image of the part 100 on the inspection screen 7 with the virtual surface 2 for masking superposed thereon so that the operator can see immediately on the screen that are the areas of the part that are to be masked. Preferably, the virtual surface 2 for masking is displayed in a contrasting color so that it stands out clearly on the part. The instructions 3 for performing the masking are then displayed on the screen 7 together with the virtual surface 2 for masking. By following the instructions, the operator can then proceed with masking the part on that area of the part 100 that is specified in the image of the part by displaying the virtual surface for masking in superposition. Once masking has been completed, the operator indicates that the current masking operation has finished, e.g. by acting on an END button 8 on the touchscreen, and where necessary the software displays other virtual surfaces for masking, together with the corresponding instructions.

[0025] In a particular aspect of the invention, and as shown in FIG. 3, the method of the invention includes a step of verifying that the masking carried out by the operator matches the virtual surface 2 for masking. To do this, the masking software analyzes at least one image of the masked part after the operator has indicated that the masking operations have finished, it compares a real masked surface in the image with the virtual surface for masking, and it determines whether the masking that has been carried out matches the virtual surface 2 for masking, or whether it does not cover enough of the part, or whether on the contrary it covers too much of the part. Specifically in this example, the software has detected an area 9 that the operator has omitted to mask. This area is highlighted in order to tell the operator what corrective action needs to be taken.

[0026] The invention is not limited to the above description, but on the contrary covers any variant coming within the ambit defined by the claims.

[0027] In particular, although above the image of the part is displayed on an inspection screen of the workstation, the image could be projected in a helmet or in augmented-reality goggles worn by the operator.

[0028] Although above the image of the part is viewed on an inspection screen 7 arranged on the workstation, the image could be made visible by any other means, such as using a video projector, for example.

[0029] Although above the image is taken by a camera fitted to a workstation where the masking is performed, the image could be taken in any other way. For example, the operator could use a tablet to take a photograph of the part on which the operator is working, with the image of the part then being viewed on the screen of the tablet with the virtual surface for masking superposed thereon.