DE10230494A1 - Placing of a soft elastic membrane over measurement surfaces of objects that are shiny or transparent, so that they can be measured using conventional 3-D optical measurement techniques - Google Patents

Abstract

Method for 3-D optical measurement of object surfaces in which a pattern is projected on the object surface and then interpreted. In order to make the method applicable to objects that have unsuitable surface properties, e.g. dark or highly reflective surfaces, a membrane (1) is placed over an area of the object to be measured. Sheathing of the object can be using a vacuum pressure, or via electrostatic charging of the measurement object surface and/or the membrane. The membrane used is a soft elastic membrane.

Description

The invention relates to optical methods for three-dimensional measurement of Object surfaces where the deformations of patterns on the Object surfaces are projected, evaluated for 3D calculation. exemplary Methods are triangulation methods, interferometric methods and moiré Method.

For an optimal measurement with the methods mentioned, the surface must be meet certain requirements regarding their reflective properties: it should as much of the incident light as possible is diffusely reflected. Very suitable are matt light surfaces.

Transparent, reflective and also very dark surfaces are not suitable. This cannot be measured at all or only very poorly without preparation. By However, certain surface treatments can be an optimal measurement be made possible. A common method is spraying with paint or paint-like Substances that are bright and diffusely reflective and also relatively easy to see have it removed. An example of this is the product "Developer, Medium No. 3, white" the company Helling GmbH in 25436 Heidgraben. After spraying the surface However, the measurement must be waited until this substance is dried. Only then will the desired surface properties appear.

The substances mentioned for the preparation of the surfaces are mainly used by industrial users who are concerned with quality control of parts with high Number of pieces goes, not accepted.

Here the measurements are usually tied to cycle times. The sprayed on However, substances take a certain amount of time to dry, causing the Measurement process is extended. Furthermore, many users fear that they cannot be completely removed with certainty, which can be the result of a subsequent Surface treatment (e.g. painting) can have a very disadvantageous effect.

The object of the invention is to measure surfaces that are unfavorable Have reflective properties with a matt, light and thin layer too prepare that can be applied quickly, that has no chemical reaction with the Surface comes in and which can be quickly and easily completely removed.

This object is achieved with the features of claim 1.

Advantageous solutions and preferred designs are in the subclaims specified.

In this way, a method was created in which, at the start of the measuring process, a soft, elastic membrane is placed over the part of the object surface that is measured shall be. The membrane is thus measured instead of the object surface. The The result of this 3D measurement is the surface shape of the corresponding part of the Viewed object.

The adaptation of the membrane to the object surface can be done by using a Vacuum and / or by electrostatic charging of the membrane and / or Measurement object are supported. This is particularly important if it is Areas in the surface of the measurement object that are concave.

The advantage of the invention is that the requirements for measuring the Surface can be generated very quickly and the initial state is also very can be quickly restored. The membrane can be attached to the in a very short time Apply and remove the surface. The dangers of a chemical Reaction with the surface and residues remaining on the surface usually do not exist.

This creates an important prerequisite for the optical 3D Use measuring methods when it comes to quality control of parts with high Quantities that have unfavorable reflection properties. Examples of this are the measurement of reflective or transparent surfaces such as glass, Car windows or body parts made of aluminum.

An embodiment of the invention is shown in the drawings and is in following described in more detail. Show it

Fig. 1 is a plan view of a membrane clamped in a frame for preparing the surface

Fig. 2, the resting adapted membrane to a portion of the surface of a measurement object.

A membrane 1 is used to prepare the surfaces of the measurement object 3 , which in an advantageous embodiment is clamped in a frame 2 , as shown in FIGS. 1 and 2. The membrane 1 has the properties that it is easily deformable, thin and elastic, which is a prerequisite for the membrane 1 to adapt well to the surface of the measurement object 3 and to return to its initial state when not loaded. It is also advantageous if the membrane 1 is as matt, bright and opaque as possible. As a result, the membrane 1 is very well suited for measurement using the optical methods mentioned.

If the measuring object 3 pressed into the membrane or the membrane 1 1 is pressed onto the measuring object 3, then the diaphragm 1, the surface of the measuring object 3 fits in certain areas. These areas are then measured optically three-dimensionally, as shown in FIG. 2. The measurement is carried out by an exemplary optical sensor, consisting of a camera pair 4 and a projector 5 (triangulation method, stereo photogrammetry). It is assumed that the membrane 1 approximates the surface of the measurement object 3 sufficiently well in these areas so that the measurement results can be transferred to the object surface.

After the measurement, the measurement object 3 and the membrane 1 can be easily separated, so that the membrane 1 is available for a new measurement of another object. In the case of stable surfaces, this procedure does not cause an undesirable change in the object surface.

Suitable applications are 3D measurements for quality controls of e.g. B. glass objects, car windows and body parts made of reflective materials, such as z. B. aluminum.

Claims (5)

1. A method for three-dimensional optical measurement of object surfaces, in which patterns are projected onto the object surface, characterized in that an elastic membrane ( 1 ) is placed over part of the surface of a measurement object ( 3 ) and the membrane ( 1 ) is closed adapting areas to the shape of the surface of the measurement object ( 3 ). 2. The method according to claim 1, characterized in that the fitting and the adaptation of the membrane ( 1 ) to the surface to be measured by using a negative pressure and / or an electrostatic charge of the membrane ( 1 ) and / or the measurement object ( 3 ) or is supported. 3. The method according to claims 1 and 2, characterized in that the membrane ( 1 ) is opaque and has a bright, diffusely reflecting surface. 4. The method according to any one of claims 1 to 3, characterized in that the membrane ( 1 ) is clamped in a frame ( 2 ). 5. The method according to any one of claims 1 to 4, characterized in that an optical sensor consisting of a camera pair ( 4 ) and a projector ( 5 ) is used to measure the surface of a measurement object ( 3 ), with which on the basis a triangulation method or stereofotogrammetry measurement data can be generated.