AT18330U1 - Method for determining damage to a vehicle wall structure using a measuring template - Google Patents

Abstract

Method for determining damage to a vehicle wall structure using a measuring template (1) which comprises a plurality of concentric geometric figures (4), preferably concentric circles, arranged on a transparent carrier (2) around a centre (3), wherein the carrier (2) with the centre (3) is first placed centrally over a damaged area (S) of a vehicle wall structure, after which the smallest of the figures (4) which fully encloses the damaged area (S) is determined using an image evaluation, and after which a work and material expenditure required to repair the damage is calculated using a computer implementation on the basis of the area of the previously determined figure (4).

Description

Description

[0001] The invention relates to a method for determining damage to a vehicle wall structure.

[0002] Wall structures of mobile homes, caravans and trucks often consist of sandwich profiles or composite panels, which in the event of damage must be restored with the corresponding repair effort. There are known methods for this, but in practice there are problems with the traceability of the damage to be settled with a customer or with an insurance company, which essentially consists of labor and material costs.

[0003] The invention is therefore based on the object of specifying a method and a device with which a comprehensible determination of damage to a vehicle wall structure is possible.

[0004] The invention solves the problem with a measuring template as follows:

[0005] To determine damage to a vehicle wall structure using a measuring template that includes several concentric geometric figures, preferably concentric circles, arranged around a center on a transparent carrier, the carrier is first placed with the center centrically over a damaged area of the vehicle wall structure, after which the smallest of the figures that completely encloses the damaged area is determined using a preferably computer-implemented image evaluation, after which a work and material expenditure required to repair the damage is calculated using a computer-implemented method on the basis of the area of the previously determined figure.

[0006] In a first step, the area of a damaged area is measured. This is done by optically evaluating the smallest of the figures that completely enclose the damaged area. The result can be read into a computer program, which carries out the further calculations. Ideally, an image of the damaged area is taken with the measuring template placed on it as described and this image is read into the computer program for evaluating the damaged area and documenting the damage and saved. The area of the damage determined in this way with the help of the previously determined figure can be used to calculate the labor and material expenditure required to repair the damage in a computer-implemented and comprehensible manner. Individual users only have to read additional material costs and hourly rates, in particular labor value rates, into the computer program.

[0007] In addition, the depth of the damage can be measured and a volume-dependent depth surcharge for the work and material expenditure can be determined using a computer-implemented method from the area and depth. The same applies if a sheet of metal in the vehicle wall structure is cracked and needs to be bent or straightened. Due to the transparent carrier, a 3D camera can be used, for example, so that the volume of the damage can be calculated using a computer-implemented method.

[0008] If the concentric geometric figures are divided into several sectors starting from the center and the partial areas are spanned between neighboring figures and neighboring rays starting from the center that delimit the sectors, the sum of the partial areas can be determined using computer-implemented image analysis to determine the area that completely encloses the damage site. This enables a more precise area determination.

[0009] A measuring template, in particular for carrying out the method, comprises a transparent carrier which is equipped with several concentric geometric figures arranged around a common center, each of which is assigned a unique identifier. The identifier ensures that each of the figures can be clearly identified by the image evaluation. Each of the figures in turn represents a unique area measurement.

[0010] In the simplest case, the figures are several concentric circles.

[0011] The concentric geometric figures can be divided into several circular sectors starting from the centre in order to determine the damage area more precisely.

[0012] If adjacent sectors are marked in different colors, the figures for image evaluation also stand out properly from the respective background, in particular the color of the vehicle wall structure.

[0013] A computer-implemented calculation of work and material costs can be simplified as follows: Number of work values for a set-up time plus the number of work values dependent on the area of the determined figure plus, if applicable, a depth allowance plus, if applicable, a allowance for cracked sheet metal plus material costs dependent on the area of the determined figure.

[0014] The subject matter of the invention is shown by way of example in the drawing. [0015] Fig. 1 shows a measuring template according to the invention in elevation and [0016] Fig. 2 shows a design variant of the measuring template in elevation.

[0017] The measuring template 1 for determining damage S to a vehicle wall structure comprises a transparent carrier 2, which is equipped with several concentric geometric figures 4 arranged around a common center 3, each of which figures 4 is assigned a unique identifier A - G. The preferred geometric shape is preferably circular, especially if the damage is dents. Other forms of damage can require other geometric shapes, such as rectangles, ovals or the like. The carrier 2 is in particular a transparent film or pane, in particular a Plexiglas pane, which is equipped with the corresponding figures 4. The figures are preferably embossed or engraved into the carrier.

[0018] In the present embodiment, Figures 4 are several concentric circles, each of which is assigned the identifier A - G in ascending order from the inside to the outside.

[0019] In addition, the concentric geometric figures 4 can be divided into several circular sectors | - VIII starting from the center. The circular sectors | - VIII are named in increasing order in a clockwise direction. The partial areas Al - GVIII, which are spanned between adjacent figures 4 and adjacent rays starting from the center 3 and delimiting the circular sectors | - VIII, can be determined using computer-implemented image analysis to more precisely determine the area completely enclosing the damage site, whereby the amount of work and material required can be calculated more precisely using computer-implemented methods.

[0020] In the figures it is indicated that adjacent sectors are marked in different colors, whereby the figures 4 stand out better from a background, i.e. the vehicle wall structure, and thus a better image evaluation is possible.

Claims (7)

claims 1. Method for determining damage to a vehicle wall structure using a measuring template (1) which comprises a plurality of concentric geometric figures (4), preferably concentric circles, arranged on a transparent carrier (2) around a centre (3), wherein the carrier (2) with the centre (3) is first placed centrally over a damaged area (S) of a vehicle wall structure, after which the smallest of the figures (4) which fully encloses the damaged area (S) is determined using an image evaluation and after which a work and material expenditure required to repair the damage is calculated using a computer implementation on the basis of the area of the previously determined figure (4). 2, Method according to claim 1, characterized in that the depth of the damage (S) is additionally measured and that a volume-dependent depth surcharge for the labor and material expenditure is determined by computer implementation from the area and depth. 3. Method according to claim 1 or 2, characterized in that the concentric, geometric figures (4) are divided into several sectors (I - VIII) starting from the center (3) and that the partial areas (Al - GVIII) which are spanned between adjacent figures (4) and adjacent rays (5) starting from the center (3) and delimiting the sectors (I - VIII) are determined using computer-implemented image analysis to determine the area completely enclosing the damage site. 4. Measuring template, in particular for carrying out the method according to one of claims 1 to 3, characterized by a transparent carrier (2) which is equipped with several concentric geometric figures (4) arranged around a common center (3), each of which figures (4) is assigned a unique identifier (A - G). 5. Measuring template according to claim 4, characterized in that the figures (4) are several concentric circles. 6. Measuring template according to claim 4 or 5, characterized in that the concentric geometric figures (4) are divided into several sectors (I - VII) starting from the center (3). 7. Measuring template according to claim 6, characterized in that adjacent sectors (I - VII) are marked with different colors. Here 2 sheets of drawings