DE102006018766A1 - Motor vehicle` s painted surface deformation determination method, involves arranging scale to be formed in given distance to surface to be examined, where scale in preset full scale is projected on surface as line pattern and grid pattern - Google Patents

Abstract

The method involves arranging a scale (6) to be formed in a given distance and given angle to a surface (2) to be examined. The scale providing numbers describing distance of lines is projected, where the scale is projected on a scale 1:1. The scale in a preset full scale is projected on the surface as a line pattern and/or grid pattern. Irregularities recognized in the surface are quantified on the basis of a projected scale (6`), where the projected scale is figuratively held. An independent claim is also included for a device for size determination of deformation of a painted surface of a motor vehicle.

Description

The The invention relates to a method for size determination of a deformation a surface a body, in particular a painted surface of a motor vehicle, at a line pattern or grid pattern is projected onto the surface, and a device for size determination a deformation of a surface of a body.

The qualitative review of painted surfaces, For example, such as motor vehicles, is for the product quality of special Importance. Furthermore, the surface of motor vehicles, for example In case of hail damage, be examined to quantify the damage to be able to. When counting Hageldellen is aggravated by the fact that the counting of external influences, such as for example, the cleanliness of the surface or the lighting conditions being affected.

From the DE 198 20 536 C1 a device for checking a paint surface of a motor vehicle is known. The device comprises a base which has luminous bodies. These filaments limit longitudinal sides of the motor vehicle and emit it. The floor is provided with floor lines that run transversely to the vehicle longitudinal direction. These floor lines are reflected thanks to the filament as a line pattern in the paint of the surface of the motor vehicle and are used to determine the extent to which the surface one or more irregularities - dent, wave, dent - has. Such a device is relatively large and stationary. It is therefore not mobile.

Farther It is known with a light source a beam of light on the vehicle area to be examined to throw, which in turn projects the light beam onto a projection screen. On the projection screen can then the irregularities counted become. This procedure is needed always an additional, from the vehicle surface independent Screen.

Farther It is known to use a luminaire whose luminous area with covered by a grid. By doing that the grid between the lamp and the surface to be examined is arranged, the Grid on the surface projected. irregularities in the surface distort the projected grid. To the size of an irregularity It is intended to quantify a template or a ruler to use and manually adjust the distance between the outermost ones To measure the distortion of the projected grid. This procedure is cumbersome. Furthermore is the size of the damage difficult to document in a comprehensible manner.

task The present invention is an improved method and an improved device for determining the size of a deformation a surface provide.

These Task becomes particularly surprising and simple manner by a method of the aforementioned Sort of solved, as a line pattern or grid pattern, a scale in a given scale on the surface is projected. The lines of the scale represent a regular (z. B. even (linear) with equal pitch intervals or logarithmic) scale which is used to display a value.

If a scale projected onto the surface at a predetermined scale is, the distance between the projected lines is known. From this distance can easily the size of an irregularity be determined or read. The cumbersome measurement of irregularities with the help of a ruler or the like can therefore be omitted.

at a particularly preferred variant of the method can be provided that the scale to be imaged at a predetermined distance and / or arranged at a predetermined angle to the surface to be checked becomes. By this measure let yourself the scale Adjust the scale with which the scale is displayed.

Especially it is preferred if the scale is projected on a scale of 1: 1. This corresponds to a measure of the scale more precisely the length of the projected Scale (grid structure, or line structure). If so the distance between two lines of the scale is known corresponds this distance also the distance of the projected lines.

Especially just the size of a irregularity be recorded and quantified, if one with the distance of the Lines descriptive numbers projected scale is projected. For example can Lines one centimeter apart with one Number and between these lines more lines can be provided Be the distance in even parts divide. In this way, irregularities can occur the surface can be easily read with an accuracy in the millimeter range.

Around a damage to the surface to be able to measure it is advantageous if detected in the surface irregularities be quantified by the projected scale. Such Quantification is objective and comprehensible.

at a particularly preferred variant of the method can be provided that's on the surface projected scale. For example, can the projected scale will be photographed. Located in the area the scale of an irregularity, so this is recorded along with the scale in the picture. By the picture or several pictures in different places The vehicle can thus damage a surface of a vehicle Vehicle be documented beyond doubt and comprehensible. To the influences of To reduce scattered light in photography, the area of the photographed Place and cover the camera with an opaque cloth.

In falls within the scope of the invention also one Device for size determination a deformation of a surface a body, in particular a painted surface of a motor vehicle, with a Light source behind a line pattern or a grid pattern arranged to project the pattern onto a surface to be checked, wherein the line pattern or the grid pattern is designed as a scale. By the projection of a scale, in particular to scale Projection, can Irregularities, such as hail damage, reliable be recognized and quantified at the same time.

at a preferred embodiment be provided that the scale with the distance of the lines descriptive Numbers are provided, the numbers in the plan view of the Scale are arranged mirror-inverted. This measure can be the distance between the lines is easier to grasp. In addition, will the reading is simplified, since the numbers imaged on the surface in normal spelling appear.

at a particularly advantageous embodiment can as a light source be provided a luminous film. The use of a luminescent film allows the device with small dimensions and low To produce weight.

One particular advantage, however, results from the fact that the scale immediately can be arranged on the luminous film, in particular on the luminous film can be printed. Due to the flat design of the luminous film The scale can also be arranged in one plane. In addition, through this measure - different as at a punctate Light source - distortions be avoided when projecting the scale. The luminous foil can have a Plug for have a connection to a cigarette lighter, with between Plug and luminescent foil an inverter can be provided, the one Current, voltage and / or Frequency adjustment makes. Alternatively, an adapter for a mains connection be provided.

In Another embodiment of the invention can be provided that the device is a housing in or on which the light source and the scale are arranged are, with the case has a base side and more housing parts on the base side are arranged pivotally. Preferably, the light source is on the base page can and arranged the other housing parts be pivoted to the base to the non-use Light source and scale to protect and to give the device small dimensions. This will be the Device, especially when not in use, particularly easy to handle and transportable.

at a particularly preferred embodiment can Positioning means for the defined positioning of the scale relative intended for a surface to be checked be. By this measure can be ensured that the scale is always in the same position in terms of the surface is brought. This ensures that the scale always in the desired scale on the surface is imaged or projected.

at a preferred development, the side parts of the housing as Positioning be formed. In particular, over the pivotally connected to the base side of the housing of the Angle or the distance of the backlit scale to Defined surface to be checked become.

Preferably the side parts are designed trapezoidal for this purpose. The side parts can be foldable or foldable on the base side and held by a Velcro in its folded position become. Besides, they can through Velcro closures be kept in an unfolded state

Further Advantages arise when the housing at least in sections is opaque. This can avoid that the measurement result by others Light sources falsified or the scale shown on the surface is not recognized correctly. Preferably, the housing is so formed that the projected scale between the side panels of the housing located.

In a particularly preferred embodiment, the housing may have fastening means for fastening the housing to the surface to be checked. As a result, the housing and thus the device can be fixed to the surface to be checked. There can be no blurring of the scale on the surface. A user has both hands free to use a camera Picture of the scale projected onto the surface.

In preferred embodiment the fastening means designed as magnetic strips and / or suction cups be. This allows the housing or the device can be attached to the surface, without further damage on the surface bring about. Furthermore is the device in the use of such fasteners easily removable again. The suction cups can support the magnetic strip. They can do that on the housing be attached. So the housing can also be attached to non-metallic objects be attached. At the head of the suction cup, a connecting means, z. As a Velcro, be provided which adheres to the housing when needed can be.

ever according to the lighting conditions, under which the investigation of a surface is carried out, It may be advantageous if the color and / or brightness of the is adjustable by the light source emitted light.

One particular advantage of the invention is that the device as a handheld device can be designed so that it is used in different places can be.

Further Features and advantages of the invention will become apparent from the following Description of exemplary embodiments the invention, with reference to the figures of the drawing, the invention essential Details show, and from the claims. The individual characteristics can each individually for one or more in any combination in a variant be realized the invention.

preferred embodiments The invention are shown schematically in the drawing and will be explained in more detail with reference to the figures of the drawing. It shows:

1 a perspective view of a device for determining the size of a deformation of a surface of a body;

2 a plan view of the inside of a folded housing of the device;

3 a perspective view of the back of the device;

4 a representation to illustrate the vertical use of the device.

The 1 shows a device 1 for determining the size of a deformation of the surface 2 of an object. The device 1 has a housing 3 with a base page 4 on, being on the bottom 4 a light source formed as a luminous film 5 is arranged on a scale 6 is arranged with mirrored numerals. Preferably, the scale 6 printed on the luminescent film. Because of that behind the scale 6 a light source is arranged, the scale becomes 6 on the surface 2 projected, leaving a picture of the scale 6 as a projected scale 6 ' on the surface 2 appears. The scale 6 is at a given angle to the surface 2 arranged so that the projected scale 6 ' appears on a predetermined scale. This angle is determined by positioning 7 . 8th causes, wherein the positioning means in the embodiment as the side parts of the housing 3 are formed, which are opposite the base 4 are arranged pivotally. In particular, they can turn inward on the scale 6 to be pivoted when the device 1 is not needed. The angle adjustment is made by the positioning means 7 . 8th on one side with the base page 4 are connected and with their thighs 9 . 10 at least in sections on the surface 2 fly up.

With a roughness of the surface 2 becomes the scale 6 distorted, as in the place 11 is indicated. Through the true-to-scale image of the scale 6 Can damage by simply counting the lines in both the horizontal and vertical direction, between which the distortion at the point 11 ie, by determining the distance between the outermost points of the distortion. Through a camera, the image of the scale 6 be held, so that the damage to the surface 2 is documentable. It should be noted that the projected scale 6 ' essentially between the positioning means 7 . 8th located.

In the 2 is a blank of the housing 3 shown. As already related to 1 mentioned, points the base page 4 a luminescent film 5 with a grid structure as a scale 6 on. To the bottom 4 close as the positioning 7 . 8th trained side panels, with the side panels 7 . 8th Trapezoidal are formed. The tab 15 is also pivotable with the base page 4 connected and can be pivoted to the rear. It has a trained as a magnetic strip fastener 16 on, with which the device 1 or the housing 3 can be held on a metallic surface. The tab 17 is also pivotable with the base page 4 connected and can be forward on the positioning 7 . 8th be pivoted. At least the parts 4 . 7 . 8th and 17 are made of opaque material to reduce the effects of stray light.

Will the device 1 not needed, the parts can 7 . 8th . 15 . 17 to the bottom 4 ge be folded and are kept in this position, for example by Velcro, so that the device 1 Overall takes up little space.

3 shows a rear view of the housing 3 , Clearly visible is the tab 15 , which is folded backwards to the housing 3 to attach to a surface. About Velcro closures 18 The retractable parts can be held together, leaving the housing 3 can be closed when not in use. As an alternative or additional attachment means are suction cups 19 conceivable, with which an attachment to a smooth surface is possible. The suckers 19 can be connected to lanyards 20 , in particular connecting bands, be arranged, for example on Velcro strips. The connecting means 20 can at the tab 15 or the back 21 the base page 4 on appropriate brackets 22 . 23 , For example, counterparts to the Velcro straps, are attached. By attaching to the brackets 23 a correct positioning of the housing can also be done on overhanging surfaces. As a result, swinging away of the housing from a surface to be checked can be avoided.

The 4 illustrates that the device 1 not only on surfaces, but also on vertical surfaces 2 can be attached to the surface 2 analyze. The attachment to vertical surfaces 2 via the previously described fasteners.

Claims (19)

Method for determining the size of a deformation of a surface ( 2 ) of a body, in particular a painted surface of a motor vehicle, in which a line pattern or a grid pattern on the surface ( 2 ) is projected, characterized in that as a line pattern or grid pattern, a scale ( 6 ) on a predetermined scale on the surface ( 2 ) is projected. A method according to claim 1, characterized in that the scale to be imaged ( 6 ) at a predetermined distance and / or at a predetermined angle to the surface to be checked ( 2 ) is arranged. Method according to one of the preceding claims, characterized in that the scale ( 6 ) is projected on a scale of 1: 1. Method according to one of the preceding claims, characterized in that a scale provided with the numbers of the lines describing the spacing of the lines ( 6 ) is projected. Method according to one of the preceding claims, characterized in that in the surface ( 2 ) detected irregularities on the basis of the projected scale ( 6 ' ) can be quantified. Method according to one of the preceding claims, characterized in that the scale projected onto the surface ( 6 ' ) is captured. Contraption ( 1 ) for determining the size of a deformation of a surface ( 2 ) of a body, in particular a painted surface of a motor vehicle, with a light source ( 5 ), which is arranged behind a line pattern or a grid pattern, for projecting the pattern onto a surface to be checked ( 2 ), characterized in that the line pattern or the grid pattern as scale ( 6 ) is trained. Device according to claim 7, characterized in that the scale ( 6 ) is provided with the distance of the lines descriptive numbers, wherein the numbers in the plan view on the scale ( 6 ) are arranged mirror-inverted. Device according to one of the preceding claims 7 or 8, characterized in that as light source ( 5 ) A luminous film is provided. Device according to claim 9, characterized in that the scale ( 6 ) on the luminescent film ( 5 ) is arranged, in particular on the luminous film ( 5 ) is printed. Device according to one of the preceding claims 7 to 10, characterized in that the device ( 1 ) a housing ( 3 ) in or on which the light source ( 5 ) and the scale ( 6 ) are arranged, wherein the housing ( 3 ) a basic page ( 4 ) and further housing parts at the base side ( 4 ) are pivotally mounted. Device according to one of the preceding claims 7 to 11, characterized in that positioning means ( 7 . 8th ) for the defined positioning of the scale ( 6 ) relative to a surface to be checked ( 2 ) are provided. Apparatus according to claim 12, characterized in that side parts of the housing ( 3 ) as positioning means ( 7 . 8th ) are formed. Device according to claim 13, characterized in that that the side parts trapezoidal are formed. Device according to one of the preceding claims 11 to 14, characterized in that the housing ( 3 ) at least partially lichtun is permeable. Device according to one of the preceding claims 11 to 15, characterized in that the housing ( 3 ) Fastening means ( 16 ) for fastening the housing ( 3 ) on the surface to be checked ( 2 ) having. Apparatus according to claim 16, characterized in that the fastening means ( 16 ) as magnetic strips and / or suction cups ( 19 ) are formed. Device according to one of the preceding claims 7 to 17, characterized in that the color and / or brightness of the light source ( 5 ) emitted light are adjustable. Device according to one of the preceding claims 7 to 18, characterized in that the device ( 1 ) is designed as a handheld device.