DE4139107C1 - Establishing and evaluating surface alterations at test pieces - using electronic camera to photograph at specified time intervals before and during natural or artificial weathering - Google Patents

Abstract

The photography is undertaken under selective and reproducible illumination and imaging conditions. The images are digitalised and stored in a computer. Intermediate tonal or shading value histograms of the images are produced by the computer. The surface alterations are determined as a functioning of the weathering, by difference forming between the shade of grey histograms: of the unweathered test piece or a standard reference frame and the weathered test piece. The alteration can be reproduced graphically or in tabular form. ADVANTAGE - Quickly and exactly reproduces measurement results, which can be evaluated, independently of distance between place of weathering and place of evaluation.

Description

The invention relates to a method and an apparatus for Detect and evaluate surface changes exposed to natural or artificial weathering Test pieces.

The durability of materials that match natural weathering are exposed to e.g. B. paints or varnishes for buildings, Vehicles, especially motor vehicles, ships or others Structures that need to be protected from the weather, such as B. bridges or oil rigs, is natural or artificial weathering determined. While the artificial Weathering on a laboratory scale, e.g. B. in climatic chambers with artificial Sunlight, heat, cold, adjustable humidity, etc. are intended for natural weathering, geographic preferred locations prescribed, e.g. B. Florida or Arizona. For the duration of such weathering tests, a to scheduled for two years. In contrast, artificial weathering carried out as an accelerated weathering test, however results  not always the same, with natural weathering comparable results.

Both weathering tests have in common that changes only after longer periods of weathering, whether a newly developed material is suitable or not, very much delayed.

With natural weathering methods at the locations mentioned Added to this is the difficulty that this is at a great distance from the Location of the material manufacturer.

The test pieces are therefore usually tested by test institutes in Florida or Arizona weathering according to the Manufacturer of the test pieces exposed. Shipping this Samples usually take up to due to customs formalities three weeks. Now the manufacturer requests his test pieces in back to an intermediate examination at regular intervals, so he can this will determine changes relatively quickly, however go through the frequent interruptions due to weathering transporting the samples back and forth up to 30% of the Weathering time lost or must the weathering time around this amount will be extended, while also increasing take into account that transportation in summer is significant has a greater influence on the extension of the weathering period as a winter transport.

The sample remains on during the entire weathering period  Weathering location, the weathering duration does not need to be Transport time to be extended, however, the manufacturer learns of the specimen only after completion of the prescribed Duration of weathering, whether the test piece for practical use enough.

It is possible to have the specimens by staff of the Having test institutes examined on site, however, comes across this Procedure based on concerns of the manufacturers of the specimens that have to fear that secrecy from competitors is not preserved.

Finally, there is also the possibility of personnel of the manufacturer of the specimens at regular intervals to the weather site to send, but this possibility is too high because of Travel expenses and the often very large number of test pieces only perceived to a small extent.

The processes are described in German Offenlegungsschrift DE 27 54 597 A1 and an arrangement for the quantitative detection of Surface changes under the influence of weathering known which the test pieces before and during the weathering under defined conditions colorimetrically and with a goniophotometer be included. The measured values are related to a Reference value, namely an unloaded blank value or a Comparative series, set. From this the surface condition is called Function of weathering determined. In the German Patent application DE 35 41 891 A1 are also a method and  a device for detecting the surface of objects described. The device has an electronic camera, a Lighting device, a digitizing device, at least a computer and at least one display device.

The invention is based, a method and a task Device for determining and evaluating Surface changes on natural or artificial To create exposed specimens that are quick and weatherproof work precisely, deliver reproducible measurement results and regardless of the distance between the place of weathering and the location of the evaluation can work.

Based on this task, a procedure is created proposed, according to the invention, the test pieces before the Weathering and during the weathering in predefinable time Distances using an electronic camera under defined and reproducible lighting and imaging conditions recorded, the images digitized, in a computer saved, using the computer grayscale histograms of the images manufactured by difference between the Grayscale histograms of the weathered specimen or one standardized reference field and the weathered specimen Surface change determined as a function of weathering and the change is shown graphically and numerically and be archived.

In this way, even minor ones  Determine surface changes by forming differences and evaluate mathematically, so that the manufacturer of the sample very much quickly get information about the changes that occur and if necessary, produce new test pieces with modified recipes and can be exposed to weathering again.

The test pieces have to be weathered by the electronic camera can be recorded, however, the Evaluation of the digitized images on an arbitrary remote Place at any time without people on Weathering location must be involved in the evaluation.

The manufacturer of the test pieces has ISDN at all times Access to the one stored at the weather site patterned samples without changing location have to.

In this way, the manufacturer of the test pieces receives the Possibility, after much shorter weathering time than Up to now it has been common to find out whether the developed The recipe for the test piece meets or does not meet the requirements.

The weathering test can be done considerably in this way accelerate and enables the manufacturer of the specimen to Fallback patterns and any differences between to clarify two theoretically identical recipes analytically.

In this way, considerable costs can be incurred  Save development of new products or recipes.

The defined and reproducible lighting and Imaging conditions can be advantageously achieve that the specimens with directed, constant light a predefinable color temperature are illuminated.

The test pieces are preferably at an angle of 45 ° to Illuminated 60 ° to the axis of the camera.

To ensure uniform illumination of the respective specimen can be reached in the beam path of the lighting introduced, asymmetrical transparent absorbers, preferably Gray Wedges, use an intensity balance between the next to the light source and the most distant beam with reference allow to adjust to the specimen.

Colored samples are evaluated by separate evaluation of the red, green and blue signals, whereby the Difference between the grayscale histograms red, green and blue signals.

During the weathering period, the atmospheric conditions like duration of sunshine, intensity of ultraviolet radiation, Precipitation registered and digitized and the Assigned grayscale histograms of surface changes, which is an exact evaluation of the stability of Samples of the various weathering loads  enables.

To reduce deviations caused by electronic fluctuations and To avoid background noise, the specimens can be placed in front of and several times during weathering at intervals of 1 to 5 seconds are recorded, with each image added up to eight times and only then is saved.

Each sample can advantageously be an electronically readable Address, e.g. B. in the form of an attached to the specimen Have bar codes, so that when recording a Sample the address with the identification data under the name of the Manufacturer of the specimen can be saved.

The digitized images can be created using Remote data transmission in real time or from memory to one or transmit more remote evaluation stations, for which a digital is available even over great distances Telephone connection is suitable.

To avoid that different manufacturers have one digital phone connection to non-owned pictures of the Samples can reach the different Evaluation stations the test pieces belonging to them over their Addresses must be assigned so that the corresponding digitized pictures only via this address, which e.g. B. also a Password can be retrievable.  

Based on the aforementioned task, further proposed a device according to the invention from a electronic camera used for taking pictures of the Test pieces before and during weathering in pre-definable time intervals and for the output corresponding Image signals is formed, a lighting device, the for illuminating the test pieces under defined and reproducible conditions is formed, one with the electronic camera connected digitizing device for the conversion of the image signals into digitized image data is formed, at least one computer that is used for storing the digitized image data and for the creation of Grayscale histograms of the images is formed and at least a display device that is used for graphical or tabular Display of the surface change of the weathered specimens as Function of weathering is formed.

In this device, only the electronic camera need the Lighting device and the digitizing device at the site Weathering to be present while the calculator and that Display device at any distance via a Data transmission link connected to the place of weathering can be, if only one evaluation station with the Weather station can contact.

A digital telephone connection is used for remote data transmission used one of several weather stations Evaluation stations are permitted at the weather site  a computer is required that has an ISDN interface can be selected and the stored data after checking the Gives access authorization. It is both possible to Computer at the weather site not only for storing the Image signals, but also for creating the grayscale histograms to use the images and to form the difference, so that on Evaluation location only a graphic display of the Surface changes of the weathered specimens as a function weathering is necessary, as well as the computer on Weathering location only for storing the image signals and for checking of access authorization so that the entire Implementation of the image data and their evaluation in the Evaluation station take place.

The electronic camera is arranged so that its optical Axis is perpendicular to the surface of the specimen and the Illumination device the specimen at an angle of 45 ° shines up to 60 ° to the optical axis of the camera Surface changes especially for the electronic camera clearly recognizable, this effect by an optical "Hard" lighting, including the smallest details of the specimen stands out, is reinforced by the camera and the Lighting device in a light-tight housing with reflection-free inner surfaces and a window to hang up a sample are arranged. In the beam path of the Illumination device can be arranged in this case limit the lighting to the window. Because at an oblique Illumination of the specimen due to the different  Distances of light rays to the specimen are uniform Illumination is not guaranteed, can be in the beam path of the Light source at least one adjustable, asymmetrical, transparent absorber, preferably in the form of a gray wedge, be arranged, the intensity compensation between the generated next to the light source and the most distant beam and z. B. move by hand or remotely leaves until the illumination intensity over the whole sample field about 5% is set equal.

The invention is based on one in the drawing illustrated embodiment of the closer explained. In the Drawing shows

Fig. 1 is a block diagram of the device according to the invention with remote data transmission and

Fig. 2 is a schematic, sectional view of a receiving device for a sample.

A test piece 1 which is to be subjected to a weathering test is recorded by an electronic camera 2 , while it is illuminated by an illumination device 3 at an angle between 45 ° and 60 ° to the optical axis of the camera 2 . The sample 1 is first recorded before the weathering begins, the image signals from the electronic camera 2 are digitized in a digitizing device 4 and sent to a computer 5 with memory. The test piece 1 is provided with an address recognizable for the electronic camera 2 , e.g. B. a bar code, and a mark of the stored evaluated image section, which contains an identifier of the manufacturer of the specimen 1 , so that the digitized image data are only accessible to the respective manufacturer of the specimen 1 .

It is also possible to find the difference between the Grayscale histograms of a standardized reference field and the perform weathered specimen. In this case, Reference fields derived from the European scale according to DIN 16 539 use.

During the weathering period, the test piece 1 is recorded repeatedly at regular intervals, and the image data are stored in the computer 5 . Via an input device or a sensor 16 for the atmospheric conditions during the weather period, corresponding data arrive in the computer 5 , which are assigned to the respective recordings of the test piece 1 and are used to carry out a quick and precise evaluation of the resistance of test pieces with respect to different weathering loads . The data of the atmospheric conditions are accessible to all users of the weather station, in contrast to the image data of the individual test pieces, which are only accessible to the manufacturers of these test pieces.

In order to reduce the deviations due to electronic fluctuations, each sample 1 is recorded several times at intervals of one to five seconds and each image is added up to eight times and only then is it stored in the memory of the computer 5 .

It is not necessary that a test piece 1 recorded several times during the weathering period is brought into the optical axis of the electronic camera 2 with a precise fit. Because the image size is always the same due to the selected system, the manufacturer of the specimen 1 can electronically shift the different images against each other when evaluating different recordings of the same specimen 1 and overlay them with a precise fit. This makes it possible to recognize even the smallest differences between two specimens 1 recorded one after the other and to evaluate them using a grayscale histogram.

In the example shown, the computer 5 can be dialed via an ISDN interface 6 and a digital telephone connection. There are at each Auswerteort to another ISDN interface 7 7 a- e present, a computer 8 a to the - can connect 8 e which is provided with a display device 9 connected a- 9 e.

Each of the participants can select the computer 5 and, after specifying the address which is only assigned to him, receives the corresponding data of the corresponding test pieces 1 .

The identification of the addresses ensures that none of the Participant receives external image data.

In its simplest form, the computer 5 with memory can be designed in such a way that it only checks the access authorization of a subscriber and then transmits the stored amount of image data. In this case, the entire evaluation takes place, that is, the creation of the grayscale histograms of the images, the difference between the grayscale histograms of the unweathered specimen or a standardized reference field and the weathered specimen to determine the surface change as a function of the weathering in the computer 8 a- 8 e of the participants with subsequent graphical representation of the changes in the representation of devices 9 9 a- e.

However, it is also possible to design the computer 5 so that the entire evaluation takes place at the weathering location and only the evaluation results are transmitted to the individual participants by remote data transmission.

If the device according to the invention is used in connection with artificial weathering of test pieces on a laboratory scale without remote data transmission, a display device 9 for graphically displaying the surface changes as a function of the weathering can be connected directly to the computer 5 , which undertakes the entire evaluation in this case.

In Fig. 2, a recording device is shown schematically.

The electronic camera 2 and the lighting device 3 are arranged in a light-tight housing 10 with a window 11 for the specimen 1 to be recorded . The inner surface of the light-tight housing 10 is totally light-absorbing and treated in matt black.

The optical axis of the camera 2 is perpendicular to the sample 1 . The lighting device 3 is arranged at an angle between 45 ° and 60 ° to the optical axis of the camera 2 , the beam path being restricted by means of diaphragms 12, 13 such that only the window 11 is illuminated. In this way, optically hard illumination is achieved, which highlights even the smallest details of the sample, the light-absorbing coating on the inside of the housing ensuring that no reflections of the housing walls hit the sample.

Since the test piece 1 is illuminated obliquely, there are different distances from the test piece 1 for the light beams. For this reason, the area of the sample 1 closest to the light source would be illuminated more strongly than the area furthest from the light source, but in order to compensate for this, one or more asymmetrical transparent absorbers 14, 15 are arranged in the beam path of the lighting device 3 . B. may consist of gray wedges. This makes it possible to adjust the illumination intensity over the entire sample field to less than 5% deviation by manually shifting the gray wedges 14, 15 until a uniform illumination intensity is obtained.

The distance between the camera 2 and the sample 1 and the focal length of the lens are matched to one another in such a way that only a field of 1 dm² is imaged.

Due to the selected design of the receiving device, it is also possible to large specimens, for. B. car doors to measure by placing the cradle with the window 11 directly on a larger sample.

Claims (17)

1. A method for determining and evaluating surface changes on specimens exposed to natural or artificial weathering, in which

• - the specimens before the weathering and during the weathering were recorded at predefinable time intervals using an electronic camera under defined and reproducible lighting and imaging conditions,
• - digitized the pictures,
• - stored in a computer,
• - Grayscale histograms of the images are produced using the computer,
• - by forming the difference between the grayscale histograms of the unweathered specimen or a standardized reference field and the weathered specimen, the surface changes are determined as a function of the weathering and
• - The change is shown graphically or in tabular form.

2. The method according to claim 1, characterized in that the Test pieces with directed, constant light one predeterminable color temperature are illuminated. 3. The method according to claim 2, characterized in that that the test pieces at an angle of 45 ° to 60 ° Axis of the camera are illuminated. 4. The method according to claim 3, characterized in that a uniform illumination of the respective specimen by placed in the beam path of the lighting, asymmetrical transparent absorber is set. 5. The method according to any one of claims 1 to 4, characterized in that during the weathering period the atmospheric conditions, like sunshine duration, Intensity of ultraviolet radiation, precipitation, registered, digitized and the grayscale histograms the surface changes are assigned.   6. The method according to any one of claims 1 to 5, characterized in that the specimens before and during weathering at intervals of one to five seconds be recorded several times, each image up to eight times is added up and then saved. 7. The method according to any one of claims 1 to 6, characterized in that each sample has a has electronic readable address. 8. The method according to claim 7, characterized in that the Address from one placed on the sample Bar code exists. 9. The method according to any one of claims 1 to 8, characterized in that the digitized images via remote data transmission in real time or from the Memory to one or more spatially distant Evaluation stations are transmitted. 10. The method according to claim 9, characterized in that for remote data transmission a digital telephone connection is used. 11. The method according to claim 9 or 10, characterized in that the different evaluation stations these belonging specimens are assigned via their addresses  and the corresponding digitized images just over these addresses are available. 12. Device for determining and evaluating surface changes on natural or artificial weathering exposed specimens ( 1 ) with

• - an electronic camera ( 2 ) which is designed for the production of images of the specimens at predefinable time intervals and for the output of corresponding image signals,
• a lighting device ( 3 ) which is designed for illuminating the test pieces under defined and reproducible conditions,
• a digitizing device ( 4 ) connected to the electronic camera ( 2 ) and designed for converting the image signals into digitized image data,
• - at least one computer ( 5, 8 a- 8 e) or is designed for storing the digitized image data and for creating grayscale histograms of the images,
• - At least one display device ( 9 a- 9 e), which is designed for the graphic or tabular display of the surface changes of the weathered specimens as a function of weathering.

13. The apparatus according to claim 12, characterized in that the electronic camera ( 2 ) is arranged so that its optical axis is perpendicular to the surface of the specimen ( 1 ), and that the lighting device ( 3 ) is arranged so that the direction of illumination forms an angle of 45 ° to 60 ° for the test piece with the optical axis of the camera. 14. The apparatus according to claim 13, characterized in that the camera ( 2 ) and the lighting device ( 3 ) in a light-tight housing ( 10 ) with remission-free inner surfaces and with a window ( 11 ) for placing a test piece ( 1 ) are arranged. 15. The apparatus according to claim 14, characterized in that screens ( 12, 13 ) are arranged in the beam path of the lighting device ( 3 ), which limit the lighting to the window ( 11 ). 16. Device according to one of claims 13 to 15, characterized in that at least one adjustable, asymmetrical, transparent absorber ( 14, 15 ) is arranged in the beam path of the light source ( 3 ). 17. The apparatus according to claim 16, characterized in that the absorber ( 14, 15 ) consists of a gray wedge.