NL8402200A - METHOD AND APPARATUS FOR THE CONTINUOUS, NON-DESTRUCTIVE MATERIAL CHECK OF CONTINUOUSLY MOVED BELT MATERIAL - Google Patents

Description

4 4Γ he NL 32184 -dV / Me / kvn

Method and device for the continuous, non-destructive material control of continuously moved belt material.

The invention relates to a method for the continuous, non-destructive material control of continuous, at a speed νβ, moved belt material, in particular of continuously moved conveyor belts, wherein the radiated rays of a radiation source are aimed at the moved belt material and the transmitted rays generated transmissive image are visualized on a fluorescent screen, wherein the transmitted rays in the direction of movement of the tape material form a ray cone, which has the width b on the tape material.

The width b in the direction of movement of the belt is, for example, 60 cm. Perpendicular to the direction of movement, it corresponds to the bandwidth for efficiency. The belt material may in particular be conveyor belts which work in underground companies. Such conveyor belts move, for example, at a speed of up to 7 meters per second.

The invention furthermore relates to a device for carrying out such a method. Within the framework of the measures (known in practice) according to the above-mentioned type, the fluorescence screen is observed by the operator. It is not possible, as it were, to parse the observation into separate images and to evaluate them independently of the instantaneous observation via screen evaluation or automatically.

The object of the invention is to adapt the method in such a way that a decomposition of the observation into individual images and a corresponding evaluation by screen evaluation or by automatic image evaluation are possible.

For this purpose, the method according to the invention is characterized in that the radiation source with an impulse action with radiation pulses of an impulse duration t ^ at a period time T and consequently a given pulse frequency f is operated, the impulse duration t_ being selected such that V ,, t XD 1 35 is small compared to a desired solution, while V_ / f is small compared to the width b of the beam o cone on the belt material in the direction of movement and where 8402200 Λ - 2 - 4 according to the pulse frequency is a continuous series of X-ray images are produced on the fluorescent screen, and that the X-ray images are recorded on the fluorescent screen using a video camera and electronically stored, which is also impulse-operated, in synchronism with the impulse action of the radiation source.

Within the scope of the invention it is possible to work with an X-ray tube as a radiation source. In that case, the impulse action of the radiation source can be obtained by applying an appropriate reverse voltage in the form of a pulsed high voltage. This is how X-ray flashes work together. However, it is also possible to work with a gamma-ray preparation as a radiation source.

In that case, the impulse action is efficiently obtained with the aid of a rotating diaphragm, which has windows for transmitting radiation pulses, while shielding takes place between the windows according to the period period. In the method according to the invention, the pulse duration tx is generally small compared to the period time. This can be used to record the X-ray images using the video camera. To this end, the invention is characterized in that the individual transmitted images are stored on the fluorescent screen to the extent of the period time T from transmitted image to transmitted image. This can be easily accomplished with the help of modern electronics. In general, one will of each; corresponding to the width b of the beam cone / area of the moved belt material, take several irradiation images, so that as a result the belt material is continuously screened in continuous operation with the chosen solution and can therefore be examined for errors. Within the scope of the invention it is possible to elucidate the transmitted images on a fluorescent screen electronically by means of an image enhancement. In principle, the pulse duration t is determined by the desired resolution of approximately 1 mm in the direction of movement of the belt material. The pulse duration t ^ does not exceed 150 for efficiency reasons. The period 40 time T and consequently the pulse frequency f is determined by the video 8402200 - 3 - - camera image follow-up of, for example, 25 images per second. With an X-ray flash, an image is completely illuminated. Due to an image follow-up frequency of 25 Hz, sufficient overlap is usually given (since, for example, at a band-5 speed of 7 m per second, the following image is recorded after a hand movement of 280 mm).

The advantages achieved must be seen in that, according to the method according to the invention, the screening of moved belt material during a continuous, non-destructive material control is decomposed into a series of individual images which are subjected to a separate image evaluation by means of screen evaluation or automatic image assessment can be subject. To this extent, the method according to the invention leads to a series of individual images, but the method can nevertheless be controlled without difficulty in such a way that the tape material in continuous operation can be examined with sufficient accuracy and completely for errors according to the degree of solution. . Of particular advantage is the fact that for carrying out the method according to the invention it is possible to work with proven parts and aggregates. An apparatus for carrying out the method according to the invention is therefore characterized by an X-ray tube, a fluorescent screen, optionally an image intensifier, a video camera with a recording device and by a device for the impulse action of the X-ray tube, as well as the video camera synchronous with each other.

The invention will be explained in more detail below with reference to a drawing, which shows only an exemplary embodiment.

Fig. 1 schematically shows a device for carrying out the method according to the invention.

Fig. 2 schematically shows a diagram explaining the impulse action of the device of FIG. 1.

The construction of the device shown in Fig. 1 basically consists of an X-ray device with an X-ray tube 1, a fluorescent screen 2, an image intensifier 3, a video camera 4 and a recording device 5 connected behind it for the video camera 4. images.

40 The video camera 4 and the X-ray equipment 1 are coupled via an 8402200 * - 4 - direction 6 to obtain an impulse effect. Pulses are applied synchronously. Between the X-ray tube 1 and the fluorescent screen 2, the tape material 7 continuously moves, which can be subjected to a continuous, non-destructive material control in the moved state. There may be a continuously moved conveyor belt in an underground company. The moved belt material 7 moves at the speed V_, this speed is shown in Fig. 1. It can be seen that the radiated rays of the radiation source 1, which in the embodiment is chosen as X-ray tube, are directed at the moved belt material 7. The radiation source 1 is pulse-operated with radiation pulses of a pulse duration t ^ at a period time T and consequently given pulse frequency f. The pulse duration t, as well as the period time T and the consequent relationship are shown in FIG. 2, where the abscissa shows the time, and the ordinate shows the intensity of the radiation rays. The control is designed such that the pulse duration tj is chosen such that Vgtj as a product is small compared to the solution (eg 1 mm) and Vg / f is small compared to the width b of the beam cone measured in the direction of movement at the tape material 7. Thus, according to the pulse frequency, a continuous series of X-ray images on the fluorescent screen 2 is obtained. The transmitted images are recorded on the fluorescent screen 2 with the aid of a video camera 4 and electronically stored. An image intensifier. 3 is switched. The video camera 4 is also used with an impulse effect, namely in synchronism with the impulse effect of the radiation source 1. Each area of the moved band material 7 corresponding to the width of the beam cone 8, a plurality of transmitted images are recorded, which are mutually overlap accordingly. Therefore, the moving belt material 7 can be fully examined for errors with running accuracy with running solution.

The evaluation takes place by separate image evaluation of the images stored with the aid of the video camera 4 by means of screen evaluation, or by automatic image evaluation.

8402200

Claims (5)

1. Method for the continuous, non-destructive material control of continuous, at a speed νβ, moved belt material, in particular of continuously moved conveyor belts, wherein the radiated rays of a radiation source are aimed at the moved belt material and a X-rays generated X-ray image is visualized on a fluorescent screen, wherein the X-rays in the direction of movement of the belt material form a ray cone, which has the width b 10 on the belt material, characterized in that the radiation source with a pulse action with radiation pulses of a pulse duration t at a period time T and consequently given pulse frequency f, the pulse duration t is chosen such that VDt is small compared to a desired solution, while V / f is small compared to the wide -te b of the ray cone on the belt material in the direction of movement and according to the degree of the pulse frequencies A continuous series of X-ray images is produced on the fluorescent screen, and the X-ray images 20 are recorded on the fluorescent screen by means of a video camera and electronically stored, which are also used with pulse operation, in synchronism with the pulse operation of the radiation source. 2. A method according to claim 1, characterized in that an X-ray tube is used as the radiation source. 3. A method according to claim 1, characterized in that a gamma ray preparation is used as the radiation source. 30 A method according to any one of claims 1 to 3, characterized in that the individual transmitted images are stored on the fluorescent screen according to the period time T from transmitted image to transmitted image. 35 5. A method according to any one of claims 1-4, characterized in that a plurality of X-ray images are stored for each area of the moving belt material corresponding to the width b of the radiation cone in the direction of movement. 8402200-6 - β. Device for carrying out the method according to any one of claims 1, 2 and 4 and 5, characterized by an X-ray tube (1), a fluorescent screen (2), optionally an image intensifier (3), a video camera (4) with registration device (5) and by a device (6) for impulse control of the X-ray tube (1), as well as the video camera (4) synchronously with each other. 8402200