SE449268B - PROCEDURE FOR MAGNIFICENT TRIAL-FREE TESTING OF SAMPLING BODIES - Google Patents

Description

449 2768 2 light barriers, used for end indication. The clock signal can be provided through an encoder in the drive device by means of rollers with coupled encoders, the impeller being placed on the test object. The disadvantages here are different detector switch distances and sliding between drive unit and test object. Due to large distances between positions for the specimen end detection and the specimen head positions, additive errors of impermissible magnitude can occur. Furthermore, sealing plugs, which are often provided at the pipe ends in performing the tests, can falsify the end detection. Despite the optimal layout of this device, for pipes with wall thicknesses of less than 1.5 mm, an untested length remains at the ends of up to 10 mm.

The present invention thus aims to offer a feature which is characterized as detectors using point-focused method of the kind initially described, working dimension sample heads, that in order to take into account the sound field extent of the resp. for the error test and dimension determination use the test heads the evaluation of the signals generated by these test heads begins when the beginning of the test body has passed it in the test body feed direction and relative to the test head in question seen far flank of the sound field and ends when the test body end has passed the other , whereby the distances from the beginning of the test body resp. end relative to the sound field edges is detected by counting the forward feed of the specimen.

This procedure shall, with high reliability and speed, allow practically complete testing of the test pieces, in particular pipes and rods, even in the area of the ends of the test pieces.

The invention is explained in more detail in the following with reference to the accompanying drawing, in which Figs. 1 and 2 schematically show an exemplary embodiment of a device for carrying out the method according to the invention.

To detect the ends 2, 11 of the test objects, a dimension test head 1 is used. This test head 1 is point-focused with a single-focus diameter of, for example, less than 0.6 mm. When the beginning 2 of the test object reaches the dimension test plane 3, measured values are obtained, which, however, only lead to the triggering of the end tracking, when a preselected number of successive measured values are valid. By means of suitable means 4, for example provided with an impeller, with the displacement synchronous clock pulses, by means of the known distance 6 between the dimension sample head 1 and the next sample head 7 and by means of the previously measured width of the sound field 8 of the line-focused error sample head 7, test results occur just when the beginning 2 of the test object has passed the flank 9 of the sound field 8.

When the test object has passed the distance end l1 according to Fig. 2, reaches the dimension test plane 3 of the dimension sample head 1, final measured values are given, which lead to the triggering of the end tracking. By means of a sensor 14 offset synchronous beat pulses 5, the known distance 6 of the dimension sample head 1 to the next sample head 7 and the measured width of the sound field 8, the blocking of the test result of this sample head 7 takes place when the test object end II reaches the edge 12 of the sound field 8.

Due to the insignificant distance 6 between the sound heads and a suitably high rate sequence per unit length, the absolute error is reduced, so that the untested zone 10 at the beginning 2 of the test object 2 resp. the untested zone 13 at the end of the specimen 11 is now only very minimal. If several test heads 7 are used, the distances between the dimension test head 1 and the other test heads and the corresponding focus widths must also be taken into account.

This method according to the invention is not only useful in stationary ultrasonic (dipping technology) devices but also in devices with rotating heads (rotating devices) as well as in electromagnetic test methods.

The entry of the required distance and sound field data by means of the pacing in the calculator takes place via a test tube with defined markings, for example boreholes. Advantageously, for the evaluation, the distances between the dimension sample head 1 and the sample heads 7 and the focus widths 8 are determined automatically by means of a test object with defined markings.

Embodiment In a rotary device, type ROTA 25 RD (company NUKEM GmbH), a Zirkaloy-4 tube with a diameter of 9.5 x 0.5 mm and a length of 4 m is tested as a test object.

The individual parameters are: ROT SPEED: 8000 / minute.

Tube feed speed: 16 m / minute.

Beat rate: 1 beat / 0.1 mm.

Pulse sequence frequency: 5 kHz.

The distance from the dimension test head to the error test head: 35mm.

As a dimension sample head, a wall thickness head, 17 MHz, is spot-focused.

An error head, 15 MHz, line-focused, 4 mm focus width is used as the error sample head.

The selected number of "start" (valid) and "end" (invalid) measurement values amounted to 8 measurement data in a row.

The calibration was performed with a test tube Zry 4, 9.5 x 0.5 mm, 1.5 m length, with a bottom hole of diameter 0.5 mm as a test error.

Result: The non-usable end area was 2 1 0.4 mm.

The check was performed with correspondingly placed, artificial 449 268 errors. This area is clearly smaller than what can be achieved with previously known methods.

Claims (2)

449 268 PATENT REQUIREMENTS 1. l. Procedure for non-destructive testing of specimens, e.g. tubes and rods, by means of ultrasound, the test specimens being passed past a test section with test heads (7) for error testing and dimension determination and partly detectors (1) belonging to the test heads (7) for detecting the beginning (2) resp. the end (ll) of the specimen, the signals generated by the detectors being processed in order to suppress the beginning of the specimen resp. end of the test section generated the interference signals, characterized in that point-focused working sample test heads (IL) are used as detectors to take into account the sound field extent of the test heads used for the error test and the dimension determination (7) the evaluation of the test heads generated by these test heads when the beginning (2) of the specimen has passed the far flank (9) of the sound field seen in the feed direction of the specimen and relative to the specimen in question and ends when the end (ll) of the specimen has passed the second (front) flank (12) of the sound field, the distances from the beginning (2) or end (ll) of the specimen relative to the sound field edges are detected by counting the feed of the specimen. Method according to Claim 1, characterized in that the distances (6) from the point-shaped working sample heads (1) to the sample heads (7) and the widths (8) of the sound fields used for error testing and dimension determination are determined automatically by means of a calibration test body fitted with defined markings. "hrs