CH716055B1 - Device for detecting errors. - Google Patents

Abstract

The invention relates to a device for detecting defects and/or parameters using non-destructive material testing, specifically using ultrasound. The device should display recently determined measured values repeatedly and with little effort. For this purpose, the device comprises a housing (2), operating elements (4) and measurement and evaluation electronics (6) and the measured values determined can be viewed on a display. The measuring and evaluation electronics (6) are set up to generate a cache array in order to display the full peaks of values obtained, which form a signal plot, such as an A-scan, determined measured values and/or a measured value profile (measured value profile) to save and edit, so that saved measured values and / or measured value curves can be viewed repeatedly on the display (3).

Description

The invention relates to a device for detecting errors and / or parameters using non-destructive material testing, using ultrasound.

Methods for non-destructive testing of materials and structural components under industrial conditions are known. For example, using eddy current measurements in electrically conductive or metallic materials or using X-rays and ultrasound in metallic and non-metallic materials. Internal defects such as gaps, cracks or cavities can be identified.

In a well-known method for ultrasonic non-destructive testing of pipe welds, for example, an ultrasonic wave beam penetrates an object to be tested by means of a transducer so that echo reflections of an internal structure of the object can be detected and the properties of the internal structure can be determined.

A piezoelectric crystal is excited into a pulse by electrical energy, causing a beam of ultrasonic waves to be emitted. It is also known that an ultrasonic wave beam penetrating the object is reflected at a flaw and returned to the piezoelectric crystal along the transmission path, and the piezoelectric crystal thereby generates an electric signal. Thus, it is possible to detect flaws in the internal structure of the object by detecting the electrical signals generated by the crystal.

Corresponding devices are disclosed, for example, in EP 0420639 B1 or DE 19642072 C2.

[0006] Test devices of this type, also known as flaw detectors, can be stationary or mobile and also portable.

[0007] Portable ultrasonic testing devices can partially map all conventional measuring principles for determining the size of defects such as DGS/AVG, DAC, TCG or AWS: DGS/AVG - Distance Gain Sizing (distance gain size) is a method for assessing the sensitivity or the assessment of the signal of a unknown reflector, based on the theoretical echo of a flat-bottomed pinhole reflector perpendicular to the beam axis; DAC - Distance Amplitude Curve is a method of compensating for the fact that a reflector's impulse-echo response will decrease as the distance of the reflector from the ultrasonic probe increases; TCG - Time-Corrected Gain is a method of compensating for a reduction in the amplitude of a signal as the choice of equal-area reflectors increases. This is achieved by increasing the system gain over time so that the signals appear with the same amplitude (TCG performs the same tasks as DAC); AWS - American Welding Society, whose Structural Welding Code section D1.1 defines established procedures for classifying discontinuities in welds according to "D rating", compared to an accept/reject table as provided by AWS for assigning a discontinuity's weight classify.

[0008] Various views, for example A, B or C scan views, can be displayed, so that devices of this type can be used in a variety of ways. An A-scan shows the sum of received ultrasound energy (signal strength) versus time.

These scans can be saved for further verification and traceability. However, the memory requirement is high and finding individual scans is time-consuming.

The invention is therefore based on the object of avoiding the disadvantages of the prior art and of developing a device for viewing A-scans that makes it possible to display sequences of measured values repeatedly and with little effort.

The object is achieved with the characterizing features of patent claim 1.

Here, a cache array is created using software to provide surveys of the full points that make up A-scan data. If the information is repeated, a user can go through the history of the collected information frame by frame. A complete data set or a complete set of digitized measurement signals, not just collected images or image recordings as in the prior art, is available for post-processing and analysis. Measured values and/or measured value profiles can thus be viewed repeatedly on a screen.

According to the invention, a device for detecting errors and/or parameters by means of non-destructive material testing comprises a housing, operating elements and measurement and evaluation electronics as well as an associated display. Measured values are shown on the display.

In one embodiment, the measuring and evaluation electronics are set up or suitable for buffering or storing a measured value shown on the display and/or a measured value curve for the purpose of subsequent viewing/processing, with a period of time for the measured value to be stored and /or a course of measured values (measured value profile) can be defined.

The device for detecting errors can be designed in an embodiment such that a rewind function is integrated in its construction. Searching for peaks once found is no longer necessary and the user can rewind data and select an A-scan that the user would like to report on without hassle.

Advantageous configurations of the device are disclosed in the dependent claims.

[0017] Using the device in one embodiment, individual, preferably short, for example up to 10 seconds long, sequences of recently measured values can be stored and viewed repeatedly as often as desired. In comparison to the playback of a complete video of a scan, as according to the prior art, not only is a considerable amount of storage space saved, but such short sequences are available more quickly as raw data and they can be stored separately.

In one embodiment, the device can be portable and can be coupled to an adapter that secures the energy supply to the device, for example by means of a battery pack located in the adapter or a rechargeable battery.

For user-friendly and ergonomic handling, the device is shaped like a bean in cross-section, for example.

The device can be used in one embodiment for other procedures, for example eddy current or half-cell corrosion or other electromagnetic or acoustic wave signals, the signal curves of which are not referred to as A-scan.

The invention is described in more detail in one embodiment with reference to a drawing. In the drawing, Fig. 1 shows a device for detecting errors, Fig. 2 shows the device according to Fig. 1 in cross section, Fig. 3 shows the device in another embodiment, and Fig. 4 shows a symbolic representation of an A scans

A device 1 for detecting defects and/or parameters by means of non-destructive material testing, for example of internal structures of an object, comprises a housing 2, which is bean-shaped in cross section (Fig. 2) and has gripping surfaces 10 on the rounded narrow sides is provided. The gripping surfaces 10 are corrugated in the example, but they can also have a polymer coating or the like. exhibit. This enables the device 1 to be operated ergonomically, possibly with just one hand.

The housing 2 is connected to at least one external display 3 for displaying measured values, as well as to operating elements 4 (not explicitly shown) that are assigned to the display 3, rails 8 for additional devices, a cover 9 for connecting an ultrasonic sensor, and mechanical coupling elements 11 (Fig. 1).

The device 1 also contains measurement and evaluation electronics 6 for ultrasonic signals, at least one memory for measured values to be stored, and other conventional electrical and electronic components.

The measurement and evaluation electronics 6 are set up to buffer/store a measured value shown on the display 3 and/or a measured value curve (FIG. 4) in the form of raw data, which is done by actuating a control element 4 that is not explicitly shown . The execution of the triggered storage command is carried out by the software implemented in the measuring and evaluation electronics 6, as is the repeated reproduction of these measured values or measured value profiles (measured value profiles) as a result of actuating another operating element 4.

In the example, a course of measured values is shown as an A-scan 5 (FIG. 4).

[0027] This storage is used for subsequent viewing and/or processing, with a period (sequence) of the measured value to be stored and/or the course of measured values being individually definable by the user of the device (user-defined). A saved measured value and/or measured value history (measured value profile) is repeated or can be shown on the display 3 as often as you like.

In an adapter 7, whose cross section corresponds to the device 1, a battery pack is arranged, which is used to supply power to the device 1. For this purpose, the device 1 can be mechanically and electrically coupled to the adapter 7 . Coupling elements 11 enable mechanical coupling, for example by latching or plug-in elements, and an electrical connection is also established in the course of this mechanical coupling. Instead of the adapter 7, the power supply to the device can also be wired using a charger.

[0029] When viewing data repeatedly, a user can step through the history of the collected information frame by frame. A complete data set or a complete set of digitized measurement signals, not just collected images or image recordings as in the prior art, is available for post-processing and analysis. Measured values and/or measured value profiles can thus be viewed repeatedly on the display 3 .

The device is Bluetooth and WiFi capable and can be paired with a mobile phone. The external display 3 of the mobile device can be used. Optionally or additionally, however, the device 1 can also be provided with an internal display in another embodiment.

The device 1 is light and easy to carry. It can be held in the hand, attached to the arm or leg and is safe to use.

Compilation of the reference numbers

1 device 2 housing 3 display 4 control element 5 A-Scan 6 measurement and evaluation electronics 7 adapter 8 rail 9 cover 10 grip surface 11 coupling element

Claims (10)

1. Device for detecting errors and/or parameters by means of non-destructive ultrasonic testing, comprising a housing (2), operating elements (4) and measurement and evaluation electronics (6), and an associated display (3), with measured values on the display ( 3) can be displayed, characterized in that the measurement and evaluation electronics (6) is set up to generate a cache array in order to display values obtained, which form a signal plot such as an A-scan, determined measured values and /or to save and edit a measured value profile or measured value profile, so that stored measured values and/or measured value profiles can be viewed on the display (3) in a repeatable manner. 2. Device according to claim 1, characterized in that the measured value and/or measured value profile can be stored by the device as raw data. 3. Device according to claim 1 or 2, characterized in that the period of time of the measured value to be stored and/or the course of the measured value is user-defined. 4. Device according to one of Claims 1 to 3, characterized in that the stored measured value and/or measured value curve can be displayed repeatedly on the display (3), the display being an internal or an external display. 5. Device according to one of claims 2 to 4, characterized in that the raw data can be processed with the device. 6. Device according to one of claims 1 to 5, characterized in that it is portable by a user. 7. Device according to one of claims 1 to 6, characterized in that the course of the measured value is an A-scan (5). 8. Device according to one of claims 1 to 7, characterized in that it is bean-shaped in cross section. 9. Device according to one of claims 1 to 8, characterized in that the device can be coupled to an external energy supply, preferably to a battery pack. 10. A method for detecting errors and/or parameters by means of non-destructive ultrasonic testing, with measured values determined being shown on a display (3), characterized in that a measured value and/or measured value curve is measured and evaluated by means of measuring and evaluation electronics (6) and a cache array is generated and shown on the display (3) and is stored in the form of raw data and that the stored raw data can subsequently be shown repeatedly on the display (3).