SU1610423A1 - Combined measuring device - Google Patents

Abstract

The invention relates to non-destructive testing of materials and products by means of vortex and radiation diagnostics methods and can be used to measure the thickness of conductive coatings. The aim of the invention is to increase the reliability of control through the introduction of additional measuring channels. During operation of the device, the controller 17 sets the excitation frequency of the eddy current converter unit 2 and the inductive converter 4. In signal processing unit 3, the amplitude and phase components of the signal of the eddy current converter unit 2 and the low frequency component of the detected inductive converter 4 are detected. particles from the surface of the product by a radiation converter. From a set of measured values, the controller 17 calculates information about the thickness of the layers. 1 hp f-ly, 1 ill.

Description

The invention relates to non-destructive testing of materials and products by eddy current and radiation diagnostics' and can be used to measure the thickness of conductive coatings.

The aim of the invention is to increase the reliability of control by introducing additional measuring channels.

The drawing shows a block diagram of the proposed device.

The device contains sequentially connected generator block 1, eddy current transducer block 2 and signal processing unit 3, the second input of which is connected to generator block 1, inductive transducer 4 connected in series with generator block 1, controllable amplifier 5, synchronous detector 6, reference the input of which is connected to the generator unit 1, a controlled low-pass filter 7 and a direct current amplifier 8, the output of which is connected to the signal processing unit 3, connected in series with a radiation transducer 9, amplifier driver 10, counter resolution unit 11 and counter 12, timer 13 connected to the second input of counter section 11, eddy current transducer block movement mechanism 14 connected to eddy current transducer block 2 and inductive transducer 4, block 15 information output, mode input register 16 and controller 17 connected to block 3, eddy current transducer block movement mechanism 14, generator block 1, mode input register 16, information output block 15 controlled by Zapra amplifier trolled low frequency filter 7, an amplifier 8 VDC, the counter 12, the timer 13 and the shaper-amplifier 10.

The device operates as follows.

The operation of the device is controlled by the controller 17 according to the program recorded in its memory. Depending on the number of layers to be measured, the number of measurement steps equal to or greater by one when using coating samples is selected.

The controller 17 sets the frequency of the signal of the generator block 1, which feeds the eddy current transducer block 2 and the inductive transducer 4. The eddy current transducer block movement mechanism 14 sets the eddy current transducer block 2 above the monitored point. Eddy currents are recorded and supplied to the signal processing block 3, which performs the amplitude-phase signal processing and digitization.

At the same time, the signal from the inductive converter 4 is supplied to the controlled amplifier 5, then to the synchronous detector 6. From the detected signal, the controlled low-pass filter 7 extracts a low-frequency component, which, after amplification by the DC amplifier 8, is supplied to the signal processing unit 3. With the simultaneous use of the radiation method, the mode input register 16 sets the time interval for the timer 13 to turn on the count resolution unit 11. Electrical pulses from the radiation transducer .9, 'corresponding to the beta particles, backscattered from the surface of the test object (not shown), are sent to the counter 12,

The measurement results recorded in the signal processing unit 3 and the counter 12 are read by the controller 17 and after processing are presented in the information output unit 15.

Claims (2)

Claim 1. A combined measuring device containing a series-connected generator block, an eddy current transducer block, a signal processing unit, the second input of which is connected to a generator block, a controller whose control output is connected to a generator block, an information output unit and a mechanism for moving the eddy current transducer block, connected between controller and eddy current transducer unit, characterized in that, in order to increase the reliability of control, it is equipped with a series connection by an inductive converter connected to the movement mechanism controlled by an amplifier, the control input of which is connected to the controller, a synchronous detector, the reference input of which is 5 16 keys to the generator unit, controlled by a low-pass filter, the control input of which is connected to the controller, and a DC amplifier, the control input of which is connected to the controller, and the output is connected to the third input of the signal processing unit. 2. The device according to claim 1, characterized in that it is supplied 0423 but connected in series with a radiation converter, an amplifier-driver connected to the controller, a resolution-counting unit and a counter connected to the controller, a timer connected to the second input of the counting-resolution unit and the controller, and a mode input register connected to the controller.