SU1000895A1 - Device for checking ferromagnetic article physical mechanical parameters - Google Patents

Description

one

The invention relates to non-destructive testing and can be used to control the physical and mechanical parameters of ferromagnetic electrically conductive objects.

A device for monitoring the physicomechanical parameters of ferromagnetic products, comprising two measuring stages, including a series-connected generator, an electromagnetic Q transducer, a selective amplifier and a phase detector, and a phase shifter connected between the output of the generator and the reference input of the detector, subtracting the cascade, ( s is the input with the outputs of the corresponding measuring channels, and the indicator L l connected to the output of the subtracting stage.

A disadvantage of the known device is the low control performance, which is associated with the need for periodic balancing of the measuring channels.

The closest to the invention in its technical essence is a device for monitoring the physicomechanical parameters of ferromagnetic products, comprising a series-connected control generator of a sawtooth voltage, oscillating frequency generator, electromagnetic converter, amplitude detector.comparator, zero-organ, memory element and a driver connected to the input of a pinch voltage generator, a second electromagnetic transducer and an amplitude detector connected in series, are switched on between the output of the oscillating frequency generator and the second input of the comparator, the reset unit connected by the output to the an & memory stick and sawtooth generator, and an indicator connected to the output of the oscillating frequency generator G 2.

Claims (1)

However, even this device does not have the necessary performance of the counter drop, which is connected with the necessity of fixing the balance frequency and returning the device to the initial state. The purpose of the invention is to increase the productivity of the control. The goal is achieved by the device for monitoring the physical and mechanical parameters of ferromagnetic products, containing sequentially connected control generator, oscillating frequency generator, electromagnetic converter, amplitude detector and comparator connected in series to a second electromagnetic converter connected to the input of: generator output oscillating frequency, and the second amplitude detector, as well as the indicator, is equipped with a series-connected constant source a second comparator connected by another input to the output of the second amplitude detector, and a pulse shaping unit connected by a second input to the output of the first comparator and an output to an indicator, and the second input of the first comparator is connected to the output of a constant voltage source. In addition, the impulse forming unit is made in the form of a trigger and two differentiating chains connected by outputs to the corresponding trigger inputs. The drawing shows a block diagram of a device for monitoring the physicomechanical parameters of ferromagnetic products. The device consists of a series-connected controlling generator 1, a oscillating frequency generator 2, an electromagnetic transducer 3, an amplitude detector 4, a comparator 5, a pulping unit 6 and pulses, and an indicator 7 connected between the oscillating frequency generator 2 and the second pulse shaping unit 6 serially connected second electromagnetic transducer 8, amplitude detector 9 and comparator Yu, as well as source 11 P0 of a stationary voltage} ke1ga; connected to the second inputs of the comparators 5 and 10. It is recommended that the impulse shaping unit 6 be executed as trigger 12 and the differentiating chains 13 and 14 connected to its inputs. A device for monitoring the physicochemical parameters of ferromagnetic products works as follows. Electromagnetic transducer 3 is installed on a controlled ferromagnetic ischand (not shown), and electromagnetic transducer 8 is mounted on a reference sample (not shown). The threshold for the comparators 5 and 10 is set by the voltage UQ of the constant voltage source 11. As the voltage on control generator 1 of control voltage increases, the frequency of oscillating frequency generator 2 increases. Let at the beginning of the frequency range at f Eo the voltage taken from the electromagnetic converter 3 is greater than the voltage taken from the electromagnetic converter 8. Then at a certain frequency -7 -f the voltage rectified by the amplitude detector 4 coincides with the threshold voltage QQ at the comparator 5 and at its output a pulse appears, which shortens on the differentiating chain 13 and triggers trigger 12. When a certain frequency reaches 5-7, the voltage rectified by the amplitude detector 9 coincides with the threshold voltage Oo at the comparator 10 and at its output a pulse appears that is shortened on the differentiating chain 14 and overturns the trigger 12 to the initial state. The pulse duration at the output of the trigger 12 is measured by the indicator 7, according to whose indications a controlled parameter of the product is determined. The proposed device for controlling the physicomechanical parameters of ferromagnetic objects has an increased monitoring performance by eliminating the balance frequency measurement operations and setting the initial state of the device, which achieves the introduction of a constant voltage source: a second comparator and a pulse shaping unit. The claims of the invention 1. A device for monitoring the physicomechanical parameters of ferromagnetic products, containing sequentially connected control generator, oscillating frequency generator, electromagnetic converter, amplitude detector and comparator connected in series by a second electromagnetic converter connected by an input to the output of the oscillating frequency generator, and second amplitude detector as well