SU983509A1 - Device for checking refractory materials porousity deviation - Google Patents

Description

(54) DEVICE FOR MONITORING THE DEVIATION OF THE POROSITY OF REFRACTORY PRODUCTS

Claims (2)

This invention relates to non-destructive quality control and construction properties. ceramic products made of dielectric materials, for example, refractory materials, are designed to implement a radio wave phase shadow method for monitoring the quality indicators of products, such as porosity, which allows for effective automatic non-destructive testing. . A device for quality control of products is known, comprising a generator, a splitter, two reference and measuring channels, each of which consists of successively connected resonant nodes, a detector and a preamplifier, a display unit consisting of a trigger, a fortifier, a mixing source, a nep switch, dielectric loss indication unit, with the measuring channel including a nonlinear amplifier | The closest to the invention to the technical essence is a device for controlling the deviation of the porosity of refractory products, containing the first low frequency generator, the ultra high frequency generator, which is connected through the first splitter to the first stop antennas, which are connected to one of the inputs of the first phase antenna. the detector, the output of which is connected to the input of the amplifier, the second phase detector is connected to the input of the first trigger, the first and second phasers, the key, the second trigger, a logical element And, And the first indication 2 op. The drawback of the devices is that they allow the comparison to be made at a time on only one value of the monitored parameter. At the same time, during tolerance control, it is necessary to determine to determine the presence of a disconnection of the test sample relative to the tolerance zone, i.e. the interval between the upper and lower permissible values. With the help of known devices, such a tolerance control can be carried out by conducting two time-shifted determinations with respect to two different standards, which reduces the speed of control and accuracy when conducting control in the flow. The purpose of the invention is to increase speed. The goal is to achieve a device for monitoring the porosity deviation of refractory products, including all of the first low-frequency oscillator, the ultrahigh frequency oscillator, which is connected through the first splitter to the first horn antennas, which are connected to one of the inputs of the first phase detector, the output of which is connected to the amplifier input, the second phase detector is connected to the input of the first trigger, the first and second phasers, the key, the second trigger, the logical element And the first indicator is equipped with a second branch the second and third horn antennas, the first and second filters, the third phase detector, the second and third indicators, the second low frequency generator, the first and second logic elements NOT, and the first and second modulators, the first splitter connected to the second splitter, one from the outputs of which is connected to one input of the first modulator, another input. which is connected to the second low-frequency generator and one of the inputs of the second phase detector, the output of the first modulator through the second horn antenna is connected to the input of the first phase shifter, the output of which is connected to one of the input switches, the output of which is connected to another input of the first phase detector - the first low-frequency generator is connected to one of the inputs of the third phase detector and to one of the inputs of the second module, the other input of which is connected to another output of the second splitter the output of the second modulator through tert the horn antennas are connected to the input of the second phase shifter, the output of which is. It is connected to another key input, the amplifier output is connected to the filter inputs, the output of the first filter is connected to another input of the second phase detector, the input of the second indicator is connected to one output of the first trigger, the other output is connected through the first element to one of the element inputs And, the output of which is connected to the input of the first indicator, the output of the second filter is connected to another input of the third phase detector, the output of which is connected to the input of the second trigger, one output of which is connected to the input of the third ind Ikatora, and another output of the second trigger through the second element is NOT connected to another input of the element I. The drawing shows a diagram of the device. The device contains an ultra-high frequency generator 1, splitter 2, one measuring and two supporting branches. The device operates on a two-channel zero scheme. Each support branch contains modulators 3 and 4, the inputs of which are connected to a splitter 5, and the control circuits are connected to the low-frequency generators 6 and 7, horn antennas 8 and 9, between which the reference samples imitating the upper and lower acceptable levels of the monitored parameter are installed, and phase shifters 10 and 11. The measuring branch contains horn antennas 12, between which the item to be monitored is placed. In addition, the device includes a key (tee) 13, phase detectors 14–16, amplifier 17, filters 18 and 19, triggers 20 and 21, logical elements HE 22 and 23, and element 24, as well as indicator 25–27. The device is working in the following way . Lmp-modulated frequencies f and fi microwave signals from the reference branches through the tee 13 are fed to one input of the phase microwave detector 14, to the other its input receives an unmodulated microwave signal from the measuring branch. A low frequency signal is removed from the output of the microwave phase detector. The amplitude and phase of this LF signal depends on the phase relation T between the microwave signals arriving at its inputs. When M PP.90 (where m 2n + 1, p O, 1, 2,...) The low-frequency signal at the output of the microwave phase detector is zero. With all other phase relations, the output low frequency signal is not zero. After amplifier 17, this signal, through filters 18 and 19, passes oscillations with frequencies f and f, respectively, to the phase detectors LF 15 and 16, from which the DC signal is taken. The phase detector of the low frequency in the oscillation path with frequency f responds to the phase relation between the measuring branch and the reference branch, in which the microwave signal is modulated by the frequency b. The phase detector of the low frequency in the oscillation path with frequency f responds to the phase relationship between the measuring and branches. reference, in which the microwave signal is modulated by a frequency f. Depending on the magnitude of the phase deviation относительно relative to the position corresponding to the zero output from the microwave phase detector, the output signals from the low frequency phase detectors arrive at threshold triggers 20 and 21. Trigger 20 starts at 2rFtH ((., Trigger 21 starts at 7 (2.) f IK (). Trigger triggers 20 and 21 are triggered when the deviation is More and Less relative to the norm. Deviation indicators 26 and 27 are connected to the outputs of these threshold triggers. Indicator But no (no deviation) connected to threshold thresholds black Element 24 and elements HE 22 and 23. Phase converters 10 kH produce with coordination of the measuring and optional branches in the initial position (there is no controlled product and reference samples in the inter-antenna space.) The proposed device allows to increase the response speed. A device for controlling the deviation of the porosity of refractory products; containing the first low-frequency generator, the ultra-high-frequency generator (9y, which is attached) through the first splitter to the first horn antennas, which are connected With one of the inputs of the first phase detector, the output of which is connected to the amplifier input, the second phase detector is connected to the input of the first trigger, the first and second phasers, the key, the second trigger, the logic element AND and the first indicator are different in that speed, it is equipped with a second splitter, second and third horn antennas, first and second filters, third phase detector, second and third indicators, second low-frequency generator, first and second logic elements NOT , and the first and second modulators, the first splitter connected to the input of the second splitter, one of the outputs of which is connected to one input of the first modulator, the other input of which is connected to the second low-frequency generator and one of the inputs of the second phase detector, output of the first modulator through the second horn antenna is connected to the input of the first phase shifter whose output is connected to one of the key inputs, the output of which is connected to another input of the first phase detector, the first low-frequency generator is connected one of the inputs of the third phase detector and one of the inputs of the second modulator, the other input of which is connected to another output of the second splitter, the output of the second modulator via the third horn antenna connected to the input of the second phase shifter, the output of which is connected to the filter inputs, the output of the first filter is connected to another output of the second phase detector, the input of the second indicator is connected to one output of the first trigger, the other output of which is connected through the first electric NOT to one of the inputs of the element And, the output of which is connected to the input of the first indicator, the output of the second filter is connected to another input of the third phase detector, the output of which is connected to the input of the second trigger, one output of which is connected to the input of the third indicator, and the other output of the second trigger through the second element is NOT connected to another input of element I. Sources of information taken into account during the examination 1. Author's certificate of the USSR 796772, cl. G 01 N 23/24, 1978. 2. The author's certificate of the USSR 440587, cl. G 01 N 3/38, 1972.