SU711457A1 - Device for quality control of articles - Google Patents

Description

(54) DEVICE FOR THE CONTROL OF QUALITY OF PRODUCTS

Claims (2)

The invention relates to the field of non-destructive quality control of materials and products by the method of eddy currents and can be used to control the physical and mechanical properties of ferromagnetic materials in the field of thickness measurement, pyrometry, etc. A device is known for monitoring the thickness of a coating on products using the eddy current method, which contains a converter, a measuring unit, an indicator, and a functional converter that allows linearizing the dependence of the indicator readings on thickness 1. A drawback of the device is the low accuracy of the linearization of the parameter being monitored. The closest to the technical essence of the invention is a device for controlling the quality of products, which contains, in parallel, a converter and a measuring unit, a functional converter and an ingressor 2. In this device, a functional converter: ω1; forms a function that directly linearizes the dependence of the izcicator on the measured parameter. However, the operation of the device is characterized by a low control accuracy and a large laboriousness of direct linearization of the relationship between the value of the monitored parameter and the indicator readings by approximating the function inverse to the function of the output signal of the measuring unit of the monitored parameter of the product. The calculation of this function in a number of cases is of considerable complexity, therefore each device is calibrated individually according to samples. The aim of the invention is to improve the accuracy of the control. This is achieved by the fact that the proposed device is supplied with a generator of a varying voltage ruler, a comparator and a memory unit. The generator of linearly varying voltage is connected to the input of the functional-relay converter and the information input of the memory unit. The output of the measuring block 3 .7 is connected to the first input of the comparator, the output of the function converter to the second input of the comparator, the output of the comparator is connected to the control input of the memory unit, and the output of the memory unit to the indicator input. The drawing shows a block diagram of the device. Converter 1 is connected to the input of the measuring unit 2, the output of which is connected to the first input of the comparator 3. The linearly varying voltage generator 4 is connected to the input of the functional converter 5 and to the information input of the memory block 6. The output of the functional converter 5 is connected to the second input of the comparator 3, from the output of which the signal goes to the control input of the memory block 6 connected to the input of the indicator 7. The device operates as follows. The signal carrying information about the monitored product (not shown in the drawing) comes from converter 1 to measuring unit 2, where information about the monitored parameter is selected. The input of the function of the oval converter 5 is applied to the linearly varying voltage from the generator 4. The signal from the output of the measuring unit 2 and the output from the function converter 5 are compared modulo using comparator 3. At the moment of equality of these signals, the comparator 3 generates a memory enable pulse and the memory unit 6 stores the instantaneous value of the voltage at the input of the functional converter. The voltage value at the output of memory block 6 is proportional to the value of the controlled parameter of the product. Indicator 7 connected at the output of the memory unit; shows the value of the monitored parameter directly in the units of measurement of this parameter. In the device, a functional transducer approximates the dependence of the output signal of the measuring unit on the size of the product parameter being monitored, and this dependence can be calculated or experimentally determined by certified samples. The use of the device will improve the accuracy and objectivity of product quality control, and, with appropriate calibration, produce a readout of the monitored value directly in its generally accepted units of measurement, for example, Hardness in Rockwell, Brinell or Vickers units. In addition, the use of the proposed device contributes to solving the problem of automating the process of non-destructive control in mass and large-scale production. Claim device for quality control of products containing series-connected converter and measuring unit, functional converter and indicator, characterized in that, in order to increase control accuracy, it is equipped with a linearly varying voltage generator, comparator and memory unit, linear the variable voltage is connected to the input of the functional converter and the information input of the memory unit, the output of the measuring unit is connected to the first input of the comparator, the output of the functional converter is connected to the second input of the comparator, the output of the comparator is connected to the control input of the memory unit, and the output of the memory unit to the input of the indicator. Sources of information taken into account in the examination 1. A. Dorofeev A. L. Measurement of the thickness of coatings using eddy currents. M., Mechanical Engineering, SNTO Priborprom, -1975, 2. Non-destructive testing by electromagnetic methods, MDNTP Collection of 2, M., 197 J, p. 101-105 (prototype).