SU1033850A1 - Method of measuring conductor cross-section deviation and device using the same (its versions) - Google Patents

Abstract

1. A method for measuring the transverse conductor segmented variation by comparing the potential difference of two points located on a conductor section connected to a current source with a standard, characterized in that, in order to increase measurement accuracy, the potential difference of two points in the section is also measured, cover (dem plot, connected to the current source, the deviation of sections is determined by the ratio of the specified potential differences.

Description

2. With the aid of claim 1, characterized in that with additional measurement, the potential difference is determined at points previously connected to the current source, and the points are connected to the current source, between which the potential difference is measured.

3. A device for measuring the deviation of the conductor cross section containing a current source, power contacts connected to it, a measuring circuit, a pair of measuring contacts, characterized in that, in order to improve the measurement accuracy, it is equipped with an additional pair of measuring contacts, the node of displacement of the connection point one of the contacts of the second pair of measuring contacts to the conductor under study and the measurement of the specified movement, an analog signal divider with the setting device, are connected to the inputs of the divider both pairs of measuring pins.

C. A device for measuring the conductor cross-sectional deviation, containing a current source and a measuring circuit with a converter, characterized in that, in order to improve measurement accuracy, it is equipped with two valve bridges, whose terminals of the same name are connected to a power source, and another terminal stability - to the measuring circuit, and a potentiometer, one arm of which is connected in parallel with the measuring circuit, and the other in the bridge arm, connected to the measurement circuit.

The invention relates to a measurement technique and can be used to control the cross section of moving conductive cores, as well as the thickness of the sheaths of conductive material, mainly with high ohmic resistance, during the manufacture of the product. The known method allows determining the thickness of a moving conductor in the form of a tape with correction of indications when its width is changed, and a device for its implementation Ql. The disadvantage of the method and device is the error associated with fluctuations of the electrical resistivity of the conductor and an increase in the temperature of the conductor when passing through its electric current. The closest to the invention in its technical essence is a method for measuring the conductor cross section deflection by comparison with this oxazolidinone potential difference of two points on the conductor portion connected to a current source. A device for measuring the conductor cross-sectional deviation, containing a current source, power contacts connected to it, a measuring circuit, with a converter, a pair of measuring contacts 2 J. The disadvantage of the method and device is the low measurement accuracy when changing: the specific resistance of the sample caused by a change in the impurity content in alloys and its physical state, as well as the instability of the current flowing through the sample. The purpose of the invention is to improve the measurement accuracy. This goal is achieved by the fact that, according to the method for measuring the deviation of the conductor cross section, by comparing with the standard the potential difference of two points located in the conductor section connected to the current source, the potential difference of two points in the section encompassing the section connected to the current source is additionally measured The deviation of the cross section is determined by the ratio of the indicated potential differences. In addition, with the additional measurement, the potential difference is determined at points previously connected to the current source, and the points between which the potential difference is measured are connected to the current source. In the first embodiment, the device for measuring the deviation of the transverse cross. A conductor containing a current source, connected to it power contacts, a measuring circuit, a pair of measuring contacts, is equipped with an additional pair of measuring contacts, a node moving the attachment point of one of the contacts of the second pair of measuring contacts to the studied conductor and measuring the specified movement, divisor signal with a dial, both pairs of measuring contacts are connected to the divider input. In the second version, the device for measuring the conductor cross section deviation, containing current sources and measuring circuit with converter, is equipped with two valve bridges, whose terminals of the same name are connected to the power source, and terminals of the other polarity are connected to the measuring circuit, and a potentiometer, one arm of which included parallel to the measuring circuit, and the second. in the shoulder of the bridge, connected to the measuring circuit. FIG. 1 and 2 are schematic diagrams of embodiments of a device for measuring the deviation of a conductor cross section. In the device according to the first embodiment (Fig. 1), a conductor with control points 1-6 is placed. The device contains a current source 7, power contacts 8 and 9 for connecting points 1 and i to source 7, measuring contacts 10 and 11 for connecting to points 2 and 3 of a conductor, measuring contacts 12 and 13 for connecting to points 5 and 6 of a conductor, measuring pins 10-13 are connected to the inputs of an analog signal divider containing amplifiers 1A and 15 connected to the input of dividing unit 16. the output of the latter through a comparison circuit 17 is connected with the measuring circuit 18, a set-up device 19 is connected to the second input of the comparison circuit 17. The device is equipped with an assembly 20 for moving and measuring the movement of the measuring contacts 12 and 13. The device according to the second variant (Fig. 2) costs of the valve modules 21 with the same terminals 22-23 2Y-25, 26-27 and 28-29, plus terminals. we are 22 and 23 of which are connected to points 1 and 3 of the conductor, and terminals 2k. 1 0 and 25 of the opposite polarity are connected to points 2 and respectively. The output ends of the current source 7 are connected to terminals 26 and 27, and the measuring circuit 18, together with the converter 30, is connected to points 28 and 29 of different bridges 21. The device also contains a potentiometer 31, one arm 32 of which is connected in parallel with the measuring circuit 18, and the second shoulder 33 is included in the shoulder between terminals 23-29 of the bridge. The device in the first embodiment works as follows. The device is connected to a reference conductor having a cross section corresponding to the nominal cross section of the conductor to be measured. Rotating the knob of the knob 19 sets the pointer of the measuring circuit 18 to the zero position. After that, the device is connected to the conductor to be measured, and the deviation of the conductor cross section is judged by the indications of the measuring circuit 18. If the null organ is used as the measuring circuit 18, one can judge the deviation of the conductor cross section by the position of the measuring contacts 12 and 13 at the neutral position a null organ. The device according to the second variant operates as follows. At the initial moment of time (in the first half period) the current from source 7 is passed through contacts 8 and 9 in the area between points 1 and k of the conductor. At this time, measuring circuit 18 is connected via contacts 10 and 11, respectively, to points 2 and 3 of the conductor and registers the potential difference between points 2 and 3 inside the section through which current flows. After changing the direction of the current (second half period) of the current source 7 is connected via contacts 10 and 11 to conductor points 2 and 3, respectively, and measuring circuit 18, respectively, via contacts 8 and 9 to points 1 and 4, measuring the potential difference between points 1 and out of section 2-3, through which current is passed. Since the internal resistance of the current source 7 is high, the current remains almost constant during each half period, and therefore the measuring circuit 18 detects,

Claims (4)

1. The method of measuring the deviation of the cross section of the conductor by comparing with the standard the potential difference of two points located on a portion of the conductor connected to a current source, characterized in that, in order to improve the accuracy of the measurement, the potential difference of two points is additionally measured on the portion spanning the section connected to the current source, the deviation of the cross section is determined by the ratio of the indicated potential differences. Flg. one О с с ОО СП СП о> 2. With benefits pop. ^ characterized in that with an additional measurement, the potential difference is determined at points previously connected to the current source, and the points between which the potential difference was measured are connected to the current source. 3. A device for measuring the deviation of the cross section of the conductor, containing a current source, power contacts connected to it, a measuring circuit, a pair of measuring contacts, characterized in that, in order to improve the measurement accuracy, it is equipped with an additional pair of measuring contacts, a node for moving the connection point of one from the contacts of the second pair of measuring contacts to the studied conductor and measuring the indicated displacement, by the divider of the analog signal with the setter, the inputs of the divider are connected pair of measurement contacts. 4. A device for measuring the deviation of the cross section of the conductor, containing a current source and a measuring circuit with a converter, characterized in that, in order to improve the measurement accuracy, it is equipped with two valve bridges, the terminals of the same name are connected to the power source, and terminals of a different polarity are connected to a measuring circuit, and a potentiometer, one arm of which is connected in parallel with the measuring circuit, and the second in the bridge arm connected to the measuring circuit.