SU98321A1 - Device for measuring the magnitude of periodically varying electrical resistance - Google Patents

Description

Sometimes the resistance of any current receiver varies periodically from some minimum to some maximum value, and it is sometimes necessary to measure the average of its minimum or maximum values.

For example, the resistance of the sensor of the moisture index of the base of the fabric when it moves through the contact device is not constant over time, but periodically changes from some maximum to some minimum value.

This is due to the shunting of the contact device with yarn defects, thickened yarns, etc., which do not dry out in the dryer and have less resistance. Thus, the average effective resistance of the sensor, measured by a megohm meter, is a function not only of the moisture content of the substance being measured, but also of the specific quantity of yarn defects and the quality of the drying devices.

The measurement of the average effective resistance value of the sensor introduces an error in the measurement of humidity.

To eliminate the error due to uneven drying caused by the unevenness of the yarn, it is desirable to have a device that measures the average maximum value of the periodically varying resistance of the sensor.

On the other hand, to construct a moisture indicator for a stuffed fabric (after a printed dryer), it is necessary to have an instrument that indicates the average minimum value of the variable resistance of the sensor.

Fabric stuffing can be primed when the entire field of fabric is covered with paints of various colors, and it is rare when only a few sections of fabric in the form of peas or flowers are covered with paint on a printing press.

At equal humidity of the dyed parts of the fabric, the average resistance of the sensor. In the two cases under consideration,

will be equal to each other, i.e., for the purpose of measuring humidity in this case, it is necessary to measure the average minimum change in the change in resistance of the sensor.

The subject of this invention is an electrical measuring device, allowing the determination of the average value of the maximum or minimum values of periodically varying electrical resistances.

The principle of operation of the device is based on the well-known method of measuring the resistance of a lamp voltmeter-lio to the magnitude of the voltage drop on the additional resistance of a known value, connected in series with the measured resistance to a stable voltage of the direct current source.

The peculiarity of the new measuring device is the connection to the additional resistance of a parallel circuit consisting of a series-connected auxiliary resistance and an electric capacitor, of which the first is shunted by a one-period rectifier and the second is connected to a lamp voltmeter. As a result, the latter will measure the sum (or difference, depending on the direction of the switching on of the rectifier) of two voltage drops, one of which is created on the additional current by the measuring circuit current, and the other on the auxiliary resistance by single-component variable component current. Noah chain.

The drawing shows the electrical circuit of the proposed device.

An electronic lamp /, a galvanometer 2 in its anode circuit and an electric filter consisting of a resistance 5 and a capacitor 4 connected at the inlet of the lamp, together form a lamp voltmeter.

A voltmeter potential input is applied to the potential difference, removed from the ends of an additional 5 and auxiliary 6 resistances. A additional impedance 5 is connected in series with the measured resistance 7 (for example, the resistance of a contact humidity sensor) and with an additional resistance 8 per DC source. Resistance 8 serves to limit the short circuit current in the measuring circuit. Resistance 6 is connected to resistance 5 through a capacitor 9, which in turn is connected to a lamp voltmeter. Parallel to resistance 6, a half-wave rectifier 10 (detector) is switched on.

Due to the fact that the resistance 7 periodically changes in time, the current in the measuring circuit (4 -) - o-8-7 - (-) also changes accordingly. Therefore, the voltage drop across the resistance 5 created by this current will also change.

On the other hand, the variable component of the current corresponding to the variable component of the voltage drop across the resistance 5 will flow through the circuit 9-6.

Owing to the detecting effect of the rectifier 10 to the resistance 6, a variable voltage occurs in magnitude in an unchanged direction. As a result, an algebraic sum of the voltage drops across the resistances 5 and 6 was fed to the input of the lamp voltmeter.

If the voltage across resistance 6 is subtracted from the voltage across resistance 5 (which corresponds to switching on the capacitor 10}, galvanometer 2 will show the average value of the maximum values of the resistance being measured 7.

If the rectifier switching on is reverse (shown in the diagram by a dotted line, the rectifier is indicated by the position /), then the voltage drop and the resistance 6 will increase the potential by

the lamp grid / and the reading of the galvanometer 2 will correspond to the average value of the minimum values of the periodically varying measured resistance 7.

The described measuring device can be used to measure the moisture content of fibrous materials, as well as to measure the moisture content of the fabric after the printed drying. In the first case, the instrument should measure the average maximum value of the sensor resistance, and in the second, the average minimum value.

Subject invention

A device for measuring the magnitude of a periodically varying electrical resistance by the method of measuring with a lamp voltmeter a voltage drop at an additional (known) resistance, connected in series with the measured

resistance in a DC source circuit, characterized in that, in order to determine the average value of the maximum or minimum resistance values during its periodic variations over time, parallel to the additional resistance is a circuit consisting of series-connected auxiliary resistance and an electric capacitor, of which the first is shunted by a half-wave rectifier, and a lamp voltmeter is connected to the second, as a result of which the latter will measure the sum (or different The stiffness depends on the direction of connection of the rectifier to two voltage drops, one of which is created on the additional resistance by the current of the measuring circuit, and the other on the auxiliary resistance by unipolar pulses of the variable component of the current of the measuring circuit.