SU481793A1 - Digital temperature measuring device - Google Patents

Description

one

The invention relates to temperature measurement and can be applied in all areas of the industry where measurement, recording and transmission of information is required to the central control room,

equipped with computers, control devices, devices for receiving data on demand, etc.

Known. digital temperature measuring instruments containing a thermocouple connected in series with an unbalance amplifier in a bridge potentiometric circuit fed from a stabilized source, a tracking motor and an additional rheochord, the slider of which is connected to a resistor through a resistor.

In these devices, when receiving a linear output signal to a digital indicator, some standard scales have a large methodological error due to nonlinearity.

The purpose of the invention is to reduce the error of nonlinearity.

For this, in the proposed device, an additional reohord is included in the

position of the measuring rail bridge of the bridge circuit.

The drawing shows a diagram of the proposed digital device for measuring temperature.

The device contains a sensor 1 thermoelectric. measured temperature., shoulders of a bridge potentiometric circuit, resistance 6 measuring rheochords, resistance 7 and 8 additional rheochords, additional resistance 9, limiting resistance 10, shunt 11 measuring rheochords, resistance 12 between the slider and the end of the measuring rheochord, shunt 13 additional rheochord, stabilized power supplies 14 and 15, digital indicator 16, follower motor 17, unbalance amplifier 18.

The basis of the operation of a digital device for measuring temperature: using a thermo-emf sensor. An automatic potentiometer circuit, consisting of resistances of 2, 3, 4, 5, 6, 7, 9, 11, 12 and 13, is laid, with voltage brought to output 3

voltage of the device to a voltage having a linear functional dependence on temperature.

To obtain a linear output signal with a minimum methodical error of non-linearity and uniform width, the device resistor 9 and rheohord 7 are shorted through the resistor to its origin and mechanically connected. with the measuring engine of the measuring relay, included in the auxiliary branch of the bridge circuit, automatic potentiometer.

The connection of resistors 9, 12 and 13 makes it possible to vary the current characteristic in the branches of the measuring circuit in the 11.1 wide range.

Such a circuit provides an alternating current in the measuring genset G, which makes it possible, by selecting the circuit elements, to obtain a compensating voltage removed from the gang 6 of the same nature as the thermal emf sensor voltage. When comparing them, the voltage imbalance is applied to the amplifier 18, and then to the next dvigatel 17, which.produces the position of the slider of the measuring rail 6, driving the circuit into equilibrium. In this case, the scale is linear. In this form, the circuit retains all the analogs. E functions of automatic self-recording instruments for measuring temperature, (counting on a scale, recording, etc.).

A linear output signal for a digital device is obtained with the aid of a circuit. Consisting of an additional power source 15, a loaded resistance of a reichord 8, and a resistance of 1O.

The base of the reichord is in common with the base of the measuring reichord 6 and the reichord 7, and the engines of all three reichords are mechanically rigidly connected with each other.

The voltage taken from the reichord 8 varies in proportion to the measured temperature and is linearly dependent on temperature. It is fed to a digital device, calibrated in degrees Celsius.

Subject invention

A digital temperature measuring device containing a thermocouple connected in series with an unbalance amplifier in a bridge potentiometric circuit fed from a stabilized source, a tracking motor and an additional rheochord whose engine is connected through a resistor to its origin, reduction of non-linearity error, an additional reohord is included in the reohord opposite to the measurement axis of the bridge circuit.