SU883751A1 - Device for measuring resistance of thin wires temperature coefficient - Google Patents

Description

the closing and movable contacts of the push-button switch, while the disconnecting contact of the push-button switch is connected to the end of the wattmeter voltage winding.

The drawing shows a block diagram of a device for measuring a temperature coefficient of resistance.

The device contains a measuring four-shouldered bridge formed by the tested wire segment 1 placed in a thermostat 2 and resistances 3, 4, 5, and an automatic resistance box 6 with a relay unit 7 was used as a variable arm (resistance 5) to switch the decades of the shop 5 ( Automatics is based on the automation of an ohmmeter R380), with high voltage with a voltage regulator 8, the wattmeter 9 of a current winding 10 of which is connected in series to the supply bridge of the measuring bridge, and the voltage winding 11 is parallel to the mains Figure 5, the scale of which is calibrated in units of power allocated to wire 1, the zero-body 12, the scale of which is calibrated in units of linear resistance, contacts 14, relay 7, resistors-15, assembled in block 16 of the direct reference TKS, resistance 18, . which is pre-selected on the basis of the predetermined temperature range of heating the wire 1, the resistor 19 is pre-balanced.

The device works as follows.

The wire 1 placed in the thermostat 2 is heated to the initial temperature, which is set on a scale of 9 meter.

Resistance 5 in auto shop b is changed until equilibrium of the measuring bridge is reached. At the same time (in accordance with the linear resistance of the wire 1), the resistance is selected from block 16, which is connected with the galvanometer 13 to the measuring diagonal. The synchronism of these actions occurs because in the relay block 7, switching decades in the store (variable shoulder 5) —in each relay, one pair of contacts switches decades in the said store variable shoulder 5, and the second pair of contacts switches the resistance of the resistors 15 in block 16 direct reference TKS.

Pressing the button of the switch 17 closes the contacts 17-1 and 17-2, and the faKHM thus excludes the winding 11 of the wattmeter 9 from the measuring circuit and includes a galvanometer 13 into the bridge diagonal, controlling the balancing of the measuring bridge more accurately. This operation is necessary only for the test wire with a low linear resistance (up to 10 kΩ / m), since in this case there is sometimes a small imbalance of the measuring bridge. which is eliminated by the balancing resistor 19 (the value of the pre-equilibration resistance is 5-6 ohms). When the switch button 17 is released, contacts 17-2 and 17-3 close. Set | second power (second temperature of the wire 1 on the scale of the meter 9. Again, remove the switch button 17, connect the contacts 17-1 and 17-2. On the scale of the galvanometer 13 read in units of TKS.

The proposed device for measuring TKS is capable of controlling linear resistance of cast microwires in glass insulation with linear resistance from 5 to 200 kΩ / m and TKS within ± 35-KG in the temperature interval -20-100s (first modification) and accordingly from 80 to 2000 kOhm / m and in the same temperature range control of TKS within ± 30-10.

The use of this invention allows to increase the productivity of labor by 2.5 times (due to automatic balancing of the measuring bridge during initial heating and elimination of the balancing operation of the measuring bridge during the second heating of wire 1).

Claims (1)

1. USSR author's certificate 165824, cl. G 01 R 17/310 27.03.62.