SU203281A1 - DIGITAL AUTOCOMPENSATOR OF THE STRENGTH SENSORS - Google Patents

Description

Devices for weighing moving objects are known, in which an electromechanical pulse counter with an electronic adder is used as a registering and summing device.

In the proposed device, an electromechanical pulse counter itself is used as an electronic adder, which is connected to the autocompensator register of the higher code bits, and the signal of the measuring divider connected to the lower register bits is summed with the signals of the sensors connected through a transformer, amplifier and memory to zero. indicator.

The drawing shows a block diagram of the proposed device.

At the entrance of the trolley 1 to the weighing platform 2, a signal U appears at the output of the strain gauges 3, powered by a sinusoidal voltage generator 4, which is transmitted to the signal amplifier 6 by transformer 5.

The amplified AC signal is converted to a constant voltage. To eliminate the dynamic disturbances contained in the sensor signal, a constant voltage is supplied to the C-filter of the lower frequencies with zero initial conditions, where

on capacitor 7, a signal is proportional to the Aiacce of the trolley.

At that moment, when the trolley approaches the end of the platform, which is determined by means of limit switches 8, the contacts of relay 9 are opened and the capacitor 7 is disconnected from the ground, and since the null organ is made with a large resistance, the selected capacitor 7 is memorized sensor signal.

The voltage is converted into a code by stepwise compensation methods. This input of the amplifier 6 signals with the help of the relay / U contacts is connected to the output of the measuring divider 12. In the process of conversion, the mass code of the trolley is formed in register 13, and the divider / 2 generates a signal and, equal to the signal of the sensors 0 ,,

Register 13 consists of 3 binary decimal places A, B, and B. Discharge A is units of tons, Discharge B is hundreds of kg, and Discharge C is tens of kg.

The process of converting a voltage into a digital code is carried out from the highest bit to the low bit. As it is converted from the control unit M, the command is sent to read the indications of the higher bit L and the register J3 and transfer the indications to the registering pulse counter J5, for example, an electromechanical primary pulse counter of high capacity.

After reading the readings of the high register bit 13 and the end of the voltage conversion process on the capacitor 7 to the digital code from the control unit 14, the ebros command is sent to the zero of the high bit register register 13. At the output of the divider 12, the signal Ll corresponding to the readings Junior bits B and C of the register. The contacts of the relay 9 and / 7 are switched to the initial position.

At the entrance to the weighing platform 2 of the second trolley, the signal from the sensors 3 with the nominal transformer 5 is added to the splitter 12 signal.

Thus, when weighing each subsequent trolley, when determining the total weight of all trolleys, the "remaining mass of the previous trolley, not transferred to the impulses counter 15, is taken into account, while

each time the next car arrives at the weighing platform, it is not necessary to start converting the pan to code, all bits of the register 13 are set to the zero position.

Subject invention

A digital auto-amplifier of a tezometric scale containing an alternator, an amplifier, a null indicator, a register, and a control unit, characterized in that, in order to simplify the design and improve reliability, an electromechanical counter used in the pulse accumulator is used The code ID, and the signal of the measuring divider connected to the lower register bits, is summed with the signals of the sensors connected via a transformer, amplifier, and memory device. action to the null indicator.