SU387223A1 - SKB TsMA - Google Patents

Description

AUTOMATIC WEIGHT PORTIONAL DISPENSER

This invention relates to a weight measuring technique. Automatic weighing dosing devices are known, which contain a weighing bunker with valves, a load-measuring strain gauge, an analog-digital converter with a pulse generator, a reversible counter, a voltage divider and a zero-body, a calibration mechanism, a setting unit and a control unit. However, the known dispensers do not provide the required metering accuracy, and the mass of the dose delivered by them must necessarily be a multiple of the mass of the individual portion. The aim of the invention is to improve the accuracy of dosing. For this, the proposed metering device is provided with a cumulative counter, the inputs of which are connected to a null organ, a reversible counter and a setpoint device, and the output is connected to the control unit. The drawing shows a block diagram of the proposed device. The dispenser contains a hopper 1, a filling valve 2, a load measuring sensor 3, nullorgan 4, a controlled voltage divider 5, a reversing counter 6, a pulse generator 7, a dose weight setting device 8, a storage counter 9, a control unit 10, a calibration weight 11 with electromagnets 12, ring 13, valve 14 is emptied. Null-organ 4, 5 10. 15 20 25 A voltage divider 5, a reversible counter 6 and a pulse generator 7 form an analog-to-digital converter. The dispenser works as follows. Upon a command to start dosing, a number corresponding to the specified dose weight is entered into the accumulation meter 9 using the setting unit 8. After setting the task, the control unit 10 will form a command to open the filling valve 2. In the weight bunker / the dosed product will arrive. The weight of the bunker will be sensed by the sensor 3, the output of which will go to the null organ 4, where it will be compared to the voltage divider 5 signal controlled by the reversing counter 6. The pulses from the oscillator 7 and the signals "add and "subtraction generated by the null organ 4. If the signal from sensor 3 exceeds the compensating signal of divider 5, then the output of the null organ 4 produces a signal" addition and the pulses arriving at counter 6 are summed with the previously recorded number. The counter code will increase, which will increase the compensating signal of divider 5. The signal of divider 5 will increase until it exceeds the signal of sensor 3, which leads to a change in the signal of the zero-organ 4 to "subtract, start