CS254429B1 - Connection for automatic compensation of the temperature influence of resistance of the transporter belt on the results of belt scale measuring - Google Patents

Abstract

The solution relates to evaluation apparatuses for belt scales and wiring for automatic compensation of influence of temperature dependence of conveyor belt resistance on results of belt scales measurement. The wiring consists of a temperature sensor with an electrical output that is connected to the input of the first amplifier, the output of which is connected to an analogue input of an analog-to-digital converter whose digital output is connected to a programmable memory input. The programmable memory output is connected to the resistor network of the analogue input amplifier in the belt balance evaluation apparatus

Description

The invention relates to evaluation apparatuses for belt weighers and provides a circuit for automatic compensation of the temperature dependence of the conveyor belt resistance on the belt weighing results.

Apparatuses for belt weighers are known whose input is provided with an analog signal from a force sensor. This analog signal is reduced in the evaluation apparatus by a value corresponding to the so-called tare, in which the resistance of the conveyor belt against the force caused by the weight of the conveyed material, which resistance is highly dependent on temperature, is included together with the weight of the machine structure, roller stands and conveyor belt weight.

The disadvantage of this solution is that many belt scales are located outdoors, so that the correct taring would have to constantly take into account the effect of this resistance, which has not been possible so far.

This disadvantage is eliminated by a solution for automatic compensation of the influence of the temperature dependence of the conveyor belt resistance on the belt weighing results, which consists in the fact that it consists of a temperature sensor with an electrical output connected to the input of the first amplifier. the input of an analog-to-digital converter, the digital output of which is connected to the input of a programmable memory, the output of which is connected to the resistor network of the input amplifier of the analog signal in the belt weigher evaluation apparatus or other product of the evaluation apparatus.

The advantage of this solution is the automatic tare correction for the evaluation apparatus, which results in increased weighing accuracy.

The block diagram of the circuit according to the invention is schematically shown in the attached drawing.

The wiring has a temperature sensor 1 with an electrical output, which is connected to the input of the first amplifier 2, the output of which is connected to the analog input of the analog-to-digital converter 3. The digital output of the analog-to-digital converter 3 is connected to the input of programmable memory 4 it is connected to the resistance network 5 of the analog signal input amplifier 6 in the belt weigher evaluation apparatus. In another embodiment, the programmable memory output may be connected to another product of the evaluation apparatus.

The wiring works in such a way that the temperature sensor sends an electrical signal proportional to the temperature. This signal is amplified in the first amplifier 2 and converted to a digital form in the analog-to-digital converter 3. The digital signal is fed to a programmable memory 4 in which the conveyor resistance values are pre-entered with an assignment to each temperature stage in the selected temperature range. The output signal from the programmable memory 4 represents a combination of switching signals by which the resistors in the resistive network 5 associated with the input amplifier 6 are switched on or off, thereby changing the gain of this input amplifier 6 through which the bandwidth meator signal passes. In another embodiment, the measurement signal in the evaluation apparatus can be similarly corrected by connecting the resistive network 5 to another product in the belt weighing evaluation apparatus.

Claims (1)

SUBJECT OF THE INVENTION Circuit for automatic compensation of the influence of the temperature dependence of the conveyor belt resistance on the belt weighing results, characterized in that it consists of a temperature sensor (1) with an electrical output which is connected to the input of the first amplifier (2) an analog-to-digital converter (3), the digital output of which is connected to an input of a programmable memory (4), the output of which is connected to a resistor network (5) of an analog signal input amplifier (6) in a belt weigher or other product of the evaluation apparatus .