CS254489B1 - Method of the continual measuring material amount on a belt conveyer and apparatus to perform this method - Google Patents

Abstract

The aim of the solution is continuous measurement weight of transported material to belt conveyors. The essence of the way is that the material being transported is falling the plate vibrates the plate a vibration amplitude at resonant frequency the plate is directly proportional to the amount conveyed material. Implementing equipment the method consists of a plate on which it is the vibration sensor attached is attached to the adaptive amplifier and bandpass a filter that is associated with an evaluation unit.

Description

The invention relates to the continuous measurement of the amount of material on a belt conveyor, e.g. coal and overburden, on opencast mines and to an apparatus for carrying out this method.

The measurement of the amount of transported material on the belt conveyors is currently carried out in several ways. A belt weigher is placed under the belt conveyor to sense the weight of a defined portion of the belt conveyor or belt of material. Another possibility of detecting the amount of material on the belt of the belt conveyor is by radiating the feed stream with gamma rays. The method described is only applicable if there is no change in the composition of the feedstock. Another method is to measure the volume of the material, for example by means of an ultrasonic depth gauge. Virtually all of these methods measure inaccurately because they assume a constant weight or composition of the raw material outside the belt weighers, where in turn the resulting signal is influenced by the tension of the belt of the belt conveyor. All these methods of measuring the amount of raw material on the belt conveyor have one thing in common, and these are high maintenance demands.

These drawbacks are overcome by a method for continuously measuring the amount of material on a belt conveyor and an apparatus for carrying out the method according to the invention. The essence of the method is that the conveyed material impinging on the plate induces vibration of the plate and the vibration amplitude at the resonant frequency of the plate is proportional to the amount of conveyed material.

The essence of the device is that it consists of a plate on which a vibration sensor is mounted, which is connected to a matching amplifier and a bandpass filter, which is connected to the evaluation unit.

The device for continuously measuring the amount of material on the belt conveyor according to the invention is simple and energy-efficient. The device is maintenance-free and operable in extreme open-pit mines. The output signal of the conveyed quantity may be transmitted by any conventional means of information transmission at any distance, e.g. to a central mine control center.

The attached drawing schematically shows an apparatus for continuously measuring the amount of material on a belt conveyor according to the invention.

When the raw material is transferred from one conveyor belt to the other, the kinetic energy of the conveyed material is partially consumed upon impact on the plate, eg a baffle shield in the chutes between the conveyors. The kinetic energy, which is dependent on the amount of material transported, causes the plate to vibrate, e.g. The vibration amplitude at the resonant frequency of the baffle shield is proportional to the amount of material transported.

The device for continuously measuring the amount of material on the belt conveyor consists of a plate 2 formed, for example, by a baffle plate, on which the material 2 from the belt conveyor 2 falls. A vibration sensor 4 is mounted on the plate 2. The vibration sensor 2 senses the vibration induced by the impact of the flow of material 2 on a plate 2 formed, for example, by a baffle shield. The signal corresponding to vibration of the sensor £ is connected via a matching amplifier 2 fed to the bandpass filter 6, at an adjusting amplifier 2 j ^é adjusted to a suitable level for further use in a bandpass filter 2 · pass filter 2 is selected from the signal resonance frequency whose amplitude is directly proportional quantity of transported material 2.

The signal thus processed is fed to the evaluation unit 7, where it is processed into an output indicating the amount of material transported in real time.

Claims (2)

SUBJECT OF THE INVENTION A method of continuously measuring the amount of material on a belt conveyor, characterized in that the conveyed material impinging on the plate induces vibration of the plate and the amplitude of the vibration at the resonant frequency of the plate is proportional to the amount of conveyed material. Device for carrying out the method according to claim 1, characterized in that it consists of a plate (1) on which a vibration sensor (4) is attached, which is connected to an adaptation amplifier (5) and a bandpass filter (6) which is connected with the evaluation unit (7).