SU697829A1 - Device for monitoring the level of lumpy material in underground ore chutes - Google Patents

Description

(54) DEVICE OF CONTROL OF THE LEVEL OF LINGERING MATERIALS IN UNDERGROUND DEPOSITS

I

The invention relates to the field of instrumentation and can be used in the mining, metallurgical and other fields of industry for automatic digital monitoring of the level of lumpy materials, such as rock mass in underground ore passes.

An acoustic transducer is known, a measuring tube with a side branch m with an emitter and a receiver, a feedback circuit consisting of an amplifier, a rectangular impulse former, a symmetric trigger, a probe impregnator, and transmitting and receiving channels connected through a signal separation unit with a dividing unit to an output that has a digital electronic counter 1 connected. However, this level gauge is practically not applicable for measuring the level of lumpy materials in underground ore passes and -this iz.luchatel installation complexity and receiver ore pass the upper hatch, and in addition, it has a low reliability and noise immunity measurement due to multiple reflections of the sound pulse by the interface.

Claims (2)

The closest to the invention is in its technical nature: an entity is a device for controlling the level of lumpy materials in underground capacitances, containing acoustic oscillation sensors placed in the upper and lower parts of the tank, mechanically connected to it and connected via amplifiers to the measuring unit, which includes rectangular pulse drivers, the outputs of which through inverters are connected to the inputs of the four-input coincidence circuit and through the elements “Inhibit - to the inputs of the drivers of standard start signals and ends of dropping materials, the output of the first is connected to the inputs of two control triggers and the installation of the counter to the initial state, the output of the second generator is connected via the first two-input coincidence circuit with the control trigger input and through the OR circuit to the second input of the second trigger, the output of which is connected with the control input of the second two-input circuit, we match, through it the pulse generator is connected to the counter, and the outputs of the first and third control triggers are connected to the second inputs of the Zapra and the inputs of the four-input coincidence circuit, the output of which is connected to the second inputs of these flip-flops 2. The disadvantage of the lime device is its complexity and low reliability due to the fact that the sensitive element of the upper sensor is operated under conditions of direct impact of the falling rock mass, as well as a long wired communication line from the upper sensor to the measuring unit, and the lack of protection from acoustic interference arising from sources located in the sensitive area of the sensors (moving ix formulations, drilling work, the work loading mechanism and the like. d.). The aim of the invention is to simplify the design and increase the reliability of the device. The goal is achieved by introducing a phase detector and an adder into the device, with both acoustic oscillation sensors installed under the lower part of the ore assembly symmetrically about its vertical axis and connected through appropriate amplifiers to the inputs of the phase detector and adder, the output of the phase detector is connected to the control unit at the input measuring unit, and the output of the adder - to the information input of the measuring unit. The drawing shows the block diagram of the device. The level control device contains acoustic oscillation sensors 1, placed in the haulage development symmetrically with respect to the vertical axis of the ore pass, amplifiers 2, phase detector 3 connected to the outputs of the amplifiers, adder 4, and measuring unit 5 with two inputs: information (signal), connected to the output of the adder 4, and the control connected to the output of the phase detector 3. The device operates as follows. When the rock mass is dropped into the ore passage, acoustic and seismic oscillations occur, the intensity of which depends on the filling level of the ore passage. The higher the level of ore present in the ore pass, the weaker the sensors are. The magnitude of the signals as ore-landing decreases for two reasons: first, the place of their occurrence is removed from the sensors and the attenuation increases accordingly, and secondly, by reducing the height of the ore fall, the kinetic energy is reduced. Sensor 1 perceives acoustic and seismic signals, arising from both ore falling into ore passing and other sources of schum, such as explosions, composition passing, etc. Signals from sensors 1 are amplified by amplifiers 2 and are simultaneously fed to the inputs of phase detector 3 and adder 4. The summed signals from the output of adder 4 are fed to the signal input of the measuring unit 5. If the signals in the sensors result from the impact of the falling ore, then the phase difference between these signals is zero. since the sensor is at equal distance from into the aperture of the ore pass. At the same time, at the output of the phase detector 3, a "Start of Measurement" signal is generated, which turns on the measuring unit 5-8 measurement mode. Unit 5 essentially measures the intensity of the acoustic signals, which depends on the degree of filling of the ore release with ore. When acoustic and seismic signals were received from other sources located asymmetrically as PS, the sensor was assigned to sensors 1, the phase difference of these signals was not equal to n, resulting in a signal at the output of phase detector 3 prohibiting measurement. The proposed device has p to m advantages compared with the prototype. Firstly, the costs for installation and installation of sensors are reduced, since drilling of the well and the communication line is eliminated. Secondly, the repair of the device is facilitated, since in the proposed embodiment, all the equipment is concentrated in the haulage. In addition, the absence of a long communication line between the second sensor and the measuring unit increases the reliability of the equipment in field conditions, and the presence of two measurement channels reduces the influence of interference on the measurement process. The invention The device for controlling the level of lumpy materials in underground ore passes, containing two acoustic oscillation sensors, amplifiers, and a measuring unit, characterized in that, in order to simplify the design and increase the workforce, a phase detector and an adder are introduced into it, both of which the acoustic oscillation sensor is installed under the lower part of the ore channel symmetrically with respect to its vertical axis. And through the corresponding amplifiers are connected to the inputs of the phase detector and the sum of the armature, the output of the phase the detector is connected to the control input of the meter of the 1st block, and the output of the adder is connected to the information input of the measuring block. Sources of information taken into account during the examination. USSR Author's Certificate No. 329397, cl. G 01 F 23/28, 1963. 2. USSR author's certificate NS 558168, cl. G 01 F23 / 28, 1975 (prototype).