SU787085A1 - Apparatus for monitoring level of pulp ferromagnetic component - Google Patents

Description

(54) DEVICE FOR LEVEL CONTROL

Claims (2)

FERROMAGNETIC PULP COMPONENT The invention relates to instruments for monitoring the level of the interface between the phases of slurries containing ferromagnetic components. A device is known for measuring the level of the interface between the pulp phases, containing piezometric tubes measuring the density gradient of the pulp in the regions restricted to the positions of the tubes 1. A disadvantage of the known device is low measurement accuracy. Closest to the present invention is a device for monitoring the level of the ferromagnetic component of the pulps, which contains an induction sensor for the quantitative content of the ferromagnetic component in the pulp, consisting of the associated measuring and compensation elements p. The drawback of the device is low measurement accuracy due to low sensitivity and noise immunity of the sensor. The purpose of the invention is to improve the accuracy of the level measurement by increasing the sensitivity and noise immunity of the sensor, while ensuring selective control. The goal is achieved by the fact that the device is equipped with a unit for the quantitative content of the ferromagnetic component in the controlled pulp layer and a follower drive, and the measuring and compensating elements are made on the magnetic circuit with armor cylindrical shape with an external annular air gap, and the measuring element is kinematically connected with the follower drive, and the outputs of the sensor and the setting unit of the quantitative content of the ferromagnetic component are connected to the input of the following electric actuator but. In order to prevent sticking of ferromagnetic particles, the measuring and compensating elements are placed in a pipe of non-magnetic material with a water-repellent coating applied to it, and the compensation element is mounted in the pipe fixedly above the surface of the pulp. Fig, 1 shows the device, a general view; in fig. 2 shows the design of one of the elements of the quantitative content sensor of the ferromagnetic component in the pulp. The device contains a measuring element 1, a compensation element 2, a magnetic core 3 with an annular gap 4, an excitation winding 5, a secondary winding b. The magnetic cores are threaded with a pin 7, plastic plates 8, and installed in a pipe of non-magnetic material 9. The measuring element is suspended on the cable 10 and connected to the electric drive 11. The angle-to-voltage converter 12 is connected to the output shaft of the actuator and is detected by the device for 13 seconds. unit 14. The device operates as follows. Unit 14 sets the required content of the ferromagnetic component in the pulp. The output signals of the sensor and the setpoint are compared and the difference voltage is applied to the next electric drive 11, which moves the measuring element to the position at which the difference becomes zero. The secondary device 13 connected to the converter 12 registers the level height of the pulp layer with the specified content of the ferromagnetic component. When the level of the pulp increases or decreases while the task remains constant, the device works in a similar way. The invention makes it possible to control the level of the ferromagnetic component of the pulp selectively, i.e., given by the quantitative content of this component in the controlled pulp layer. Claim 1. Device for monitoring the level of a ferromagnetic component of pulps, comprising an induction sensor for quantitatively containing a ferromagnetic component in the pulp, consisting of associated measuring and compensating elements, characterized in that, in order to improve the accuracy of level measurement by increasing sensitivity and noise immunity. the sensor while ensuring the selectivity of the control, it is equipped with a unit for the quantitative content of the ferromagnetic component in the layer under control They are followed by the electric drive, while the measuring and compensating elements are made on a magnetically armored cylindrical shape with an external annular air gap, the measuring element being kinematically connected with the following electric drive, and the outputs of the sensor and quantitative indicator of the ferromagnetic component are connected to the input of the following electric drive. 2. The device according to claim 1, wherein, in order to prevent ferromagnetic particles from sticking, the measuring and compensation elements are placed in a pipe of non-magnetic material coated with a water-repellent coating, and the compensation element is installed in the pipe fixedly above the surface of the pulp . Sources of information taken into account in the examination 1. US patent number 3375928, cl. 210-83., Published. 03/15/73. 2. Mining Journal, 1966, No. 7, p. 58 (prototype)