SU180368A1 - ELECTRICAL CONVEYOR SCALES - Google Patents

Description

The known electric conveyor scales contain a large number of electronic units and contact elements, which is the reason for the considerable complexity and their relatively low reliability.

In the proposed scales, an electromechanical transducer to rotational speed is used, which simultaneously performs the functions of a linear load gauge and an element multiplying the current values of the linear load and tape belt speed. The output of the electromechanical converter is associated with a secondary remote transmission device. The secondary device is made in the form of a magnetic tachometer and a rev counter.

The drawing shows the schelga described scales.

The weight of the transported material acting on the measuring roller /, with the help of the elastic element 2 is converted into a linear movement of the rod 3 of the transducer 4 of the movement into the speed of rotation. Movable magnetic cores 5 and 6 of cylindrical shape, in which the packages 7, made of electrical steel plates, alternate with the magnetic spacers 8, are fixed on the stem. In the converter case 9, fixed magnetic conductors 10 and 11, made of alternating packages 12, are attached.

steel plates and non-magnetic gaskets 13.

The fixed pipelines have distributed or polar pole windings 14 and

15, for example, three-phase type. In the gap between the movable and fixed magnetic cores placed the rotor 16, made in the form of a hollow cIoTindra 13 non-magnetic metal silva, specific electric

which is slightly dependent on temperature. The rotor rotates in bearings 17 and 18.

The windings of the fixed magnetic cores are powered by a three-phase synchronous generator 19, for example, with rotating permanent magnetics, which are kinematically connected with the tension conveyor drum. The order of alternation of the phases of the windings 14 is direct, and the windings 15 is the reverse. As a result

the directions of rotation of the rotating magnetic fields in the magnetic cores 10 and 11 are opposed.

A rotor 16 is kinematically coupled to a three-phase synchronous generator 20, which

electrically connected to the synchronous motor 21, one example, the reactive type. A magnetic tachometer, which serves as a performance indicator, and a mechanical counter 22 of the number of basic quantities of material being moved, are connected to the motor shaft 21.

The magnetic tachometer consists of a constant drive 23, a disk 24 (made of metal with a slight dependence of specific electrical co-motivation on temperature) associated with a spiral spring 25 and an arrow 26. The counter is connected by a motor shaft using a kinematic transmission 27. With a generator A rectifier 28 is connected, the voltage at the output of which is proportional to the conveyor water flow. This voltage is used as a reverse signal in the automatic control system of the conveyor capacity. Several secondary devices can be connected to the generator. When a transnorter is operating, the amplitude and frequency of the synchronous generator is directly proportional to the speed of movement of the transnorter tape.

The magnetic fields of the magnetic circuits 10 and 11, created by windings 14 and 15, the passage through the moving magnetic circuits, p; avodt in the corresponding parts of the rotor currents, which, interacting with magnetic fields, create torques acting on the rotor. The directions of these moments are quasi-negative, and the magnitude of each of them is determined by the magnitude of the magnetic current, i.e. it depends on the relative polarity of the steel packages of the movable and fixed magnetic circuits. If there is no material on the tape, the relative displacements of the steel packages in the magnetowires are n counter-opposed, therefore, the resulting torque is zero and the rotor of the converter is fixed. If there is material on the conveyor, its weight with the help of an elastic element is not converted into linear movement of the rod, equal magnetic fluxes and torques in both pairs of the converter magnetic cores.

and it turns and the rotor comes into rotation. The speed of the vrandein) of the trough is proportional, on the one hand, to irreversible me1, to its single meter, and, on the other hand, to the frequency of the alternating current,

The perforation winding of the fixed magnetic cores, i.e., is a function of the performance — the product of the current value of the weight of the material and the speed of its movement. Since the amplitude and frequency of iair

generator of the rotor speed of the transducer, then the output voltage is 1 1 dp mitel n) oyortsnon ty1O produced by the conveyor belt. The speed of rotation of the shaft of a synchronous motor is also proportional to the performance, and the number of revolutions, i.e., the indicator shown, is also the weight of the material that is displaced during the operation of the transistor.

Subject invention

Electric conveyor scales containing an elastic element to convert the linear load into linear displacement and synchronous generator as a belt speed sensor, characterized in that, in order to increase reliability and simplify the design, the windings of the electromechanical converter move to speed, mounted on two magnetic circuits with moving cores are connected to the speed sensor, and the hollow rotor of the converter is coupled to the sensor, which is connected to the synchronous generator, which This, in turn, is connected via a rectifier to the output of the device for transmitting the rotation to the receiver of the transmission, mainly in the form of a synchronous micromotor, kinematically connected with a magnetic tachometer to determine the productivity of the transorter and with a rev counter for determining the amount of material produced.

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