SU110788A1 - Cement dispenser - Google Patents

Description

The subject of the invention is a continuous feed dispenser for cement supplying.

The known dispensers for feeding bulk materials, carried out by means of a cantilever screw with variable pitch blades, located inside the cylindrical body and rotated by a DC motor, have the disadvantage that they do not provide a constant flow rate of the dosing material during the dosing process.

This disadvantage is eliminated in the dispenser described below by using a device for automatically adjusting the speed of the auger; The device is made in the form of an inductive sensor, the plunger of which is kinematically connected with the rotary valve at the dispenser outlet. Depending on the change in the cement supply, the sensor sends "correction signals" to the control grid of the thyratrons included in the power supply circuit of the driving electric motor; These pulses cause a corresponding change in the current in the motor winding.

FIG. 1 shows a diagram of a dispenser device; in fig. 2 - automatic control circuit.

The dispenser consists of a console auger / with variable pitch blades, rotated into a cylindrical

adjustable electrical housing

DC motor 3; the screw shaft is mounted in two roller bearings. The volume of the input turns is about 1.5 times the volume of the output turns, which provides the required compaction of the dosed cement. The inlet of the dispenser is flanged to the hopper 5; In the pipe there is a valve 6 with a screw drive for adjusting the cross section of the inlet of the metering device.

In the opposite end of the motor to the motor of the metering unit, there is a rectangular duct 7 provided with two dampers. The valve 8 is moved by means of an adjusting screw and is intended to change the capacity of the dispenser. The valve 9 is fixed to the roller and, under the influence of the counterweight 10, is pressed against the stream of cement, creating a constant pressure and causing the cement to compact; a hinged lever system, the damper is kinematically connected to the plunger of the inductive sensor 11.

The electrical impulse formed (on the diagonal section of the bridge (see Fig. 2) by changing the inductive impedance of the sensor arms as the plunger moves, is fed to the control grids L1N L-, thyratrons. The thyratrons are connected according to a two-periodic scheme to the secondary winding of the power transformer Grz secondary winding taps are designed to select the optimum mode. Depending on the design of the electric motor, the latter can be fully powered through thyratrons or part of its windings can be connected to an unregulated source current chambers. The motor is started by automatically switching additional resistances by current relays to protect the thyratrons from overloading.

The dispenser works in the following way.

By adjusting the position of the dampers b and S and the slider of the potentiometer R, the desired flow rate of cement is achieved; during the operation of the dispenser, when the cement consumption changes, the valve 9 moves and causes a change in the position of the inductive sensor plunger; The inductive sensor correction impulse regulates the number of revolutions of the drive motor shaft: with an increase in the cement consumption, the revolutions of the shaft decrease, and with a decrease in the flow, it increases.

Thus, during the operation of the dispenser, the consumption of cement remains unchanged.

Subject invention

A batcher for continuous cement metering consisting of a cantilever shnek located inside the cylindrical body with a variable pitch of blades, driven by a direct current electric motor, characterized in that in order to ensure a constant amount of cement consumption during the metering process by changing the auger speed, the metering device is equipped at the outlet end with a rotatable balanced damper, kinematically connected with the plunger of the inductive sensor, which sends corrective pulses to the control the grid of thyratrons included in the power supply circuit of the drive electric motor.

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