CS263226B1 - Rotary pneuelectric level probe - Google Patents

Abstract

The essence of the solution is the arrangement of a turbine in the chamber of the probe body, driven by compressed air and provided with a rotor extending beyond the probe body, while a system of plates is arranged on the rotor outside the probe body, of which the one closest to the probe body is provided with cutouts that, when the rotor rotates, pass over an induction sensor, the frequency of whose output pulses controls the operation of the servomotor controlling the bulk material feed gate. The solution can be used with advantage, for example, for regulating the level of ground material in the storage space of a grinding roller stand.

Description

The invention relates to a rotary pneumatic level probe.

In mill production, it is necessary to measure small height changes in the level of bulk non-magnetic materials such as grain, flour and other intermediate products in containers.

At present, capacitive rod probes are used, especially in grain silos, to measure the level of loose, magnetically non-conductive substances.

The disadvantage of this solution is that it is not suitable for measurements in small containers and for small material level changes.

Another solution for level measurement is propeller electric level indicators or various designs of mechanical flaps, possibly in combination with electrical end sensors.

The disadvantage of this solution is that said level indicators only indicate that a given value has been reached and are only applicable to larger containers.

Other solutions to the measurement of height changes in bulk solids include inductive probes, optoelectric probes, strain gauges, optionally in combination with an impact plate, and vibration sensors.

The disadvantages of these solutions are that inductive probes only respond to magnetically conductive materials, optoelectric probes can only be used in environments with low

- 2 283 228 dust levels, strain gauges are not suitable for small quantities and vibration sensors signal only two states, rest and movement.

These disadvantages of the prior art are largely overcome by a rotary pneumatic level probe, provided with an inductive sensor arranged in the probe body, electrically coupled via a first shaping circuit to a first porn counter input, the second input of which is via a time base and a second shaping circuit connected to an AC source. the output of which is connected via a decoder to an input of a state register, the outputs of which are connected via an output circuit to the excitation winding of a servomotor according to the invention, whose essence is that the probe is formed by a probe body in which a chamber is provided a turbine is rotatably mounted into which the inlet duct opens and the rotor of which extends beyond the probe body to which it is dust-tight, and is provided outside the probe body (1) with a system perpendicular to the rotor axis closest to of the probe body, is provided with at least one inductive sensor provided with a cut-out.

The advantages of the rotary pneumatic level probe of the paddle of the invention lie in particular in its ability to measure even small variations in the level of non-magnetic bulk materials even in smaller containers and in a dusty environment.

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BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail with reference to the accompanying drawings, in which: Figure 1 is a cross-sectional view of a mechanical part of a rotary pneumatic level probe according to the invention; probes according to the invention.

1 and 2 show a probe body 1 in which a chamber 3 provided with an outlet channel 2 is arranged. In the chamber 3 a turbine 5 is rotatably mounted in the bearings 4 into which the inlet channel 6 opens. wherein the protruding part of the rotor 7 is dust-tight with respect to the probe body 1. The rotor 7 is provided outside the probe body 1 with a system of plates 8 arranged perpendicular to the axis of the rotor 7, one of which is

The inductive transducer 10 is disposed opposite one of the slots 9 in the probe body 1. From the probe body 1, the outermost plate 8 is provided with flaps 11 arranged perpendicular to the circumferential circle of the plate 8.

FIG. 3 shows an inductive sensor 10, which is electrically coupled via a first shaping circuit 12 to a first input of a counter 13, the second input of which is connected via a time base 14 and a second shaping circuit 15 to an AC power supply 16. The output of the counter 13 is connected via the decocler 17 to the input of the state register 18, the outputs of which are connected via the output circuit 19 to the field winding of the servomotor 20.

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In operation of the rotary pneumatic level probe according to the invention, compressed air is supplied to the turbine 5 through the inlet duct 6, which generates torque on the turbine 5 and exits through the outlet duct 2. The level probe is stored in a magazine If the level of bulk material does not reach the level of the rotor 7, the torque generated by the turbine 5 rotates the rotor 7 and the slots 9 of the plate 8 pass over the inductive sensor 10 in the rhythm of the rotation of the rotor 7.

The pulses produced in the inductive sensor 10 are provided in the first shaping circuit 12 and arrive at the first input of the counter 13, which is periodically reset every second. The counter state 13 is decoded in the decoder 17 and the result is fed to the state register 18. The state of this state register 18 can be ascribed to the time settings in the time base dividers 14 at given intervals, which in the exemplary embodiment range from 4 to 64 seconds. The output signal of the state register 18 is then processed by the output circuit 19, which drives the servomotor 20 controlling the slider of the bulk material feed device (not shown).

As the bulk material level increases, due to the increasing resistance, especially on the plates 8, the rotation of the rotor 7 slows down until the rotor 7 is completely stopped when the upper plate 11 with flaps 11 is covered. Variations in the output pulse rate of the inductive sensor * 10, proportional to the speed

283 228 of the rotor 7, result in the gate (not shown) of the gate (not shown) being closed and hence the feed rate of the bulk material, whereby the level of bulk material is regulated at a substantially constant flow rate of the bulk material.

The invention can advantageously be used, for example, to control the level of grist in the grinding mill storage space.

Claims (2)

A rotary pneumatic level probe, provided with an inductive sensor arranged in the probe body, electrically coupled via a first shaping circuit to a first input of a counter, the second input of which is via a time base and a second shaping circuit connected to an AC power supply and outputted via a decoder. connected to an input of the state register, the outputs of which are connected via an output circuit to the excitation winding of a servomotor, characterized in that it is formed by a probe body (1) in which an outlet (2) provided with a chamber (3) a turbine (5) is inserted into which the inlet duct (6) opens and whose rotor (7) extends beyond the probe body (1) to which it is dust-tight and is provided outside the probe body (1) perpendicular to the rotor axis (7) stacked plates (8) arranged one above the other, the one closest to the probe body (1) being provided with at least one cut-out (9) arranged against the inductive sensor (10). Rotary pneumatic surface level probe according to claim 1, characterized in that the flaps (11) disposed perpendicular to the circumferential circle of the plate are the plate (8) furthest from the probe body (1).