DE677626C - Device for controlling the flow of powdery material to containers - Google Patents

Description

Device for controlling the flow of powdery material to Containers The invention relates to the control of the movement of powdery Good by controlling the inflow and / or outflow from receptacles by means of electrical control circuits, which when a certain highest good level in the container and / or when reaching a certain lowest Good standing take effect.

According to the invention, the control pulses for the container valves by installing capacitor plates in each 'good level in generated in the flow zone of the goods, which ensures reliable operating results is put in a flowable state, as is the case for things flowing through containers Well known.

The control of the flow of powdery material through monitoring of the Gutspiegel is already known. In known facilities of this type however, the monitoring of the product level was carried out by optical means, if necessary using light cells, to which the ray access through the rising Good level was interrupted and released by the falling good level. These Facilities were exposed to all sorts of disturbances in operations, which were their causes in heavy dust formation in the container and in irregular embankments and bridges had. Also the crop flow monitoring based on capacity changes the installation of capacitors in the crop flow zone is in itself not new. Here However, it was about the measurement or weighing of substances, which to this Purpose were transferred into a container, from whose walls a pair of capacitor plates was formed. A development of this previously known measuring and weighing device too a good level monitoring device was not, however, also by the known Optical good mirror monitoring suggested, as between measuring and weighing on the one hand and stand height monitoring on the other hand, there is conceptually a gap and there is a success can only be achieved with a control based on capacity influences, if irregularities in the formation of the crop level due to the formation of bridges and Deletion can be avoided, which happens by making the good flowable can be achieved by known means.

The invention is shown in the drawing in a schematic axial section by a container with arranged in an upper and in a lower horizontal plane annular capacitor illustrated.

Fig.2 is the circuit diagram of a capacitor. the The inlet opening of the container is monitored by a valve in, which is usually is held open by a solenoid ii.

If during the filling process the product level is above the cross-sectional plane increases, in which the upper capacitor ring 15 is located, then the relay i i de-energized. This has the consequence that the Gutzulaßventil io under gravity closes. Provision is made for a solenoid 13 to be energized immediately thereafter which then opens a valve that allows compressed air to pass through to the container a pipe 12 monitors. Under the action of the flowing into the container i Compressed air is then removed from the container through a pipe 14. If during of the emptying process, the level of the container filling to below the cross-sectional plane drops in which the capacitor ring 15 is arranged, then the valve would Open io again and close the valve 12 again if measures are not taken would be to prevent that. The prevention of this undesired activity these valves can be done in several ways, such as. B. by each Holding pawl associated with the valve in connection with one associated with each valve second solenoid, which acts on the retaining pawl and moves it out of the locked position moved out, if one influenced in its effect by the emptying level, Relay coil, not shown in the drawing, is actuated in that the Level of the material filling up to below the cross-sectional plane of the lower condenser ring 16 falls. When that happens, the control circuit in which the capacitor ring is 16 is effective, which the pawls for the relays 11, 13 assigned Valves are removed from their blocking position, so that the valves are again subject to relay action subject and the filling can be reinserted because the compressed air is shut off and the inlet valve i o is opened again a little later. The capacitor rings 15, 16 can be made of iron or other metal. Each of these rings 15, 16 will carried by insulators 17. The second plate of the capacitors will be for each of the same formed by the container wall itself. The control circuit is shown schematically in FIG indicated where the capacitor plates 2o, 21 of the container wall which can be seen in this figure and correspond to one of the rings 15 or 16. An AC powered relay becomes effective under the influence of the change in the dielectric constant of the one or the other of the two capacitors, if the material level is above the capacitor ring 15 rises or falls below the capacitor ring 16.

Claims (2)

PATENT CLAIM: i. Facility for transport and packaging equipment for powdery, flowable material, the inflow of the material to containers and / or to control the outflow from containers by means of electrical control circuits, thereby characterized in that with known capacitor plate installation in the crop flow zone in each item level cross-section to be monitored, at least one plate of the assigned Pair of capacitor plates has only a small expansion in the direction of good fall, so that when the product level passes through the cross section, a control pulse results sudden change in capacity is triggered. 2. Device according to claim i, characterized characterized in that one of the two plates is assigned to a material level cross-section Capacitor plate pair the one formed by the container wall and the only small one Height extension having second plate arranged in the free container cross-section is.