DE2128053A1 - Dosing method for granular, powdery or viscous substances - Google Patents

Description

Dosing method for granular, powdery or viscous substances The The invention relates to a metering method for granular, powdery or viscous substances.

A wide variety of processes and devices are used in dosing technology applied in which different measuring devices on the most varied of physical Address the properties of the dosing material.

The invention is based on the object, a clean and reliable To propose working dosing method, which is characterized by a very high sensitivity excellent and therefore particularly suitable for dosing small quantities from approx. 0.1 g This object is achieved according to the invention in that the metered material is introduced into a collecting vessel, which is within the resonant circuit of an in a capacitive electronic encoder built-in oscillator is arranged, and that the electronic encoder with a certain, through which in the collecting vessel initiated -Dosing material caused damping of the oscillating circuit a trigger signal for there is emptying or further transport of the collecting vessel.

The capacitive electronic encoder with one or more is useful coupled to any dosing devices for additional admixing components for which the Trigger signal dosing output triggers in fixed, but changeable ratios stand.

A renewed emptying or further transport is advantageous of the collecting vessel only when the output quiescent current in the capacitive electronic transmitter again consists. This makes it easy to ensure that the collecting vessel before the next Dosing process - has been properly emptied.

Different response sensitivities CBe attenuation degrees) des capacitive electronic encoder can be converted into an amplifier bridge circuit Adjust built-in potentiometer.

Temperature and voltage fluctuations can occur in the capacitive electronic encoder be compensated by known electrical additional elements.

It is also advantageous that when continuously filling several Containers with different electrical effects on the capacitive electronic transmitter a steady initial state for its responsiveness and thus an even filling level of the vessels is achieved by an automatic Nullpunktvers shift the encoder response sensitivity with known electrical Components.

The following is an example of an application based on the schematic drawing of the inventive method explained and described in more detail.

FIG. 1 shows a metering device with a closed collecting vessel and FIG. 2: the same metering device with an emptying collecting vessel.

The most important parts of the metering device shown in the drawing are the capacitive electronic transmitter 4 and the one arranged within its resonant circuit Collecting vessel 3 with an opening flap 2. Instead of a collecting vessel you can also several continuously moving vessels filled one after the other with the same amount will.

The metering material 1 is in the metering device shown here by the storage container 8 is fed to the collecting vessel 3 by means of a vibrating conveyor trough 7 and falls into it from above.

Since the opening flap 2 initially remains closed, it fills up Collecting vessel 3 increasingly with dispensing material 1 until a mass diclite is reached, the the resonant circuit of the capacitive electronic encoder 4 so # strongly damped so that the electronic encoder can give a trigger signal. This is in turn connected to an electromagnetic -arbeitenden control member 5, which the opening flap 2 opens, so that the dosing material accumulated in a certain Ivane 1 falls in the direction of arrow 6.

It has been shown that smaller amounts lie on this very precisely can be dosed, for example by an amplifier bridge circuit in the electronics encoder The built-in potentiometer can be used to set different response sensitivities Let, temperature and voltage fluctuations can be caused by usual electrical Additional components are compensated.

The dosing method described is independent of the volume and the shape of the respective switching medium, since only the density of the masses is considered llaumdiclite causes the damping of the resonant circuit.

The trigger signal of the capacitive electronic transmitter 4 for opening the opening flap 2 can of course also be coupled in further same or different dosing devices are used in such a way that in specific, but changeable quantity ratios in these connected dosing devices are triggered.

Claims (6)

Claims 1. Dosing method for granular, powdery or viscous substances, characterized in that the metered material (1) is introduced into a collecting vessel (2, 3) that is within the resonant circuit of a capacitive electronic encoder (4) built-in oscillator is arranged, and that the electronic encoder at a certain degree of damping caused by the dosing material introduced into the tufa collecting vessel of the oscillating circuit an ílXus release signal for emptying or further transport of the collecting vessel. 2. Dosing method according to claim 1, characterized in that the capacitive electronic encoder with one or more dosing devices of your choice for further admixing components is coupled and the trigger signal in the switched-in Dosing devices with fixed, but changeable proportions triggers. 3. Dosing method according to claim 1, characterized in that a emptying again or a further transport of the collecting vessel only takes place when in the capacitive Electronic encoder, the output quiescent current exists again. 4. Dosing method according to claim 1, characterized in that different Response sensitivities (degrees of damping) of the capacitive electronic encoder a potentiometer built into the amplifier bridge circuit can be set. 50 metering method according to claim 1, characterized in that temperature and voltage fluctuations in the capacitive electronic encoder due to known electrical Additional components are compensated. 6. Dosing method according to claim 1, characterized in that your continuous filling of several. Vessels with different electrical influences on the klpacitive electronic encoder a uniform initial state for its Responsiveness and thus a uniform filling level of the vessels is achieved It is activated by an automatic zero shift of the encoder response sensitivity with known electrical components,