DE2213813A1 - Flour confectionery oven control - using capacitance sensing for speed, position, or cycle time regulation - Google Patents

Abstract

A pair of equal sized capacitance sensors, together with common counter electrode is placed across or aligned circuit the output (unbalance signal) of which is amplified, rectified, opt. high pass filtered, and fed to a conventional regulator for the appropriate drive motor.

Description

Electrical circuit device in an arrangement for plowing one Pastry processing machine depending on the position of pastry pieces The invention relates to an electrical circuit device in an arrangement for regulating a Pastry processing machine depending on the position of the pastry.

In the baked goods industry, the problem often arises that a large number same article in regular rows on a conveyor belt runs through which a certain Posttionierung the Gebaclstücke with respect to the processing device condition e.g. filling biscuits with jam and then covering with chocolate. If the processes are to run continuously and autosuatically, the machines must work synchronously with dc process. A mechanical coupling of the individual machines is pointless because of the inevitable slippage of the conveyor belts. Therefore the Location of the goods on the conveyor belt can be determined by scanning, and with the help of the scanning signal, the processing machines must be moved into the correct position will. A distinction must be made between two things: the direction of tape transport and the transverse direction to it. Because of the continuous flow of goods, the work processes run periodically in the transport direction. A synchronization control of the Machine drive necessary. A simple follow-up control is sufficient in the transverse direction the end.

The particular problem in the bakery industry is the scanning, because the individual pieces of goods in the baking process do not have exactly the same contours and dimensions obtain.

It is known to scan the goods with photocells and the signal to feed a controller that drives the drive controls. For e.g. oval Articles can, however, have a slight lateral displacement and large longitudinal displacements to pretend. Great difficulties arise when scanning highly structured Articles. In addition, the photocell can easily get dirty.

The disadvantages of punctiform scanning also exist with the known ones pneumatic scanners. Capacitive buttons are also known. -There are the baked goods contain this moisture, they / between two capacitor plates cause a Change in capacitance that can be used for measurement. The capacitive sensor scans over a certain area and therefore avoids the errors of contour scanning. However, in order to generate a sufficient signal, the sensor must be close to the Goods are located. As a result, there is a risk of goods jamming under the sensor and thus a production malfunction is caused. All of the above procedures are sensitive to changes in distance, this causes a shift feigned or the regulation is completely suspended.

The invention therefore sets itself the task of addressing the disadvantages indicated to avoid and achieve reliable and accurate scanning.

This object is achieved according to the invention in that a more capacitive Sensor with two identical sensor surfaces, which are arranged one behind the other in the measuring direction are used and that the sensors are in one with the common counter electrode AC bridge circuit are connected against each other and the amplified and rectified bridge voltage is fed to a suitable regulator, which the Drive controls. Only the output voltage in the zero crossing or its Proximity used for the scheme. With the help of a filter, the sensor asymmetry can be turned off so that high sensitivity is possible.

The sensor surfaces advantageously extend transversely to the scanning direction over more than one object, possibly

over a whole row of baked goods or over as many links in the baked goods row, that from the position of these members a sufficiently accurate conclusion about the position the whole row can be drawn.

The equalizing voltage is expediently supplied to an analog computer supplied with setpoint zero. Instead, a 3-point controller can also be used, preferably Switching points symmetrical to the zero point can be used. Finally there is also the possibility of feeding the equalization voltage to a pulse shaper stage, the emits a pulse at the zero crossing of the voltage, whereby the pulses are sent to a scanning synchronization controller which controls the drive.

The advantages of the invention are: Insensitivity to changes in distance and against irregularities in the contours, insensitivity to dirt. It is also possible to scan very flat or very irregular goods.

The invention is explained in more detail below with reference to the drawing explained which illustrates an advantageous embodiment. Show in it: 1 shows a plan view of the sensor arrangement. FIG. 2 shows a block diagram of the control arrangement and FIG. 3 shows the signal curve.

Fig. I shows a sensor arrangement according to the invention seen from above. With the two Fühierflächen 1, 2, the goods 12, which are on the conveyor belt i3 moved in the indicated direction, scanned. The counter electrode is through the metallic; Conveyor belt 13 is formed. The sensor surfaces 1t, 2 'represent a another sensor, whose measuring direction is transverse to the transport direction lies. The sensor surfaces sweep over two objects at the same time; The sensor distance is smaller than the length and the distance of the objects to be scanned.

In Fig. 2 is a circuit according to the invention for a synchronization control shown. The bridge circuit is made up of the two sensor capacitors 1, 2 and the two resistors 3, 4 formed. The bridge feed takes place via the alternating current source 5. The bridge voltage is amplified via the differential amplifier 6 and in the rectifier 7, vorzuasweise a phase rectifier, rectified-. The rectified Voltage is fed to the controller 9 via a pulse monitor stage 8, which controls the drive ii controls. 10 is the setpoint input of the controller. Fig. 3 shows the signal course rear rectifier 7 (curve l4) and the pulse shaper stage 8 (curve 17), if the goods are moved relative to the feeler. If the sensor surfaces i, 2 are symmetrical above the goods (Fig. i), the bridge is balanced and the output voltage is behind the rectifier is zero (curve 14, point 15). The same applies if the Sensor surfaces are located symmetrically between the goods (curve 14, point 16). Between the voltage at the rectifier 7 is positive or negative, depending on whether the sensor surface 1 or 2 above the Goods are located. The two zero crossings however, the voltage differ in the direction of the change in spam flow. the Circuit 8, preferably a trigger circuit with ilysteresis, always delivers Pulses 17 when voltage 14 has a negative zero crossing.

This means that a pulse is always delivered at the output of 8 exactly when when the lines of symmetry of the feeler and the goods coincide. It is obvious 1 that the bridge circuit is always balanced, no matter how big it is Distance to the goods. This means that the entire surface of the goods becomes the output signal contributes, contour irregularities are averaged. Paint over the sensor surfaces multiple objects, even the random displacement of one part with the other averaged and thus the system deviation is reduced.

The pulses of the pulse shaper stage 8 are fed to a scanning synchronization controller 9 supplied and compared with the setpoint pulses at input 10. This will the drive 11 is regulated faster or slower in a known manner until agreement between the two impulses, i.e. machine and goods run synchronously.

A very similar arrangement is used for the follow-up control. To be the sensors 1t, 2t in Fig. 1 are used.

You generate in the circuit Fig. 2-behind the rectifier 7 that Signal zero if its line of symmetry agrees with the line of symmetry of the goods. This is apparently regardless of whether the goods are in the indicated Moving direction or not. The rectified voltage at the output of 7 becomes now fed directly to a proportional controller 9, which controls the drive 11, the is coupled to the sensor 10, 2t. Wcic.en the lines of symmetry of the feeler and the goods from each other, -so the bridge is detuned and appears on the rectifier 7 an output signal that allows the drive to rotate via controller 9 until the output signal Is zero and the lines of symmetry are congruent. The prerequisite is that the setpoint on controller 9 is entered as zero. With a sideways movement The machine follows the conveyor belt on the basis of the mechanism described Were.

Claims (6)

Claims Electrical circuit device in an arrangement for plowing one Biscuit processing machine for depending on the position of baked goods, characterized in, that when using two identical capacitive sensors (1,2) with a common GeOenelectrode (13), which are arranged one behind the other in the measuring direction, the sensors in an AC bridge circuit (i, 2, 3, 4) are connected against each other and that the amplified and the same direction Bridge signal is fed to a suitable controller (9) that drives the machine (11) controls. 2. A circuit according to claim 1, characterized in that the two Sensor surfaces extend transversely to the scanning direction over more than one object. 3. A circuit according to claim 1 or 2, characterized in that the A high-pass filter is connected downstream of the rectifier (7). 4. Circuit nacti one of claims 1 - 3, characterized in: that the output DC voltage is fed to an analog controller (9) with a setpoint value of zero is. 5. Circuit according to one of claims 1 - 3, characterized in that that the output DC voltage is a 3-point regulator (9) with symmetrical to the zero point Switching points is supplied. 6. Circuit according to one of claims 1 - 3, characterized in that that the output DC voltage of a pulse shaper (8), which is in zero passage emits a pulse of the voltage, and that the pulses are fed to a scanning equalizer (9) which controls the drive (11).