DE1265047B - Arrangement for target control in conveyor systems with a replica - Google Patents

Description

Arrangement for target control in conveyor systems with a replica In conveyor technology, it is known that the goods to be sorted or their means of transport to include the address, so that the item to be sent automatically turns the switch in one Operate the transport system or carry out other controls that determine its route can.

Another system uses a replica of the real one Plant in a head office, thus avoiding all problems with the training of interrogation devices on the transport system itself. Instead of If the address is given on the conveyor system, the address is given to this replica. The mechanical execution of such replicas and the mechanical input of a But address fail very soon when the number of information reaches a certain number exceeds. Quite apart from the spatial accommodation and the very limited The ability to expand also suffers from operational reliability. Wear, maintenance and Noise generation is also another inconvenience of the mechanically constructed Replicas.

In the Siemens-Zeftschrifi, 1961, H. 9, pp. 628 to 632, is one Described package conveyor system with contactless destination control in a large mail order company.

A magnetic target memory in the form of a Copier drum. Hall generators are located on the circumference of the drum as interrogation heads arranged behind the labeling heads.

U.S. Patent 3,012,628 discloses a photoelectric memory device which is preferably used for sorting eggs. This facility includes a slowly rotating wheel, on the circumference of which holes for receiving Pins are provided that can be adjusted pneumatically. With these pens will stored information, which according to the embodiment by a photoelectric Sampling can be recovered. With this known follow-up drive it is a purely mechanical memory, for its adjustment a mechanical one Movement with all its disadvantages, such as friction, wear and tear, and functional uncertainty Pollution, heard. With this memory that is a special light source only for Requires reading of the stored information is also a code-shaped storage not possible.

In the German patent 1 109423 is a circuit that Presence of a certain binary number is registered, described and displayed. at the subject of this patent specification was based on the task, the individual places of the binary number by the lighting or non-lighting of To represent light sources. The emitter of a transistor is used to solve this problem via a small resistor to the positive pole and via a large resistor connected to the negative pole of the supply voltage source. The base of this transistor is connected to the positive pole via a large resistance and via a small resistance at the negative pole of a feeding voltage source.

From those in the radiation range of light sources and via series resistors Photo diodes powered by the voltage source are those that are present of the specific binary number are not illuminated via diodes between the two Resistors connected to the emitter and those that are given in the presence of the Binary number are illuminated via diodes between the two resistors on the Base connected. However, this known circuit only provides a read point because it is only intended for scanning target identifiers. It also acts Bet the possible application of this circuit to a circular conveyor system as well not a follow-up mechanism, but rather the scanning of items carried along with the conveyed goods Target indicator. However, from this patent it is known for target control to use incandescent lamps as storage elements in circular conveyor systems.

The invention is based on the object of using simple means Arrangement for target control in conveyor systems with a synchronous running with the system To create a replica, in which the target marks of the conveyed goods by means of incandescent lamps are stored as memory elements in code form.

This object is achieved in that the incandescent lamps in the outer surface of a drum are provided and each incandescent lamp with a photo resistor is connected in series, to be exposed from the outside and with the incandescent lamp in one Housing is arranged so that the lamp can illuminate the photoresistor. These Arrangement has the particular advantage that it takes up little space and less Caused costs than the known arrangements. It can be separated from a conveyor system arranged or, as with rotating distributors, optionally on the same Axis can be arranged.

Another advantage of the arrangement according to the invention lies in this justifies that it allows large mechanical tolerances and no difficult adjustment processes requires.

Assuming that a unit for storing a label consists of ten storage elements, this unit contains ten incandescent lamps with the assigned photoresistors. The destination identifier is saved by outside over ten switchable light sources, of which according to the - used Code optionally e.g. B. two out of five lamps are switched on twice.

The light beam of these incandescent lamps is guided so that he each incandescent lamp on the identification carrier associated photoresistor meets and thus the light bulb turns on. Part of the light from the light bulbs switched on in this way falls back on the photo resistor, so that the light bulbs after switching on once continue to shine through extraneous light.

A light source is required to adjust the storage elements which must be able to be switched on and off quickly under certain circumstances. Because normal light bulbs do not meet this condition, they cannot be used for this purpose, unless they burn continuously and mechanically, for example through stencils to be covered.

According to a further development of the invention, the storage elements are used for setting light sources that can be switched on and off quickly, such as glow, stroboscope or flash lamps, intended.

At the reading point, reading is carried out by means of photo resistors that act accordingly the code combination are connected in series and directly to the connected Evaluation means act. These include, for example, in letter distribution systems the pocket opening trigger magnet or switches for adjusting the conveying path to understand.

The set incandescent lamps are deleted, for example, by Interrupting the light beam between the light bulb and the photo resistor or after a Further development of the invention by means of a zero setting circuit in which the resistance the photoresistors are evaluated as a criterion for the switch-off process.

A signal can be used to actuate the setting set in accordance with the timing be that according to a further embodiment of the invention with an additional Storage lamp and an additional photoresistor is obtained.

The invention is explained on the basis of the figures.

It shows F i g. 1 shows an arrangement according to the invention in plan view, F i g. 2 the circuit of a reading point, F i g. 3 the zero setting circuit.

In Fig. 1 is a clockwise rotating storage drum 1 shown, on the circumference of which a plurality of reading points 2 are arranged next to one another. In a partially sectioned view, a storage element 3 is a storage column shown, which consists of an incandescent lamp 4 and a photo resistor 5. Under one Storage column is the arrangement of several storage elements in a surface line Understand the storage drum that is used for marking a target Find. The components forming a memory element, i. H. Light bulb and photo resistor, are each arranged in a housing 6 in such a way that the lamp passes the photoresistor can illuminate. A storage column can, for example, consist of ten arranged one above the other Storage elements exist.

The read photo resistance is shown in FIG. 1 also cut shown and denoted by 7. The supply voltage for the storage elements is fed to the rotatably mounted drum via a slip ring arrangement 8. The housings that contain the storage elements face the outside of the drum a hole 9 so that the photoresistors from the outside to turn on the storage lamp illuminated and the stored information can be read.

On the circumference of the drum there is also an adjustment set 10 and a zero setting arrangement 11.

Provided that the reading points are firmly connected to one another are, there is only an extraneous light shield 12 between the zero position and the setting set on the one hand and the setting set and the reading points on the other.

The arrangement according to the invention can, for example, be used as a target memory be used for rotating letter distribution systems. In this case it rotates Constant speed drum. The number of storage elements on a surface line the drum is determined by the code used. The one from an adjustment kit Stored information remains, as can be seen from FIG. 1, for example one revolution of the drum are stored and are then deleted again. During this The information is read in circulation and evaluated for target control.

By illuminating the storage elements to be set when passing of the setting set, the photoresistor of the corresponding storage elements becomes low-resistance and switches on the assigned lamp.

This does not go out because it now further illuminates the photoresistor and thereby holds itself. The photo resistor limits the lamp current when switched on, which has a positive effect on the service life of the lamps.

A light source is included in the setting kit for setting the storage elements required, which must be able to be switched on and off quickly. Fulfill this requirement, for example Glow, stroboscopic or flash lamps. As the photo resistor and the light bulb each Storage element have a certain inertia, it takes a certain amount of time the memory lamp lights up fully and holds itself through the photoresistor. The illuminance for setting the storage elements must be at least as great be that the photoresistor decreases to, for example, 3 kΩ. In this borderline case a lighting time of over 100 milliseconds is necessary. The storage time but can be used when using Flashes of light of appropriate strength to about 0.5 milliseconds because the memory lamp lights up before the photoresistor increases its value again to 3 kΩ due to its inertia Has. Any combinations between illuminance levels are now within these limits and lighting duration conceivable.

The set memory lamps are also scanned with photo resistors. If necessary, certain combinations are set To read out memory, several photo resistors can be created without additional effort connect in series, which are arranged outside the drum according to the combination are, as can also be seen from FIG. 1. The dark resistance of a photoresistor is z. B. 10 MQ and the minimum light resistance about 100 Q. The distinction between these values can be controlled with certainty.

F i g. 2 shows the complete circuit of a reading point. Depending on of the combination used are one or more photoresistors as scanning elements 7 provided. If they are low-resistance by lighting the lamps of the storage elements the transistor 13 receives base current and can turn on. With 14 is schematic an evaluation arrangement of this switching state is shown, via which, for example set a switch or energized a release magnet in a letter distribution machine is, the one pocket of the letter distribution machine for the delivery of the with the target identifier provided letter opens.

The necessary reading time for a stored character is given by the inertia of the photo resistors 7 is determined. The switching speed grows with it the illuminance, i.e. the luminous intensity of the storage lamps with otherwise the same Arrangement and the current that must be switched by the reading photoresistors. If by positive base bias an additional current through the photoresistor is enforced, the given arrangement results in very short reception times possible.

F i g. 3 shows the circuit used by illuminating all of them a surface line of the drum located storage elements from the outside the stored Characters can be deleted. If you use the storage system z. B. as a flow memory is used, a small, constantly switched on fluorescent lamp is sufficient for the zero position of the storage elements. If the drum contains n elements on a surface line, this means that a maximum of n- 1 memory lamps can be switched on during storage.

The transistor T1 switches the current of the memory lamps 4. If all The lamps are switched off and the photo resistors 5 are also darkened from the outside, the transistor T 1 has turned on. Information can now be passed through the setting set can be saved. As long as at least one photo resistor is darkened, is positive potential over the turned on transistor T 1 and not switched on Lamps 4 at at least one of the points M1 ... Mn. There is therefore only a small amount due to P. Voltage resulting from the voltage divider at least one not switched on and thus low-resistance lamp to the high-resistance resistance R 1 results. The switched on Lamps stay ineffective because of the diodes D. To control the transistor T 2 and thereby to block the transistor T 1, but P must be due to the Zener voltage the Zener diode 15 can be raised to at least 24 volts, for example. This happens by lighting also the last photo resistor.

The transistors T1 and T2 have a breakover characteristic in this arrangement. When all photoresistors are darkened, the voltage at point P decreases according to the forming voltage divider from the resistor R and the parallel connection of all Lamps for parallel connection of the photoresistors and the resistor R 1 again away. If the voltage at point P falls below the assumed voltage value, it blocks the transistor T2, whereby T 1 turns on. There is also this downshift a breakover behavior, since the transistor T2 controls the resistor involved in the voltage divider R bridged.

In the case of the drum store, the information carrier is only moved is switched when saving and deleting. This is the lifespan of this Arrangement significantly higher than in known arrangements with shift registers. the Storage of the drum is no problem, as even small heights and Side impacts could not impair the function of the storage tank. The space requirement of the individual storage elements on the shell of the drum is also low.

Via an additional storage lamp and an additional photo resistor, which are arranged, for example, between the last reading point and the zero position are, a signal can be obtained via which the setting set is clocked control is.

After passing the last reading point, it is easy to do possible to falsify the set code and an additional criterion in insert each identification carrier by an additional photo resistor is evaluated. If the space between the latter reading point and zero position for the placement of such an arrangement is not sufficient, but it is also possible to accommodate the required components in the penultimate and last reading position. With this solution, the additional lamp in each identifier carrier the penultimate reading position applied to a memory track, which is in their code for the last reading point is not required and instead by the additional Photo resistor is evaluated. With the signal obtained in this way, the Adjustment set controlled in such a way that, for example, the flash always ignites exactly then when an identification carrier is exactly opposite the setting set.

Claims (9)

Claims: 1. Arrangement for target control in conveyor systems with a replica running synchronously with the system in which the target identifiers of the conveyed goods are stored in code form by means of incandescent lamps as storage elements, reading points from photoresistors assigned to the receiving points for their evaluation serve, characterized in that the incandescent lamps (4) in the lateral surface of a Drum (1) are provided and each light bulb with a Photo resistor (5) is connected in series, to be exposed from the outside and with the incandescent lamp in one Housing (6) is arranged so that the lamp can illuminate the photoresistor. 2. Arrangement according to claim 1, characterized in that for setting light sources that can be switched on and off quickly, such as glow, stroboscopic or flash lamps are provided. 3. Arrangement according to claim 1, characterized in that the resistor of all photo resistors (5) of a storage column as a criterion for deleting the Target symbol serves. 4. Arrangement according to claim 3, characterized in that for switching off the incandescent lamps (4) in a storage column by briefly switching off the power supply a transistor (T 1) is provided, which turns on as long as not all photo resistors (5) are illuminated, and that a second transistor (T2) is provided, which is in connection with a Zener diode (15) and a diode arrangement initiates the shutdown when all photo resistors S: are illuminated. 5. Arrangement according to claim 4, characterized in that the diodes with the current outlet side via the Zener diode (1S) to the base of the second transistor (T2) are connected. 6. Arrangement according to claims 4 and 5, characterized in that that parallel to the first transistor (T 1) a resistor (R) is provided over after the absence of external lighting with the help of the high-ohm photo resistors and the Zener diode (15) switched off the control current of the second transistor (T2) will. 7. Arrangement according to claim 6, characterized in that after locking of the second transistor (T2), the first transistor (tal) is activated again and so that the lamp assembly (4) makes ready for storage. 8. Arrangement according to claim 1, characterized in that with a additional storage lamp and an additional photoresistor generates a signal which is used to actuate the setting set (10) in accordance with the timing. 9. Arrangement according to claim 8, characterized in that the additional Storage lamp is switched on continuously. Publications considered: German Patent No. 1109 423; U.S. Patent No. 3,012,680; Siemens-Zeitschrift, 1961, no. 9, p. 628 bis 632; "Conveying and lifting", 1964, no. 11, pp. 783 to 787.