DE966579C - Protection circuit for photoelectric counting systems - Google Patents

Description

Protection circuit for photoelectric counting systems Photoelectric Counting systems work in such a way that the objects to be counted are otherwise released Darken the light beam and thereby create a new optical state. Through this an electrical switching process is triggered, either when the light barrier is illuminated has ended or has already subsided. The amplifiers for counting systems work either according to the static principle: -the output current surge lasts as long as for example the photocell is darkened, or according to a dynamic principle: the output current starts at the moment of darkening and ends regardless of the Lighten up. With both types of amplifiers there is the possibility that the input and. Switching off the system or unintentional in the event of a brief power failure Power surges occur that lead to miscounts; too much is counted. aside from that have all those working with tubes or with indirectly heated facilities Amplifiers have the peculiarity of requiring a warm-up time before they are ready for use. In the case of tape counts, this could result in incorrect counts due to failure of operational readiness come about if the belt starts up at the same time as the system; it is not enough counted.

Both types of interference are according to the present invention by a Protection circuit avoided. It consists of two relays, one of which one counts and shows whether it is counting; while the other relay the voltage to the counter gives when the photoelectric meter and the amplifier or amplifiers are ready to work.

The drawing illustrates the mode of operation of the invention. One Photocell i is illuminated by a lamp: 2 and acts on an amplifier 4. If necessary, the amplifier is connected to a time expander, for example .for a meter based on the dynamic principle, with a grid-controlled gas discharge tube, whose anode current is timed by an RC combination or a relay circuit a capacitor, whose discharge after the tube has gone out via the counter occurs, is limited. The amplifier energizes a relay 3 with the normally closed contact R. and the normally open contact A. The power switch 5 connects the device 4, which is expedient also contains the power supply for the lamp 2, with the direct or alternating current network 6. The movable contact M of the relay 3 is connected to one pole of the network. The other pole is the contact R via the relay coil 7 and via the relay coil 8 the contact A connected. Through the contact 9, the relay 8 is a self-holding relay. The counter 13 and the indicator lamp 16 receive voltage via the contact io. Of the Contact i i is used for counting and 12 connects the lamps 14 or i 5 to the mains. The switches and contacts are shown in the rest position.

If the mains switch 5 is closed, the relay pulls first 7 contacts i i and 12. The counter 13 does not respond, however, to the lamps 15 and 16 (red) light up. Due to the readiness to work that has now taken place the photocell device and the amplifier, for example by heating the Tubes, the contact M via A connects the network with the relay B. It picks up and remains excited by the self-holding contact until the power switch 5 is reopened: At the same time, voltage was applied to counter 13 via OK, and lamp 16 went out. When M falls from contact R, contacts i i and fall 12 from the relay and lamp 14 (green) lights up, 15 (red) goes out. Now she can And you can be sure that the counter has not yet responded.

The photo pulse to be counted causes the contacts 1H to close and R. An opening or closing of the connection M-A gives no effect because of 9. The counting pulse causes i i to close and ig toggle, and now becomes counted. When the count has ended, switch 5 is opened; thereby falls immediately the relay 8 from, the voltage is removed from the counter 13. It is the same with those that occur Faults in the power supply; the relay 8 immediately removes the voltage, and the relay 7 cannot trigger a counting process in the counter 13, and the indicator lamp 15 lights up red continuously in the event of a fault.

As can be seen from the drawing, this relay circuit the contactor coil of the conveyor belt can also be controlled. The lamp 14 indicates whether the system is free, in permanent display. Changing. 14 and 15 will light up means `counting, but if it remains 15 light, there is no counting.

The display combination 14, 15, 16 can be varied as desired.

Claims (3)

PATENT CLAIMS: i. Protection circuit for a photoelectric counting system, characterized in that two relays are provided, the separate functions of which are to suppress incorrect counts after -) - and - which can occur when switching on, switching off or briefly switching off or in the event of malfunctions in the counting system. 2. Protection circuit according to claim i, characterized in that that a relay only gives voltage to the electrical meter when the system is ready for operation and maintains this state until the voltage is switched off, and that a second relay counts and at the same time controls a display device. 3. Protection circuit according to claim i or 2, characterized in that when counting on the assembly line the contactor of the drive motor is only energized when the system is operational. Considered publications: »Handbock of Industrial Electronic CircuitsK Markus and Z e l u f f, MeGraw-Hill Book Comp., Inc., New York-Toronto-London, 1948, pp. 48/49, 185 and 192/193.