SU1149326A1 - Photoelectric detector - Google Patents

Abstract

A PHOTO-ELECTRIC TREATOR containing an unmodulated light source optically coupled to a photoresistor connected to one output + I /: house through a resistor to the first power supply bus and the other through the output relay coil to the second power supply bus, feedback winding, restrictive a resistor, characterized in that, in order to increase reliability with a slow change in the luminous flux, an electromagnetic relay with a continuous switching contact is used as the output relay, closing the part of which connected between the first power supply and one output winding of the feedback relay, and the disconnecting part via the disconnecting contact of the feedback relay parallel to the winding of the feedback relay, and the second output winding of the feedback relay is connected to the second bus ( L power supply, in parallel with the resistor is open the contact of the feedback relay. 4 oo 0 Oi

Description

The invention relates to a pulse technique and can be used in the construction of analyzers that generate a signal that slow-entering and variable-emitting objects are present in a controlled area. A photoelectric selector is known that contains a photoresistor, a setpoint potentiometer, a current adder, a DC amplifier, in which, to accelerate release, an additional DC amplifier and a chain of series-connected diode, a resistor and a capacitor are connected to the photoresistor, and a capacitor is connected to the output additional amplifier 1. The disadvantage of the device is low reliability due to the low return coefficient. A photoelectric detector is known, which contains a series-connected circuit from a photodiode, a resistor and a relay winding connected to the outputs of the power source 2. A disadvantage of such a device is its low reliability. The closest in technical essence to the present invention is a photoelectric selector containing a source of unmodulated light, optically coupled to a photoresistor, connected by one output through a resistor to the first power supply bus and the other through the output relay coil to the second power supply terminal, the relay coil feedback, limiting resistor 3. A disadvantage of the known device is low reliability, since with a slow change in the applied voltage, a mode arises, the generation of the operating voltage Relays (issuing a series of pulses instead of one) when trying to make feedback sufficiently deep (i.e. by desaturation of the feedback resistor to introduce a sufficiently large resistance in series with the photoresistor. The purpose of the invention is to increase reliability while slowly changing the luminous flux. that in a photoelectric switch containing a source of unmodulated light optically coupled to a photoresistor connected by one output through a resistor to the first power supply terminal and the other Without the output relay winding - to the second power supply bus, winding of the feedback relay, limiting resistor, an electromagnetic relay with break-free switching contact is used as the output relay, the terminal part of which is connected between the first power supply bus and one feedback winding terminal of the feedback relay, and the disconnecting part is through the disconnecting contact of the feedback relay parallel to the winding of the feedback relay, and the second winding terminal of the feedback relay is connected to the secondary through a limiting resistor second power source bus, parallel resistor included break contact relay feedback. The drawing shows the structural scheme of the proposed photovoltaic switch. The photoelectric detector contains a source of unmodulated light (working light source), a photoresistor 2, a resistor 3 (current limiter), a negative feedback resistor 4, an output relay 5, a feedback relay 6. The winding of the output relay 5, the photoresistor 2 and the feedback resistor 4 are connected in series, while the negative feedback resistor 4 is grounded by the disconnecting contact 7 of the feedback relay 6, and the output relay 5 is provided with one or more parallel-connected contacts of open switching, and the resistor 3, the winding of the relay 6 and the closing part 8 of the break-free contact are connected in series and connected to the power supply terminal 9, and the winding of the relay 6 is shunted by a circuit of the series-connected x its own normally open contact 10 and the normally closed contact part 8 of breakless switching. The unmodulated light source 1 is connected to a voltage source 11. The device works as follows. In the initial state of the circuit (when the light source is overlapped), relays 5 and 6 are in the unexcited state. With an arbitrarily slow opening of the light source, the current in the relay 5 increases just as slowly. At a certain current value, the measles relay 5 begins to move. At the same time, the closing part 8 of the contact closes first, but the relay 6 cannot work so far, since its winding is shunted. With a further increase in current, the movement of the core continues, and at a certain stage of movement, the opening part 8 of the contact opens. Relay 6 is triggered, one of its normally open contact decouple resistor 4, the other - its own winding. Shunting of the resistor 4 leads to a decrease in the current and the opening of the core in the opposite direction and to the closure of the opening part 8 of the contact. However, the action of this part of the contact is blocked by the opening contact 6, therefore, despite the opening of the core, to a change in the state of the relay 6 playing

at the same time the role of the output relay of the reader, it does not lead. The loudspeaker stably maintains the excited state and the contacts of the relay b indicate the corresponding signals.

Such an operation of the circuit favorably differs from the operation of the circuit of a known device in which the slightest opening of the core after de-shunting results in a shunting of the feedback resistor and a repeated operation attempt followed by another de-shunting of the winding and tilting of the core, etc. , bell mode).

With an arbitrarily slow overlap of the light source, the breaker closes first, and then the closure part 8 of the contact opens. Relay 6 releases, resistor 4 and its winding is shunted by its contacts. As a result of the de-shunting and increasing of the current, the bark of the relay 5 moves in the direction of actuation (the measles opens in the opposite direction), and the closing part 8 of the contact closes, however, in this case, the output relay 6 does not activate, since its winding remains bored. As a result, a stable unexcited state of le 6 is observed, which corresponds to a low luminous flux, despite the fact that the contact part 8 is not tilted in the opposite direction.

When there is a sharp illumination or darkening of the photoresistor (easier case), the reader works in the usual way (as known devices).

Thus, the presence of a switchless contact and a connection between it and other elements of the reader in the relay 5 allows the threshold values to be passed

5 light streams as much as slowly, including a stop, without causing generation of false impulses. The admissibility of the return stroke of the core provides the ability to make feedback deep (to introduce a large resistance resistor), for

 As a result, the luminous flux of the quenching of the detector turns out to be large and changes its state (quenched) even with a significant emissivity of the object being monitored.

Claims (1)

A PHOTOELECTRIC DETECTOR containing an unmodulated light source optically coupled to a photoresistor connected by one output through a resistor to the first power supply bus and the other through the output relay winding to the second power supply bus, feedback relay winding, limiting resistor, characterized in that, in order to increase reliability with a slow change in luminous flux, an electromagnetic relay with an uninterrupted switching contact, the closing part of which is used as an output relay, is used is connected between the first power source and one output of the feedback relay winding, and the disconnecting part - through the opening contact of the feedback relay parallel to the feedback relay winding, and the second output of the feedback relay winding through the limiting resistor is connected to the second bus of the power supply, disconnecting is connected in parallel to the resistor feedback relay contact. 4 ^ C © Od KE