SU656088A1 - Object state change signalling device - Google Patents

Description

one

The invention relates to the field of automatic signaling and can be used in the construction of control systems and monitoring of shipboard technical means.

A device for signaling the state of a monitored parameter is known, containing in each channel signal cells with signal lines connected in series with the sensor contacts, two-winding relays with counter-connected windings connected in parallel with the signal lamp and in series with the sensor contact, dissolving diodes and an audio squaring button signaling device l. The device has a low operational reliability due to the long-term presence of the relay windings under voltage when the -contact sensor.

The closest technical solution to the proposed is an object state change indicator, containing a sensor contact, connected via the first resistor to the first pole of the power source, through the first decoupling diode to the main winding of the polarized relay and through the second resistor to the base

a transistor whose collector is connected to the disconnecting winding of a polarized relay through the second decoupling diode, and the emitter to the second pole of the power source f2.

The drawbacks of the device are low reliability due to the possibility of the mobile contact of the remote switch hanging under the action / impact and the absence of an alarm signal about a change in the state of the object when the contact of the sensor is disconnected.

The aim of the invention is to increase the reliability by resetting the contacts of the remote switch to its original state in the event that its contacts are in the middle position under the influence of shocks and expanding the field of application by signaling closures and openings of the contacts of the sensors.

Claims (2)

For this purpose, an additional transistor, a third and a fourth resistors and an electromagnetic relay are inserted into the device, the emitter of the additional transistor is connected to the second pole of the power source, the collector is connected to one output winding of the electromagnetic relay, the other lead of which is connected to the third pole of the power supply. through its closing contact with the second terminals of the main and the breaking winding of the polarized relay, the additional transistor through the fourth coi resistor inena with vtorgm outputting a third movable contact and rezistra polarized relay, which stationary contacts are respectively connected to the collector of transistor .i common point communication contac sensor that first and second resist pa and first decoupling diode. The invention is illustrated in the drawing, which shows a diagram of an object state change indicator. The indicator device contains a contact 1 of the sensor, a polarized relay 2, the main 3 and the disconnecting 4 windings of which are connected via one connecting pin 1 and 6 to the sensor 1 and the collector of transistor 7, the base of which is connected through the second resistor 8 from the dinen to the anode of the diode 5 and through the first resistor 9c, the negative 5 pole of the power source 10, the positive pole of which is connected to the emitter of the transistor 7 and another pin of the D contact of the sensor; electro magnetic relay 11, included in the collector circuit of the additional transistor 12, the emitter of which is connected to the positive pole of the power supply source 10 f a base - via the resistor 13 is connected to the movable contact 14 of the polarized relay 2 which are fixed contacts 15 and 16 respectively, with the collector of the transistor 7 and the first terminal of contact 1 of the sensor, the common point of connection of the resistor 13 and the movable contact 14 is connected via a third resistor 17 to a negative field of the power supply source 10, which netic relay 11 is connected to the like-terminals 3 and the main breaking 4 obmogok polarized relay 2; By the output, the signal about the change in the state of the object is given by the SD as a short-circuit contact of the contact 19 of the electromagnetic relay 11.. In the initial state when the sensor 1 is disconnected, the transistor is open, since minus power supply 10 through resistors 9 and 8 is applied to the base of transistor 1, and through resistor 17 and closed contact 14-15 of polarized relay 2 to collector of transistor 7, the emitter of which is connected to the plus of the power supply 10; transistor 12 will be closed at the same time, since the plus source of the power supply 10 is 4; the open emitter-collector junction of the transistor 7, the closed contact 14-1b and the resistor are attached to the base of the transistor 12. relay 11 rev grind off / contact of the relay 18 is opened and the windings 3 and 4 are polarized relay 2 also deenergized. When contact of sensor 1 is closed, transistor 7 closes and transistor monitor 12 opens along the following circuit: the source power supply 10, resistors 17 and 13, transistor 12's base-emitter junction plus power supply 10. In this case, the electromagnetic relay 11 is triggered by applying minus power supply 10 through its closing contact 18 to the forward 3 winding of the polarized relay 2 (plus is supplied via the sensor’s closed contact 1 and diode S), which is triggered by transferring its moving contact. 14 to the left stationary 16. The transistor 12 is closed, since the plus of the power supply 10 through the closed contact 1 of the sensor and the closed contact 16-14 of the polarized relay 2 is supplied to the base of the transistor 12. The relay 11 de-energizes, the contact 18 opens and the winding 3 also de-energizes. When disconnecting the contact 1 d: tikchik transistor 7 opens along the circuit: minus power supply 10, resistor 9 connected in parallel with resistor 17 through closed contact 14-16 of polarized relay 2, resistor 8, base of transistor 7. Transistor 12 also opens across the circuit: minus power supply 10, resistor 9 connected in parallel with resistor 17 through closed contact 14-16 of polarized relay 2, resistor 13 and base of transistor 12. Relay 11 turns on; The power supply minus of the power supply 10 through the closed contact 18 of the electromagnetic relay 11 to one output of the breakaway winding 4 of the polarized relay 2, the other output of which through the diode 6 and the open transistor 7 is connected to the positive of the power supply 10. The polarized relay 2 is activated by transferring its moving contact 14 to the right fixed 15. When this happens, transistor 12 closes, relay 11 de-energizes contact 18 of this relay, de-energizes the disconnecting winding 4 of polarized relay 2. The circuit returns to its original state shown in the drawing . If, for any reason, the moving contact 14 of the polarized relay 2. hangs in the middle position, then the transistor 12 opens by the chain minus of the power supply 10, the resistors 17 and 13, the base of the transistor 12. At the same time, the relay 11 will operate, close its contact 18 and the winding 4 of the polarized relay 2 through the open transistor 7 and the diode 6 is connected to the power supply 10, the polarized relay 2 operates, returning its moving contact 14 to the fixed contact 15. Similarly, in the case of the on position of the contact 1 sensor and the mobile contact 14 hangs, the latter returns to the initial state on the fixed contact 16. The positive effect is that, compared with the known device, the proposed device has increased reliability by returning the contacts of the polarized relay to the initial state contacts in the middle position under the action of shock, and also expanded the scope of application by signaling the closures and openings of the contacts of the sensors. Claims of the object state detector containing a sensor contact connected through the first resistor to the first pole of the power source, through the first decoupling diode to the main, polarized winding and through the second resistor to the base of the transistor, the collector of which is connected through the second decoupling diode with a disconnecting winding of a polarized relay, and an emitter with a second pole of the power source, characterized in that, in order to increase reliability and expand the scope of the detector, into it the additional transistor, the third and fourth resistors and the electromagnetic relay, the emitter of the additional transistor are connected to the second pole of the power source, the collector is connected to one output winding of the electromagnetic relay, the other terminal of which is connected to the first pole of the power supply, to its third contact with BTopHNm with the same terminals of the main and breaking windings of a polarized relay, the base of the additional transistor is connected via the fourth resistor to the second output of the third a resistor and a moving contact of a polarized relay, the fixed contacts of which are connected respectively to the collector of the transistor and the common point of contact of the contact of the sensor, the first and second resistor and the first decoupling diode. Sources of information taken into account during the examination 1. USSR author's certificate No. 364006, cl. G08 B 21/00, 07.27.79. 2. Authors certificate of the USSR №346732, -., Cl. G 08 B 21/00, 23.10, .70.