SU298940A1 - DEVICE FOR ALARM ALARM - Google Patents

Description

The present invention relates to alarm signaling systems allowing the alarm to be triggered by the presence of three elastic vibrations generated by mechanical transport in the system's sensitivity zone, and 1 at 3aMbiKaHiHH or disconnected by an arrester of a contact signal circuit. Known alarm system, based on the use of sensor. Preferred device, possessing sufficient sensitivity to elastic vibrations created by mechanical means of transport, at the same time “has an additional contact circuit signal circuit. The device can be used both in the autonomous version and in the case of remote control and provides "non-triggerability without triggering; in autonomous use.

The proposed device is based on the presence of a small constant resistance, the mu current of the inductive geophone, which, with the aim of creating simultaneous sensitivity to elastic oscillations and to closing or opening the satellite circuit, allows the use of a seismic receiver as an element of an oacttact syphonal circuit. To ensure autonomous use of the device, a sensitivity delay circuit has been introduced in it for

distemper and the release of the opera ator from the sensibility zone after switching on. Interference power supply (in case of distal use of the system, the power supply circuit is susceptible to interference) is provided by the inclusion of a relay in the power supply circuit and using the relay coil as a filter element, which is achieved using a capacitor-dynistor control circuit, and the control circuit

in standby mode, the fa cticheoka does not consume current.

The drawing shows the principal electrical circuit of the proposed device.

The seiomapriemic 1, connected in series with the parallel circuit of the bypass capacitor 2 and the bias resistor 5 and structurally connected with them, is the first sensitive element of the system. The signal two-wire line 4, running from the first sensing element to the circuit device, is the second sensing element of the circuit. One end of the signal line is connected to the silicon transistor base 5, and the second is connected to the network node from the delay capacitor 6 and the bias resistance 7. The feedback resistance 8 is connected between the emitter of the transistor 5 and the negative power supply.

pa 5 and .slushi shyy ON) About resistance 9, which Megte with resistance S represents a divider (voltage. The capacitor of the advertisement 10 is connected in parallel with the reverse resistance 8, coupling to the coupling capacitor // and the collector : resistor 12, the second end of the circuit is connected to the positive side bus. The second end of the capacitor 7 / is connected: e MHHyicoiBbLM electrode diode 13 detector 1 and the positive electrode diode 14 of the detector. with rezi the stator 15 of the integrating circuit, the second end of the resistor is connected to the end of the reverse winding: the terminal of the transformer 16 and the integral capacitor 17, the second end of which: is connected to the positive bus. A parallel resistance is connected to the condenser 17 17. The second end of the winding The feedback of the transformer 16 is connected to the base of the silicon transistor 19 of the blocking generator.

The collector of the transistor 19 blocking generator generation through the collector winding of the tr-anformator 16 is connected to the minus titanium bus amplifier. The collector winding of the transformer 16 is sealed on the damping D1IODO.M 20, the positive electrode is connected to; the negative amplifier power supply circuit. The emitter of the transistor is 19 h-through parallel connected sog1rotnvle.pi 21 feedback and ondSator 22 is connected to a common NLYUS01VOY. At the same time, the resistor 23 of the divider is connected to the emitter of the transistor 19, the second end of which is connected to a variable resistor m 24 of the voltage divider. The second horse of the ro.ezor 24 is connected to the minus power supply Ngina,; performed on the transistor 5. To the minus power bus, the amplifier is connected to: air conditioner; 25, the second end of which is C1b with a common plus bus. Min1sov Bus power amplifier is connected to the resistor 26 f, il a, about the second master cable of which the winding of the relay 27 is connected, the minus electrode of the damping diode 28 and the output winding of the transformer 16. the electrode of which is connected to a common busbar. The plus electrode of the damping diode 28 is connected to the second end of the relay bypass 27 and the ladder node through a series-connected toggle switch 30 is connected to the Minus terminal. The common 1x bus is connected to the positive side of the power supply terminal. The contacts 31 of the executive relay 27 are included in the alarm signal output circuit.

A 46 short circuit is connected between the wires of the signal line.

The device works as follows. A seismic receiver 1 is connected through a series-connected parallel circuit from a capacitor 2 and a resistor 3 through a two-wire signal line 4 to the base circuit of transistor 5: through a linear voltage amplifier. The co1nden1sato.r 2 shunts the resistor 3 during the passage of the variable component of the signal. When the signal line is interrupted or broken, the bias in the base circuit of the PTO 5 and on the collector load — Resistance 12 — is generated; a voltage pulse leading to the switching relay 27 is activated. A delay of sensitivity ensures a constant time from condensator 1a 6 and resistance 7a. After

switching on the power when the capacitor 6 is discharged, the bias at the base of transistor 5 will be negative, and it will open only after the voltage on the capacitor 6 is greater than the blocking resistance on the resistance 8, the input resistance 9. The resistance 7 allows to adjust the constant delayed loss of feelings and body lness.

Condensagore 10 reduces the amount of negative feedback when the ac signal is amplified.

From the collector of transistor 5, the signal goes to a doubler detector consisting of a capacitor Y and diodes 14 and 13. The positive signal amplitude is shunted by a diode 14 and the passage through the capacitor // charges it. The negative amplitude of the signal is added in magnitude with 1 accumulated radiation on the capacitor // and through the diode

13 enters an integrating circuit consisting of combining 15 and 18 and 1 of the circuit; sa.tora / 7. It should be noted that the overall sensitivity of the circuit depends on the size of the capacitor //. On the capacitor 17 is allocated

pulsating negative voltage, which, after over-thresholding the opening of the blocking generator on d | iodo 20 given by the divider (Nap (r, consisting of resistances 21, 23, 24, and the start-up characteristic of diode 20, starts a block | Ng generator. When blocking, the capacitor 17 is switched on in the feedback circuit of the generator in series with the base winding of the transformer format: 16. Pe3iHiCTOp 24 (generates the threshold of the generator. The capacitor 25 serves to prevent negative feedback with block process, d Iodine 28 damps the reverse voltage surge on the collector winding of the transformer 16.

The output winding of the transformer 16 is connected in series with the dynistor 29. In the absence of a pulse on the winding, the dynistor 29 is locked. After the appearance of a high-voltage pulse, after powering on, the dynistor switches, and the capacitor 25, charged to 1 magnitude of the supply voltage, begins to discharge through the resistor 26, keeping the distor 22 in a switched state. A constant (the time of the circuit consisting of the resistor 26 and the capacitor 25 is chosen so that during the discharge time of the inductance of the winding of the relay 27 through the dynistor 29 the dynistor is in the switching position, then the relay 27 is provided. the chew falls on the relay coil, and the circuit is almost completely cleaned. Additional K0 switches (steps 31. Turning off the relay 27 and returning the circuit to its original state is possible only when the voltage is disconnected: ip1 I with a tumbler 30. The diode 2S damps the reverse Chosen about switching on the relay 27.in the common power circuit, along with the self-locking issue during operation, made it possible to significantly improve the resistance to stray pickups in the power circuit.

This system can be used in; reg: As part of the alarm system for the protection of vehicles, walls from breaks, for recording the movement of mechanical means of transport, to ensure the "unbreakability without operation of devices like Mina (aiBToiHOMiHoe use).

Present Invention

An alarm device comprising a signal line with sensors

disturbance, input kakad on the transistor, the actuator with a blocking generator, a threshold element and a circuit 31delay, characterized in that, in order to increase the reliability of the device,

An inductive geophone is installed, which is connected to the 1B base circuit of the input transistor and in series with the base bias divider resistor, in parallel with which the children delay controller is connected, and the executive relay coil is connected to the power source through two parallel connected circuits, one of which contains sequentially connected resistor capacitor, and the other - the output winding

transformer blocking generator and dinistor.

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