SU525984A1 - Photoelectric security alarm device - Google Patents

Description

one

This invention relates to photoelectric alarm systems for the protection of premises.

A photoelectric fire alarm device is known, which comprises an emitter, a photo receiver, a generator, an amplifier, an alarm and alarm circuit, and a power supply unit.

However, this device generates an alarm only when the light beam directed from the radiator to the photodetector completely overlaps and does not have an automatic adjustment of the operating mode, and does not respond to an increase or decrease in the signal.

Another known device has an adjustment of the mode of operation and the threshold, but also does not respond to a high or low signal.

It is also known a similar device comprising an emitter optically coupled to a photodetector connected to a detector through an amplifier that is connected to a gain controller, a generator connected to an emitter and detector, a current controller connected to an emitter, an alarm unit made

transistors, with the base of the first and second transistors connected to the detector, the collector of the first transistor is connected to the base of the third transistor through a capacitor, and through the capacitor-diode chain to the base of the fourth transistor, the collector of the second transistor is connected to the gain controller and current regulator , the collector of the nth transistor is connected to the alarm sign.

The alarm unit of this device is in standby mode and does not generate an alarm when nocTyiuieifflH is sent to it from a stationary amplifier that does not vary in amplitude of the signal.

However, when such a device is operated with signals exceeding the dynamic range of the device, an alarm signal is not generated, however, it occurs, for example, when moving equipment, furniture and so on. on the protected object, when the amplifier is excited, as a result of which the intruder can penetrate the protected object without causing an alarm.

In the absence of a light signal on the photodetector, an alarm signal is also not issued, which may occur, on occasion, upon exit from

the emitter, photodetector, amplifiers, and the intruder can penetrate the protected object without causing an alarm.

The aim of the invention is to increase the sensitivity of the device and expand its function; io; al} first capacity.

This is achieved by introducing a resistor and zener diodes into the device, with the collector of the nerve transistor connected through the zener diode to the base of the fourth transistor and through the resistor to the base of the fifth transistor, and the other stabilizer connected to the emitter circuit of the first transistor.

Cx :: proposed device shown in the drawing.

The photoelectric security alarm device contains a photodetector, amplifier 2, detector 3 with filter, alarm unit 4, alarm indicator 5, gain controller 6, emitter 7, current regulator 8, generator 9.

The light signal arriving at the photodetector 1 is amplified by the amplifier detected and filtered in detector 3 and fed to the bases of transistors 10 (first transistor) and 11 (second transistor) of alarm unit 4. Traction sensor I, working in the circuit of the control unit, produces control when the magnitude of the signal on the base of transistor 11 becomes greater than the reference voltage in the emitter of the transistor, generated on the resistor 12, diode 13 and zener diode 14. Thus, The TC has a sufficient range of operation of the transistor 10, since its 3NmTTep is connected only to Zener diode 14 and resistor 12, which ensures the transfer by transistor 10 of both positive and negative voltage drops.

In the normal (standby) mode, the voltage across the collector of transistor 15 (fifth transistor) is such that the alarm indicator 5 does not generate an alarm signal. The signal for triggering the alarm signaling device comes from the collector of transistor 15, therefore, the alarm is determined by the base current of this transistor, set by the current flowing through the resistor 16 and connected in parallel to the series circuit made up of the resistor 17, the collector-emitter junction 10, the Zener 14 and the resistor 12. When there is no collector current of the transistor 10, for example, when the voltage at its base is lower than the reference voltage of the emitter, the base current of the transistor 15 is insufficient This is to create a voltage on its collector that blocks the generation of an alarm signal, which in this case signals an insufficient signal at the input of the photoelectric device, i.e. about its abnormal functioning. Such a situation may arise for a number of reasons, for example, when a photodiode, an LED, an amplifier, an excessively long distance of a protected object, etc. are out of order.

When the voltage at the base of the transistor 10 is enough to create a voltage on its collector necessary to block the alarm, the device goes into normal (dying) mode, and the device will give an alarm at a relatively fast decrease or increase in voltage applied to the input of the alarm unit 4, as a result of a change in the intensity of the light falling on the photodetector 1.

With a positive differential-voltage on the base of the transistor 10, this differential is amplified and from the co-vector load resistor 17 through the capacitor 18 and the diode 19 as a negative differential is fed to the base of transistor 20 (fourth transistor), which jokes the base transition of transistor 15 which closes and thus creates the conditions for issuing an alarm. Diodes 19, 21 serve only to have a negative voltage drop across the base of transistor 20.

If the voltage on the base of the transistor 10 is negative, a positive surge from the resistor 17 flows through the capacitor 22 to the base of the transistor 23 (the third transistor), opening it. The collector current of the transistor 23 saturates the transistor 20, which also leads to an alarm in the manner described.

If in the device due to some reasons, for example, due to the failure of the amplifier 6. exciter control, if the device is not correctly located, the signal will be above the dynamic range of the output stage of amplifier 2, this will also lead to an alarm. To signal this state, Zener diode 24 is applied, which is punched by lowering the collector voltage of transistor 10 below a predetermined level, which leads to the opening of transistor 20 and therefore to the output of a signal in accordance with the described interaction.

Thus, the described circuit triggers an alarm in four stations: the input signal is below a predetermined operating level, the input signal is above a specified dynamic range, the input signal is reduced and the input signal is depleted.

The proposed device is convenient to operate, informs about faults in the device, improper installation on the object and unintended movement of equipment inside the protected room, as a result, the accuracy of detection of the intruder will increase.

Claims (1)

Invention Formula A photoelectric security alarm device containing an imposer optically coupled to a photodetector connected to the detector via an amplifier that is connected to the gain controller, a generator connected to the emitter and detector, a current controller connected to the emitter, an alarm unit that is filled with transistors The base of the first transistor is connected to the base of the third transistor through a capacitor and the diode-with a chain through a chain. The base of the fourth transistor, the collector of the second transistor is connected to the gain controller and the current controller, the collector of the fifth transistor is connected to an alarm signaling device, characterized in that, in order to increase its sensitivity and functionality, a resistor and zener diodes are inserted into the alarm unit, moreover, the collector of the first transistor through one of the Zener diodes is connected to the base of the fourth transistor and through a resistor to the base of the fifth transistor, and the other Zener diode is connected to the emit pa of the first transistor.