SU922836A1 - Smoke detector - Google Patents

Description

The invention relates to devices * fire alarm and can be widely used as a sensor, signaling the presence in a controlled environment of smoke.

Known smoke sensor containing ⁵ light source, optically connected with photocells, one of which is located on the same axis with the light source and connected to the input of the first amplifier, and the other photocell is located at ¹⁰ angle to the light source and connected to the input of the second amplifier, the output of which connected to the relay and through the emitter follower to the light source [1].

However, this device does not have ^{, 5} sufficient reliability.

The closest to the proposed technical solution is a smoke detector containing a joint

_ 20 with the output of the generator, a light source optically coupled to the main photodetector, which is connected to series-connected amplifier,

2

a rectifier, an integrator whose output is connected to one signaling input, a light source and an additional photodetector optically connected to it, connected via an amplifier to an inverter, the output of which is connected to a generator and to a series of series-connected threshold unit, an additional integrator and a key whose output is connected to the second input of the detector [2].

Due to the presence of an additional photodiode and a color amplifier, the device has a higher reliability. In the known device, the introduction of a control signal to the generator input allows changing the luminous flux emitted by the LED. However, it is very difficult to implement such a control with high LED radiation power, since it will be necessary to create a special pulse generator circuit in which the internal resistance of its output stage would change, I work3

in saturation mode. In addition, in the known scheme possible false positives caused by the action of industrial electromagnetic interference.

This is due to the fact that any signal that occurs at the output of the main photodiode, which coincides in frequency with the output signal / generator, will cause a false alarm of the alarm device.

The purpose of the invention is to improve the reliability of the smoke detector.

This goal is achieved due to the fact that an And element and a delay unit are inserted into the device, the output of the first amplifier is connected to the first input of the element And, the generator output is connected to the second input of the element And through the delay unit, the output of the second amplifier is connected to an additional integrator control input of the first amplifier, the output element And through serially connected the first integrator and the threshold unit is connected to the detector.

The drawing shows a diagram of the smoke detector.

The smoke detector contains a generator 1 connected to a light source 2, such as an LED, and a delay unit 3, a main photodetector 4, such as a photodiode, an additional photodetector 5, such as a photodiode placed together with the light source 2 in an opaque housing 6, an amplifier 7 connected to the receiver 4 of the light and one of the inputs of the element And 8, with the second input of which is connected the output of the delay unit 3, the integrator 9 connected to the output of the element And 8 and with one of the inputs of the threshold unit 10, with the second input of which successively ineny extra integrator 11, amplifier 12 and light receiver 5, exit block 1O threshold switch 13 is connected.

The detector works as follows.

In the absence of smoke, the luminous flux of the light source 2 (LED) hits the photodetectors 4 and 5 (photodiodes), generating on them a photo-emf of a given level.

The appearance of smoke leads to a change in the photo-EMF on the photodiode 4. In this case, the photo-EMF of the photodiode 5 retains its value, since its optical connection with the LED 2 is shielded.

When the photo emf on photodiode 4 reaches a certain level, at its output 922836 4

There will be a signal that will go through the amplifier 7 to the input of the element 8. And the second input of the element 8 will receive the signal of the generator 1, which passed through 5 block 3 delays. The delay time of block 3 is chosen equal to the delay time of the generator signal in the optical path of the light source - the main light receiver - the main amplifier. The coincidence of 10 input signals on the element And 8 is possible only when the signal at the output of the main photodetector 4 is caused by the output signal of the generator 1. In case the signal at the 15th output of the main photodetector 4 is caused by industrial noise, the corresponding output signal of the main amplifier 7 does not coincide in time with the signal at the second input of the element AND 8, which came from generator 1.

If it's not there, but the external conditions have somehow changed, for example, the temperature, the intensity of the radiation from source 2 of the light will change,

25 the photoelectric emf of the main 4 and an additional 5 photodetectors will change accordingly, and therefore the voltage at the output of amplifiers 7, 12 and additional integrator 11. Changing you ₃ 0 of the input voltage of the integrator 11 will cause a change in the gain of amplifier 7, which will not let the signal the main photodetector 4, and, therefore, in this case there will be no signal at the output of the element And 8 and the detector 13 will not work.

Thus, the presence of smoke leads to the appearance of a signal at the output of the element And 8 and the main integrator 9. The signal of the integrator 9 passes through the threshold amplifier 10 and causes the operation of the alarm device 13.

The proposed smoke detector will improve the accuracy of information about the presence of fire, which will exclude cases of false alarm and accidental commissioning of fire extinguishing agents.

Claims (1)

Claim A smoke detector containing a light source connected to the generator output, optically coupled to the main photodetector, which is connected to the first amplifier, a light source and an optically associated additional photodetector ·, which are installed in an opaque housing, additionally5 A photocell receiver is connected to a second amplifier, an integrator and an additional integrator, a threshold unit, a signaling device, characterized in that, in order to increase reliability, an And element and a delay unit are introduced into the detector _(the output of the first amplifier is connected to the first input of the And element, the generator output through the delay unit connected to the second input of the element AND, "0 the output of the second amplifier through an additional integrator connected to the input 922836 6 control of the first amplifier, the output element And through a serially connected first integrator and a threshold unit connected to the detector. ·