RU2001135950A - Method for photorecording an open flame and device for its implementation - Google Patents

Claims (4)

1. A method of photographic recording of an open flame, which includes converting the optical radiation of an open flame into an electrical signal, extracting the low-frequency component of the electrical signal, forming a sequence of pulses of constant amplitude and duration on its basis, analyzing the time intervals between pulses by comparing them with each other, characterized in that isolate the constant component of the electrical signal, using it set the gain of the variable component, and they isolate the constant component of the signal, digitally process the response signal using a microprocessor device, while the extracted and amplified analog signal, corresponding in characteristics to the signal from a flickering open flame, is additionally amplified, and the signal corresponding to the number of pulses normalized in amplitude and duration for a certain interval time, compared with a threshold value, if this signal has reached a threshold level, make a preliminary decision on the availability of ignition, if the signal from the microprocessor device also exceeded its threshold level, then the final decision on the presence of fire is made, but the interference in the useful signal of the analog path is additionally analyzed, and if the level of this interference does not exceed the threshold level, a signal is sent to the key device, and if the signal has exceeded the threshold level, the final decision is blocked, in addition, at the same time control the operation of the microprocessor device, while determining the level of high-frequency otnyh interference and, if the level of interference exceeds a threshold, then block the decision of the presence of fire and restarts the microprocessor device. 2. A device for detecting flame, comprising a digital path, including at least one electromagnetic radiation receiving detector connected to an amplifier, a test signal generating unit, a microprocessor unit based on a microprocessor device, and including a gain control unit, characterized in that it is additionally equipped with an analog path consisting of a series-connected photodetector, a secondary converter, a voltage amplifier, a bandpass filter, an amplifier a voltage amplifier after filtering, a voltage limiter, a duration comparison unit, a pulse shaper, a storage unit, a response signal generating unit, a key device, while a DC amplifier is installed at the input of the secondary converter, the output of which is connected to a voltage amplifier, with the input of the response signal generating unit and with one of the inputs of the processor device, the output of the voltage amplifier is connected to the input of the automatic voltage control unit, the output of which is inen with the input of the voltage amplification unit, in addition, the band-pass filter, the voltage amplifier after filtering and the storage unit are connected to the processor device, the output of the voltage amplifier has a unit for determining the general level of interference and a unit for determining interference from light sources powered from an industrial network, their outputs are connected to the processor device and to the response signal generation unit, the device is also equipped with a restart unit connected to the input of the processor device and the input unit generating a response signal, and the output of the processor device is connected to the input of the generating block of the response signal, the device is also equipped with a current analog interface driver, the output of which is connected to one of the inputs of the processor device, one of the outputs of which is connected to its input, and an address generator whose output is connected with one of the inputs of the processor device, and one of the outputs of the processor device is connected to the input of the test pulse shaper, the output of which is connected to the test pticheskim channel. 3. The device according to claim 2, characterized in that the photodetector and the test optical channel are equipped with a fiber optic cable, while the output of the fiber optic cable is connected to the photodetector, and its input is located in the control zone, the test pulse shaper is connected to the input of the fiber optic cable, the output of which is connected with the input of the fiber optic cable of the photodetector. 4. The device according to claim 1, characterized in that the photodetector can be located outside the unit, while ensuring the receipt of test optical pulses from the output of the test optical channel to the input of the photodetector.