SU941796A1 - Device for simultaneous monitoring of flames of several burners - Google Patents

Description

The outputs to the coding inputs of the selector-multiplexer 7. The information inputs of the selector-multiplexer 7 are switch inputs. The number of inputs of the selector-multiplexer 7, as well as the capacity of the counter 6, are also determined by the number of monitored torches. The outputs of the selector-multiplexer 7 are connected to the counting input of the counter 6 and is the output of the switch 4 connected to the analyzer input of the flame. Switch 5 includes a counter 8 connected by outputs to the coding inputs of the selector multiplexer 9. The output of the selector multiplexer is the output of switch 5 and is connected to the input of the sensor health analyzer, and the counting input of counter 8 is the clock input of this switch. The information inputs of the selector-multiplexer 9 are the information inputs of the switch 5. The control of the switch 5 is performed from the generator 10 through an AND circuit 11 switching the counter 8. The output of the counter 8 is connected to a decoder 12 with an indicator 13.

The flame presence analyzer circuit 14 includes a counter 15, the output of which is connected to an inverted input of an AND circuit 16, connected by an output to the counting input of a counter. The output of the counter 15 is the output of the analyzer of the presence of a flame, the input of the installation to "O is its input. The second input circuit And 16 is connected to the generator 10.

The analyzer circuit of the health sensor 17 contains a counter 18, having at the input the installation in the "O circuit And, the first inverse input of which is connected to its output. The output of counter 18 is the output of the sensor health analyzer circuit. With the output of this counter, an inverted input of the AND 19 circuit is connected, connected by an output to the counting input of the counter 18. The second input of the AND 19 circuit is the input of the sensor health analyzer circuit.

The outputs of the circuits of the analyzer 14 flame and analyzer 17 health sensor through the circuit OR 20 connected to the executive relay 21.

The device works as follows.

In the presence of a flame, the UV-radiation sensor 2 is continuously ignited, and the 3-magnification circuit also extinguishes it continuously, as a result of which the output of the primary converter 1 does not go; cic impulse sequence. The same sequence of pulses occurs at the outputs of all N primary transducers, if the latter are irradiated by radiation each from its own torch. In this case, the selector-multiplexer 7 transmits to its output pulses not from all the primary converters, but only from one of the N defined by the state of the counter 6.

Suppose that the state of counter 6 is such that at all its outputs there is an "O. Then the counting input of this counter will be connected with the output of one of the primary converters. This state will be maintained until the primary transducer emits a pulse. As soon as this happens and it is scanned at the input of the counter, the latter will change its state to units, i.e., at the input of Q1 it will switch to 1. This will cause the connected converter to be disconnected from the counting input of counter 6, and the next converter connected to it. Now the closest pulse from this converter will change the state of counter 6 to 1 and will also, in turn, be immediately disconnected from it, and another primary converter will be connected, which in turn will change the state of the counter, etc. Thus, in the presence of a flame, the counter 6 will continuously change its state, searching all the converters, and from the output of the switch 4 there will be pulses.

The pulses of the switch 4 are continuously set to "O counter 15 of the analyzer 14 for the presence of flame, therefore the state in which the output of the counter, and consequently at the output of the analyzer, the presence of flame is present" O is continuously confirmed, the executive relay 21 remains off.

Now suppose that one of the primary transducers suddenly stopped receiving impulses. This will happen when the flame disappears. By fixing the position at which this converter will be connected to the counting input of counter 6, the latter will stop. The reset in “About Counter 15” will not occur, and through Scheme I 16, the counter from generator 10 will be filled. When the number of pulses filled in the counter is such that at the output of the counter, “1” stops filling the counter, and “1” through OR 20 will go to the executive relay 21, which will turn on, stopping the fuel supply.

The sensor is monitored continuously. At this m, switching of the switch 5 is carried out from generator 10, and each primary converter is connected via AND circuit 19 to the counting input of counter 18 for the time determined by the pulse period of this generator. In the event that at least one of the N primary transducers has a number of pulses that is enough to fill the counter 18 received at its output 1 through the circuit OR 20 also goes to the executive relay 21 which turns on by stopping the supply of fuel. Further

Claims (3)

Claim 1. A device for the simultaneous monitoring of the flame of several burners, containing flame sensors connected via an OR circuit to an executive relay, characterized in that, in order to increase reliability, the device additionally contains two switches, a generator, a health analyzer, a flame analyzer and a suppression circuit sensors, moreover, both analyzers are connected to the OR circuit, _{5 the} first switch is connected between the sensors and the flame analyzer, the second switch is between the sensors and the health analyzer, and the gene The speaker is connected to both analyzers and the second switch. 2. The device according to π. 1, characterized in that each switch is made in the form of a selector-multiplexer with feedback, moreover, in the first of them the feedback is made in the form of a counter, and in the second - in the form of an existing analyzer of operability of ¹⁵ sensors and a newly introduced circuit And , one of the inputs of which is connected to a generator. 3. The device according to π. 1, characterized in that the analyzers of serviceability and presence of flame are made in the form of counters with their 20 circuits And, moreover, the output of the health analyzer is connected to the inverting input of its circuits And and the counter, and the output of the flame analyzer is only with one of the inputs of its circuit I.