RU2232426C2 - Method of signal generation and transmission - Google Patents

Abstract

FIELD: automatic fire alarm systems.

SUBSTANCE: method involves processing digital information directly into signaling device and transmitting digital information results to receiver/control apparatus in simple analogous signals.

EFFECT: reduced cost consumption for signal translation, possibility of signaling device compatibility with inexpensive receiver/control apparatuses having analogous signaling loop circuit.

5 cl, 3 ex

Description

The invention relates to an automatic fire alarm, in particular to the inclusion of a fire alarm by analyzing a controlled fire factor (smoke, temperature, etc.).

A known method of generating a signal in a fire detector connected by its output to a communication line with a control panel containing a detector of a controlled fire factor and a transmitting device connected to the output of the detector, consisting in determining the excess of a threshold value of a controlled fire factor, generating an alarm signal and transmitting it to the communication line using a transmitting device (Product catalog IVS - Signal-special automation, Obninsk, 2000, p. 2 "Optical-electronic smoke smoke detector IP 212 - 44 (DIP-44) ").

The known method of transmitting information is simple to implement, but there is no testing of the operability of the detector nodes, the dustiness of the optical camera, which reduces the reliability of its operation.

The closest in technical essence and the achieved result to this method is a method for generating and transmitting signals from a fire detector to a control panel via a communication line using a transmitter included in the detector, including a self-test of the health of the detector nodes and measuring the value of the controlled fire factor (www .systemsensor.ru). The formation and transmission via the communication line of the value of the controlled fire factor and information about the malfunction is carried out in digital code using a transmitting and receiving device.

The disadvantages of the known method of generating a signal in a fire detector are the high cost of the process due to the use of an expensive detector and an expensive control panel containing devices for digital information exchange, as well as low reliability and noise immunity of the digital communication of the device with the detector, limitations on the compatibility of devices and detectors (protocols digital information exchange are individual for each type of device and detector).

Within the framework of this application, the task of reducing the cost of the information transfer process when generating a signal in a fire detector about a detector malfunction and when the value of the controlled fire factor reaches an acceptable value by ensuring the compatibility of the detector with inexpensive alarm control panels with analog signal loops is solved.

The problem is solved in that in the method of generating and transmitting signals from the fire detector to the control panel via a communication line using a transmitting device included in the detector, including a self-test of the health of the detector nodes and measuring the value of the controlled fire factor, the detector is additionally equipped with a logic device, by means of which the value of the measured value of the controlled fire factor is compared with an acceptable value, and the signal about the excess of the control value the fire factor of the permissible value and the detector health signal, according to the results of its self-test, are transmitted to the communication line in analog mode using a transmitting device.

In this case, a signal about the excess of the controlled fire factor by an acceptable value is transmitted by changing and fixing the output resistance of the transmitting device.

In this case, the signal about the health of the detector according to the results of its self-test is transmitted by a short-term periodic change in the output resistance of the transmitting device.

At the same time, the detector is additionally equipped with a normally closed switch connected in parallel with the detector with a device limiting the voltage drop across the detector to 1.5-6 V, and the detector health signal is transmitted by opening the switch.

At the same time, the detector is additionally equipped with a normally open line switch included in the break of the communication line behind the detector, the communication line is equipped with an end resistor, and the detector health signal is transmitted by closing the line switch.

The voltage drop at the detector of more than 6 V (but less than the threshold value determined by the type of device) is recognized by the control panel as a “Fire” signal, and not as a “Short circuit” signal. A voltage drop of less than 1.5 V does not allow the detector nodes to work.

The essence of the method consists in processing digital information directly in the detector and in transmitting the results of complex digital processing of information using simple analog signals.

Example 1. To implement this method of generating and transmitting a signal, a detector containing a smoke (temperature) detector, a device for testing the operability of detector nodes, a transmitting device connected to the detector output, and the detector output are connected in parallel to the communication line.

The detector is equipped with a logical device and connected via a communication line to the control panel.

In the standby mode of the detector, the operability of its nodes is tested using the appropriate device, and when the detector is in good working order, a “Normal” signal is generated by briefly periodically decreasing the output resistance of the transmitting device. In case of a detector malfunction, the absence of the “Normal” signal is perceived by the control panel as a “Fault” signal and is accompanied by the issuance of a corresponding message.

In a working (according to the results of self-testing) detector, the detector measures the amount of smoke (temperature). The measured value is compared with a valid value using a logic device, and when it is exceeded, a Fire signal is transmitted to the communication line by means of a transmitting device by reducing and fixing the output resistance of the transmitting device.

Example 2. To implement this method of generating and transmitting a signal, a detector containing a smoke (temperature) detector, a device for testing the health of the detector nodes, a transmitting device connected to the detector output, and the detector output are connected in parallel to the communication line.

The detector is equipped with a normally closed switch connected in parallel to the detector with a device limiting the voltage drop across the detector to 5 V, as well as a logic device, and connected via a communication line to the control panel.

In the standby mode of the detector, the operability of its nodes is tested using the appropriate device, and when the detector is in good working order, a “Normal” signal is generated by opening the switch. In the event of a detector malfunction, the switch closes and limits the voltage drop across the detector to 5 V, which is perceived by the control panel as a “Fault” signal (short circuit) and is accompanied by the issuance of the corresponding message.

In a working (according to the results of self-testing) detector, the detector measures the amount of smoke (temperature). The measured value using a logical device is compared with an acceptable value, and when it is exceeded, a Fire signal is transmitted to the communication line by means of a transmitting device by reducing and fixing the output resistance of the transmitting device.

Example 3. To implement this method of generating and transmitting a signal, a detector containing a smoke (temperature) detector, a device for testing the health of the detector nodes, a transmitting device connected to the detector output, and the detector output are connected in parallel to the communication line.

The detector is equipped with a normally open line switch, included in the break of the communication line behind the detector, as well as with a logic device, the communication line is equipped with an end resistor and connected to the control panel.

In the standby mode of the detector, the operability of its nodes is tested using the appropriate device, and when the detector is in good working order, a “Normal” signal is generated by closing the switch. If the detector malfunctions, the switch opens, which is perceived by the control panel as a malfunction (communication line break) and is accompanied by the issuance of the corresponding message.

In a working (according to the results of self-testing) detector, the detector measures the amount of smoke (temperature). The measured value is compared with a valid value using a logic device, and when it is exceeded, a Fire signal is transmitted to the communication line by means of a transmitting device by reducing and fixing the output resistance of the transmitting device.

The advantages of this method of signal generation and transmission, consisting in reducing the cost of the fire detector and in ensuring its compatibility with low-cost alarm control panels with analog signal loops, are ensured by the fact that the detector transmits “Fire” and “Fault” (“Norm”) signals in the way , accessible to perception by a traditional control panel, simulating the “Fire” and “Fault” signals in an analog signal loop.

Claims (5)

1. A method of generating and transmitting signals from a fire detector to a control panel via a communication line using a transmitter included in the detector, including a self-test of the health of the detector nodes and measuring the magnitude of the controlled fire factor, characterized in that the detector is additionally equipped with a logic device, with by means of which the value of the measured value of the controlled fire factor is compared with an acceptable value, and the signal about the excess of the value of the controlled factor fire allowable value and serviceability of the detector signal of the results of its self-testing is transmitted to the communication line in the analog mode using the transmitting device. 2. The method according to claim 1, characterized in that the signal that the controlled fire factor exceeds the permissible value is transmitted by changing and fixing the output resistance of the transmitting device. 3. The method according to claim 1, characterized in that the signal about the health of the detector according to the results of its self-test is transmitted by a short-term periodic change in the output resistance of the transmitting device. 4. The method according to claim 1, characterized in that the detector is additionally equipped with a normally closed switch connected in parallel with the detector with a device that limits the voltage drop across the detector to 1.5-6 V, and the detector is in good condition by opening the switch. 5. The method according to claim 1, characterized in that the detector is additionally equipped with a normally open line switch included in the break of the communication line behind the detector, the communication line is equipped with an end resistor, and the signal about the health of the detector is transmitted by closing the line switch.