RU85005U1 - WIRELESS FIRE DETECTOR - Google Patents

Abstract

1. A wireless fire detector comprising a housing in which an antenna is located connected to the output of a transceiver connected to an output of a microprocessor, a storage device connected to an input-output of a microprocessor, a smoke detector connected to an output of the microprocessor and an output connected to a DC amplifier, an output which is connected to the input of the microprocessor, a sound detector associated with the output of the microprocessor, a power source, the output of which is connected to a transceiver, a microprocessor, a memory device equipment, smoke detector, DC amplifier and sound detector, characterized in that it additionally has a discrete output for connecting external discrete actuators, which is connected through a galvanic isolation device to the output of the microprocessor, digital inputs for connecting external discrete sensors through galvanic isolation devices connected to the microprocessor inputs, an ambient light sensor, a temperature sensor, a humidity sensor, etc. tchik gassed connected respectively to the inputs of the microprocessor and the power supply output. ! 2. The wireless fire detector according to claim 1, characterized in that the discrete inputs are made in the form of screw or spring terminals. ! 3. The wireless fire detector according to claim 1, characterized in that the discrete output is made in the form of screw or spring terminals.

Description

The utility model relates to the field of measuring non-electric quantities and transmitting measured information over the air. The utility model can be used in fire alarm systems, in systems for monitoring the parameters of structures and in climate control systems.

Known wireless detector JA-60S (Jablotron, Czech Republic) (http://www.rielta.ru/), containing a photoelectric smoke detector having sound and light alarms, monitoring battery discharge and dustiness of the smoke detector.

A disadvantage of the known detector is its limited scope due to the impossibility of measuring temperature, gas contamination and humidity, limiting it only to fire safety systems.

The closest technical solution, selected as a prototype, is a wireless detector "Ladoga RK-PD" (Rielta, Russia) http://www.rielta.ru/. containing a photoelectric smoke detector having sound and light alarms, monitoring battery discharge and dustiness of the smoke detector.

The disadvantage of this device is the limited scope due to the inability to measure temperature, gas and humidity, limiting it only to fire safety systems. Another disadvantage of the analogue is the increased power consumption, which leads to a fast discharge of autonomous power sources.

The main task, which the utility model is aimed at, is the creation of a wireless fire detector, providing an expanded scope and reducing energy consumption.

The technical result is a reduction in energy consumption.

The problem is achieved in that in a wireless fire detector containing a housing in which an antenna is located connected to the output of the transceiver connected to the output of the microprocessor, a storage device connected to the input / output of the microprocessor, a smoke detector connected to the output of the microprocessor, and the output, connected to a DC amplifier, the output of which is connected to the microprocessor input, an audio detector connected to the microprocessor output, a power source, the output of which is connected to a siver, a microprocessor, a storage device, a smoke detector, a direct current amplifier and a sound detector, there is an additional discrete output for connecting external discrete actuators, which is connected to the microprocessor output through a galvanic isolation device, digital inputs for connecting external discrete sensors, through galvanic isolation devices connected to the microprocessor inputs, light sensor, temperature sensor, sensor humidity infrared and gas detector, respectively connected to the inputs of the microprocessor and the output of the power source.

Optimal discrete inputs and outputs are in the form of screw or spring terminals.

The claimed utility model can be used in indoor climate control systems and alarm systems. This is achieved by the presence of additional built-in sensors that monitor environmental parameters such as temperature and humidity. In addition, the presence of a temperature sensor in a utility model makes it possible to evaluate the temperature background in a room as one of the parameters determining the signs of a fire. The presence of an additional gas pollution sensor allows you to more accurately determine the signs of fire before the appearance of smoke, which triggers a smoke detector. The built-in light sensor allows you to assess the level of the light background and, with a sharp increase in it, which is typical with an open flame, give an alarm signal. A distinctive feature of the utility model is the use of the 2.4 GHz frequency range and the information exchange protocol based on ZigBee technology, which can drastically reduce the power consumption of the detector in comparison with the prototype. The presence of two discrete inputs in a wireless fire detector allows you to connect discrete sensors to it, for example, volume and penetration sensors, which expands its scope, extending it to security systems. The presence of a discrete output is another advantage, as it allows you to connect actuators to it that respond to alarm thresholds detected by a wireless fire detector.

Figure 1 presents a block diagram of a wireless fire detector.

The wireless fire detector (figure 1) contains a housing in which an antenna 1 is located, connected to the output of the transceiver 2, which is connected to the output 7 of the microprocessor 3, a storage device (EEPROM) 4, connected to the input - output of the 10 microprocessor 3, smoke detector 5 connected to the output 8 of the microprocessor 3 and the output connected to the DC amplifier 6. The output of the DC amplifier 6 is connected to the input 9 of the microprocessor 3. The wireless fire detector also contains an audio detector 7 connected to the output 11 of the microprocessor quarrel 3, a power source 8, the output of which is connected to the transceiver 2, microprocessor 3, memory device (EEPROM) 4, smoke detector 5, DC amplifier 6 and sound detector 7. In the wireless fire detector there is a discrete output 9, which is designed to connect external discrete actuators, and connected through a galvanic isolation device 10.1 to the output 12 of the microprocessor 3, a discrete input 11, designed to connect external discrete sensors, and connected through a device about galvanic isolation 10.2 to input 5 of microprocessor 3, discrete input 12, designed to connect external discrete sensors, and connected through galvanic isolation 10.3 to input 6 of microprocessor 3. Light sensor 13, temperature sensor 14, humidity sensor 15 and gas pollution sensor 16 are connected respectively, to the inputs 1, 2, 3 and 4 of the microprocessor 3 and the output of the power source 8.

Wireless fire detector operates as follows. The signals from the gas pollution sensors 16, light 13, humidity 15, temperature 14, digital inputs 11 and 12 through galvanic isolation devices 10.2 and 10.3 and smoke detector 5 are processed by the microprocessor 3. The signal from the smoke detector 5 is amplified by a DC amplifier 6. Microprocessor 3 operates under the control of the firmware contained in the storage device 4. The microprocessor 3 monitors the measured parameters, generates alarms and issues them using an audio alert Jel 7, transmits information about the measured parameters, the charge of the power source 8, the degree of dustiness of the smoke detector 5 through the transceiver 2 and antenna 1 over the air. The control signal to the actuator is generated in the microprocessor 3 and, through the galvanic isolation device 10.1, is fed to a digital output 9.

Thus, the proposed wireless fire detector provides an extension of the scope and reduction of energy consumption.

The proposed utility model can be used in fire alarm systems, in systems for monitoring the parameters of structures and in climate control systems.

Claims (3)

1. A wireless fire detector comprising a housing in which an antenna is located connected to the output of a transceiver connected to an output of a microprocessor, a storage device connected to an input-output of a microprocessor, a smoke detector connected to an output of the microprocessor and an output connected to a DC amplifier, an output which is connected to the input of the microprocessor, a sound detector associated with the output of the microprocessor, a power source, the output of which is connected to a transceiver, a microprocessor, a memory device equipment, smoke detector, DC amplifier and sound detector, characterized in that it additionally has a discrete output for connecting external discrete actuators, which is connected through a galvanic isolation device to the output of the microprocessor, digital inputs for connecting external discrete sensors through galvanic isolation devices connected to the microprocessor inputs, an ambient light sensor, a temperature sensor, a humidity sensor, etc. tchik gassed connected respectively to the inputs of the microprocessor and the power supply output. 2. The wireless fire detector according to claim 1, characterized in that the discrete inputs are made in the form of screw or spring terminals. 3. The wireless fire detector according to claim 1, characterized in that the discrete output is made in the form of screw or spring terminals.