RU135437U1 - ELECTRIC METER-DETECTOR OF FIRE AND ELECTRIC HARM - Google Patents

Abstract

1. An electric meter-detector, which consists of a housing in which a battery with a power supply unit is located, a power and power quality meter, the outputs of which are connected to a fire-electric harm calculation unit connected to an audio-visual unit with a radio channel and to a unit for identifying dangerous fire factors, at the inlet of which gas, thermal and smoke sensors are included, installed inside a chamber connected to an electric fan, to which an aspiration pipe is connected, covering premises. 2. An electric meter-detector according to claim 1, characterized in that the power and quality meter is a removable periodically verified microprocessor analyzer, the inputs of which are connected to the phases of the mains, having two information outputs - consumed electricity with acceptable quality and consumed electricity with unacceptable quality. 3. The electric meter-detector according to claim 1, characterized in that the fire-electric harm calculation unit is a removable periodically reprogrammable microprocessor device that calculates the amount of fire-electric tax and payment for electricity consumed. The electric meter-detector according to claim 1, characterized in that the audiovisual unit with a radio channel is a removable periodically verifiable radio device in which, to interface with any automated metering and notification systems installed in a building, apartment or individual residential building, standard radio interface modules can be installed (GSM, Wi-Fi, Bluetooth, ZigBee, RS-485) .5. Announcing electric meter�

Description

The field of technology.

The inventive utility model relates to the field of electrical and fire safety of premises, buildings and structures, as well as to energy conservation and the quality of energy consumed, namely, devices for measuring energy consumption and monitoring the occurrence of dangerous fire factors.

The inventive electric meter-detector of fire-electrical harm is intended for use in residential buildings / apartments to determine the consumed electricity and the fire-electrical harm arising in connection with this, for their subsequent payment, incl. taking into account the quality of the supplied electric power, as well as for the detection of dangerous fire factors and notification of them living and over the air to the state fire service.

The prior art.

In some countries (USA, Germany, Poland), autonomous fire detectors (IPA) have recently become widespread. They are intended for use in rooms that emit an intermittent alarm with a sound pressure level of 85-90 dB at a distance of 1 m when detecting signs of fire . from the detector. Statistics at the same time indicate that the use of IPA can reduce the death toll by fires in the residential sector by 45% [1].

Many methods and devices for detecting fires that implement these methods are known:

Smoke - ionization and optical [2],

Thermal - threshold and analog [3],

Flaming - optical [4] and based on the use of ultraviolet [5] or infrared radiation [6]

Gas - for combustion products [7], including selective linear fire detectors [8]

The most effective of them is a sensor that combines photoelectric and thermal sensing elements. These types of multi-sensors have been used for a long time, using a very simple decision system "either-or" when the signal is applied, in the event of a photoelectric or thermal sensor.

However, all of the above methods and detectors have a significant drawback - a large inertia, because they detect a dangerous fire factor when it reaches the sensor. And due to the fact that detectors are usually installed on ceilings, the “arrival to them” of smoke, gas or temperature is from several units to tens of minutes [2, 3]. Therefore, for the early detection of dangerous fire factors, an aspiration method was developed and its system implements, usually called "flow-through". The essence of this method, which is the prototype of the claimed utility model in terms of fire detection, is that the same sensors are used, but they are installed in the pipeline and the air of the protected room is “pumped” through them. In other words, if dangerous fire factors arise, they are “drawn into the sensor” and are detected faster by an order of magnitude or more [9].

It is also known that the low quality of the energy consumed by electrical appliances (for example, low or high voltage, phase shift of current and voltage, etc.) reduces the technical resource of electrical appliances and creates the conditions for fire hazardous failures in them [10], ie increases the likelihood of fires for electrical reasons [11].

The simplest and closest, i.e. the prototype in terms of implementing the registration of the quality of the received and used electricity is the “Statistical analyzer of quality and accounting for electricity consumption” [12], where, when measuring and digitizing the curve of the alternating voltage of the network, deviations from the values that are memorized by GOST 13109-97 are highlighted, and the expiration of the required time (day, week, month) according to certain algorithms are determined:

where W is the total amount of electricity supplied to the consumer during the time T, Wd is the amount of consumed electricity with allowable deviations, Wnd is the amount of consumed electricity with unacceptable deviations.

As a prototype, for the implementation of the registration of the quality of electricity received, a domestic MT4011 device is used, which is designed to measure electric power and control the amount of electricity consumed in the measurement range - from 2 to 3680 watts.

Therefore, the introduction of "intelligence" into the electric meter, which allows to register the "poor quality" of electricity, and the change for this reason the probability of fire from electrical appliances, i.e. fire-electric harm, plus a combination of “flow-through” sensors in the meter, in addition to monitoring and the ability to regulate payments in accordance with the quality of electricity, will allow for early detection of fire in the apartment and neighboring rooms, where such a meter is installed, as well as enable sound notification of a fire and transfer the call to the nearest fire station, if there is a radio channel [14].

Disclosure of a utility model.

The technical result provided by the claimed utility model is the implementation of a method for determining fire-electric harm from consumed electricity, using an electricity meter-detector that synchronously measures and digitizes the network voltage and current consumption in real time, with the calculation of standard parameters of the quality of electricity, which are used to calculate and separately consumed electricity is visualized with acceptable quality and - unacceptable, the values of which are multiplied by the corresponding there are constant fire probability constants for electrical reasons (2), and as a result of summing up the indicated results, fire-electric harm is determined and visualized, as well as early detection of dangerous fire factors is carried out by pumping the air of the protected premises through an aspiration system with an electric meter-detector, characterized in that, for reliable detection of hazardous fire factors in the premises where the aspiration system with an electric meter-detector is located, it contains at least three different sensors synchronously realizing three different methods for detecting RPPs — heat, smoke, and gas — based on the correlated values of which, taking into account the calculated fire-electric harm, false signals or fire are identified, which gives an intermittent alarm sound for surrounding, which is transmitted to the nearest fire station via a radio channel, while data on consumed electricity with acceptable and unacceptable quality (for example, on the same radio channel) can be transmitted to authorities gonadzora and retailing companies.

where PEV - fire-electric harm during time t; R _D - the probability of a fire for electrical reasons with allowable deviations of the parameters of electricity; R _ND - the likelihood of a fire for electrical reasons with unacceptable deviations of the parameters of electricity.

The essence of the utility model consists in the fact that the electric meter-detector consists of a power supply unit with a battery, a power and power quality meter, the inputs of which are connected to the phases of the mains voltage, and the output with parameters Wд and Wн (1) is connected to the fire-electric harm calculation unit connected to the audiovisual unit and the radio channel. In this case, the additional output of the fire-electric harm calculation unit is connected to the hazardous fire hazard identification unit, the input of which receives signals from a gas sensor (СО), thermal (Т ° С) and smoke (Сд) located inside the chamber with a fan connected to suction pipe.

The power and energy quality meter can be a separate device or module, which, together with a fire-electric harm calculation unit, an audiovisual unit, a radio channel, a camera with sensors and a fan, are fixed inside the detector’s meter body.

The power and quality meter is preferably removable to provide periodic metrological verification with energy supervision.

The audiovisual unit may be made using LEDs or liquid crystal indicators.

As an audiovisual unit, a liquid crystal screen of a power and energy quality meter can be used.

The radio channel is preferably removable and can be implemented with a ZigBee radio block or other modules of standard radio interfaces (Wi-Fi, Bluetooth, RS-485), for interfacing with any automated metering systems installed in the building / apartment.

The radio channel can be made in the GSM standard if the electric meter-detector is installed in an individual residential building.

Gas (СО), thermal (Т ° С) and smoke (Сд) sensors are located inside the chamber, through which an electric fan located outside the chamber and connecting the suction pipe to the electricity meter-detector pumps air into the chamber from the protected premises.

Power supply of the indicated units of the electric meter-detector is carried out from a small-sized battery, which is installed in the power supply unit, which ensures its recharging from the mains and autonomous operation of the detector, in the event of a power failure.

A brief description of the drawings.

The figure 1 shows a diagram of a meter-detector; figure 2 - layout of the suction pipe.

Implementation of a utility model.

The electric meter-detector (Fig. 1) contains a housing (1.1), a power and power quality meter (1.2), a fire-electric harm calculation unit (1.3), an audiovisual unit (1.4), a radio channel (1.5), a unit for identifying dangerous fire factors ( 1.6), a chamber (1.7) with gas (1.8), thermal (1.9) and smoke (1.10) sensors, docked with an electric fan (1.11), a connector for connecting to the suction pipe (1.12), and a power supply unit with a battery (1.13).

The power supply unit (1.13) provides recharging the battery from the mains and the operation of all units, sensors and the electric fan of the electricity meter-detector in the event of a power failure.

The housing is designed to protect the blocks of the meter-detector from damage and attach it to the suction pipe using the connector (1.12).

The electric fan (1.11) is designed to suck in air from the protected premises (Fig. 2) and pump it through the chamber (1.7), in which the sensors of dangerous fire factors (gas, heat and smoke) are installed.

The smoke (photoelectric) sensor (1.10) determines the presence of smoke by detecting the absorption of optical radiation in the chamber (1.7), where the “LED-photocell” pair is located, through which air is pumped from the protected premises.

The thermal (thermistor) sensor (1.9) measures the temperature of the pumped air from the protected premises.

The gas (metal oxide) sensor (1.8) reacts to carbon monoxide (CO) released during smoldering or burning of materials.

The unit for identification of dangerous fire factors (1.6) is designed to determine ignition in the protected premises by comparing the signals from the indicated sensors with the corresponding settings (values) of dangerous fire factors in order to screen out false alarms, as well as to monitor the probability of fire (Rnd) for electrical reasons unacceptable deviations of electricity parameters by the formula (2).

The fire-electric harm calculation unit (1.3) is intended for determining, by formula (2), the value of the adaptive fire-electric tax by the quantity (Wd) and quality (Wnd) of consumed electricity.

The power and energy quality meter (1.2) is designed to measure all parameters of electric power quality, stipulated by GOST 13109-97 (GOST R 51317.4.30-2008 and GOST R 51317.4.7-2008, necessary for calculating and visualizing the share of high-quality electric energy according to the formula (1 ), for which the consumer must pay.

The audiovisual unit (1.4) is designed to display the indicated amounts of electricity in kilowatt hours, and in accordance with the current tariff in rubles, the amount of payment for it. At the same time, it displays in rubles the fire-electrical harm payable in the form of a fire-electrical tax. It also includes a flashing light, and then a siren - if dangerous fire factors are detected in the protected premises.

The radio channel (1.5) is intended for transmitting a fire call signal to the fire department and receiving confirmation of its reception when the flashing light is turned on and then the siren in the audiovisual unit (1.4) when dangerous fire factors are detected in the protected premises.

Work description.

The electric meter-detector is activated by connecting to the electric network (L1, L2, L3, M), the voltage of which starts the power supply unit (1.13) and charges the battery that supplies the electric meter-detector. Air from the protected premises through the suction pipe (figure 2) and the connector (1.12) is pumped by the electric fan (1.11) through the chamber (1.7), in which there are gas (1.8), thermal (1.9) and smoke (1.10) sensors, the signals from which enter the hazardous fire factors identification unit (1.6), which determines the ignition in the protected premises by comparing the signals from the indicated sensors with the corresponding settings (values) of the dangerous fire factors in order to screen out false alarms. When a fire is detected, a signal is transmitted to the audiovisual unit (1.4), which turns on a flashing light, and then a siren - upon detection of dangerous fire factors in the protected premises, and also includes a radio channel (1.5) for transmitting a fire call signal to the fire department.

At the same time, the power and energy quality meter (1.2) measures and digitizes the mains voltage and current consumption in real time, with the calculation of standard parameters of electric power quality, which are used to calculate and transmit the consumed electric power with fire and electric harm calculation unit (1.3) with acceptable quality and - unacceptable, the values of which are multiplied by the corresponding probability constants of fires for electrical reasons (2), and as a result of their summation, fire electric harm. The results obtained are separately displayed in the audiovisual unit (1.4), incl. in rubles (in accordance with the current tariff for electricity) for payment for consumed electricity and fire-electric tax on it.

At the same time, the fire hazard identification module (1.6) monitors the probability of fire (Rnd) for electrical reasons with unacceptable deviations of the electric power parameters according to formula (2) and turns on the radio channel (1.5) for transmitting a fire call signal to the fire department if this probability exceeds normative value.

Thus, from the foregoing, it follows that in the inventive electric meter-detector, the claimed technical result is “determination of the consumed electric energy and the fire-electric harm resulting from this, for their subsequent payment, incl. taking into account the quality of the supplied electric power, as well as for detecting dangerous fire factors and alerting those living about them and using the radio channel, the state fire service is achieved due to the fact that in each apartment of the building and in individual residential buildings, an electric meter-detector is installed instead of existing electric meters from a housing in which a battery with a power supply unit, a power and energy quality meter, the outputs of which are connected to the fire-electrical calculation unit, are placed any harm connected to the audiovisual unit with a radio channel and to the unit for identifying hazardous fire factors, at the input of which gas, heat and smoke sensors are installed installed inside the chamber connected to the electric fan, to which an aspiration pipe is connected that covers the protected premises, and

- the power and quality meter is a removable periodically verified microprocessor analyzer, the inputs of which are connected to the phases of the mains, having two information outputs - consumed electricity with acceptable quality and consumed electricity with unacceptable quality;

- the fire-electric harm calculation unit is a removable periodically reprogrammable microprocessor device that calculates the amount of fire-electric tax and payment for consumed electricity;

- an audiovisual unit with a radio channel is a removable periodically verifiable radio device in which, to interface with any automated metering and warning systems installed in a building, apartment or individual residential building, standard radio interface modules (GSM, Wi-Fi, Bluetooth, ZigBee can be installed , RS-485);

- the chamber inside which gas (СО), thermal (Т ° С) and smoke (Сд) sensors for detecting fire hazards are mounted is flowing, thanks to the electric fan installed outside the chamber, which draws air into the chamber from the protected premises through an aspiration pipe, attached to the housing through the connector;

- the unit for identifying hazardous fire factors is a self-testing microprocessor device that determines the excess of the established level of fire hazard, including the probability of a fire when consuming electricity with acceptable and not acceptable quality, controlling the flashing light, and then the siren in the audiovisualization unit when dangerous fire factors are detected in the protected premises, and including a radio channel for transmitting a call signal to the fire department.

Applicability.

The author of the utility model made a prototype of the declared electric meter-detector, tests of which confirmed the achievement of the technical result.

The inventive electric meter-detector is implemented using industrially manufactured devices and materials, can be assembled at any instrument-making enterprise, in a service center and in a workshop providing services to the population in the field of communications and computer equipment.

The inventive electric meter-detector, in addition to the residential sector, can be widely used in hotels, preschool and educational institutions, hospitals, trade enterprises and services.

INFORMATION SOURCES.

1. Boguslavsky EI, Belozerov VV, Boguslavsky, N.E. Prediction, analysis and assessment of fire safety / Uch.posobie ed. prof. Boguslavsky E.I. / - Rostov n / A: RGSU, 2004. - 151 p.

2. Sharovar F.I. Principles of building devices and systems for automatic fire alarms. - M.: Stroyizdat, 1983 .-- 335 s.

3. Members A.N. Automatic fire detectors. - M.: Research Center "Protection" VNIIPO Ministry of Internal Affairs of Russia, 1997. - 51 p.

4. Patent SU 1795894

5. RF patent for the invention No. 2433424 IPC G01S 17/42 Method and device for optical location using an ultraviolet radiation sensor.

6. RF patent for the invention No. 2398609 IPC G08B 17/12 Flame detector.

7. RF patent for the invention No. 2336573 IPC G08B 17/117 Fire detector.

8. Schipitsin S. Trends in the development of fire detectors - BDI. - 2004, No. 3 (54), p. 38-43.

9. "Recommendations for the use of VESDA suction smoke detectors", parts 1, 2 and 3- M .: VNIIPO EMERCOM of Russia.

10. Belozerov V.V., Topolsky N.G., Smelkov G.I. A probabilistic-physical method for determining the fire hazard of electronic equipment // Scientific and technical support for fire and emergency rescue operations: Materials of the XII All-Russian Scientific-Practical. conf. - M .: VNIIPO, 1993, pp. 23-27.

11. GOST 12.1.004 Fire safety. General requirements - M: Izd.standartov, 1992. - 75 p.

12. Ermakov V.F. Statistical analyzer of quality and metering of electric energy consumption - RF Patent for invention №2260842 IPC G06F 17/18.

13. Belozerov V.V., Bosy S.I., Motin V.N., Panich A.E. Probabilistic-physical models of reliability, quality and safety in high technology instrumentation // Technosphere Safety. Reliability. Quality. Energy Saving. ": Vseros materials. scientific-practical conf. / Shepsi, September 6-9, 2003, ISBN 5-89071-036-2 /. - Rostov n / a: RGSU (YURO RAASN), 2003.S. 519-530.

14. Belozerov V.V., Boyko S.I., Kolganov V.A. The justification method of an automated fire detection and reporting system // "Organizational and managerial problems of the fire department": Sat. scientific - M .: VNIIPO, 1986, p. 56-63

Claims (6)

1. An electric meter-detector, which consists of a housing in which a battery with a power supply unit is located, a power and power quality meter, the outputs of which are connected to a fire-electric harm calculation unit connected to an audio-visual unit with a radio channel and to a unit for identifying dangerous fire factors, at the inlet of which gas, thermal and smoke sensors are included, installed inside a chamber connected to an electric fan, to which an aspiration pipe is connected, covering premises. 2. The electric meter-detector according to claim 1, characterized in that the power and quality meter is a removable periodically verified microprocessor analyzer, the inputs of which are connected to the phases of the mains, having two information outputs - consumed electricity with acceptable quality and consumed electricity with unacceptable quality. 3. The electricity meter-detector according to claim 1, characterized in that the fire-electric harm calculation unit is a removable periodically reprogrammable microprocessor device that calculates the amount of fire-electric tax and payment for consumed electricity. 4. The electric meter-detector according to claim 1, characterized in that the audiovisual unit with a radio channel is a removable periodically verifiable radio engineering device, in which modules can be installed to interface with any automated metering and warning systems installed in a building, apartment or individual residential building standard radio interfaces (GSM, Wi-Fi, Bluetooth, ZigBee, RS-485). 5. The electric meter-detector according to claim 1, characterized in that the chamber inside which the gas (CO), thermal (T ° C) and smoke (Cd) sensors for detecting dangerous fire factors are mounted is flowing, thanks to the electric fan mounted outside the camera , which draws air into the chamber from the protected premises through an aspiration pipe that is connected to the housing through a connector. 6. The electricity meter-detector according to claim 1, characterized in that the hazardous fire hazard identification unit is a self-testing microprocessor device that determines the exceeding of the established fire hazard level, including the probability of a fire when electricity is consumed with acceptable and unacceptable quality, controlling the flashing light and then the siren in the audiovisualization unit upon detection of dangerous fire factors in the protected premises, and including a radio channel for transmitting a call signal to the fire department.

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