RU182847U1 - DEVICE FOR AUTOMATIC DETECTION, MONITORING AND ELIMINATION OF GAS STATUS AND SMOKING OF PREMISES - Google Patents

Abstract

The utility model relates to methods and means of ensuring safety and quality control of a gas-air mixture and can be used in the construction and operation of buildings, structures and premises. A device for automatically detecting, controlling and eliminating gas contamination and smokiness of rooms, containing at least one sensor (1) of the maximum permissible concentration of the gas-air mixture, connected to an explosion-proof unit (3), connected to an exhaust fan (4) and a power source, the sensor (1) is equipped with an additional device for supplying an alarm signal about the presence of smoke and carbon monoxide is connected to the microcontroller (2), it is additionally equipped with a backup power source, an indicator of the presence of an electric con clock (5) between the elements of the device, an electric cable for supplying electricity to an autonomous (8) power source, and the alarm is equipped with automatic and manual switches. When using the proposed technical solution, an effect is achieved consisting in the timely detection and elimination of gas contamination and smoke in the premises, directly affecting the safety of buildings and structures and people in these and neighboring objects, as well as in close proximity at the time of a potential incident or accident, how timely measures taken to prevent explosive mixtures prevent poisoning of people, fires and explosions in the premises. 1 ill.

Description

The utility model relates to a device for the automatic detection, control and elimination of gas and smoke in rooms and can be used both in construction and in the operation of newly constructed and previously constructed buildings, structures and premises.

General statistics for the Russian Federation of gas poisoning and smoke poisoning, explosions and fires caused by gas contamination in the premises due to operation of faulty equipment, violation of gas pipeline sealing during repairs and redevelopment, violation of gas safety regulations and violation of ventilation in houses is growing steadily, which repeatedly noted at various state levels and the media. Repeatedly, solutions to this problem were considered with the participation of the Presidential Administration and the Government of the Russian Federation.

The proposed technical solution allows us to solve the problem of the occurrence and accumulation of gas and smoke in the rooms in which gas-using equipment is installed and operated, the consequences of which are often poisoning people, fires and explosions. At the same time, the cause of gas contamination is not always the malfunction of gas-powered equipment or the leakage of process pipelines that supply gas to the equipment. Common causes of gas contamination are: - pouring gas stove burners with liquid; cessation of burning of burners as a result of an interruption in the gas supply and subsequent uncontrolled gas supply through the burner to the room atmosphere after the gas supply is restored (regarding gas stoves that do not include an electric valve that excludes gas supply to the burner, the temperature of which is below a threshold value); ingress of gas combustion products from the ventilation duct during the formation of back draft in the room; the accumulation of carbon monoxide in the room in case of violation of the proper functioning of exhaust ventilation (with strong gusts of wind, violation of the design of the ventilation duct during illegal redevelopment, entering the ventilation outlet with snow or if an external object gets into it, etc.).

When natural gases (methane, propane) appear and accumulate in the room, this can be determined by smelling - although these natural gases are colorless and odorless, the gases undergo odorization before they are supplied to the consumer - adding a strongly smelling substance to their composition - odorant (mainly ethyl mercaptan). The occurrence and accumulation of carbon monoxide is more dangerous, since it has neither color nor odor and does not affect the person’s breath sharply, the presence of this gas can only be determined by indirect signs - dizziness, nausea, etc., which is usually perceived by people as elementary malaise in the initial stages of the disease or as typical fatigue - accordingly, no action is taken. If a person is sleeping at the same time, he is initially doomed to death. After a few minutes a person is in a room with carbon monoxide, he loses consciousness, leaving himself no chance of salvation. In addition to the above, carbon monoxide is combustible, and with the accumulation of certain concentrations, an explosion occurs that, in addition to destroying the room, can also take the lives of people in neighboring rooms or in close proximity.

When studying the officially known prior art, the authors identified a large number of technical solutions aimed at solving the identified problem, however, a technical solution was not found that is identical to that proposed in its set of functions and tasks. Moreover, most of the solutions are inherent in the systems proposed for installation during the construction or complex overhaul of residential buildings with the installation or complete replacement of previously installed equipment, and installation in individual apartments is not possible due to the technical incompatibility of communications and inappropriate due to the multiple increase in the cost of installation individual order. Accordingly, these solutions are not suitable for previously built houses.

In addition, the functionality of most systems is designed to perform only information tasks (informing special services, the owner, the management company about an incident), tracking the progress of the incident with the transmission of information to the dispatcher (the need for constant feedback from a specialist) and is not designed to automatically take measures to eliminate gas contamination and / or smoke. Also, basically, the systems use sensors that monitor the presence of natural gases in the gas-air mixture (methane, propane), while the control of smoke formation and the occurrence of carbon monoxide, as the most dangerous component, is not provided for by the functional.

A device is known as a gas detector containing a measuring circuit with a gas sensor, an autonomous power supply unit and an actuator, the voltage from the autonomous power supply unit and the voltage measured at the gas sensor from the measuring circuit are fed through an analog switch to an analog-to-digital converter, and further on the arithmetic logic device (RU No. 65235 U1, IPC G01N 27/12 (2006.01), G01N 27/16 (2006.01) published on July 27, 2007).

The disadvantage of this technical solution is that the task of the device is only to detect the gas contamination of the room (the presence of methane in the air-gas mixture) and the sound signal. The cessation of gas supply to gas-powered equipment and the adoption of measures to eliminate gas contamination by the device are not provided. Also, the device does not control the presence of carbon monoxide and smoke in the room.

A device for controlling the gas contamination of rooms, including a power supply, a gas sensor, a sound and light alarm unit, an external circuit control unit, an automatic gas cut-off unit and a control circuit for this unit, the input of which is connected to the output of the external circuit control unit, and the output is to the input of the block automatically shut off the gas supply. The device additionally includes a control unit for the output voltage of the gas detector, configured to memorize the emergency state, and a unit for monitoring the health of the device, configured to reset the emergency state, while the output of the gas detector is connected to the first input of the control unit for the output voltage, and the unit for monitoring the operability of the device connected to the second input of the output voltage control unit, the output of which is connected to the first input of the sound and light signal block alizatsii and one input of the external circuit of the control unit (RU №77072 U1, IPC G08B (2006/01) was published on 10.10.2008).

The disadvantage of this technical solution is that the operation algorithm of the device and the equipment included in it do not provide for work to eliminate the gas contamination of the room, and there is no autonomous power supply unit, which does not ensure the operation of the device in case of power outages. Also, the device does not control the presence of carbon monoxide and smoke in the room

A device is known for the supply and exhaust ventilation device for energy-efficient ventilation of small rooms, mainly apartments, including a housing with a ventilation channel mounted in the outer wall, in which a heat-intensive regenerator is installed, a reversible fan for the subsequent alternating supply of contaminated room air through the regenerator and supplying fresh external air, as well as a filter, a valve device and an air distribution device with main ventilation a grille connecting the ventilation duct to the room, the air distribution device being divided by a sealed wall into two parts, one of which communicates with the main ventilation grill, and the second is connected by an additional air duct and an additional ventilation grill at its end to an adjacent room, and the valve device is made in this way that during its operation it can connect the ventilation duct to either the main or additional ventilation grill (RU No. 88778 U1, IPC F24F 7/00 (2006/01) published ovano 20.11.2009).

The disadvantage of this technical solution is that the system is designed to ventilate the room regardless of the quality of the air-gas mixture in the room, the absence of an autonomous power source, it is necessary to manually turn the device on and off by users, respectively, the system is designed to increase the comfort and not the safety of residents and visitors.

A real-time smoke control device is known with subsequent data transmission, which includes a soot concentration monitoring subsystem, a flue gas emission monitoring subsystem, a flow rate, pressure, temperature, a gaseous pollutant monitoring subsystem, real-time sampling and flue gas monitoring, preliminary processing, control system and subsystems for collecting and processing data, collecting the output signal of the subsystem and processing, storage, display, recording and statistics, for providing real-time data transmission, long-distance transmission, processing programs with flue gas pre-treatment, as well as computer communications of a central environmental monitoring station, the invention uses a modern sensor and detection technology, computer and network technologies, signal processing and wireless technology data transfer, which makes the degree of system automation high, the workload for maintenance is small, stability is good, data processing is performed b tup and simply (№ CN 1936995 A, the IPC G01N 35/00; G08C 19/00; (IPC17): G01N 35/00; G08C 19/00, published March 28, 2007).

The disadvantage of this technical solution is that it is designed for industrial enterprises, environmental protection departments and requires monitoring and continuous feedback from the dispatcher. In addition, the system’s functionality is designed to continuously monitor the development of an incident or emergency, and measures to eliminate it are not provided.

A device is known for emergency lighting system with alarm about fire, gas and environmental pollution with automatic monitoring and battery recharging using a bus and a microprocessor circuit, the input and output signals of which are regulated by programming (US 5493272 A, IPC G08B 25/04; G08B 25/06 ; G08B 29/14; H05B 37/02; (IPC1-7): G08B 26/00, published 02/20/1996)

The disadvantage of this technical solution is that it does not eliminate smoke and gas contamination.

A heat exchanger is known that is installed outside the building, for example, an apartment balcony and is able to circulate and exchange internal and external air for internal ventilation with an air supply fan, OA damper, exhaust fan and RA damper, Air conditioning according to any one of paragraphs. 1-3, further comprising: an air supply channel connected to one side of the heat exchanger and connected to the ceiling of each room to allow the penetration of outside air into the room; A ventilation device having a combination of exhaust ducts making it easy to exhaust the ventilation duct; a controller for setting its working phase when electrically connected to a fan; measuring instruments connected to the controller to detect the occurrence of a fire and gas leak accident; a device control panel for automatically controlling the ventilation device by directly intervening with the controller as a signal sent from the measuring means; and a repeater for automatically reporting a catastrophe, such as a fire or gas explosion, by means of an additional signal from a sensitive means, the device control panel may further include a fire signal input unit for receiving each signal transmitted from the sensitive unit, an input signal transmission unit for transmitting the transmission signal inputted through the fire signal input unit to the common heat exchanger, the exhaust fan drive unit for supplying external power to the exhaust fan tilyator to increase the exhaust fan output (KR 100884890 B1 IPC F24F 11/02; F24F 7/00; F24F 7/08, published 23.02.2009 g).

The disadvantage of this technical solution is the high cost of installing additional equipment with the need to perform technological openings not provided for by the building project and to install an outdoor device. And most importantly, when a gas leak is detected, the system activates devices for forcing the gas-air mixture from the room, while creating a back draft from the ventilation shaft, which in turn leads to filling the apartment with carbon monoxide and gas combustion products from gas-using equipment in the premises using the same ventilation duct. In addition, if the system turns on the function of supplying street air with one unit of the system and parallel extraction of the gas-air mixture from the room by the second unit, in case of fire or smoldering in the room, this will contribute to the ignition and increase of the fire.

The closest analogue of the claimed technical solution is a device to protect the premises from an explosion of domestic gas, containing at least one maximum permissible concentration of the gas-air mixture connected to an explosion-proof unit including a relay connected to an exhaust fan, an alarm generator and an autonomous source power supply, while the sensor is installed under the source of domestic gas (RU No. 34024 U1, IPC G08B 17/00, F24C 15/20, published November 20, 2003).

The disadvantage of this technical solution is that in its functionality there is no constant monitoring of the presence of contact between the gas sensors and the relay, since in case of loss of contact the device ceases to fulfill its function, and the room user will not be notified about this. In addition, there are no indicators of the presence of contact with the exhaust fan; if the contact is broken, the unit will not operate the exhaust ventilation in the event of gas contamination and smoke. If a short-term excess of the concentration of monitored components is detected (for example, a short-term formation of reverse draft from the ventilation duct), which is eliminated in less than a minute by exhaust ventilation, the system considers this fact as an incident and automatically transmits a signal to the dispatching service console with each such operation. This may result in false calls to emergency services. In addition, the device does not control the presence of carbon monoxide in the room. If the concentration of gas in the room air-gas mixture increases above the permissible value, the fan starts its work and continues until it is manually turned off, which leads to additional energy consumption, and if the owner of the apartment or room is not present for a long time, the fan itself will fail.

The task to which the claimed technical solution is directed is to improve the performance of the device for automatic detection, control and elimination of gas and smoke in rooms.

The essence of the utility model as a technical solution is expressed in the aggregate of essential features presented in the independent claim of the utility model formula.

The technical result coincides with the problem being solved and is achieved due to the fact that the sensor 1, connected to the microcontroller 2, notifies the presence of not only methane, propane and smoke, but also carbon monoxide in the gas-air mixture. When there is a signal about the presence of a minimum concentration of smoke, natural and carbon monoxide in the room, the microcontroller 2 includes a light and sound alarm 6 device operation, LED indicator 7 device operation and exhaust fan 4 and ensures the operation of the exhaust fan 4 to eliminate the presence of a concentration of any of the detected components in the gas-air room mixtures above a threshold value. The light and sound alarm 6 of the device’s operation is automatically turned off after elimination of gas contamination and smoke or through the existing manual shutdown function, the LED indicator 7 of the device’s operation is equipped with only a manual shutdown function.

The presence of sensor 1 allows the device to timely detect the occurrence of gas contamination (methane, propane, carbon monoxide) and smoke in the rooms for the microcontroller 2 to send a signal to turn on the forced pulling of the gas mixture from the room. There is a separate installation of the sensor 1 with its connection to the microcontroller 2 by means of connecting elements 9, for example, loops, and the location directly on the microcontroller 2, which will eliminate circuit breakage in this area.

The presence of a sound and sound alarm 6 of the device’s operation allows timely notification of people present in the room about the detection of gas contamination or smoke in the room’s air-gas mixture and the device performing work to eliminate them.

The presence of the function of automatic and manual shutdown of the light-sound alarm 6 of the device operation expands the functionality of the device.

The presence of the LED indicator 7 of the device’s response allows informing the owner and visitors of the room about the excess or concentration of monitored components in the room’s gas-air mixture that occurred or occurred during their absence, which is a signal to call the gas service experts to examine the house gas pipelines, gas-using equipment and the exhaust ventilation, and also serves as a recommendation for checking the equipment of rooms located lower floors and using the same ventilation duct.

The presence of the function of manual shutdown of the LED indicator 7 of the device allows you to reset the result (indicators).

The presence of microcontroller 2 allows for the processing of signals from sensor 1 and the elimination of controlled components in the gas-air mixture of the room that are above the maximum permissible proportional value (lower and upper explosion limits, ignition and self-ignition), by automatically forcing air from the room to the ventilation shaft or to the street (depending on the place and method of installation of the exhaust fan 4) and allows you to stop the operation of the exhaust fan 4 and sound and sound alarm 6 of the device after eliminating gas and smoke, which saves energy and increases the operating life of the exhaust fan 4.

The presence of indicators of the presence of electric contact 5 in the circuit allows you to monitor the presence of constant contact between the microcontroller 2 and the exhaust fan 4. When the sensor 1 is installed separately using connecting elements 9, for example, a loop, an indicator of the presence of electric contact 5 in the circuit is also installed on this connecting element 9 .

At the same time, the microcontroller 2, indicators of the presence of an electric contact 5 in the circuit, a light and sound alarm 6 of the device’s operation, an LED indicator 7 of the device’s operation and an autonomous power supply 8 are located inside the explosion-proof control unit 3.

Using the proposed device ensures the safety of buildings and structures and people in these and neighboring objects, as well as in close proximity at the time of a potential incident or accident, since timely measures to prevent the formation of dangerous concentrations of controlled components and smokes in the gas-air mixture of rooms prevent poisoning of people, fires and explosions in the premises.

All of the above essential features have improved the performance of the device for automatic detection, control and elimination of gas contamination and smoke.

An analysis of the known technical solutions, carried out on the basis of scientific, technical and patent documentation on the priority date in the main and related sections of the IPC, showed that the set of essential features of the claimed technical solution is not known from the prior art, therefore, it meets the patentability condition of the novelty utility model.

The claimed technical solution is illustrated by the scheme.

The device for the automatic detection, control and elimination of gas and smoke in rooms contains a sensor 1 connected to a microcontroller 2 of an explosion-proof control unit 3 connected to an exhaust fan 4, which is necessary to ensure the forced outflow of the gas-air mixture from the room, indicator (s) of the presence of an electric contact 5 in circuits, light and sound alarm 6 device operation, LED indicator 7 device operation with manual shutdown function, autonomous power supply 8 , an electric power cable 10 supplying electricity to the explosion-proof control unit 3, while the sensor 1 is installed in the room where the gas-using equipment is installed and connected to the microcontroller 2 directly or removed from the explosion-proof control unit 3 using a connecting element 9, for example, a cable.

The device operates as follows: sensor 1, built on the basis of a semiconductor gas analyzer and designed to detect the presence and concentration of methane, butane, propane, carbon monoxide and smoke in a gas-air mixture, constantly analyzes the composition of the gas-air mixture in the room and transmits 2 analog to the microcontroller data processing unit a signal proportional to the content of the controlled components in the air, while the threshold values of permissible concentrations for each of the traces are set in microcontroller 2 of the gases, the presence of smoke in any concentration microcontroller already regarded as exceeding 2. If the presence of the controlled components does not exceed the lower threshold value, then the microcontroller 2 does not supply a control signal to the fan, i.e. the part of the device responsible for pulling the gas-air mixture from the room is inactive, while the LED indicators for the presence of an electrical contact 5 of the circuit in the circuit section sensor 1 - microcontroller 2 (in the case of removal of the sensor) and the circuit section microcontroller 2 - exhaust fan 4 signal the presence of contact between the elements in these areas of the device. The signal can be either constant (continuous burning) or periodic short-term (for example, once every 30 seconds). In case of reaching the minimum threshold value of the concentration of one of the elements in the room air-gas mixture (propane: 200-5000 ppm; Butane: 300-5000 ppm; Methane: 500-20000 ppm; Hydrogen: 300-5000 ppm, smoke - the minimum concentration at which it can be detected by the sensor 1), the microcontroller 2, on the basis of the signal received from the sensor 1, processes the signal and sends a control signal about the need to draw the air-gas mixture from the room to the exhaust fan 4, the sound and sound alarm 6 of the device and the LED indicator 7 device triggering. An autonomous power supply of 8 elements of the device, connected to the power supply network, provides electric power for powering the elements from the built-in battery in case of interruptions or blackout of the mains electric power. When the device is triggered, in addition to the light and sound alarm 6 of the device, a signal is also sent to the LED indicator 7 of the device. After eliminating gas contamination or smoke in the room, the sound and sound alarm 6 of the device’s operation and the exhaust fan 4 are turned off, and the device’s LED 7 remains on until manual reset, so that the owner or visitor of the room is notified of the fact of operation, if at the time of the device’s activation he was absent. This device can notify the owner of the apartment or premises about the presence of gas and smoke through cellular communications, thereby allowing timely measures to be taken to prevent fire and fire in the early stages.

The claimed technical solution allows to increase the operational quality of the device for automatic detection, control and elimination of gas contamination and smoke. The device can be manufactured on standard equipment from well-known materials using modern technology.

Claims (1)

A device for automatic detection, control and elimination of gas and smoke in rooms, containing at least one maximum permissible concentration of the gas-air mixture, as well as an exhaust fan and a power source, characterized in that the sensor is designed to detect the presence and the concentration of methane, butane, propane, carbon monoxide and smoke and transmitting a signal to the microcontroller, designed to track permissible concentrations for each of these gases and, if there is an excess of the supply of the control signal to the exhaust fan, the light and sound alarm and the LED indicator of the operation of the device, as well as the shutdown when eliminating gas pollution or smoke smoke and the exhaust fan, while the device is equipped with an indicator of the presence of electrical contact between the sensor and the microcontroller and the microcontroller and the exhaust fan, and the power supply of the elements of the device is made autonomous to power the elements of the device during interruptions and whether the power supply is disconnected, and the device’s LED indicator is equipped with automatic and manual switches.

Images