RU91135U1 - GAS SUPPLY SYSTEM OF A MULTI-STOREY HOUSE - Google Patents

Abstract

The gas supply system of a multi-storey building, comprising a gas main, an underground shutdown device, a shutdown device, gas emergency shutdown means, a gas supply line, gas distribution pipelines, valves, gas consumers, gas leak sensors, signal buttons, a sensor communication line, a signal communication line, a unit control panel, and the main gas pipeline is connected to the gas supply line in series through a disconnecting device and means for emergency shutdown of gas distribution gas pipelines are connected to the supply gas pipeline through shutoff valves, gas consumers are connected to the distribution gas pipelines through the corresponding shutoff valves, gas consumers are installed on each operated floor of a multi-storey building, gas leakage sensors are installed on each operated floor in the gas consumer installation area, signal buttons are installed on each floor in use, the control unit for its input is connected to the control panel, gas leak sensors and signal buttons with are connected to the inputs of the control unit by means of a sensor communication line and a signal communication line, respectively, the control unit by its output is connected to an emergency gas shutdown means.

Description

Technical field

The utility model relates to means of timely shutdown of gas supply to the premises of houses (buildings) in the event of a gas leak and to inform about the occurrence of this emergency in the building's gas supply system. The solution can be used to create, for example, a remote system for an apartment building that provides gas leakage control, quick shutdown of gas supply with simultaneous switching on of sound and / or light signaling, ventilation and power off (excluding emergency lighting), as well as issuing an information message about an emergency in the building’s gas supply network.

State of the art

A device for providing gas supply to residential buildings (http://stroyanka.ru/publ/3-1-0-9), consisting of gas equipment, including a home gas supply network (from the locking device at the input) and gas equipment and devices (stoves, water heaters, heating stoves, etc.) that use gas as fuel. The home gas supply network includes the following intra-house gas pipelines - the trunk line, risers and distribution networks made of black steel gas pipes. At the same time, risers are laid in non-residential premises, and distribution networks supply gas to appliances (stoves, gas stoves, stoves, boilers, etc.). These devices are widely used in gas supply systems for apartment buildings, including autonomous gas supply systems for apartment buildings (.id = 12).

The disadvantages of the known technical solution is the lack of reliability of gas supply.

The purpose of the proposed utility model is to increase the reliability of gas supply.

This goal is achieved due to the fact that in the gas supply system of a multi-storey building containing a main gas pipeline, an underground disconnecting device, a disconnecting device, gas emergency shutdown means, a gas supply pipe, distributing gas pipelines, valves, gas consumers, gas leakage sensors, signal buttons, a sensor communication line, a signal communication line, a control unit, a control panel, while the main gas pipeline is connected in series with the inlet gas pipeline through a disconnect the gas emergency shutdown device and means, the distribution gas pipelines are connected to the supply gas pipeline through shutoff valves, the gas consumers are connected to the distribution gas pipelines through the corresponding shutoff valves, gas consumers are installed on each operated floor of a multi-storey building, gas leak detectors are installed on each operated floor in the installation area gas consumers, signal buttons are installed on each floor in use, the control unit for its input is connected to the control panel Nia, gas leak sensors and alarm buttons are connected to the inputs of the control unit by means of a sensor signal communication lines and communication lines, respectively, its output control unit is connected to a means of emergency disconnection of gas.

Brief Description of the Drawings

The utility model is illustrated by the drawing, where the figure shows the layout of the device elements inside the building and their possible connection between each other.

The drawing shows: the supply gas pipeline 1, the distribution gas pipeline 2, the gas leakage sensor 3, the signal supply button 4, the sensor communication line 5, the signal communication line 6, the control unit 7, the control panel 8, the power cord 9, the internal power supply 10, main gas pipeline 11, underground disconnecting device 12, disconnecting device 13, means for emergency shutdown of gas 14, gas consumer 15, shutoff valves 16.

Utility Model Disclosure

The main elements of the device are - gas leakage sensors 3, control unit 7 and emergency gas shut-off means 14, which provide direct fulfillment of the main objective function of the device - emergency shut-off of gas supply to the gas supply pipes 1 of the building by closing the actuators included in the gas shut-off means 14, for example, quick-acting shut-off ball valves (or shut-off valves) with an electric drive, according to the corresponding command from the control unit 7.

The main gas pipelines 11 are underground low-pressure gas pipelines made of black steel gas pipes and are designed to supply gas to buildings. To control the flow of gas supplied through the low pressure gas pipelines 11, underground shutdown devices 12 are used, for example, ball valves in the underground version, i.e. when the crane itself is located in the ground, and its control is brought out. In this case, the underground disconnecting device 12 is isolated from the effects of land and groundwater, and the insulation must not be violated during the entire period of operation, for example, more than ten years.

The gas supply pipe 1 is an element of the home gas supply network designed to supply gas from the main gas pipe 11 to the gas distribution pipes 2. The gas supply pipe 1 is a low-pressure pipe made of black steel gas pipes and laid, as a rule, in non-residential premises, and in connections to the main gas pipeline 11 - outside the building. Directly at the entrance to the building (residential building), the gas supply pipe 1 is equipped with a disconnecting device 13 (shut-off device) at a height of not more than 1.8 m from the ground. As a disconnecting device 13 installed on the inlet gas pipeline 1, shutoff valves 16 can be used, for example, in the form of a gas ball valve, which provides 100% reliability of blocking the flow of the supplied gas.

The distribution gas pipeline 2 is an element of the internal gas supply network designed to supply gas from the supply gas pipeline 1 to the gas consumers 15, i.e. to gas appliances and appliances, for example, gas stoves, gas instantaneous water heaters, gas heaters (boilers), etc. The distribution gas pipeline 2 is a network of low pressure pipelines made of black steel gas pipes and laid openly in residential premises, for example, kitchens, bathrooms, utility rooms (technical), etc. In close proximity to the connection points of the distributing gas pipelines 2 to the gas consumers 15, each of them is equipped with shut-off valves 16, for example, in the form of a gas ball valve, which ensures 100% reliability of blocking the gas flow supplied to a particular gas consumer 15.

The means of emergency shutdown of gas 14 is designed to quickly shut off the gas flow in emergency situations. The means of emergency shutdown of gas 14 is installed between the main gas pipeline 11 and the supply gas pipeline 1. Structurally, the means of emergency shutdown of gas 14 can be performed, for example, in the form of a quick-acting shut-off (shut-off) ball valve with electric drive or a normally open safety shut-off valve with electromagnetic control with voltage supply 12 V and response time - up to 1 s. The means of emergency shutdown of gas 14 is connected to the control unit 7. Management of the means of emergency shutdown of gas 14 is carried out by means of an electrical signal (electrical pulse).

The gas leakage sensor 3 is installed in residential premises, for example, kitchens, bathrooms, utility (technical) rooms, i.e. in the places of installation of gas consumers 15, and is designed to detect leaks of domestic, natural and liquefied gas in enclosed spaces. The gas leakage sensor 3 is a multifunctional device that ensures the establishment of the fact of gas leakage as well as the determination of the degree of gas contamination of the room (gas concentration level) with the issuance of alarm sound and / or light signals and the transmission of the corresponding signals to the control unit 7 (and, accordingly , to the control panel 8). The gas leakage sensor 3 has the ability to automatically stop the alarm when the gas concentration in the room falls below the set values. Structurally, the gas leakage sensor 3 can be performed, for example, as a single integrated device with a semiconductor sensor using the electrochemical method of gas detection, and a computing tool made as a hardware or hardware-software device, with a monitor, a number of LED indicators, an audio signal and a button ( key) "On-Off". Gas leakage sensors 3 are connected to the sensor communication line 5, while their power supply is provided from the control unit 7.

The sensor communication line 5 is a multicore cable that provides either direct connection of gas leak sensors 3 to the control unit 7, or their connection via a system bus.

The signal button 4 is mounted in the apartment and is designed to generate and issue to the control unit 7 an alarm signal about a gas leak in the room, as well as a voice message about a possible emergency situation. Structurally, the signal supply button 4 can be performed, for example, in the form of a small device containing a button (key or toggle switch) on the front panel, pressing which (or switching it over) provides a signal to the control unit 7 about a possible gas leak in the room. In this case, the signal supply button 4 as a device can be equipped with voice communications (for example, a microphone, loudspeaker, amplifier, “On-Off” button for communication, etc.) with a control panel 8 operating in, for example, duplex communication mode. In addition, the signaling button 4 as a device may contain, for example, a set of additional function buttons (keys, etc.) arranged in a certain order for issuing emergency sound and / or light signaling signals, as well as a “Reset” button (key) designed to silence an alarm. The buttons 4 of the signal are connected to the signal line 6, while their power is provided from the control unit 7.

The signal communication line 6 is a multicore cable that provides either direct connection of the signal supply buttons 4 to the control unit 7, or their connection via the system bus.

The control panel 8 is mounted in the office building (control room, duty room, etc.) and is designed to inform the operating personnel about the presence and nature of the emergency situation regarding gas leakage at the home gas pipelines, as well as issuing the appropriate commands to the control unit 7 for the operation of the corresponding means emergency shutdown of gas 14. The control panel 8 may be, for example, computing means, executed as a hardware or hardware-software device, with a monitor and keyboard Roy. As a monitor, for example, an LCD monitor or a touch monitor can be used, and as a keyboard, a remote control with a limited set of function keys (buttons) or an image on the screen of a touch monitor can be used. The control panel 8 can be additionally equipped with emergency sound and / or light signaling devices, for example, a siren and / or LEDs, which can inform about a gas leak in one or another part of the supply gas pipe 1 or distributing gas pipe 2. In addition, the control panel 8 can be equipped with voice communications (for example, microphone, loudspeaker, amplifier, “On-Off” communication button, etc.) operating in the mode of, for example, duplex communication, for realizing loud-speaking communication with a particular by the subscriber of the signal supply button 4. The control panel 8 is connected directly to the control unit 7 using a multi-core cable or is connected via the system bus, while the power supply to the control panel 8 is provided from the control unit 7.

The control unit 7 is mounted in the office building (control room, duty room, etc.). The control unit 7 is designed to receive and process signals from gas leak sensors 3 connected to it using a sensor communication line 5, to receive and process signals from signal supply buttons 4, connected to it using a signal communication line 6, to issue (transmit) the corresponding signals and voice information to the control panel 8, broadcast voice information from the control panel 8 to the corresponding button for signal 4, receiving and processing commands from the control panel 8, as well as issuing commands (control signal ) To the actuator - means for emergency shutdown of gas 14 for the purpose of its actuation, i.e. overlapping the supply gas pipeline 1 or its subsequent opening. The control unit 7 is a computing tool made as a hardware or hardware-software device, made as a separate unit with a direct connection to it or with a connection via a system bus of gas leak sensors 3 (via a sensor communication line 5), signal buttons 4 (by the signal communication line 6) and the control panel 8, as well as emergency gas shutdown means 14 and the internal power supply 10.

The internal power supply 10 is designed to supply safe power with electrical energy, for example, 12 V of all elements of the device and can be, for example, an uninterruptible power supply containing a battery that provides power to the device when the voltage is disconnected from the mains. The internal power source 10 is connected to an industrial single-phase electric network with a voltage of 220 V using a network wire 9.

Utility Model Implementation

The utility model is implemented as follows.

Gas leakage sensors 3 and signaling buttons 4 are installed in apartments (moreover, gas leakage sensors 3 are in rooms, for example, kitchens, bathrooms, utility (technical) rooms, i.e. in places where gas consumers are installed 15, and signaling buttons 4 - in public places) and using, respectively, a sensor communication line 5 and a signal communication line 6 are connected to the control unit 7. The control unit 7, the control panel 8 and the internal power supply 10 are installed in the office building (control room, duty room, etc.). p.), with The volume of the control unit 7 and the control panel 7 are interconnected using a multicore cable, and the internal power supply 10 is connected to the control unit 7. The internal power supply 10 is connected to the industrial single-phase electric network with a voltage of 220 V. Using a power cable 9. 3, the signal buttons 4 and the control panel 8 is carried out both using a voltage of 220 V from an industrial single-phase electric network, and a safe voltage, for example, 12 V, issued through the control unit 7.

The means for emergency shutdown of gas 14 are installed between the main gas pipeline 11 and the supply gas pipelines 1 immediately after the installed disconnecting devices 13. The electric drives included in the means of emergency shutdown of gas 14 are connected to the control unit 7 and are supplied with either a voltage of 220 V or a safe voltage, e.g. 12 V.

When the gas concentration in the room increases above the set values, the gas leakage sensor 3 is triggered while the gas concentration in the room is determined, after which the corresponding signal is transmitted via the sensor communication line 5 to the control unit 7. At the same time, information about the recorded gas concentration is transmitted to the sensor monitor gas leak 3 and is duplicated by the inclusion of the corresponding LED indicator and audible alarm. Since in the control unit 7 all the gas leakage sensors 3 are strictly identified by the place of their installation, after receiving the signal, the control unit 7 localizes the place of a possible gas leak, diagnoses the nature (degree) of the accident and qualifies the emergency.

In case of receiving a signal from any of the signal supply buttons 4, strictly identified in the control unit 7 at the place of their installation, the control unit 7 localizes the place of a possible gas leak and qualifies the situation as emergency with the formation of a command to open voice communication between the control panel 8 and alarm button 4.

The control unit 7 can operate in two modes - information and automatic.

When working in information mode, the control unit 7, after qualification of the emergency situation, generates and transmits to the control panel 8 an information signal containing information about the location and nature of the accident (gas leak), after which the control unit 7 goes into standby mode from the control panel 8. After receiving an information signal from the control unit 7 to the monitor of the control panel 8, the received information about the accident (gas leak) is output and, if necessary, an emergency sound and / or light alarm is turned on I am. By pressing the corresponding button (key) on the control panel 8, the operator on duty (or another responsible official) transmits to the control unit 7 a command that is executed by sending a signal (electrical pulse, for example, voltage 220 V or 12 V) to the electric drive of the corresponding emergency means gas shutdown 14. After that, the control unit 7 blocks the repeated issuance of a signal to the triggered means of emergency shutdown of gas 14 (i.e., blocks the repeated signals of pressing the corresponding emergency button on the remote f control 8 in relation to the triggered emergency gas shut-off means 14) until receiving the corresponding command to open it from the control panel 8 or the "Reset accident" command from the control panel 8 (in the case of "manual" opening of the emergency gas shut-off means 14).

When operating in automatic mode, the control unit 7, after qualification of the emergency situation, generates and transmits to the control panel 8 an information signal containing data on the location and nature of the accident (gas leak). After receiving an information signal from the control unit 7 to the monitor of the control panel 8, the received information about the accident is output and, if necessary, the emergency sound and / or light alarm is turned on. If the emergency is qualified by the control unit 7 as insignificant or permissible (based on the acceptable level of gas concentration in the room), then the control unit 7 goes into the normal standby mode for signals (about a decrease or increase in the gas concentration level) from gas leak sensors 3 or commands from the remote control 8. If the emergency is qualified by the control unit 7 as unacceptable (based on exceeding the permissible level of gas concentration in the room), the control unit 7 gives a signal (for example, an electric a pulse with a voltage of 220 V or 12 V) to the electric drive of the corresponding means of emergency shutdown of gas 14, when triggered, the gas supply to the supply gas pipeline 1 is shut off. Since the means of emergency shutdown of gas 14 is transferred from the “open” state to the “closed” state and from the state “closed” to the state “open” by applying a signal (for example, an electric pulse voltage of 220 V or 12 V) to the electric drive of the corresponding means of emergency shutdown of gas 14 (the process of opening or closing, For example, a gas ball valve ends with the operation of one of the limit switches included in its electric drive), the control unit 7 blocks the re-signaling of the triggered emergency gas shut-off means 14 until the corresponding command to open it is received from the control panel 8 or the “Alarm reset” command "From the control panel 8 (in the case of" manual "opening of the emergency gas shut-off means 14).

After the accident has been liquidated, the operator on duty (or another responsible official) by pressing the corresponding button (key), for example, to open the emergency gas shut-off means 14, on the control panel 8 transmits to the control unit 7 a command that is executed by him by sending a signal (for example, electric pulse voltage of 220 V or 12 V) to the electric drive of the corresponding means of emergency shutdown of gas 14, as a result of which the previously closed means of emergency shutdown of gas 14 opens, and the control unit Line 8 switches to the normal standby mode for signals from gas leak sensors 3. In the case of a “manual” opening after the accident was liquidated, the previously closed emergency gas shut-off means 14 was opened by the operator on duty (or another responsible official) by pressing the corresponding button (key), for example, “ “Resetting the accident”, on the control panel 8 transmits to the control unit 7 a command by which the control unit 7 enters the normal standby mode for signals from gas leak sensors 3.

Thus, in the proposed device, a two-channel gas leakage monitoring system is implemented, based on a system of gas leakage sensors 3 and a signal communication line 6, combining the signal supply buttons 4, with the installation of gas emergency shutdown means 14 in the supply pipelines of the building 14 with remote control of their electric drives, which allows to ensure prompt and timely shutdown of the gas supply and, thereby, minimize damage from a possible explosion and fire of the room (home) and, as a result, save the lives of residents ov.

Claims (1)

The gas supply system of a multi-storey building, comprising a gas main, an underground disconnecting device, a disconnecting device, gas emergency shutdown means, a supply gas pipeline, gas distribution pipelines, valves, gas consumers, gas leak sensors, signal buttons, a sensor communication line, a signal communication line, a unit control panel, and the main gas pipeline is connected to the gas supply line in series through a disconnecting device and means for emergency shutdown of gas distribution gas pipelines are connected to the supply gas pipeline through shutoff valves, gas consumers are connected to the distribution gas pipelines through the corresponding shutoff valves, gas consumers are installed on each operated floor of a multi-storey building, gas leakage sensors are installed on each operated floor in the gas consumer installation area, signal buttons are installed on each floor in use, the control unit for its input is connected to the control panel, gas leak sensors and signal buttons with are connected to the inputs of the control unit by means of a sensor communication line and a signal communication line, respectively, the control unit by its output is connected to an emergency gas shutdown means.