UA30211U - Method for gas consumers anti-accident protection - Google Patents

Abstract

Method for anti-accident protection of gas consumers at which one provides increase of safety of operation of gas equipment of consumers through installation of additional equipment for automated reveal of non-authorized gas leakage and increase of pressure and disconnection of gas mains at minimal term.

Description

Description of the invention

The useful model refers to the gas industry, in particular, to systems of automation of gas supply to consumers, 2 asame, to methods of emergency protection of gas consumers.

There is a known method of emergency protection of gas consumers, in which safety shut-off devices are placed on the low-pressure gas supply pipeline to buildings and on the gas supply pipelines to consumers' premises, and in an emergency situation, the gas supply main to devices that use low-pressure natural gas is emergency blocked. located in the premises of consumers |11. 70 The disadvantages of the known method include the fact that the gas shut-off in an emergency situation is carried out manually by a person directly at the scene of the accident - unauthorized gas leakage from faulty devices that use gas, or damage to gas mains, and the efficiency of the shutdown depends on the time of detection of the gas leak, the possibility of access to the safety shut-off device, which is placed on the low-pressure gas supply pipeline to buildings, human danger when approaching the specified safety shut-off device 12. The disadvantages of the known method include the fact that it is not possible to turn off the gas in the event of a sudden increase in gas pressure in the pipeline (which can lead to a gas explosion in the premises or in the house as a whole).

The closest technical solution, both in substance and in terms of the tasks to be solved, which is chosen as the closest analogue (prototype), is a method of emergency protection of gas consumers, in which low-pressure gas is placed on the pipelines for the supply of gas to buildings and on the pipelines for the supply of gas to safety shut-off devices in consumer premises, and in an emergency situation, the emergency shut-off of the gas supply line to devices that use low-pressure natural gas located in consumer premises, while the safety shut-off devices located on the gas supply pipelines to consumer premises, are carried out according to by the amount equal to the number of premises in which devices that use low-pressure natural gas are installed |21. -

The disadvantages of the known method, which was chosen as the closest analogue (prototype), include the fact that the gas shut-off in an emergency situation is carried out manually by a person directly at the scene of the accident - unauthorized gas leakage from faulty devices that use gas or damage to gas mains, and the efficiency of the shutdown depends on the time of detection of a gas leak, the possibility of access to -- the safety shut-off device, which is placed on the low-pressure gas supply pipeline to buildings, "- human danger when approaching the specified safety shut-off device. The disadvantages of the known method include the fact that it is not possible to turn off the gas in the event of a sudden increase in gas pressure in the pipeline (which can lead to a gas explosion in the premises or in the house as a whole). at

The useful model is based on the task of increasing the safety of the operation of gas equipment for consumers by installing additional equipment for automatic detection of unauthorized gas leaks and increasing pressure and disconnecting gas mains in a minimally short period of time.

The essence of the useful model is the method of emergency protection of gas consumers, in which safety shut-off devices are placed on the low-pressure gas supply pipeline to buildings and on the gas supply pipelines to consumers' premises, and in an emergency situation, emergency shut-off of the gas supply line to devices that use low-pressure natural gas located in the premises of consumers, while the safety shut-off devices, which are placed on the gas supply pipelines to the premises of consumers, are performed in an amount equal to the number of premises in which devices using low-pressure natural gas are installed , is that a second safety shut-off device is additionally placed on the low-pressure gas supply pipeline to the buildings, a bypass main is formed on the low-pressure gas supply pipeline to the buildings, additional input and output safety shut-off devices are installed on the bypass main, d an electromagnetic valve or a device similar in function is installed on the bypass line between the additional input and output safety shut-off devices, additionally installed on the bypass line between the additional input safety shut-off device - 20 | with an electromagnetic valve, a pressure transducer/signaler with an overhead valve and a disturbance valve and form a system of emergency shutdown of gas supply to consumers from all the specified devices, in addition, gas detectors, electric fans and a sound and light alarm system are installed in the premises of consumers, a monitoring and alarm system and a flow redirection device are installed data, connect the specified structural elements of the system with each other using cables 22 alternating current supply with a voltage of 2208 50ΩHz and direct current supply cables with a voltage of 24V, cable c type E (Petei) for data transmission to the automated workplace of the dispatcher, signal cables, control cable electromagnetic valve, the control cable of the alarm and ventilation equipment, connect the gas detectors with the control controller, process and transmit information to the automated workplace of the dispatcher with the help of a signal cable, connect the electric tromagnetic valve with a programmable 60 logic controller of control, processing and transmission of information to the automated workplace of the dispatcher using a control cable, connect the pressure transducer/signaler with a programmable logic controller of control, processing and transmission of information to the automated workplace of the dispatcher using a signal cable, connect the programmable logic controller of control, processing and information transmission to the automated workplace of the dispatcher with the operator's panel through the bo digital interface, connect the uninterruptible power source to the 2208 50Hz alternating current power source, connect the uninterruptible power source to the input of the power supply unit , connect the power supply unit with the programmable logical controller of control, processing and transmission of information to the automated workplace of the dispatcher, to the operator's panel, to the alarm and ventilation equipment

Through the indicated programmable logic controller of control, processing and transmission of information to the automated workplace of the dispatcher, connect the operator panel with the help of an E-type cable (Pegtei) with the automated workplace of the dispatcher in series through the data flow redirection device and the server of the existing Internet provider, close the structural elements emergency shut-off system of gas supply to consumers with an anti-vandal cabinet, close the structural elements of the monitoring system and 7/0 bigalization with an anti-vandal cabinet, take measures to activate the system of emergency shut-off of gas supply to consumers and the monitoring and signaling system, receive an emergency signal or from a gas detector in the event of an unauthorized gas leak , or from the pressure transducer/signaler in the event of an unauthorized increase in gas pressure at the entrance to the gas supply line to consumers, transmit an emergency signal via the signal cable to the operator's panel sequentially through a programmable log physical controller /5 Control, processing and transmission of information to the automated workplace of the dispatcher and through a digital interface, carry out with the help of a digital interface the translation of electrical signals into a digital code, transmit an emergency signal from the operator's panel sequentially through the data flow redirection device and the server of the existing Internet provider to the automated workplace of the dispatcher using a cable of the EFPegpay type, transmit the control signal to the device of the sound and light alarm system from the operator's panel, transmit the control signal from the operator's panel to the electromagnetic valve of the system of emergency shutdown of gas supply to consumers Through the programmable logic controller of control, processing and information transmission to the automated workplace of the dispatcher, carry out an emergency shutdown of the gas supply line to devices that use low-pressure natural gas located in the premises of consumers, using an electromagnetic lapana with the simultaneous blocking of the Bypass Highway. The essence of the useful model is that the specified second safety shut-off device is installed in the closed position, the entrance of the bypass line is formed according to the main safety shut-off device, which is placed on the low-pressure gas supply pipeline to the buildings and which is in the open position, and the outlet is according to the second additional safety shut-off device, which is placed on the specified low-pressure gas supply pipeline to the buildings in the section between the entrance and exit of the bypass - from the main line, and which is in the closed position, additional input and output safety shut-off devices are installed in the open position, in one, two or more gas detectors are installed in each of the consumers' premises, the specified gas detectors are installed in the immediate vicinity of household devices that use natural gas, a sound and light alarm system is installed both in the consumers' premises and on stairwells, a monitoring system Itoring and signaling is formed from interconnected "2 z programmable logical controller of control, processing and transmission of information to the automated dispatcher's workplace, digital interface, power supply unit, uninterruptible power supply, operator's panel with complex control buttons and a screen for displaying the current information about the values of the parameters, the AC power supply with a voltage of 2208 50 Hz.

A comparative analysis of the technical solution with the prototype allows us to conclude that the proposed method of "anti-emergency protection of gas consumers" is distinguished by the fact that a second safety shut-off device is additionally placed on the low-pressure gas supply pipeline to the buildings, formed on the gas supply pipeline to the buildings low-pressure bypass line, install additional input and output safety shut-off devices on the bypass line, additionally install an electromagnetic valve or a device similar in function to the bypass line between the additional input and output safety shut-off devices, additionally install on the bypass line between the additional input so with a safety shut-off device and an electromagnetic valve, a pressure transducer/signaler with an overhead valve and a disturbance valve and form a system of emergency shut-off of gas supply to consumers from all the specified devices, additionally installed in the premises by consumers a monitoring and signaling system and a data flow redirection device are installed in gas detectors, electric fans, and from the sound and light alarm system, the specified structural elements of the system are connected to each other - with the help of alternating current supply cables with a voltage of 2208 50ΩHz and direct current supply cables with a voltage of 24V , cable type E (Shpegpei for data transmission to the dispatcher's automated workplace, signal cables, electromagnetic valve control cable, signaling and ventilation equipment control cable, connect gas detectors with the control controller, processing and transmitting information to the dispatcher's automated workplace using signal cable, connect the solenoid valve with the programmable logical controller of control, processing and information transmission to the automated workplace of the dispatcher using the control cable, connect the pressure transducer/signaler with the programmable m logical controller of control, processing and transmission of information to the automated workplace of the dispatcher using a signal cable, connect to the programmable logic controller of control, processing and transmission of information to the automated workplace of the dispatcher with the operator panel through a digital interface, connect the source of uninterrupted power with an alternating current power source with a voltage of 2208 50 Hz, connect the uninterruptible power source to the input of the power supply unit, connect the power supply unit to the programmable logic controller for control, processing and information transmission to the automated workplace of the dispatcher, to the operator's panel 65, to the alarm equipment and ventilation through the specified programmable logic controller of control, processing and transmission of information to the dispatcher's automated workplace, connect the operator's panel using an E-type cable (Shegpei) to the dispatcher's automated workplace in series through a redirection device data flow and the server of the existing Internet provider, close the structural elements of the system of emergency shutdown of gas supply to consumers with an anti-vandal cabinet, close the structural elements of the monitoring and signaling system with an anti-vandal cabinet, carry out measures to include in the operation of the system of emergency shutdown of gas supply to consumers and the monitoring and signaling system, receive an emergency signal or from a gas detector in the event of an unauthorized gas leak, or from a pressure transducer/signaler in the event of an unauthorized increase in gas pressure at the entrance to the gas supply line to consumers, transmit an emergency signal via a signal cable to the operator panel sequentially through a 70 programmable logic controller for control, processing and information transmission to the automated workplace of the dispatcher and through a digital interface, carry out with the help of a digital interface the translation of electrical signals into a digital code, transmit an emergency signal from the operator's panel sequentially through the the data flow redirection system and the server of the existing Internet provider to the dispatcher's automated workplace using a cable of type E (Pegpei, transmit the control signal /5 from the operator's panel to the device of the sound and light alarm system, transmit the control signal from the operator's panel to the electromagnetic valve of the emergency system disconnection of gas supply to consumers through the programmable logic controller of control, processing and transmission of information to the automated workplace of the dispatcher, carry out emergency shut-off of the gas supply line to devices that use low-pressure natural gas located in the premises of consumers, using an electromagnetic valve with 2 o simultaneous shut-off of the bypass line, at the same time, the specified second safety shut-off device is installed in the closed position, the entrance of the bypass line is formed according to the main safety shut-off device, which is placed on the gas supply pipeline to the buildings below pressure and which is in the open position, and the output is via the second additional safety shut-off device, which is placed on the specified low-pressure gas supply pipeline to the buildings in the area between the entrance and exit of the bypass main and which is in the closed position, additional input and output safety shut-off devices are installed in the open position, and one, two or more gas detectors are installed in each of the consumers' premises, the specified gas detectors are installed in the immediate vicinity of household appliances that use natural gas, a sound and light alarm system is installed both in the consumers' premises and and on the stairwells, the monitoring and signaling system is formed from connected -- with each other programmable logic controller for control, processing and transmission of information to the automated workplace of the dispatcher, a digital interface, a power supply unit, a source of uninterrupted power supply, the operator's panel with complex control buttons and a screen for displaying current information about parameter values, an alternating current power source with a voltage of 2208 50 Hz.

Thus, the method of emergency protection of gas consumers, which is claimed, meets the criterion of a useful model of "novelty". with

The essence of the method of emergency protection of gas consumers is explained with the help of illustrations, where Fig. 1 shows a block diagram of sequential execution of technological operations, which constitute the essence of the method of emergency protection of gas consumers, which is claimed.

The essence of the method of emergency protection of gas consumers is explained with the help of sequential execution of "technological operations, which constitute the essence of the specified method (see the block diagram in Fig. 1). z c When the building is put into operation, safety shut-off devices are placed on the low-pressure gas supply pipeline to the buildings and on the gas supply pipelines to the consumers' premises, while the safety shut-off devices, which are placed on the gas supply pipelines to the consumers' premises, are performed in the amount that is equal to the number of premises in which devices using natural gas are installed

LOW PRESSURE (standard version of the design of the gas pipeline). After that, a second safety shut-off device is additionally placed on the low-pressure gas supply pipeline to buildings, while the specified second safety shut-off device is set in the closed position. with Next, measures are taken, according to which a bypass line is formed on the low-pressure gas supply pipeline to the buildings, while the bypass line entrance is formed by the main safety shut-off device, which is placed on the low-pressure gas supply pipeline to the buildings and which is in the open position, and the output is via the second additional safety shut-off device, which is placed on the indicated low-pressure gas supply pipeline to buildings in the area between the entrance and exit of the bypass main and which is in the closed position.

The technological cycle is continued by installing additional input and output safety shut-off devices on the bypass line, while additional input and output safety shut-off devices are installed in the open position.

At the same time, an electromagnetic valve or a device similar in function is additionally installed on the bypass line between the additional input and output safety shut-off devices. In addition, a pressure transducer/signalizer with a shut-off valve and a disturbance valve is additionally installed on the bypass line between the additional input safety shut-off device and the electromagnetic valve, and a system of emergency shutdown of gas supply to consumers is formed from all these devices.

They continue the technological cycle of performing technological operations, which constitute the essence of the method of emergency protection of gas consumers by additionally installing 65 gas detectors, electric fans and a sound and light alarm system in the premises of consumers, while one, two or more gas detectors are installed in each of the premises of consumers, the specified gas detectors are installed in close proximity to household devices that use natural gas, and the sound and light alarm system is installed both in the premises of consumers and in stairwells.

Simultaneously with the installation of gas detectors in the premises of consumers, a monitoring and signaling system and a data flow redirection device are installed, while the monitoring and signaling system is formed from interconnected programmable logical controllers for control, processing and transmission of information to the dispatcher's automated workplace, digital interface, block power supplies, uninterruptible power supplies, operator panels with complex control buttons and a screen for displaying current information about parameter values, AC power supplies with a voltage of 2208 50 Hz. 70 Next, the specified structural elements of the system are connected to each other using AC cables with a voltage of 2208 50Hz and DC cables with a voltage of 24V, a cable of type E (Petei) for data transmission to the automated workplace of the dispatcher, signal cables, a cable for controlling the electromagnetic valve , control cable of signaling and ventilation equipment.

They continue the technological cycle of performing technological operations, which constitute the essence of method /5 of emergency protection of gas consumers by: - Connecting gas detectors with the controller of control, processing and transmission of information to the automated workplace of the dispatcher using a signal cable; - connect the electromagnetic valve with the programmable logical controller of control, processing and transmission of information to the automated workplace of the dispatcher using a control cable; - connect the pressure transducer/signaler to the programmable logic controller for management, processing and transmission of information to the dispatcher's automated workplace using a signal cable; - integrate the programmable logic controller of management, processing and information transmission to the automated workplace of the dispatcher with the operator's panel through a digital interface; - connect the source of uninterrupted power supply with the source of alternating current voltage 2208 50 Hz; - connect the source of uninterruptible power supply to the input of the power supply unit; - connect the power supply unit with the programmable logic controller of control, processing and transmission of information to the automated workplace of the dispatcher, with the operator's panel, with the alarm and ventilation equipment through the specified programmable logic controller of control, processing and transmission of information to the automated workplace of the dispatcher; - zo - connect the operator's panel using a cable of type E(Shegpei) with the automated workplace of the dispatcher in series through the data flow redirection device and the server of the existing Internet provider. h-

Next (in order to prevent unauthorized interference in the work of the gas supply disconnection system with consumers and the monitoring and signaling system, close each of the specified systems with an anti-vandal cabinet. (ав)

Upon completion of the above-mentioned technological operations, measures are taken to activate the system with emergency shutdown of gas supply to consumers and the monitoring and signaling system, which is in the "waiting" mode until the moment of receiving an emergency signal either from the gas detector (in case of unauthorized gas leakage) or from the converter/ pressure alarm (in case of an unauthorized increase in gas pressure at the entrance to the main gas supply to consumers). "

In the course of operation, namely, either in the case of the above-mentioned unauthorized gas leakage, an emergency signal is received from the gas detector, or in case of an unauthorized increase in gas pressure at the entrance to the gas supply line to consumers, a similar emergency signal is received from the pressure transducer/signaler. After receiving the specified signal, this emergency signal is transmitted via the signal cable to the operator's panel sequentially. In the process of transmitting an emergency signal, electrical signals are converted into a digital code using a digital interface.

They continue the technological cycle of performing technological operations, which constitute the essence of the method of emergency protection of gas consumers by transmitting an emergency signal from the operator's panel in sequence

Ф through the device for redirecting the data flow and the server of the existing Internet provider to the automated workplace of the dispatcher using a cable of type E (Pegpay. - In parallel, the control signal is transmitted from the operator's panel to the device of the sound and light alarm system, and also the control signal is transmitted from the indicated operator's panel a signal to the electromagnetic valve of the system of emergency shutdown of gas supply to consumers through the programmable logic controller of management, processing and transmission of information to the automated workplace of the dispatcher. 5B Complete the cycle of technological operations that constitute the essence of the method of emergency protection of gas consumers by blocking the supply mains in an emergency situation of gas to devices that use low-pressure natural gas located in the premises of consumers, while gas supply lines to devices that use low-pressure natural gas are blocked with the help of an electromagnetic circuit well, which is installed in the bypass line (when the bypass line is blocked at the same time).

Increasing the effectiveness of the method of emergency protection of gas consumers, which is claimed, in comparison with the prototype, is achieved by using for the safety of operation of gas equipment of consumers of the bypass line, additional safety shut-off devices, gas detectors, cable channels, a system of emergency shutdown of gas supply to consumers, a monitoring and alarm system and data flow redirection device 65, which, when working together, will ensure automatic, upon a signal from any gas detector, disconnection of gas supply to consumers and notify relevant services indicating the location of the accident.

Sources of information: 1. Construction norms and rules. "Gas supply". SNIP 2.04.08-87. Point 5 "HRP and GRU equipment",

M., 1997 - analogue. 2. Construction norms and rules. "Gas supply". SNIP 42-01-2002. Item 7 "Internal gas pipelines",

M., 2002 - prototype.

Claims (7)

The formula of the invention 1. The method of emergency protection of gas consumers, in which safety shut-off devices are placed on the low-pressure gas supply pipeline to buildings and on the gas supply pipelines to consumers' premises, and in an emergency situation, emergency shut-off of the gas supply main to devices that /5 Use natural gas of low pressure, located in the premises of consumers, while the safety shut-off devices, which are placed on the gas supply pipelines to the premises of consumers, are performed in a quantity equal to the number of premises in which devices using low-pressure natural gas are installed, which differs in that that additionally place a second safety shut-off device on the low-pressure gas supply pipeline to buildings, form a bypass line on the low-pressure gas supply pipeline to buildings, install additional input and output safety shut-off devices on the bypass line, additionally install on in the bypass line between the additional input and output safety shut-off devices, an electromagnetic valve or a device similar in function, additionally install on the bypass line between the additional input safety shut-off device and the electromagnetic valve a pressure transducer/signaler with an overhead valve and a disturbance valve and form a system from all of these devices emergency disconnection of gas supply to consumers, additionally install gas detectors, electric fans and a sound and light alarm system in the premises of consumers, - install a monitoring and alarm system and a device for redirecting the data flow, connect the specified structural elements of the system with each other using alternating current supply cables 220 V 50 Hz and 24 V direct current supply cables, EFPegpe type cable for data transmission to the automated dispatcher workplace, signal cables, electronic control cable electromagnetic valve, the control cable of the alarm and ventilation equipment, connect the gas detectors to the controller of control, processing and transmission of information to the automated workplace of the dispatcher with the help of a signal cable, connect the electromagnetic valve to the programmable logic controller of control, processing and transmission of information to of the dispatcher's automated workplace using a control cable, connect the pressure transducer/signaler with the programmable logic controller for control, processing and information transmission to the dispatcher's automated workplace using a signal cable, connect the programmable logic controller of control, processing and information transmission to the automated workplace of the dispatcher with the operator panel through a digital interface, connect the uninterruptible power source to the 220 V 50 Hz AC power source, « 20 connect the uninterruptible power source to the power supply input , connect the power supply unit with the Z7Z programmable logic controller for control, processing and information transmission to the automated dispatcher's workplace, with the operator's panel, with the alarm and ventilation equipment. dispatcher's place, connect the operator's panel using an E-type cable (Pegpei) with the automated dispatcher's workplace in series through the data flow redirection device and the server of the existing Internet provider, close the structural elements of the system of emergency shutdown of gas supply to consumers with an anti-vandal cabinet, close the structural elements of the system monitoring and signaling (a) with an anti-vandal cabinet, take measures to activate the system of emergency disconnection of gas supply to consumers and the monitoring and signaling system, receive an emergency signal or from a gas detector in the event of an unauthorized gas leak, or from the pressure transducer/alarm in the event of an unauthorized increase in gas pressure at the entrance to the gas supply line to consumers, an emergency signal is transmitted via a signal cable to the operator's control panel sequentially through a programmable logic controller for control, processing and transmission of information to the dispatcher's automated workplace and through a digital interface, carry out with the help of a digital interface the translation of electrical signals into a digital code, transmit an emergency signal from the operator's panel sequentially through the data flow redirection device and the server of the existing Internet provider to the automated workplace of the dispatcher using a type E cable (Petei, c transmit a control signal from the operator's panel on the device of the sound and light alarm system, transmit the control signal from the operator's panel to the electromagnetic valve of the system of emergency shutdown of gas supply to consumers through the programmable logic controller of control, processing and transmission of information to the bo a of the dispatcher's automated workplace, carry out an emergency shut-off of the gas supply line to devices that use low-pressure natural gas located in the consumer's premises, using an electromagnetic valve while simultaneously blocking the bypass line. 2. The method according to claim 1, which differs in that the specified second safety locking device is installed in the closed position. 65 Z. The method according to claim 1, which differs in that the entrance of the bypass line is formed by the main safety shut-off device, which is placed on the low-pressure gas supply pipeline to buildings and which is in the open position, and the exit is by the second additional safety shut-off device, which is placed on the specified low-pressure gas supply pipeline to buildings in the area between the entrance and exit of the bypass main and which is in the closed position. 4. The method according to claim 1, which is characterized by the fact that additional input and output safety locking devices are installed in the open position. 5. The method according to claim 1, which differs in that one, two or more gas detectors are installed in each of the consumers' premises, the specified gas detectors are installed in close proximity to household devices that use natural gas. 70 6. The method according to claim 1, which differs in that the sound and light alarm system is installed both in the premises of consumers and on stairwells. 7. The method according to claim 1, which differs in that the monitoring and signaling system is formed from an interconnected programmable logic controller for control, processing and information transmission to the automated workplace of the dispatcher, a digital interface, a power supply unit, a source of uninterrupted /5 Power supply, operator's panel with complex control buttons and a screen for displaying current information about parameter values, 220 V 50 Hz AC power source. schi z "-- "-- s o Zo "o - and? o o ko - "- 60 b5