JP2018128222A - Gas piping system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a gas piping system capable of suppressing gas leakage from piping at high temperature.SOLUTION: A gas piping system 10 includes: a gas meter 16 for measuring a flow rate of gas; a shutoff valve 16A provided in the gas meter 16 to shut off supply of the gas; a header 20 for branching the gas caused to flow in via the gas meter 16 into a plurality of portions; gas piping 26 for connecting the header 20 and a gas stove 22; gas piping 28 for connecting the header 20 and a gas water heater 24; a shutoff valve 30 that is provided in the header 20 and can stop supply of the gas to the gas piping 26; a shutoff valve 32 that can stop supply of the gas to the gas piping 28; a first temperature sensor 36 for measuring an installation environmental temperature of the gas piping 26; a second temperature sensor 38 for measuring an installation environmental temperature of the gas piping 28; and a control device 34 for actuating the shutoff valve 16A and the shutoff valves 30, 32 of the header 20 to stop the supply of the gas when the installation environmental temperature exceeds a set temperature.SELECTED DRAWING: Figure 1

Description

  The present invention is a gas piping system.

  In buildings such as houses, various gas appliances using city gas may be installed (see Patent Documents 1 and 2).

JP 2008-209088 A JP 2008-128584 A

  In Patent Documents 1 and 2, a shutoff valve that shuts off gas in the event of an abnormality and an ultrasonic sensor that measures the gas flow rate are provided in the gas flow path of the gas meter. There has been disclosed a gas appliance monitoring apparatus that, when a flow rate value is detected over time, determines that it is abnormal and activates a shut-off valve to shut off a gas flow path.

  In the conventional gas piping system, metal piping is used between the gas meter and the gas equipment, and each part such as piping and joints has fire resistance. By the way, when piping having a lower fire resistance than before is used, there is a concern that the piping may malfunction due to high temperature and gas leakage may occur, and options for piping are limited.

  In consideration of the above facts, the present invention provides a gas piping system capable of suppressing gas leakage from a pipe at a high temperature even when using a pipe having a lower fire resistance than a conventional pipe, in other words, a pipe having low heat resistance. The purpose is to provide.

The gas piping system according to claim 1, wherein a gas meter for measuring a flow rate of a gas supplied from a gas supply source to a gas device and a gas discharge direction downstream side of the gas meter, the gas meter flowing in via the gas meter A header that branches and discharges the gas into a plurality; a plurality of pipes that connect the header and the gas device; and a shut-off device that is provided in the header and can stop the supply of the gas to the pipes; A temperature sensor for measuring at least the temperature of the environment in which the pipe is installed, and the shut-off device is activated when the temperature of the environment measured by the temperature sensor exceeds a preset temperature. A control device for stopping supply of the gas;
Have

For example, in an environment where piping is installed, the temperature of the environment may become high due to the occurrence of a fire or the like. When the pipe is exposed to high temperature, there is a concern that the pipe may malfunction depending on the pipe material, resulting in gas leakage.
In the gas piping system according to claim 1, the temperature sensor measures the temperature of the environment where the piping is installed, and the control is performed when the temperature of the environment measured by the temperature sensor exceeds a preset temperature. The apparatus can operate the header shut-off device to stop the gas supply to the piping.
For this reason, even if a malfunction occurs in the piping, gas leakage from the piping can be suppressed. Therefore, gas leakage can be suppressed even when a pipe having a lower fire resistance than in the past, in other words, a pipe having lower heat resistance is used.

  According to a second aspect of the present invention, in the gas piping system according to the first aspect, the gas meter is provided with a gas supply source cutoff device that cuts off the supply of the gas. When the temperature of the environment measured by the sensor exceeds a preset temperature, the gas supply source shut-off device is activated to stop the gas supply.

  In the gas piping system according to claim 2, the temperature sensor measures the temperature of the environment where the piping is installed, and the control is performed when the temperature of the environment measured by the temperature sensor exceeds a preset temperature. The apparatus can stop the gas supply to the header by operating the gas supply source cutoff device of the gas meter.

  According to a third aspect of the present invention, in the gas piping system according to the first or second aspect, the set temperature is set lower than a heat resistant temperature of a material constituting the pipe.

  In the gas piping system according to claim 3, since the set temperature when operating the shut-off device is set lower than the heat resistance temperature of the material constituting the piping, before the piping is exposed to a high temperature to cause a malfunction. In addition, the gas supply can be reliably stopped.

  According to a fourth aspect of the present invention, in the gas piping system according to the first or second aspect, the set temperature is set lower than the ignition temperature of the gas.

  In the gas piping system according to claim 4, since the set temperature is set lower than the ignition temperature of the gas, even if the gas leaks from the piping due to some trouble, the ignition of the gas is suppressed. Can do.

  The invention according to claim 5 is the gas piping system according to any one of claims 1 to 4, wherein a fire alarm is connected to the control device, and the control device is When detecting that the fire alarm has been activated, the shut-off device is activated to stop the gas supply.

  In the gas piping system according to the fifth aspect, the fire alarm is connected, and when the control device detects that the fire alarm is activated, the gas supply system is stopped by operating the shut-off device. For this reason, before the temperature of the installation environment of piping becomes high temperature, supply of gas can be stopped and safety can be improved.

  A sixth aspect of the present invention is the gas piping system according to the fifth aspect, wherein the fire alarm is provided with a transmitter that issues an alarm and informs of a fire.

  A fire alarm can give a sound, light, or other alarm to notify a fire. The control device detects that the fire alarm has been activated and activates the shut-off device to stop the gas supply. For this reason, before the temperature of the installation environment of piping becomes high temperature, supply of gas can be stopped and safety can be improved.

  The invention according to claim 7 is the gas piping system according to any one of claims 1 to 6, wherein a gas leak alarm is connected to the control device, When it is detected that the gas leak alarm has been activated, the shutoff device is activated to stop the gas supply.

  In the gas piping system according to the seventh aspect, the gas leakage alarm can detect the gas leakage. When the control device detects that the gas leak alarm is activated, the control device activates the shut-off device to stop the gas supply. For this reason, before the temperature of the installation environment of piping becomes high temperature, supply of gas can be stopped and safety can be improved.

  As described above, according to the gas piping system of the present invention, it is possible to suppress the gas leakage from the piping at a high temperature even when using a piping having a lower fire resistance than the conventional piping. Has an effect.

It is a schematic structure figure showing a house to which a gas piping system concerning a 1st embodiment of the present invention was applied. It is a block diagram which shows the control system of 1st Embodiment. It is a flowchart which shows control of the control apparatus of 1st Embodiment. It is a schematic block diagram which shows the house where the gas piping system which concerns on the 2nd Embodiment of this invention was applied. It is a block diagram which shows the control system of 2nd Embodiment. It is a flowchart which shows control of the control apparatus of 2nd Embodiment. It is sectional drawing which shows the outline of a structure of the header which concerns on other embodiment.

[First Embodiment]
Hereinafter, embodiments for carrying out the present invention will be described with reference to FIGS. 1 to 3.
As shown in FIG. 1, the gas piping system 10 of this embodiment is applied to the house 12 as an example.

  A gas supply pipe 14 for city gas, which is an example of a gas supply source, is disposed outside the house 12. The gas supply pipe 14 of the present embodiment is a commonly used metal pipe. The end of the gas supply pipe 14 is connected to a gas meter 16 installed outdoors. The gas meter 16 is actuated by a control signal from a control device 34 to be described later, and shuts off the gas supply. A flow meter 16B for outputting data and a display unit 16C for displaying the flow rate of gas are provided.

  A first gas pipe 18 installed indoors is connected to the gas meter 16. The first gas pipe 18 is a commonly used metal pipe. The end of the first gas pipe 18 is connected to a header 20 installed indoors. The header 20 branches the supplied gas into a plurality. As an example, the header 20 is installed under the floor 12 </ b> A of the house 12, but may be installed indoors in some cases.

  As an example, the house 12 is provided with a gas stove 22 as a gas appliance and a gas water heater 24.

  A first gas pipe 26 connected to the gas stove 22 and a second gas pipe 28 connected to the gas water heater 24 are connected to the header 20.

  As shown in FIGS. 1 and 2, a control device 34 is provided in the house 12. Inside the header 20, a shutoff valve 30 capable of shutting off gas supply to the first gas pipe 26 and a shutoff valve 32 capable of shutting off gas supply to the second gas pipe 28 are provided in parallel. . The shut-off valve 30 and the shut-off valve 32 are actuated by a control signal from the control device 34 and can shut off the supply of gas to the gas piping side.

  Here, in the vicinity of the first gas pipe 26, a first temperature sensor 36 for measuring the temperature of the environment where the first gas pipe 26 is installed is disposed. The first temperature sensor 36 may be attached to the first gas pipe 26. A plurality of the first temperature sensors 36 can be provided along the first gas pipe 26, and can be installed in the room 12B and the floor 12A as an example. The first temperature sensor 36 is connected to the control device 34 and outputs measured temperature data to the control device 34.

  Similarly, a second temperature sensor 38 that measures the temperature of the environment in which the second gas pipe 28 is installed is disposed in the vicinity of the second gas pipe 28. Note that the second temperature sensor 38 may be attached to the second gas pipe 28. A plurality of the second temperature sensors 38 can be provided along the second gas pipe 28, and can be installed in the room 12C and the floor 12A as an example. The second temperature sensor 38 is connected to the control device 34 and outputs the measured temperature data to the control device 34.

  The control device 34 is closed when the shutoff valve 16A of the gas meter 16 is actuated to be closed, when the shutoff valve 30 is actuated to be closed, and when the shutoff valve 32 is actuated. In this case, a display device 40 is connected to indicate that each shut-off valve is activated and gas supply is stopped. The control device 34 is connected to a return button 42 for returning each shut-off valve from the closed state to the open state.

(Function)
Next, the effect | action of the gas piping system 10 of this embodiment is demonstrated below.
For example, assuming that a fire has occurred in the house 12, the temperature in the house rises accordingly, and the temperature of the installation environment in which the first gas pipe 26 and the second gas pipe 28 are installed also rises.
FIG. 3 shows a flowchart illustrating control performed by the control device 34 by receiving temperature measurement data output from the first temperature sensor 36 and the second temperature sensor 38.

  First, in step 100, the temperature T1 of the environment where the first gas pipe 26 is installed is measured by the first temperature sensor 36, and the temperature T2 of the environment where the second gas pipe 28 is installed is measured by the second temperature sensor. Measure at 38. Note that the control device 34 constantly measures the environmental temperatures T1 and T2.

  In the next step 102, it is determined whether or not the environmental temperature T1 measured by the first temperature sensor 36 has exceeded a warning temperature (Tmax ° C.) preset in the control device 34. If the control device 34 determines that the measured environmental temperature T1 does not exceed the preset warning temperature (Tmax ° C.), the process proceeds to step 104, where the measured environmental temperature T1 is a preset warning. If it is determined that the temperature (Tmax ° C.) has been exceeded, the routine proceeds to step 106.

  In step 106, the shutoff valve 30 is closed, and the supply of gas to the first gas pipe 26 is shut off. Thereby, when the temperature T1 of the environment where the 1st gas piping 26 is installed becomes high temperature, the gas leak from the 1st gas piping 26 can be suppressed. After the shut-off valve 30 is closed, the process proceeds to step 110. In addition, after step 106 ends, the process may proceed to step 104.

  In the last step 110, it is displayed on the display device 40 that the shutoff valve 30 has been closed.

  On the other hand, in step 104, it is determined whether or not the environmental temperature T2 measured by the second temperature sensor 38 has exceeded a warning temperature (Tmax ° C.) preset in the control device 34. If the control device 34 determines that the measured environment temperature T2 does not exceed the preset warning temperature (Tmax ° C.), the process returns to step 102, and the measured environment temperature T2 is a preset warning. If it is determined that the temperature (Tmax ° C.) has been exceeded, the routine proceeds to step 108.

  In step 108, the shutoff valve 32 is closed, and the supply of gas to the second gas pipe 28 is shut off. Thereby, when the temperature T2 of the environment where the 2nd gas piping 28 is installed becomes high temperature, the gas leak from the 2nd gas piping 28 can be suppressed. After the shut-off valve 32 is closed, the process proceeds to step 110.

  In the last step 110, it is displayed on the display device 40 that the shutoff valve 32 has been closed.

  Thus, in the gas piping system 10 of the present embodiment, by measuring the temperature of the environment where the first gas piping 26 is installed and the temperature of the environment where the second gas piping 28 is installed, for example, The gas supply can be shut off before the first gas pipe 26 and the second gas pipe 28 are exposed to a high temperature to deteriorate (melt as an example, decompose, etc.) to cause a gas leak.

  In the gas piping system 10 of the present embodiment, gas leakage at high temperatures can be suppressed even when a gas piping made of a material having fire resistance, that is, heat resistance is lower than that of metal piping.

  In the gas piping system 10 of this embodiment, when the temperature of the environment measured by the first temperature sensor 36 exceeds the warning temperature (Tmax ° C.), the shutoff valve 30 is closed and measured by the second temperature sensor 38. The shutoff valve 32 is closed when the environmental temperature exceeds the warning temperature (Tmax ° C.), but the shutoff valve 16A of the gas meter 16 is closed at the same time, and the gas supply is shut off upstream of the header 20. May be. Thereby, gas leakage on the downstream side of the gas meter 16 can be suppressed.

  The warning temperature (Tmax ° C.) can be arbitrarily set in the control device 34. As an example, the warning temperature (Tmax ° C.) can be set lower than the heat resistance temperature (for example, the melting point) of the materials constituting the first gas pipe 26 and the second gas pipe 28. Thereby, before the 1st gas piping 26 and the 2nd gas piping 28 are exposed to high temperature and a malfunction arises, supply of gas can be stopped reliably. The warning temperature (Tmax ° C.) can be set lower than the ignition temperature of the gas.

[Second Embodiment]
Next, a gas piping system 10 according to a second embodiment of the present invention will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the same structure as 1st Embodiment, and the description is abbreviate | omitted.

  As shown in FIGS. 4 and 5, in the gas piping system 10 of the present embodiment, the first gas leak alarm 44 is installed in the vicinity of the gas stove 22, and the second gas is in the vicinity of the gas water heater 24. A leak alarm 46 is installed. The first gas leak alarm device 44 and the second gas leak alarm device 46 are connected to the control device 34, and when a gas leak is detected, a signal indicating the gas leak is output to the control device 34. ing.

  A fire alarm 48 is attached to the ceiling of the room 12B, and a fire alarm 50 is attached to the ceiling of the room 12C. The fire alarms 48 and 50 may be of a smoke sensing type that senses smoke, may be of a heat sensing type that senses a flame, or may be of other types. The fire alarms 48 and 50 are connected to the control device 34, and when a flame (or smoke) is detected, a signal indicating the detection of the flame (or smoke) is output to the control device 34.

  Further, a transmitter 52 that sounds an alarm buzzer or turns on an alarm lamp by pressing a button is provided in the room of the house 12. The transmitter 52 is connected to the control device 34, and outputs a warning signal to the control device 34 when a button is pressed. When the button of the transmitter 52 is pressed, an alarm is issued by a bell, a buzzer, a red lamp (not shown) or the like.

  In the gas piping system 10 of the present embodiment, the first gas leak alarm 44 is installed in the vicinity of the gas stove 22, and the second gas leak alarm 46 is installed in the vicinity of the gas water heater 24. When at least one of the first gas leak alarm 44 and the second gas leak alarm 46 detects gas leak, the control device 34 closes the shutoff valve 30 and shutoff valve 32, and the first gas pipe 26 is closed. And supply of gas to the second gas pipe 28 is shut off.

  Further, in the gas piping system 10 of the present embodiment, when the fire alarms 48 and 50 detect the occurrence of a fire in the house 12, the control device 34 closes the shutoff valve 30 and the shutoff valve 32, and the first gas pipe. 26 and the supply of gas to the second gas pipe 28 can be shut off.

  Moreover, in the gas piping system 10 of this embodiment, if the button of the transmitter 52 is pushed, the control apparatus 34 will close the cutoff valve 30 and the cutoff valve 32, the 1st gas piping 26, and the 2nd gas piping. The gas supply to 28 can be shut off.

  Thus, in the gas piping system 10 of the present embodiment, in addition to the first temperature sensor 36 and the second temperature sensor 38, the first gas leak alarm 44, the second gas leak alarm 46, the fire alarm. Since the first and second temperature sensors 36 and 38 are out of order, the first gas pipe 26 and the first gas pipe 26 and the second transmitter 52 are provided. The gas supply to the two gas pipes 28 can be shut off, and the first gas pipes 26 and 26 can be cut in advance before detecting the high temperature in the installation environment of the first gas pipes 26 and the second gas pipes 28. And supply of the gas to the 2nd gas piping 28 can be interrupted | blocked. Thereby, safety can be further improved.

  The gas leak alarm may be installed under the floor 12A of the house 12. Thereby, the gas leak by the malfunction (loose connection part, disconnection of piping, etc.) of the gas piping system under the floor 12A can be detected.

The flowchart shown in FIG. 6 has shown an example of control of the gas piping system 10 of this embodiment.
First, in step 200, the temperature T1 of the environment where the first gas pipe 26 is installed is measured by the first temperature sensor 36, and the temperature T2 of the environment where the second gas pipe 28 is installed is measured using the second temperature sensor. Measure at 38.

  In the next step 202, it is determined whether the first gas leak alarm 44 and the second gas leak alarm 46 have detected a gas leak. If a gas leak is detected, the routine proceeds to step 212, where the shutoff valve 30 and the shutoff valve 32 are closed to shut off the gas supply. On the other hand, if no gas leak is detected at step 202, the routine proceeds to step 204.

  In step 204, it is determined whether or not at least one of the fire alarm 48 and the fire alarm 50 is activated. When at least one of the fire alarm 48 and the fire alarm 50 is activated, the process proceeds to step 212 and the shutoff valve 30 and the shutoff valve 32 are closed to shut off the gas supply. On the other hand, if the fire alarm 48 and the fire alarm 50 are not activated, the process proceeds to step 206.

  In step 206, it is determined whether or not the button of the transmitter 52 has been pressed. When the button of the transmitter 52 is pressed, the process proceeds to step 212, where the shutoff valve 30 and the shutoff valve 32 are closed to shut off the gas supply. On the other hand, if the button on the transmitter 52 is not pressed, the process proceeds to step 208.

  In step 208, it is determined whether or not the environmental temperature T <b> 1 measured by the first temperature sensor 36 has exceeded a warning temperature (Tmax ° C.) preset in the control device 34. If the control device 34 determines that the measured environmental temperature T1 does not exceed the preset warning temperature (Tmax ° C.), the process proceeds to step 210, where the measured environmental temperature T1 is a preset warning. If it is determined that the temperature (Tmax ° C.) has been exceeded, the routine proceeds to step 212, where the shutoff valve 30 and shutoff valve 32 are closed, and the gas supply is shut off.

  In step 210, it is determined whether or not the environmental temperature T2 measured by the second temperature sensor 38 has exceeded a warning temperature (Tmax ° C.) preset in the control device 34. When the control device 34 determines that the measured environment temperature T2 does not exceed the preset warning temperature (Tmax ° C.), the process returns to step 202, and the measured environment temperature T2 is a preset warning. If it is determined that the temperature (Tmax ° C.) has been exceeded, the routine proceeds to step 212, where the shutoff valve 30 and shutoff valve 32 are closed, and the gas supply is shut off.

  In the last step 110, it is displayed on the display device 40 that the shutoff valve 32 has been closed.

  Thus, in the gas piping system 10 of this embodiment, the 1st gas leak alarm device 44, the 2nd gas leak alarm device 46, the fire alarm device 48, the fire alarm device 50, and the transmitter 52 are installed. Therefore, the supply of gas can be shut off before the temperature of the environment where the first gas pipe 26 is installed and the temperature of the environment where the second gas pipe 28 is installed become high.

(Other embodiments)
Although an example of the present invention has been described above, the present invention is not limited to the above, and it is needless to say that various modifications can be made without departing from the spirit of the present invention. .

  In addition, although the example which used city gas as gas was shown in the said embodiment, other combustible gases, such as propane gas, can also be used.

  In the said embodiment, although the gas stove 22 and the gas water heater 24 were connected to the header 20 as gas equipment, this invention is not limited to this, A gas stove, a gas fan heater, a gas dryer, a gas oven, Other gas equipment such as a gas power generator can also be connected.

  The header 20 of the above embodiment includes two shut-off valves, a shut-off valve 30 capable of shutting off the gas supply to the first gas pipe 26 and a shut-off valve 32 capable of shutting off the gas supply to the second gas pipe 28. For example, as shown in FIG. 7, a shutoff valve 33 connected to the control device 34 is provided upstream of the branching portion 20A, and the first gas pipe 26 and the second gas pipe are provided. You may comprise so that supply of the gas to 28 may be interrupted | blocked simultaneously.

  In addition, the communication device is connected to the control device 34, and the fact that the shutoff valve 30 and the shutoff valve 32 are closed is notified in advance to the control device 34 via a communication line (wired or wireless) such as an Internet line or a telephone line. You may report to a registered smartphone, mobile phone, PC, etc.

10 Gas piping system 14 Gas supply pipe (gas supply source)
16 Gas meter 16A shut-off valve (gas supply source shut-off device)
20 Header 22 Gas stove (gas equipment)
24 Gas water heater (gas equipment)
26 1st gas piping (piping)
28 Second gas piping (piping)
36 First temperature sensor (temperature sensor)
38 Second temperature sensor (temperature sensor)
30 Shutoff valve (shutoff device)
32 Shutoff valve (shutoff device)
33 Shutoff valve (shutoff device)
42 Transmitter (fire alarm)
44 First gas leak alarm 46 Second gas leak alarm 48 Fire alarm

Claims (7)

A gas meter for measuring the flow rate of gas supplied from the gas supply source to the gas appliance;
Provided on the downstream side of the gas meter in the gas discharge direction, a header that branches and discharges the gas that has flowed in via the gas meter,
A plurality of pipes connecting the header and the gas appliance;
A shut-off device provided in the header and capable of stopping the supply of the gas to the pipe;
A temperature sensor for measuring at least the temperature of the environment in which the pipe is installed;
A control device for operating the shut-off device and stopping the supply of the gas when the temperature of the environment measured by the temperature sensor exceeds a preset temperature set in advance;
Having gas piping system.   The gas meter is provided with a gas supply source shut-off device that shuts off the gas supply, and the control device is configured such that the temperature of the environment measured by the temperature sensor exceeds a preset temperature. The gas piping system according to claim 1, wherein the gas supply source shut-off device is operated to stop the supply of the gas.   The gas piping system according to claim 1 or 2, wherein the set temperature is set lower than a heat resistant temperature of a material constituting the piping.   The gas piping system according to claim 1 or 2, wherein the set temperature is set lower than an ignition temperature of the gas. A fire alarm is connected to the control device,
The gas according to any one of claims 1 to 4, wherein when the control device detects that the fire alarm is activated, the control device activates the shut-off device to stop the supply of the gas. Piping system.   The gas piping system according to claim 5, wherein the fire alarm device includes a transmitter that issues an alarm to notify a fire. A gas leak alarm is connected to the control device,
The said control apparatus operates the said interruption | blocking apparatus, and stops supply of the said gas, when it detects that the said gas leak alarm act | operated, The supply of any one of Claims 1-6. Gas piping system.