JP2004019956A - Gas use information system, gas meter and gas leak alarm - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a gas use information system which can inform the use of the gas at a low cost and which can prevent the generation of phenomenon that a gas appliance is left as it is not extinguished in all gas appliances provided in the downstream of a gas container. <P>SOLUTION: A gas meter 6 detects that the gas appliance 9 provided in the downstream side of the gas container 1a or 1b is used on the basis of a detected gas flow rate, and transmits the use information corresponding to a result of the detection to a gas leak alarm 10. The gas leak alarm 10 determines whether the gas appliance 9 is used at present or not on the basis of the received use information, and during the time that the gas leak alarm judges that the gas is used, the gas leak alarm 10 informs the use of the gas. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gas usage notification system, a gas meter, and a gas leak alarm, and more particularly to a gas usage notification system that notifies the usage status of a gas appliance provided on the downstream side of a gas container, and is used in the gas usage notification system. The present invention relates to a gas meter and a gas leak alarm.
[0002]
[Prior art]
Conventionally, a gas supply system for supplying gas to a gas appliance is configured as shown in FIG. As shown in the figure, high-pressure gas from two gas containers 1a and 1b is supplied to a pressure regulator 3 via high-pressure hoses 2a and 2b. The high-pressure gas from the gas containers 1a and 1b is adjusted to a predetermined pressure by the pressure regulator 3.
[0003]
The regulated gas is supplied to a gas meter 6 through a gas line 5 having a closing cock 4 on the way, and then through a gas line 7 and a branch gas line 8 branched from the gas line 7. To the gas appliance 9. The gas meter 6 detects a gas flow rate flowing from the gas container 1a or 1b to the gas appliance 9, and integrates the detected gas flow rates to detect a gas usage.
[0004]
Also, conventionally, a melody or an alarm sound is generated while the gas appliance 9 is used to prevent a security function of the gas meter from being activated due to forgetting to turn off the gas, thereby preventing a gas supply from being shut off. A usage alarm has been proposed. As an example of such a usage alarm, a gas detection device is provided in the gas appliance 9 and a gas appliance 9 with a usage alarm that generates a melody while the flame detection element detects a flame is disclosed in Japanese Utility Model Application Laid-Open No. 7-1995. No. 44236.
[0005]
Further, as shown in FIG. 6, based on the output of the flow rate sensor 15 provided in the branch gas pipe 8, the use of the gas appliance 9 is detected, and while the use of the gas appliance 9 is detected, the notification sound is emitted. A generated usage alarm 16 is also known.
[0006]
[Problems to be solved by the invention]
However, the above-described gas appliance with a usage alarm is more expensive than a general gas appliance without a usage alarm. Moreover, it is impossible to cope with forgetting to turn off the gas appliances other than the gas appliances provided with the alarm. For this reason, when it is desired to notify the use of all the gas appliances downstream of the gas container 1a or 1b, it is necessary to provide an alarm for each gas appliance, and there is a problem in cost.
[0007]
Further, in the case of the use alarm 16 using the flow rate sensor 15, a gas company is required to perform the work for providing the flow rate sensor 15, so that the cost is increased. In addition, there is a problem that it is impossible to cope with forgetting to turn off the gas appliances other than the gas appliances on the downstream side of the flow sensor 15.
[0008]
Therefore, the present invention focuses on the above-described problems, and can notify the use of gas at a low cost, and can prevent forgetting to turn off all the gas appliances provided downstream of the gas container. It is an object of the present invention to provide a gas use notification system that can be used, and a gas meter and a gas leak alarm used in the gas use notification system.
[0009]
[Means for Solving the Problems]
The invention according to claim 1, which has been made to solve the above-mentioned problem, has a flow rate detecting means for detecting a gas flow rate flowing to a gas appliance downstream of a gas container, and integrates the detected gas flow rate to obtain a gas. A gas usage notification system comprising: a gas meter that measures a usage amount; and a gas leak alarm having a notification unit that notifies a gas leak when a gas leak is detected. Use detection means for detecting that the gas appliance is being used based on the gas flow rate obtained, and transmission means for transmitting use information corresponding to a detection result by the use detection means to the gas leak alarm. And the gas leak alarm device has use determining means for determining whether or not the gas appliance is currently used based on the received use information. While being determined to be used by cross section lies in the gas use alarm system which is characterized in that the gas used notification.
[0010]
According to the first aspect of the present invention, in the gas meter, the use detecting means detects that the gas appliance provided on the downstream side of the gas container is used, based on the gas flow rate detected by the flow rate detecting means. . The transmission unit transmits usage information according to the detection result by the usage detection unit to the gas leak alarm. In the gas leak alarm, the use determining means determines whether or not the gas appliance is currently used based on the received use information. The gas use notification is performed while the notification means is determined to be used by the use determination means. By this gas use notification, the gas consumer recognizes that the gas appliance is being used.
[0011]
Therefore, it is necessary to provide a flow rate detecting means and a reporting means separately from the gas meter and the gas leak alarm by performing the gas use notification by diverting the flow detecting means in the gas meter and the notifying means in the gas leak alarm. Therefore, there is no need to perform construction work for providing the flow rate detecting means and the notifying means. In addition, by providing the gas meter with the use detecting means, if any one of the gas appliances provided downstream of the gas meter, that is, all the gas appliances provided downstream of the gas container, is used, Detection can be performed, and gas use notification can be performed for all gas appliances.
[0012]
The invention according to claim 2 is the gas use notification system according to claim 1, wherein when the use start of the gas appliance is detected based on a detection result by the use detection means or the use information, The gas use notification system further includes a notification stop unit that stops the gas use notification by the notification unit until a predetermined time elapses from the detection.
[0013]
According to the second aspect of the present invention, when the notification stopping unit detects the start of use of the gas appliance based on the detection result or the use information by the use detection unit, the notification is continued until a predetermined time elapses from the detection of the use start. The notification of gas use by the means is stopped. Therefore, paying attention to the fact that there is no need to notify the gas use from the start of gas appliance use to prevent forgetting to turn off the gas, the gas use notification should be stopped until a predetermined time elapses from the detection of the gas appliance use start. As a result, wasteful power consumption can be reduced.
[0014]
The invention according to claim 3 is the gas use notification system according to claim 2, further comprising a setting means for setting the predetermined time to a value corresponding to a setting operation. Exists.
[0015]
According to the third aspect of the present invention, the setting means sets a predetermined time to a value corresponding to the setting operation. Therefore, by providing the setting means, a predetermined time can be set for each gas consuming destination.
[0016]
According to a fourth aspect of the present invention, there is provided a gas meter having flow rate detecting means for detecting a flow rate of a gas flowing from a gas container to a downstream gas appliance, and integrating the detected gas flow rates to measure a gas usage. A usage detection unit configured to detect use of the gas appliance based on a gas flow rate detected by the flow detection unit; and a transmission unit configured to transmit usage information corresponding to a detection result obtained by the usage detection unit to an external device. A gas meter characterized by the above.
[0017]
According to the fourth aspect of the present invention, the use detecting means detects that the gas appliance is used based on the gas flow rate detected by the flow rate detecting means. The transmitting means transmits the use information according to the detection result by the use detecting means to the outside. According to the above configuration, the external annunciator that has received the usage information, based on the received usage information, determines whether the gas appliance is currently used, and while it is determined that the gas appliance is being used, If the gas use notification is performed, the gas consumer can recognize that the gas appliance is used by the gas use notification.
[0018]
Accordingly, by using the flow rate detecting means in the gas meter to notify the use of gas, there is no need to provide a flow rate detecting means separately from the gas meter, and the construction for providing the flow rate detecting means is not required. In addition, by providing the gas meter with the use detecting means, if any one of the gas appliances provided downstream of the gas meter, that is, all the gas appliances provided downstream of the gas container, is used, Detection can be performed, and gas use notification can be performed for all gas appliances.
[0019]
According to a fifth aspect of the invention, there is provided the gas meter according to the fourth aspect, wherein, among the flow rate sections obtained by dividing a flow rate detectable range into a plurality of sections, a flow rate section corresponding to a registration operation is registered as a registered flow rate section. Registration means, and flow rate detection means for detecting the flow rate of the gas flow rate detected by the flow rate detection means, the use detection means, any of the gas appliances provided downstream from the gas container When at least one is used, it detects the use of the gas appliance, and when the registered flow rate section matches the detected flow rate section, the transmitting means outputs matching information indicating that the registered flow rate section matches the detected flow rate section. A gas meter characterized by transmitting to the outside.
[0020]
According to the fifth aspect of the present invention, the registration means registers the flow rate category corresponding to the registration operation as a registered flow rate category. The flow rate division detecting means detects a flow rate division of the gas flow detected by the flow rate detecting means. When the registered flow rate section matches the detected flow rate section, the transmitting means transmits matching information notifying the fact to the outside. Therefore, if the external alarm device that receives the coincidence information performs the gas usage notification so as to identify the coincidence, the gas consumer can confirm that the gas appliance corresponding to the registered flow rate category is used. Can be recognized.
[0021]
According to a sixth aspect of the present invention, in the gas meter according to the fifth aspect, the transmitting unit transmits, among the plurality of patterns of the matching information, matching information of a pattern corresponding to the matched flow rate section. It exists in the gas meter.
[0022]
According to the sixth aspect of the present invention, the transmitting means transmits the matching information of the pattern corresponding to the matched flow rate section among the matching information having a plurality of patterns. According to the above configuration, if the external alarm that has received the coincidence information performs a different gas usage notification for each pattern, the gas consumer can determine the gas corresponding to any of the plurality of registered flow rate sections. It is possible to recognize whether the device is being used.
[0023]
According to a seventh aspect of the present invention, in the gas meter according to the fifth or sixth aspect, when the gas usage time exceeds a usage time cutoff value corresponding to the flow rate segment detected by the flow rate segment detection means, the gas supply is performed. The gas meter further comprises a use time cutoff means for cutting off the gas.
[0024]
According to the seventh aspect of the invention, when the gas use time exceeds the use time cutoff value corresponding to the flow rate section detected by the flow rate section detection means, the use time cutoff means cuts off the gas supply. Therefore, there is no need to separately provide a flow rate section detecting means for interrupting the use time and a flow rate section detecting means for transmitting the coincidence information.
[0025]
The invention according to claim 8 is a gas leak alarm device having a notifying means for notifying when gas leak is detected, wherein the gas device is provided from the outside and provided on the downstream side of the gas container. Based on usage information according to the detection result by the usage detection means for detecting use, the apparatus further includes usage determination means for determining whether or not the gas appliance is currently used, and the notification means is used by the usage determination means. The gas leakage alarm device is configured to perform a gas use notification while it is determined that the gas leak alarm has been performed.
[0026]
According to the invention described in claim 8, the use judging means is configured to determine whether the gas appliance is currently used based on the use information transmitted from the outside and according to the detection result by the use detecting means for detecting use of the gas appliance. It is determined whether or not there is. The gas use notification is performed while the notification means is determined to be used by the use determination means. Therefore, by using the notification means in the gas leak alarm to perform gas usage notification, there is no need to provide a notification means for performing gas usage notification separately from the notification means in the gas leak alarm. There is no need to perform construction work to provide means.
[0027]
The invention according to claim 9 is the gas leak alarm according to claim 8, wherein the notifying means includes a flow rate section of a gas flow rate flowing from the gas container to the downstream gas appliance, and a flow rate section registered in advance. The present invention resides in a gas leak alarm device which performs the gas use notification so as to be identifiable when externally receiving coincidence information notifying that a match has occurred.
[0028]
According to the ninth aspect of the present invention, when receiving from the gas meter, coincidence information that indicates that the flow rate of the gas flow flowing from the gas container to the downstream gas appliance matches the flow rate category registered in advance, The notification means performs gas usage notification so as to be able to identify the fact. Therefore, the gas consumer can recognize that the gas appliance corresponding to the registered flow rate category is used.
[0029]
According to a tenth aspect of the present invention, in the gas leak alarm according to the ninth aspect, when the coincidence information of the pattern corresponding to the coincident flow rate section is received from the outside, among the plurality of patterns of the coincidence information. The notification means is configured to perform the different gas usage notification for each of the patterns.
[0030]
According to the tenth aspect of the present invention, when the matching information of the pattern corresponding to the matched flow rate segment is received from the outside, the gas use notification according to the pattern is performed. Therefore, the gas consumer can recognize which of the plurality of registered flow rate sections the gas appliance corresponding to is used.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing an embodiment of a gas supply facility incorporating the gas use notification system of the present invention. As shown in the figure, high-pressure gas from two gas containers 1a and 1b is supplied to a pressure regulator 3 via high-pressure hoses 2a and 2b. The high-pressure gas from the gas containers 1a and 1b is adjusted to a predetermined pressure by the pressure regulator 3.
[0032]
The regulated gas is supplied to a gas meter 6 through a gas line 5 having a closing cock 4 on the way, and then through a gas line 7 and a branch gas line 8 branched from the gas line 7. The gas is mainly supplied to a gas appliance 9 provided indoors. Examples of the gas appliance 9 include a water heater 9a, a gas stove 9b, a gas heater 9c, and a gas floor heating 9d.
[0033]
The gas meter 6 is connected to a gas leak alarm device 10 provided in the room. The gas leak alarm 10 detects a gas leak when the gas concentration in the atmosphere becomes equal to or higher than a predetermined threshold value, outputs a buzzer sound from a speaker described later, blinks an LED, and outputs the gas. This is for leak notification.
[0034]
Next, the internal configuration of the gas meter 6 constituting the usage notification system will be described with reference to FIG. As shown in the figure, the gas meter 6 includes an integrating display unit 61, a measuring unit 62, and a flow sensor 63.
[0035]
The integration display section 61 counts (integrates) the flow rate of gas supplied to the gas appliance 9 from the gas container 1a or 1b serving as a gas supply source. The integration display section 61 is connected to a flow sensor 63 via a measuring section 62.
[0036]
The flow rate sensor 63 is a flow rate sensor that outputs a pulse every time the gas flows from the gas container 1a or 1b to the gas appliance 9 at a constant flow rate using the rotational movement in the measuring section 62.
[0037]
The gas meter 6 has a shutoff valve 64 for shutting off gas supply from the gas container 1a or 1b to the gas appliance 9 by closing the valve, a terminal block 65 to which the gas leak alarm 10 is connected, and a transmission controller (NCU). 11 is connected to the terminal block 66.
[0038]
The NCU 11 is connected to a telephone line network through a telephone line, and a modem (not shown) for communicating with a remote management center, and an automatic switch for switching the connection of the telephone line between the subscriber telephone and the gas meter 6. A switch (not shown) is provided.
[0039]
Further, the gas meter has a control circuit 67. The control circuit 67 includes a microcomputer (μCOM) 67a as a main control unit, a battery 67b functioning as an operation power supply, an interface 67c, and the like.
[0040]
The μCOM 67a includes a ROM 67a1, which is a read-only memory for storing programs and fixed data, a central processing unit (CPU) 67a2 for performing various processing operations in accordance with the programs stored in the ROM 67a1, and a work area used for processing by the CPU 67a2. And a RAM 67a3, which is a readable and writable memory having a data storage area for storing processing results and processing results.
[0041]
The interface 67c is connected to a pulse output terminal of the flow sensor 63, a control terminal of the shut-off valve 64, terminal blocks 65 and 66, and the like.
[0042]
The CPU 67a2 in the gas meter 6 detects the gas flow rate flowing from the gas container 1a or 1b to the gas appliance 9, and integrates the detected gas flow rates to detect the gas flow rate as a gas usage amount. When detecting a gas leak, the NCU 11 controls the NCU 11 to perform a gas leak notification process for notifying the remote management center of the gas leak.
[0043]
When the gas usage time exceeds a predetermined usage time cutoff value, the CPU 67a2 further determines that gas leakage or gas hose disconnection has occurred, and shuts off gas supply. A transmission process is provided for detecting whether or not the device 9 is being used, and transmitting a code signal (= use information) according to the detection result.
[0044]
Further, in the RAM 67a3 described above, a use time cutoff value determined for each flow rate segment obtained by dividing a detectable flow rate range into a plurality is stored. The flow rate divisions include, for example, a flow rate division 1 of less than 21 l / h, a flow rate division 2-1 of 21 or more and less than 63 l / h, a flow rate division 2-2 of 63 or more and less than 125 l / h, and a flow division of 125 or more and less than 210 l / h. There are 15 flow sections, such as flow sections 2-3,...
[0045]
Next, an internal configuration of the gas leak alarm 10 constituting the above-described gas use notification system will be described with reference to FIG. The gas leak alarm 10 includes a terminal block 101 to which the gas meter 6 is connected, a gas sensor 102 that outputs an electric signal according to the gas concentration in the atmosphere, a speaker 103 for performing gas leak notification, a control circuit 104, and the like. ing.
[0046]
The control circuit 104 includes a μCOM 104a that is a main control unit, a battery 104b that functions as an operation power supply, an interface 104c, and the like. The μCOM 104a includes a ROM 104a1, a CPU 104a2, a RAM 104a3, and the like, like the gas meter 6. The terminal block 101, the output terminal of the electric signal of the gas sensor 102, and the speaker 103 are connected to the interface 104c.
[0047]
The CPU 104a2 in the above-described gas leak alarm 10 detects a gas leak when the gas concentration exceeds a predetermined concentration, and uses a speaker 103 to perform a gas leak notification process for notifying the gas leak. A notification process for notifying the gas meter 6 is performed. The CPU 104a2 further uses the code signal transmitted from the gas meter 6 to determine whether or not the gas appliance 9 is being used. During the use determining process, the CPU 104a2 determines that the gas appliance 9 is being used. Is output from the speaker 103 to perform a notification process for performing a gas usage notification.
[0048]
The detailed operation of the usage notification system described above will be described below. The CPU 67a2 in the gas meter 6 functions as a registration unit, and performs a registration process of registering a flow rate section as a registered flow rate section according to a registration operation performed by a gas consumer, a gas company, or the like.
[0049]
For example, when the user wants to be notified of the use of the gas stove 9b so that the use of the gas stove 9b can be distinguished from the use of the other gas appliances 9 among the plurality of gas appliances 9 used at the consumer's house where the gas meter 6 is installed, The consumer or the gas company registers in advance the flow rate classification when only the gas stove 9b is used by the above-described registration operation. In the embodiment of the present invention, the registration of the flow rate division is not limited to one, and a plurality of registered flow rate divisions (1) to (n) can be registered.
[0050]
Further, the CPU 67a2 in the gas meter 6 periodically performs flow rate detection, use time cutoff, and transmission processing. The operation of the gas meter 6 in the flow rate detection / use time cutoff / transmission processing will be described below with reference to a flowchart showing the processing procedure of the CPU 67a2 in FIG.
[0051]
First, the CPU 67a2 measures a cycle of a pulse output from the flow sensor 63, and performs a flow rate detection process for detecting a gas flow rate based on the cycle (step S1). As is apparent from this, the flow rate sensor 63 and the CPU 67a2 constitute a flow rate detecting means in the claims. Next, the CPU 67a2 functions as a use detecting unit, and determines whether or not the gas appliance 9 is used based on the detected gas flow rate (Step S2).
[0052]
For example, when the gas flow rate is 21 l / h and it can be determined that the gas appliance 9 is being used (Y in step S2), the CPU 67a2 next determines whether the timer for counting the gas usage time is operating. Is determined (step S3). If the timer is not operating (N in step S3), the CPU 67a2 determines that the use of the gas appliance 9 has been started, and acts as a flow rate division detecting unit to detect the flow rate division of the gas flow rate detected in step S1. A flow rate division detection process is performed (step S6).
[0053]
Thereafter, the CPU 67a2 reads from the RAM 67a3 a use time cutoff value corresponding to the flow rate section detected in step S6 (hereinafter simply referred to as a detected flow rate section), and uses the read use time cutoff value as a value to be compared with the gas use time. It is set (step S7). Next, the CPU 67a2 functions as a transmission unit, performs a code signal transmission process of transmitting a code signal to the gas leak alarm device 10 (Step S8), and ends the process.
[0054]
The code signal described above is, for example, a code signal S ₁ ~ S _{n + 2} There are multiple patterns. Code signal S ₁ Indicates that the use of the gas appliance 9 has been detected and that the registered flow rate category (1) matches the detected flow rate category, and the code signal S ₂ Indicates that the use of the gas appliance 9 has been detected and that the registered flow rate category (2) matches the detected flow rate category. _n Indicates that the use of the gas appliance 9 has been detected and that the registered flow rate category (n) matches the detected flow rate category. The code signal S _{n + 1} Indicates that the use of the gas appliance 9 has been detected, and the code signal S _{n + 2} Indicates that the gas appliance 9 is not used.
[0055]
That is, in the above-described code signal transmission process in step S8, the CPU 67a2, in detail, if the registered flow rate section and the detected flow rate section match, the code signal S ₁ ~ S _n Among them, a code signal corresponding to the matched flow rate section is transmitted. On the other hand, if the registered flow rate category and the detected flow rate category do not match, the code signal S _{n + 1} Send Further, as is apparent from the above, the code signal S ₁ ~ S _{n + 2} Contains usage information corresponding to the detection result of the use of the gas appliance 9. The code signal S ₁ ~ S _n It can be seen that includes the matching information that indicates that the registered flow rate section and the detected flow rate section match.
[0056]
Also, in step S3, if the timer for counting the gas usage time is operating (Y in step S3), the CPU 67a2 determines whether the counted gas usage time exceeds the usage time cutoff value set in step S7. It is determined whether or not it is (step S4).
[0057]
If the usage time cutoff value is exceeded (Y in step S4), the CPU 67a2 functions as a usage time cutoff unit, and outputs a valve close signal to the control end of the cutoff valve 64 to thereby cause the cutoff valve 64 to be closed. After closing the gas supply and shutting off the gas supply (step S5), the process ends. On the other hand, if it does not exceed the use time cutoff value (N in step S4), the CPU 67a2 immediately ends the processing.
[0058]
Further, in step S2, when it is determined that the gas flow rate is 21 l / h and the gas appliance 9 is not used (N in step S2), the CPU 67a2 counts the gas use time but is now operating. It is determined whether or not (step S9). If the timer is operating (Y in step S9), the CPU 67a2 stops the timer operation, sets the count value of the gas usage time to 0 (step S10), and then operates as a transmission unit, and operates as a code signal S. _{n + 1} Is transmitted to the gas leak alarm 10 (step S11), and the process is terminated. On the other hand, if the timer is not operating (N in step S9), the CPU 67a2 immediately ends the processing.
[0059]
According to the above gas meter 6, the code signal S ₁ ~ S _{n + 2} Is received, the gas leak alarm 10 receives the code signal S ₁ ~ S _{n + 2} Based on the above, if it is determined whether the gas appliance 9 is currently used, and if it is determined that the gas appliance 9 is being used, the gas consumer can be notified by the gas usage notification. It can be recognized that the gas appliance 9 is used.
[0060]
Therefore, by diverting the gas flow rate detected by the gas meter 6 to notify the use of gas, there is no need to provide a flow rate detector for detecting the gas flow rate separately from the gas meter 6. No need for construction. Therefore, the use of gas can be inexpensively notified.
[0061]
In addition, by detecting that the gas appliance 9 is used based on the gas flow rate detected by the gas meter 6, all the gas provided downstream of the gas meter 6, that is, provided downstream of the gas container 1a or 1b, is detected. If any one of the gas appliances 9 is used, the use can be detected, and the gas use notification for all the gas appliances 9 can be performed. For this reason, forgetting to turn off all the gas appliances 9 provided downstream of the gas container 1a or 1b can be prevented.
[0062]
Further, according to the above-described gas meter, the code signal S ₁ ~ S _n (That is, the code signal including the matching information) and S _{n + 1} If the gas leak alarm device 10 that receives the notification gives a different gas use notification for each code signal, the gas consumer can determine whether or not the gas appliance 9 corresponding to the registered flow rate category is used, It is possible to recognize which of the flow rate categories the gas appliance 9 corresponding to is used. For this reason, it becomes possible to grasp which gas appliance 9 is currently used.
[0063]
Further, according to the gas meter described above, the flow rate segment detected in step S6 is used for setting a use time cutoff value, or for transmitting a code signal indicating that the gas flow rate of the registered flow rate category is flowing. Used. For this reason, it is not necessary to separately perform the flow rate detection processing for interrupting the usage time and the flow rate detection processing for performing the gas usage notification, and the processing amount of the CPU 67a2 can be reduced to reduce the cost. it can.
[0064]
On the other hand, the gas leak alarm 10 performs a gas use notification process every time a code signal is transmitted from the gas meter 6 described above. The operation of the gas leak alarm 10 in the gas use notification processing will be described below with reference to the flowchart of FIG. 5 showing the processing procedure of the CPU 104a2.
[0065]
First, the CPU 104a2 functions as a use determining unit, and determines whether or not the gas appliance 9 is used based on the code signal transmitted from the gas meter 6 (Step S12). Code signal is code signal S ₁ ~ S _{n + 1} When it is determined that the gas appliance 9 is being used (Y in step S12), the CPU 104a2 controls the speaker 103 to start outputting a melody corresponding to the code signal (step S12). S13), the process ends.
[0066]
In this way, by outputting the melody corresponding to the code signal, it is determined whether the gas appliance 9 corresponding to the registered flow rate section is used, and further, which of the plurality of registered flow rate sections corresponds to the flow rate section. It is possible to recognize whether the gas appliance 9 is being used. For this reason, it becomes possible to grasp which gas appliance 9 is currently used.
[0067]
On the other hand, when the code signal is the code signal S _{n + 2} When it is determined that the gas appliance 9 is not used (N in step S12), the CPU 104a2 controls the speaker 103 to stop the output of the melody (step S14), and ends the process. As is clear from the above, the CPU 104a2 and the speaker 103 function as a notification unit.
[0068]
In the above-described embodiment, the gas leak alarm 10 gives a gas use notification immediately after the use of the gas appliance 9 is started. However, in order to prevent forgetting to turn off the gas, there is no need to notify the gas use from the start of use of the gas appliance 9. Focusing on this, the gas use notification is stopped until a predetermined time elapses after the use of the gas appliance 9 is started, and the gas use notification is performed after the predetermined time elapses, so that unnecessary power consumption is reduced. It is conceivable to reduce it.
[0069]
In such a case, the configuration of the gas use notification system may be, for example, a code signal in the gas meter 6 if the use of the gas appliance 9 is maintained for a predetermined time after the use of the gas appliance 9 is started. S ₁ ~ S _{n + 1} Is transmitted, that is, the notification stop means is provided on the gas meter 6 side. In the gas leak alarm 10, the code signal S ₁ ~ S _{n + 1} Is received, the code signal S _{n + 2} If is not received, a gas use notification may be performed, that is, a notification stop unit may be provided on the gas leak alarm device 10 side.
[0070]
It is also conceivable that the gas meter 6 or the gas leak alarm 10 allows the predetermined time to be set to a value corresponding to the setting operation, that is, the setting means in the claims may be provided. By doing so, it becomes possible to set a predetermined time for each gas consuming destination, and it is possible to perform gas use notification corresponding to each gas consuming destination.
[0071]
Furthermore, in the above-described embodiment, a gas meter that detects a gas flow rate using a membrane type flow sensor has been described as an example, but the gas meter is not limited to this, and an ultrasonic Alternatively, the present invention can also be applied to a gas meter that detects a gas flow rate using a thermal flow rate sensor.
[0072]
Further, in the above-described embodiment, when the use of the gas appliance 9 is started and when the use of the gas appliance is stopped, the code signal including the use information is output. However, if it is not necessary to reduce power consumption, a code signal including usage information may be transmitted at regular intervals.
[0073]
【The invention's effect】
As described above, according to the first aspect of the present invention, by using the flow rate detection means in the gas meter and the notification means in the gas leak alarm device to perform gas usage notification, the gas meter and the gas leak alarm are provided. It is not necessary to provide a flow rate detecting means and a notifying means separately from the vessel, and it is not necessary to perform a construction for providing the flow rate detecting means and the notifying means, so that the use of gas can be inexpensively notified. In addition, by providing the gas meter with the use detecting means, if any one of the gas appliances provided downstream of the gas meter, that is, all the gas appliances provided downstream of the gas container, is used, Since it is possible to detect and be able to perform gas usage notification for all gas appliances, it is possible to prevent forgetting to turn off all gas appliances provided downstream of the gas container. The gas use notification system can be obtained.
[0074]
According to the second aspect of the present invention, unnecessary power consumption can be reduced by stopping the gas use notification until a predetermined time elapses from the detection of the start of use of the gas appliance, thereby reducing power consumption. A gas usage notification system can be obtained.
[0075]
According to the third aspect of the present invention, by providing the setting means, it is possible to set a predetermined time for each gas consuming destination, so that the gas usage can be notified according to each gas consuming destination. A notification system can be obtained.
[0076]
According to the fourth aspect of the present invention, by using the flow rate detecting means in the gas meter to notify the use of gas, it is not necessary to provide a flow rate detecting means separately from the gas meter, and to provide the flow rate detecting means. Since it is not necessary to carry out the construction, the use of gas can be notified at low cost. In addition, by providing the gas meter with the use detecting means, if any one of the gas appliances provided downstream of the gas meter, that is, all the gas appliances provided downstream of the gas container, is used, Since it is possible to detect and be able to perform gas usage notification for all gas appliances, a gas meter that can prevent forgetting to turn off all gas appliances provided downstream from the gas container is provided. Obtainable.
[0077]
According to the invention as set forth in claim 5, if the gas leak alarm device that has received the coincidence information performs the gas use notification so that the coincidence can be identified, the gas consumer corresponds to the registered flow rate category. Since it is possible to recognize that a gas appliance is being used, it is possible to obtain a gas meter that can now determine which gas appliance is being used.
[0078]
According to the invention described in claim 6, if the external annunciator that has received the coincidence information performs a different gas use notification for each of the patterns, the gas consumer can determine which of the plurality of registered flow rate sections the flow rate section has. Since it is possible to recognize whether the corresponding gas appliance is being used, it is possible to obtain a gas meter that can now grasp which gas appliance is being used.
[0079]
According to the seventh aspect of the present invention, there is no need to separately provide a flow rate section detecting means for interrupting use time and a flow rate section detecting means for transmitting coincidence information. Can be obtained.
[0080]
According to the invention described in claim 8, by using the notification means in the gas leak alarm, the gas usage notification is performed, so that the notification for performing the gas usage notification separately from the notification means in the gas leak alarm. There is no need to provide any means, and there is no need to perform construction for providing the notification means, so that it is possible to obtain a gas leak alarm with reduced costs.
[0081]
According to the ninth aspect of the present invention, the gas consumer can recognize that the gas appliance corresponding to the registered flow rate category is being used, and thus grasp which gas appliance is currently used. Gas leak alarm that can be obtained.
[0082]
According to the tenth aspect of the present invention, the gas consumer can recognize which of the plurality of registered flow rate sections the gas appliance corresponding to is used. It is possible to obtain a gas leak alarm that can determine whether or not a gas leak is used.
[Brief description of the drawings]
FIG. 1 is a diagram showing an embodiment of a gas supply facility incorporating a gas use notification system of the present invention.
FIG. 2 is an internal configuration diagram of the gas meter 6 shown in FIG.
FIG. 3 is an internal configuration diagram of the gas leak alarm device 10 shown in FIG.
FIG. 4 is a flowchart illustrating a processing procedure of a CPU 67a2 in the gas meter 6 in a flow rate detection / use time cutoff / transmission processing.
FIG. 5 is a flowchart showing a processing procedure of a CPU 104a2 in a gas leak alarm 10 in a gas use notification process.
FIG. 6 is a diagram showing an embodiment of a gas supply system incorporating a conventional gas use alarm.
[Explanation of symbols]
6 Gas meter
63 Flow rate sensor (flow rate detection means)
67a2 CPU (flow rate detecting means, use detecting means, transmitting means, registering means, flow rate detecting means, use time interrupting means)
10 Gas leak alarm
103 Speaker (notification means)
104a2 CPU (notification means, use determination means)

Claims (10)

A gas meter that has a flow rate detecting means for detecting a gas flow rate flowing to a gas appliance downstream from the gas container, and integrates the detected gas flow rate to measure a gas usage amount; A gas use alarm system including a gas leak alarm having alarm means for alarming,
The gas meter includes: a usage detection unit configured to detect that the gas appliance is being used based on a gas flow rate detected by the flow detection unit; and usage information corresponding to a detection result obtained by the usage detection unit. Transmission means for transmitting to the alarm device, the gas leak alarm device, based on the received use information, currently has use determination means to determine whether the gas appliance is used,
The gas use notification system, wherein the notification means performs the gas use notification while the usage determination means determines that the gas is used. The gas use notification system according to claim 1,
Notification stop means for stopping the gas use notification by the notification means when the start of use of the gas appliance is detected based on the detection result or the use information by the use detection means until a predetermined time has elapsed from the detection of the use start. A gas use notification system, further comprising: It is a gas use notification system according to claim 2,
A gas use notification system, further comprising setting means for setting the predetermined time to a value corresponding to a setting operation. A gas meter having a flow rate detecting means for detecting a gas flow rate flowing from a gas container to a gas appliance on a downstream side, and integrating the detected gas flow rate to measure a gas usage amount,
Based on the gas flow rate detected by the flow rate detection means, use detection means for detecting the use of the gas appliance,
A gas meter, comprising: transmission means for transmitting usage information according to a result of detection by the usage detection means to the outside. The gas meter according to claim 4, wherein
Registration means for registering, as a registered flow rate section, a flow rate section corresponding to a registration operation, among flow rate sections obtained by dividing a flow rate detectable range into a plurality of sections,
Flow rate section detecting means for detecting a flow rate section of the gas flow rate detected by the flow rate detecting means,
The use detecting means detects the use of the gas appliance when any one of all the gas appliances provided on the downstream side of the gas container is used,
The gas meter, wherein, when the registered flow rate section and the detected flow rate section match, the transmitting means transmits matching information notifying the fact to the outside. The gas meter according to claim 5, wherein
The gas meter according to claim 1, wherein said transmitting unit transmits, from among the plurality of patterns of the matching information, matching information of a pattern corresponding to the matched flow rate section. It is a gas meter of Claim 5 or 6, Comprising:
A gas meter, further comprising a use time cutoff means for cutting off gas supply when a gas use time exceeds a use time cutoff value corresponding to the flow rate category detected by the flow rate category detection means. When a gas leak is detected, it is a gas leak alarm having a notifying means for notifying that,
It is determined whether or not the gas appliance is currently used, based on usage information transmitted from the outside and according to a detection result by use detection means for detecting use of the gas appliance provided on the downstream side of the gas container. Use decision means to
The gas leak alarm device, wherein the notification unit performs a gas usage notification while the usage determining unit determines that the gas is used. It is a gas leak alarm of Claim 8, Comprising:
The notifying means, when externally receiving coincidence information indicating that the flow rate of the gas flow rate flowing from the gas container to the downstream gas appliance matches the pre-registered flow rate rate, identifies the fact from the outside. A gas leak alarm, wherein the gas use notification is performed as much as possible. It is a gas leak alarm of Claim 9, Comprising:
When the coincidence information of the pattern corresponding to the coincident flow rate section is received from the outside, among the plurality of patterns of the coincidence information, the notifying unit performs the different gas use notification for each of the patterns. And gas leak alarm.

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