JP7386604B2 - gas meter - Google Patents

Description

In a gas meter configured with an integrated wireless communication function, the present invention particularly relates to the setting for disabling the wireless communication function.

Conventionally, this type of gas meter generally has a meter section that measures the gas flow rate, a gas meter that has a built-in shutoff valve that shuts off the gas flow rate, and a wireless communication section that transmits the measured flow rate value to a control center. . In many such gas meters, the meter section and wireless communication section operate independently in separate casings, but from the viewpoint of downsizing and cost reduction, there is a demand for gas meters that are integrated and streamlined (for example, , see Patent Document 1).

FIG. 5 shows a block diagram of a conventional wireless built-in gas meter. As shown in FIG. 5, a meter section 120 and a wireless section 130 are mounted on a printed circuit board 106 built into the gas meter 101. The meter section 120 and the wireless section 130 exchange data via the control section 170. For example, the flow rate sensor 104 detects the flow rate of gas flowing between the inlet 103a and the outlet 103b, and the detected flow rate data is transmitted via wireless communication. It has the ability to send data to the gas supplier's computer. It also has a cutoff valve 105 that shuts off the gas when there is an abnormality in the detected flow rate.

Japanese Patent Application Publication No. 2017-161375

However, in the conventional configuration, when the wireless section 130 is integrated into the meter section 120, if a failure occurs in the wireless section 130, for example, when the wireless section 130 is configured on the same physical board. However, it is impossible to replace the wireless unit 130, and it becomes necessary to replace the gas meter 101 itself, which has a problem in that it affects work costs.
It is also possible to use an external wireless communication device as a substitute for the integrated wireless section 130 without replacing the gas meter 101 itself, but it is possible to use an external wireless communication device to connect the meter section and the external wireless communication device by wire. The external terminal is also used as the external terminal of the integrated radio section, so when the integrated radio section operates, for example, when a broadcast communication is made from the management center to the radio section, this built-in There is a problem in that unnecessary communication occurs when the wireless unit responds, which affects the wired communication of the external wireless communication device.

The present invention solves the above-mentioned conventional problems, and in a gas meter configured by integrating a meter section and a wireless section, the communication function of the built-in wireless section with the outside is stopped, and the communication function with the external wireless communication device is stopped. The purpose of the present invention is to provide a gas meter that eliminates the influence and allows efficient replacement work.

In order to solve the problems of the prior art, the gas meter of the present invention is configured by integrating a meter part and a wireless part, and the meter part has a cutoff valve that shuts off the gas flow path and a gas flow rate. a flow rate measuring means for measuring the flow rate, a forced shutoff means for closing the shutoff valve, a return means for opening the shutoff valve, and a display means for displaying each status of the meter, the integrated gas value, etc. , a meter section external communication means that communicates with the outside by wire, and a meter section internal communication means that communicates with the wireless section, and the wireless section has a wireless section that communicates with the meter section internal communication means. A gas meter having an internal communication means, a wireless external communication means for communicating with the outside by wire, and a wireless communication means for communicating with the outside by radio, the gas meter having a predetermined instruction to the meter section. By doing so, the communication function by the wireless communication means is disabled.

As a result, when an external wireless communication device is connected, the wired communication function of the built-in wireless section is disabled by giving a specified instruction to the meter section using a specified communication message or a specified operation. For example, when a broadcast communication is sent from the management center to the wireless unit, the built-in wireless unit responds, causing unnecessary communication and causing the wired connection of the external wireless communication device to be interrupted. It does not affect communication.

The gas meter of the present invention uses the built-in wireless unit when connecting an external wireless communication device when a failure occurs in the built-in wireless unit that is integrated with the meter unit, or when wireless communication is not possible due to the radio wave environment. Since the communication function with the outside of the unit can be easily stopped, the work of replacing the wireless communication device can be carried out efficiently.

FIG. 1 is a block diagram of a gas meter in Embodiment 1 of the present invention. FIG. 2 is a configuration diagram when a gas meter and an external wireless communication device are connected in Embodiment 1 of the present invention. 1 is a control flowchart of a gas meter in Embodiment 1 of the present invention. 2 is a control flowchart of a gas meter in Embodiment 2 of the present invention. Block diagram of a conventional gas meter with built-in wireless functionality.

In a first aspect of the present invention, a meter section and a wireless section are integrated, and the meter section includes a cutoff valve that cuts off a gas flow path, a flow rate measuring means that measures the flow rate of gas, and the cutoff valve. a forced shutoff means for closing the shutoff valve, a return means for opening the shutoff valve, a display means for displaying each status of the meter, an integrated gas value, etc., and a meter section that communicates with the outside by wire. It has an external communication means and a meter internal communication means that communicates with the wireless unit, and the wireless unit communicates with the outside by wire. A gas meter comprising: a wireless external communication means for communicating with the outside; and a wireless communication means for communicating with the outside by radio; When connecting an external wireless communication device, the built-in wireless unit's wired communication function can be easily disabled, so for example, if a message from the management center to the wireless unit is When broadcast communication is performed, this built-in wireless unit responds, thereby preventing unnecessary communication from occurring and affecting wired communication of an external wireless communication device. This makes it possible to replace the wireless communication device with an externally attached wireless communication device, and the replacement work can be carried out efficiently.

A second invention is particularly characterized in that in the first invention, by giving a predetermined instruction to the meter section, the communication function by the wireless communication means is further disabled, It is possible to prevent unnecessary wireless communication by the wireless unit.

In a third aspect of the present invention, particularly in the first or second aspect, the predetermined instruction is performed by communication using the meter section external communication means, and for example, a monitoring center can instantaneously communicate the invalidation. , it becomes possible to replace the wireless communication device with an external wireless communication device without affecting other wireless communication devices, and the replacement work can be carried out efficiently.

In a fourth invention, particularly in the first or second invention, the predetermined instruction is performed by a combined operation with the return means and the forced cutoff means, and the worker disables the wireless section at the work site. It can be instantly disabled by performing the disabling operation, so it can be replaced with an external wireless communication device without affecting other wireless communication devices, etc. Replacement work can be carried out efficiently.

A fifth invention, particularly in any one of the first to fourth inventions, is characterized in that a state in which the communication function of the wireless section external communication means is disabled is displayed on the display means, Since it is possible to display whether or not the communication function of the wireless unit is disabled, it is possible for workers to easily grasp the operating status at the work site and replace it with an external wireless communication device. It can be implemented efficiently.

Embodiments of the present invention will be described below with reference to the drawings. Note that the present invention is not limited to this embodiment.

(Embodiment 1)
FIG. 1 shows a block diagram of a gas meter according to a first embodiment of the present invention.

In FIG. 1, a gas meter 1 has a configuration in which a meter section 1a and a wireless section 1b are integrated and built-in. The meter section 1a includes a cutoff valve 2 that cuts off gas, a return means 3 that performs an operation to open the cutoff valve 2, a forced cutoff means 8 that forcibly closes the cutoff valve 2, and a cutoff means 8 that forcibly closes the cutoff valve 2. A flow rate measuring means 5 for measuring, a display means 4 for displaying the integrated value of the gas flow rate measured by the flow rate measuring means 5 and various information, and a meter section external communication means 7 for communicating with the outside of the gas meter 1 by wired connection. , a meter section internal communication means 9 for communicating with the wireless section 1b, and a meter section control means 6 for controlling each means within the meter section 1a.

On the other hand, the wireless unit 1b includes a wireless unit internal communication unit 10 that communicates with the meter unit 1a, a wireless unit external communication unit 12 that communicates with the outside of the gas meter 1 by wired connection, and a wireless unit external communication unit 12 that communicates with the outside of the gas meter 1 by wire. It is composed of a wireless communication means 13 that performs wireless communication, and a wireless section control means 11 that controls each means within the wireless section 1b.

Further, the meter section 1a and the wireless section 1b are configured on one circuit board (controller board 1c), and are both supplied with power from the battery 14.

Here, the meter section external communication means 7 and the wireless section external communication means 12 are realized by the same interface (for example, U bus communication, etc.), and are connected to a common external communication terminal block 17 by an external communication line 16. It is connected to an external device (not shown) via an external communication terminal block 17. Further, the meter section internal communication means 9 and the wireless section internal communication means 10 are interfaces for exclusive communication between the meter section 1a and the wireless section 1b, and are connected by an internal communication line 15, and are used to transmit and receive internal data. .

Note that in this embodiment, the meter section 1a and the wireless section 1b are configured as an integral part of the controller board 1c, but the meter section 1a and the wireless section 1b are configured as separate circuit boards, and the wireless section internal communication means It goes without saying that the gas meter 10 and the wireless external communication means 12 may be connected to the meter section 1a by wire and built into the gas meter 1 in an integrated state.

FIG. 2 shows a configuration diagram when a gas meter and an external wireless communication device are connected in the first embodiment of the present invention.

In FIG. 2, the gas meter 1 has the configuration shown in FIG. 1, and the external wireless communication device 20 has an interface (for example, U-bus communication etc.).

The external wireless communication device 20 and the gas meter 1 can communicate with each other via the dedicated cable line 19 connected to the external communication terminal block 17.

Here, the operation for disabling the communication function of the wireless section 1b will be explained using FIGS. 1, 2, and 3. In the following description, the communication interface via the dedicated cable line 19 is assumed to be U bus communication.

If some kind of failure occurs in the wireless section 1b, it is assumed that communication by the wireless communication means 13 or the wireless section external communication means 12 cannot be performed. In this case, it is necessary to stop the communication function of the wireless section 1b and connect the external wireless communication device 20 as a substitute.

At this time, the meter section external communication means 7 of the meter section 1a is configured to stop the communication function of the built-in wireless section 1b using an external communication device (not shown) such as a setting device (steps in FIG. 3). S1). In the meter section 1a, the meter section control means 6 determines whether the communication received by the meter section external communication means 7 is a setting for stopping the communication function of the wireless section 1b (step S2 in FIG. 3).

Here, if it is determined that the setting is to stop the communication function of the wireless section 1b (wireless section disabling instruction), the meter section control means 6 issues a "wireless section disabling instruction" to the meter section internal communication means 9 ( (not shown) (step S3 in FIG. 3). Then, the wireless unit 1b determines whether the communication received by the wireless unit internal communication means 10 is a "wireless unit invalidation instruction" (step S4 in FIG. 3).

When the wireless unit control means 11 determines that the instruction is to disable the wireless unit, the wireless unit control means 11 stops the wireless unit external communication means 12 from transmitting and receiving U-bus communication addressed to the wireless unit, and Transmission and reception of wireless communication addressed to the wireless unit 1b by the communication means 13 is stopped, and the communication function of the wireless unit 1b is disabled (steps S5 and S6 in FIG. 3).

As a result, the wireless unit 1b no longer performs transmission/reception operations for wireless communication from external devices, and also no longer performs transmission/reception to the wireless unit 1b via U-bus communication. It is possible to cut off the influence on the U bus communication with the meter section 1a that is being used. Note that the communication between the meter section internal communication means 9 and the wireless section internal communication means 10 is not stopped, but is kept in a state where communication is possible.

Finally, the external wireless communication device 20 is connected to the gas meter 1 via the dedicated cable line 19, and wireless communication of the external wireless communication device 20 is started according to a predetermined procedure (not shown).

The above is an example of the work procedure for disabling the built-in wireless section and connecting an external wireless communication device.

As described above, in this embodiment, the external communication device sends a "wireless section invalidation instruction" to the meter section 1a via the meter section external communication means 7, and communicates with the meter section internal communication means and the radio section internal communication. By disabling the communication function of the wireless section 1b through the means, even if the wireless section external communication means 12 and the wireless communication means 13 of the wireless section 1b are out of order, the communication function of the wireless section can be easily disabled. Therefore, it is possible to replace the wireless communication device with an external wireless communication device without affecting other wireless communication devices, and the replacement work can be carried out efficiently.

Note that even when the communication function of the wireless section 1b is enabled, the communication between the meter section internal communication means 9 and the radio section internal communication means 10 can continue to be used, so it is possible to continue using the communication between the meter section internal communication means 9 and the radio section internal communication means 10. By sending a "wireless section activation instruction" to the meter section 1a via the meter section external communication means 7, it is transmitted to the radio section control means 11 via the meter section internal communication means 9 and the radio section internal communication means 10. , it is possible to easily restart the U-bus communication by the wireless section external communication means 12 and the wireless communication by the wireless communication means 13.

(Embodiment 2)
FIG. 4 is a flowchart of the second embodiment of the present invention. Further, the system configuration is the same as that shown in FIG. 1 used in the first embodiment, and a description thereof will be omitted.

The second embodiment disables the communication function of the built-in wireless section 1b using the return means 3 and forced cutoff means 8 of the meter section 1a. 1. This will be explained using FIGS. 2 and 4.

As in the first embodiment, if some kind of failure occurs in the wireless section 1b, it is assumed that the wireless communication means 13 or the wireless section external communication means 12 cannot communicate. In this case, it is necessary to stop the communication function of the wireless section 1b and connect the external wireless communication device 20 as a substitute.

At this time, a combined operation is performed using the return means 3 of the meter section 1a (for example, a gas meter return switch such as a tact switch) and the forced cutoff means 8 (for example, a test cutoff operation using a reed switch etc.) (see FIG. 4). Step S7).

Next, the meter section control means 6 determines whether or not the operation is an "instruction to disable the wireless section" (step 8 in FIG. 4). When the meter section control means 6 determines that the operation is an "instruction to disable the radio section", the meter section control means 6 issues an "instruction to disable the radio section" (not shown) to the meter section internal communication means 9. ) (step S3 in FIG. 3).

Thereafter, the communication function of the wireless section 1b is disabled and the external wireless communication device 20 is connected using the same procedure as in FIG.

As described above, in this embodiment, the "wireless line section disabling instruction" is sent by the combined operation of the return means 3 and the forced cutoff means 8 of the meter section 1a, and the meter section internal communication means 9 and the radio section internal communication By disabling the communication function of the wireless unit 1b via the means 10, the communication function of the wireless unit can be disabled by performing special operations at the site without requiring an external communication device at the site where replacement work is performed. It can be easily disabled and replaced with an external wireless communication device without affecting other wireless communication devices, and the replacement work can be carried out more efficiently.

Furthermore, as in the first embodiment, it goes without saying that it is also possible to enable the communication function of the wireless section 1b.

As described above, the gas meter according to the present invention can be used as an electric meter, a water meter, etc. because it is possible to disable the communication function of the built-in wireless section using the internal communication means via the meter section. It can also be applied to

1 Gas meter 1c Controller board 1a Meter part 1b Radio part 2 Shutoff valve 3 Return means 4 Display means 5 Flow rate measurement means 6 Meter part control means 7 Meter part external communication means 8 Forced cutoff means 9 Meter part internal communication means 10 Radio part internal communication Means 11 Radio section control means 12 Radio section external communication means 13 Wireless communication means 14 Battery 15 Internal communication line 16 External communication line 17 External communication terminal block

Claims (5)

The meter section and the wireless section are integrated and configured,
The meter section includes a shutoff valve that shuts off the gas flow path, a flow rate measuring means that measures the flow rate of gas, a forced shutoff means that closes the shutoff valve, and a return mechanism that opens the shutoff valve. a display means for displaying each status of the meter and an integrated gas value; a meter section external communication means for communicating with the outside by wire; and a meter section internal communication means for communicating with the wireless section. ,
The wireless unit includes a wireless unit internal communication unit that communicates with the meter unit internal communication unit, a wireless unit external communication unit that communicates with the outside by wire, and a wireless communication unit that communicates with the outside by wireless. A gas meter that has
By giving a predetermined instruction to the meter section, the meter section communicates with the wireless section internal communication means using the meter section internal communication means, and disables the communication function by the wireless section external communication means. 1. A gas meter characterized in that communication between the meter section internal communication means and the radio section internal communication means is not stopped, but continues to be possible. 2. The gas meter according to claim 1, further comprising disabling the wireless communication function of the wireless communication means by issuing a predetermined instruction to the meter section. 3. The gas meter according to claim 1, wherein the predetermined instruction is given through communication by the meter section external communication means. 3. The gas meter according to claim 1, wherein the predetermined instruction is given by a combined operation of the return means and the forced cutoff means. 5. The gas meter according to claim 1, wherein a state in which the communication function of the wireless section external communication means is disabled is displayed on the display means.

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