JP6851684B2 - Combined measurement system - Google Patents

Description

The present invention relates to a composite measurement system.

Data that is constantly measured using multiple sensors (hereinafter referred to as "steady data" such as data on power consumption, temperature, and humidity) and data that is measured in an emergency (related to the occurrence of earthquakes and lightning) It is known that data, etc., hereinafter referred to as "emergency data") is acquired for each section such as a building. As described in Patent Document 1, these data are transmitted to a higher-level system such as a monitoring panel via a single transmission line.

Japanese Unexamined Patent Publication No. 2002-311069

However, if an earthquake or the like occurs and both emergency data and stationary data are simultaneously transmitted to the monitoring panel, there is a risk that the increased communication volume cannot be processed by a single transmission line. That is, there is a risk that it may take a long time to transmit emergency data such as earthquake data, or accurate data may not be transmitted. As a countermeasure, it is conceivable to use a communication interface or the like capable of more advanced and high-speed processing, but this causes an increase in cost. Moreover, in a normal state where emergency data is not transmitted, the communication interface or the like does not require such performance.

The inventor of this case tried to solve this problem by diligently examining this point. An object of the present invention is to enable processing of data measured in an emergency while avoiding improving the performance of a communication interface or the like.

In order to solve the above problems, the following means will be adopted. The first means is measurement having a detection unit that detects an event, a communication unit that communicates data related to the event detected by the detection unit to the server, and a control unit that controls the transmission of data from the detection unit to the communication unit. A composite measurement system including a plurality of means, the control unit transmits a signal to the control unit of another measurement means when the detection unit detects an event, and another control unit receives the signal from the control unit. The control unit of the measurement means is a composite measurement system that determines whether or not it is necessary to suppress data transmission from the detection unit of another measurement means to the communication unit.

In the first means, when the communication unit completes the communication to the server, the control unit transmits a completion signal to the control unit of the other measurement means, and the control unit of the other measurement means receives the completion signal from the control unit. Is preferably configured to release the suppression of data transmission from the detection unit of another measuring means to the communication unit.

In the first means, the measuring means includes a memory unit, and when the control unit determines that transmission suppression is necessary, the data is stored in the memory unit, and when the transmission suppression is released, the data is stored from the memory unit. It is preferable that the configuration is such that reading and data are transmitted from the communication unit to the outside.

In the first means, it is preferable that the measuring means includes a setting unit for setting the priority of the signal, and the control unit determines the necessity of suppressing the data transmission based on the priority.

In the first means, the measuring means includes an abnormality determining unit for determining an abnormality of the other measuring means, and the control unit controls the signal in response to the transmission of the signal to the other control unit. It is preferable that the abnormality determination unit determines the abnormality of the other measuring means when the signal is not received from the unit.

According to the present invention, it is possible to process data measured in an emergency while avoiding improving the performance of the communication interface.

It is a block diagram of the composite type measurement system in embodiment. It is a block diagram which shows the state which the detection signal is transmitted from a plurality of measurement means. It is a flow chart of data communication control. It is a block diagram which shows the state which transmitted the reset signal to an external device. It is a flow chart of operation confirmation. It is a block diagram of the composite type measurement system in an Example.

A mode for carrying out the invention is shown below. As shown in FIG. 1, the composite measurement system 1 of the present embodiment includes a plurality of measurement means 2. The measuring means 2 controls the detection unit 21 for detecting an event, the communication unit 22 for communicating data related to the event detected by the detection unit 21 to the server 3, and the transmission of data from the detection unit 21 to the communication unit 22. A control unit 23 and a control unit 23 are provided. When the detection unit 21 detects an event, the control unit 23 of one measurement means of the combined measurement system 1 transmits a signal to the control unit 23 of the other measurement means, and the control unit 23 of the one measurement means 2 sends a signal. The control unit 23 of the other measuring means that has received the signal determines whether or not it is necessary to suppress the data transmission to the communication unit 22. Therefore, since the data measured in an emergency can be processed based on the judgment result of the necessity of suppressing the data transmission, the data measured in an emergency can be processed while avoiding improving the performance of the communication interface 4. It becomes possible to do.

At least one sensor is connected to the detection unit 21 of the present embodiment, and periodically measured data such as electricity usage in buildings and equipment, environmental data such as temperature and humidity, earthquakes, lightning, etc. Detects data measured in an emergency.

The communication unit 22 of the present embodiment communicates the data detected by the detection unit 21 to the server 3. In the present embodiment, the communication interface 4 is connected to the gateway, and the server 3 is communicated via the network 6.

The control unit 23 of the present embodiment transmits data from the detection unit 21 to the communication unit 22 when the detection unit 21 detects an event. Further, the control unit 23 of the present embodiment is connected to the control unit 23 of the other measuring means 2 by a signal line to transmit and receive signals. Note that signals may be transmitted and received wirelessly between the control unit 23 and the control unit 23 of another measuring means.

When the communication unit 22 completes the communication to the server 3 side, the control unit 23 of the present embodiment transmits a completion signal to the control unit 23 of another measuring means. Further, when the control unit 23 of the other measuring means receives the completion signal, the suppression of data transmission to the communication unit 22 is released. Therefore, after the data transmission is suppressed based on the judgment result regarding the suppression of the data transmission, when the communication unit 22 completes the communication to the server 3 side for the extraordinary and important data, the data transmission suppression state is changed. It will be released. Therefore, it is possible to appropriately release the suppressed state of data transmission.

The control unit 23 may have a function of calculating and determining the measurement result from the detection unit 21. When the measuring means 2 measures an earthquake, the control unit 23 may calculate the seismic intensity from the measured acceleration data. In addition, when measuring the amount of power used, the control unit 23 is used to determine whether the measured result deviates from the normal value, and if an abnormality is found, the communication unit 22 notifies that fact. You may try to communicate.

The measuring means 2 of the present embodiment includes a memory unit 24. Further, when the control unit 23 determines that transmission suppression is necessary, the control unit 23 stores the data in the memory unit 24. When the transmission suppression is released, the control unit 23 reads data from the memory unit 24 and transmits the data from the communication unit 22 to the outside. Therefore, even if the transmission is temporarily suppressed, the data originally planned to be sent can be sent later, and the lack of data to be transmitted can be suppressed.

Here, an example of the combined measurement system of the present embodiment will be described in detail. The plurality of measuring means in the composite measuring system 1 of the present embodiment are composed of a first measuring means 2a for measuring emergency data, a second measuring means 2b for measuring steady data, and a third measuring means 2c. It shall be done. Here, the second and third measuring means are used as other measuring means.

Normally, stationary data detected by the detection units 21b, 21c of the second and third measurement means 2b, 2c is transmitted from the communication units 22b, 22c to the server 3 via the gateway 4. However, in the event of an emergency such as an earthquake, when the detection unit 21a of the first measurement means 2a detects an event, the data from the detection unit 21a is transmitted to the communication unit 22a, and at the same time, the control unit 23a uses another measurement means. A detection signal is transmitted to the control units 23b and 23c of the above. The control units 23b and 23c of the other measuring means that have received this detection signal determine whether or not it is necessary to suppress data transmission from the detection units 21b and 21c to the communication units 22b and 22c.

By the way, in the second measuring means 2b that measures steady data such as the amount of power used, since the detection unit 21b constantly detects the event, the control unit 23b to the first and third measuring means 2a, The detection signal is frequently transmitted to the control units 23a and 23c of 2c. As a result, the control unit 23 may be in a complicated state, which may interfere with the normal operation of the control unit. Therefore, the measuring means may be provided with a function of suppressing the transmission of a signal from the control unit of the measuring means. By doing so, the control unit 23 does not become unnecessarily complicated, and normal operation can be performed.

When the control units 23b, 23c that have received the detection signal determine that it is necessary to suppress data transmission, even if the detection units 21b, 21c detect an event, the detection units 21b, 21c to the communication units 22b, Suppress transmission to 22c. At this time, transmission from the communication units 22b and 22c to the server 3 may also be suppressed. As a result, only the data detected by the detection unit 21a of the first measuring means 2a is transmitted from the communication unit 22a to the server 3 via the gateway 4.

After that, when the communication of data from the communication unit 22a of the first measuring means 2a to the server 3 is completed, the control unit 23a notifies the control units 23b and 23c of the other measuring means that the data communication is completed. To send. When the control units 23b, 23c of the other measuring means receive the completion signal, the suppression of data transmission from the detection units 21b, 21c to the communication units 22b, 22c is released, and the data transmission is restarted.

When the control units 23b, 23c of the other measuring means suppress the data transmission from the detection units 21b, 21c to the communication units 22b, 22c, the control units 23b, 23c transfer data from the detection units 21b, 21c to the memory units 24b, 24c. Is transmitted, and the data to be detected is stored in the memory units 24b and 24c. After that, when the completion signal from the control unit 23a of the first measuring means 2a is received and the suppression of data transmission from the detection units 21b, 21c to the communication units 22b, 22c is released, the memory units 24b, 24c The stored data is preferentially transmitted to the communication units 22b and 22c to communicate with the server 3.

The composite measurement system 1 of the present embodiment may be configured to determine whether or not transmission suppression to the communication unit 22 is necessary when the detection signal is received. As this judgment material, a priority can be set for the event detected by the detection unit 21, and the control unit 23 can make a judgment based on the priority. For example, as shown in FIG. 2, the measuring means 2 can be provided with a setting unit 25 for setting a signal priority. In this way, the priority of the signal can be set individually, and the priority can be set according to the installation environment.

The priority can be set according to the user's needs, but it is preferable to set the priority based on whether the data is stationary data or emergency data. For example, when the power consumption data and the earthquake data are detected at the same time, the priority of the detection signal transmitted from the control unit 23 of the measuring means for measuring the earthquake data which is the emergency data is set high. It means to leave. By doing so, seismic data can be reliably communicated. It is conceivable to set the priority on the program, but an external switch or the like used for the setting operation may be provided so that the priority can be easily changed.

In addition, when the detection unit of one measuring means detects very important data, the control unit transmits a suppression signal to the control unit of the other measuring means, and the control unit that receives the suppression signal always detects it. The transmission from the unit 21 to the communication unit 22 may be suppressed. Further, even when emergency data or high-priority data is communicated, if the communication capacity is sufficient, it is not necessary for the other measuring means 2 to suppress the data transmission, so that the data transmission is sent to the server 3. The configuration may be such that the necessity of suppression is determined based on the amount of data to be communicated.

Next, using the data communication control flow shown in FIG. 3, an example of data communication control will be shown with the first measuring means 2a as the main body. At this time, the second and third measuring means 2b and 2c are used as other measuring means.
First, the detection unit 21a detects an event (S001). The control unit 23a transmits a detection signal to the control units 23b and 23c of the other measuring means (S002). After that, the control unit 23a determines whether or not the detection signal is received from the control units 23b and 23c of the other measuring means (S003). When it is determined that the detection signal is received from another measuring means, it is determined whether or not the data detected by the detection unit 21a has a higher priority than the data detected by the other measuring means (S004). ). When it is determined that the data detected by the detection unit 21a has a higher priority than the data detected by other measuring means, the control unit 23a does not suppress the data transmission and detects the data detected by the detection unit 21a. It is transmitted to the communication unit 22a (S005). If it is determined in step 003 that the detection signal has not been received from the other measuring means, the content detected by the detection unit 21a is transmitted to the communication unit 22a (S006).
Further, in step 004, if it is not determined that the data detected by the measuring means has a higher priority than the data detected by the other measuring means, the control unit 23a transfers the data from the detecting unit 21a to the communication unit 22a. The transmission is suppressed and the data is transmitted to the memory unit 24a (S007). The data transmitted to the memory unit 24a is stored in the memory unit 24a.
Further, in steps 0005 and 0006, the data transmitted to the communication unit is communicated to the server 3 via the gateway 4.

In the state shown in FIG. 2, the priority of the first measuring means 2a is set to "high", the second measuring means 2b is set to "medium", and the third measuring means 2c is set to "low". Therefore, when the detection units of all three measuring means detect an event, the data detected by the first measuring means 2a is prioritized and communicated to the server 3. When the detection units of the second measuring means 2b and the third measuring means 2c detect an event, the second measuring means 2b has priority.

By the way, the operating state of the measuring means A that detects steady data can be confirmed by communication from the communication unit 22, but the measuring means B that detects emergency data is constantly communicated. Since this is not the case, it is difficult to grasp the operating status. Therefore, in the present embodiment, as shown in FIG. 4, the configuration is provided with an abnormality determination unit 26 for determining an abnormality that occurs in the operating state of the measuring means 2. More specifically, the operation confirmation signal is periodically transmitted from the control unit 23A of the measuring means A to the control unit 23B of the measuring means B. The operation confirmation signal is a signal transmitted by the control unit 23 in order for the plurality of measuring means 2 to confirm each other's operating states. When the control unit 23A of the measuring means A receives the operation confirmation signal, the response signal is set to be transmitted to the control unit 23B of the measuring means B, so that the operating state of the measuring means B (standby) is determined by the presence or absence of the response signal. Status) can be confirmed.

When the control unit 23A of the measurement means A of the present embodiment does not receive the response signal in response to the transmission of the signal to the control unit 23B of the measurement means B from the control unit 23B of the measurement means B, the abnormality determination is made. The abnormality of the measuring means B is determined by the unit 26A.

Here, an example of operation confirmation will be described using the flow shown in FIG.
In this example, the control unit 23A of the measuring means A transmits an operation confirmation signal to the control unit 23B of the measuring means B (S101). Normally, a response signal corresponding to the operation confirmation signal is sent from the control unit 23B of the measuring means B. Therefore, after step 101, it is determined whether or not the control unit 23A of the measurement means A has received the response signal sent from the control unit 23B of the measurement means B (S102). When the control unit 23A receives the response signal, it is determined that the measuring means B is functioning normally (S103). If the control unit 23A has not received the response signal in step 102, it is determined that the measuring means B is not functioning normally, and the abnormality of the measuring means B is communicated to the outside (S104). In this way, the abnormality of the measuring means B can be determined. In addition, it becomes easier to detect an abnormality in the measuring means B at an early stage.

As a means of communicating to the outside when the response signal is not transmitted from the measuring means B, the server 3 may be communicated to that effect, or a means such as providing lamps in the measuring means A and B and turning on the lamps may be used. It may be adopted. At this time, by providing a reset means in the measuring means 2 so that a reset signal for restarting the measuring means in which an abnormality has occurred can be transmitted, the reset signal is transmitted from the measuring means A to the measuring means B, and the measuring means B is transmitted. May be forcibly restarted.

Not only can the reset signal be exchanged between the measuring means 2, but the measuring means 2 can be restarted via an external device. For example, as shown in FIG. 4, when the measurement means A has not received the response signal of the measurement means B to the operation confirmation signal for a predetermined period, a reset signal is sent to an external device such as the server 3 to send the external device. It is also possible to have a configuration in which the measuring means B is restarted from. In this way, by configuring the reset signal to be sent to an external device such as the server 3, it becomes easy to accumulate the records of the reset signal.

An example is shown in FIG. In this embodiment, a plurality of measuring means 2 are provided in the distribution board 9 indicated by the alternate long and short dash line. One of the measuring means 2 is used for measuring data that is constantly measured such as electric power. Further, a measuring means 2 capable of detecting a lightning or an earthquake is also provided in the distribution board 9.

In this embodiment, a detection signal is transmitted from the measuring means 2 capable of detecting an earthquake to another measuring means 2. By receiving this detection signal, the other measuring means 2 suppresses data transmission to the communication unit 22. That is, the measuring means 2 that has detected the earthquake occupies the transmission line to the gateway that is the communication interface 4. Therefore, while avoiding improving the performance of the communication interface 4, a state in which data related to the earthquake can be appropriately processed is ensured.

Although the above description has focused on one embodiment, the present invention is not limited to the above embodiment and can be in various modes. For example, the event detected by the detection unit is not limited to the example shown in the embodiment or the like, and a measurement means for handling fire data may be incorporated into the composite measurement system.

In the embodiment, an example is shown in which one detection unit and one control unit are provided so that one measurement means detects one event, but one measurement means detects a plurality of events. A plurality of detection units and control units may be provided. At this time, it is possible to control data transmission by transmitting and receiving signals between a plurality of control units included in the measuring means.

By providing the measurement means in the combined measurement system of the present embodiment for each floor or room of an apartment or building, priority is given to emergency data such as a fire that occurred in one room of the apartment to communicate to the outside. It is possible to prevent the spread of fire. In addition, by providing a measuring means for each detached house, it is possible to prioritize emergency data such as an earthquake or lightning that occurred in a specific area and communicate with the surrounding area.

1 Composite measurement system 2 Measuring means 3 Server 4 Communication interface 21 Detection unit 22 Communication unit 23 Control unit 24 Memory unit 25 Setting unit 26 Abnormality determination unit

Claims (4)

A detector that detects an event and
A communication unit that communicates data related to events detected by the detection unit to the server,
It is a composite measurement system provided with a plurality of measuring means having a control unit for controlling data transmission from a detection unit to a communication unit.
The measuring means includes an abnormality determining unit for determining an abnormality of another measuring means.
When the detection unit detects an event, the control unit transmits a signal to the control unit of the other measurement means, and the control unit of the other measurement means that receives the signal from the control unit detects the other measurement means. Judge the necessity of suppressing data transmission from the department to the communication department ,
When the control unit does not receive a signal in response to the transmission of the signal to the control unit of the other measurement means from the control unit of the other measurement means, the abnormality determination unit causes the other measurement means to perform. A complex measurement system that determines abnormalities. The control unit
When the communication unit completes communication with the server, it sends a completion signal to the control unit of other measuring means,
The combined measurement system according to claim 1, wherein the control unit of the other measuring means that has received the completion signal from the control unit releases the suppression of data transmission from the detecting unit of the other measuring means to the communication unit. The measuring means includes a memory unit and has a memory unit.
The control unit
When it is determined that transmission suppression is necessary, the data is stored in the memory section.
The combined measurement system according to claim 1 or 2, wherein when the suppression of transmission is released, data is read from the memory unit and the data is transmitted from the communication unit to the server. The measuring means includes a setting unit for setting a signal priority.
The combined measurement system according to any one of claims 1 to 3, wherein the control unit determines whether or not it is necessary to suppress data transmission based on the priority.

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