JPH0496561A - Remote installation for collecting rainfall information - Google Patents

Abstract

PURPOSE:To attain quick processing of rainfall information by including an information transmission remote control means controlling remotely transmission processing of rainfall information to a data terminal equipment connecting through a general subscriber telephone line and called by a call means so as to collect the rainfall information remotely to the title equipment. CONSTITUTION:At first a center NCU 11 sends a selection signal IR (ringing signal) to a remote rainfall collection installation 14 via an exchange 31. The selection signal calls a prescribed remote rainfall collection installation 14 at a terminal side. Then the called remote rainfall collection installation 14 and the center NCU 11 are connected through a general subscriber telephone line and an ANS signal (answer signal) is sent from the remote rainfall collection installation 14 at the terminal side. An arithmetic section 21 of the remote rainfall collection installation 14 discriminates whether or not a rainfall count for a rainfall collection period exceeds a rainfall alarm value set in a memory section 19, a control section 22 gives information to a MODEM 24 when it is discriminated that the rainfall count exceeds the rainfall alarm value and it is noticed automatically to an information processing center 30.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a remote rainfall information collection equipment for measuring rainfall information along each railway line in a railway business, and particularly for use in the safety of railway transportation. .

[Prior Art] Among the devices for collecting rainfall information, there is a device shown in FIG. 10, which has been generally known in the past. The conventional rainfall information collection device shown in FIG. 10 inputs rainfall information from a rainfall sensor 1' to a rainfall recorder 2' via a signal line 3'. Rainfall recorder 2' is
Although not shown, it consists of a power supply section, a pen driving solenoid section, and a recording section (chart section) with a built-in timer motor.
The solenoid was operated by the contact output from the rain sensor 1' to move the pen tip and record rainfall information.

[Problems to be Solved by the Invention] In this type of conventional rainfall information collection device, a staff member goes to the site when it rains, reads the records of the rain recorder, and contacts the information processing center by telephone one by one. As a result, not only do changes in rainfall information cannot be processed quickly and accurately, causing problems such as the timing of railway disaster predictions, but also offline situations where staff dispatched to the site are exposed to danger during typhoons, etc. It has the disadvantage that various problems arise due to the mold.

In view of the above-mentioned circumstances, the present invention aims to provide a rainfall information collection equipment that can solve the various problems of being an offline type, can process rainfall information quickly and accurately, and does not pose any danger to staff. purpose.

[Means for Solving the Problems] The remote rainfall information collection equipment device described in the claim is capable of processing information using rainfall information as terminal information with respect to a central device for central processing of terminal information installed in an information processing center. A data terminal device for transmitting to the center side is configured to be connectable via a general subscriber telephone line. The data terminal device includes a rainfall information input section, a counting means, a calling means, and a data oscillating means. The rainfall information input section receives an output signal from a rainfall sensor that measures information regarding rainfall and whose contact output changes for each minimum measured rainfall unit. Based on the input output signal, the cumulative rainfall is counted by the counting means to obtain rainfall information. Further, the calling means makes a call to a predetermined information processing center using a general subscriber telephone line, and the information processing center that made the call is connected to the data terminal device that is the originator of the call via the general subscriber telephone line. Then, the rainfall information counted and determined by the counting means is automatically transmitted as terminal information to the connected information processing center. On the other hand, the information processing center includes a calling means for calling a predetermined data terminal device using the general subscriber telephone line, and an information oscillation remote control means. The oscillation process of rainfall information is remotely controlled by the information oscillation remote control means for the data terminal device that is called by the calling means and connected to the general subscriber telephone line, and the rainfall information is remotely collected at the information processing center side. be done.

The remote rainfall information collection equipment device according to the invention according to claim 2 is a data terminal device for transmitting measurement information including rainfall information to a center device installed in an information processing center for centrally processing terminal information. is configured so that it can be connected via a general subscriber telephone line. The data terminal device includes an information input section, a calling means, and a data oscillation means.

The information input unit receives measurement information from a rain sensor that measures information regarding rainfall and measurement information from other sensors. A call is made by the calling means to a predetermined information processing center using a general subscriber telephone line, and the called information processing center is connected to the data terminal device that is the calling source via the general subscriber telephone line, The data oscillation means automatically oscillates information related to the measurement information input to the information input section as terminal information to the connected information processing center. On the other hand, the information processing center includes a calling means for calling a predetermined data terminal device using a general subscriber telephone line, and an information oscillation remote control means. The information oscillation remote control means remotely controls the oscillation process of information related to the measurement information input to the information input section for the data terminal device that is called by the calling means and connected to the information processing center side via the general subscriber telephone line. and collect the measurement information remotely.

[Function] According to the present invention described in claim ↑, rainfall information is sent online to the information processing center using a general subscriber telephone line. Moreover, not only can the data terminal device call the information processing center and send rainfall information, but also the information processing center can remotely control the oscillation process of the rainfall information to a predetermined data terminal device to send rainfall information remotely. Since rainfall information can be collected at any time, it is possible to collect rainfall information whenever it is convenient for the information processing center.

According to the second aspect of the present invention, measurement information including rainfall information is sent online to the information processing center through a general subscriber telephone line. Moreover, not only can the data terminal device make a call to the information processing center (-) to send measurement information including rainfall information, but the information processing center can also make a call to a predetermined data terminal device and Since the measurement information can be collected remotely by remotely controlling the oscillation process of information related to the measurement information, the measurement information can be collected at a time convenient for the information processing center.

[Embodiments of the invention] Next, embodiments of the present invention will be described based on the drawings.

First Embodiment FIG. 1 is a diagram showing the installation state of a rainfall sensor used in the present invention.

A rain sensor 8 is installed on the roof of a shed for measuring rainfall.

- A remote rainfall collection device 14 is provided inside the man's room, and the remote rainfall collection device 14 and the rain sensor 8 are connected by a signal line 7. The remote rainfall collection device 1.4 is connected to the general telephone line.

FIG. 2 is a configuration diagram showing the internal structure of the rain sensor.

An opening for receiving rainfall is formed in the upper part of the rain sensor 8, and rainwater that has entered the opening 1 is collected in a tank 3 by a funnel 2. The rainwater collected in the tank 3 is measured by the measuring cell 4, and each time the measuring cell 4 becomes full, a contact output signal is derived from the contact output section 5, and the setting output signal is transmitted remotely via the signal line 7. The rainfall is applied to the rainfall collection device 14. In addition, 6 in the figure is a drainage port, and is for draining rainwater accumulated in the measuring square 4 to the outside. The rain sensor 8 constitutes means for measuring information regarding the amount of rainfall.

FIG. 3 is a block diagram showing the entire remote rainfall information collection equipment device according to the present invention.

The information processing center 30 is equipped with a center NCU 11 and a host computer 12.
CU], ], are connected to the remote rainfall collection device 14 on each terminal side via the general subscriber telephone line 1-3 switch 31. A rain sensor 8 is connected to the remote rainfall collection device 14 , and the contact output signal from the rain sensor 8 is given to the remote rain collection device 14 .

The remote rainfall collection device 14 includes a control section 22. A modem 24 and a display section 23 are built in. The control unit 22 includes an input/output unit 20 .
Arithmetic unit 21. Counting unit 17 as an example of counting means. Timer section 18. Memory section 19 people output section 20. A sensor interface section 16, which is an example of a rainfall information input section, is provided.

Next, the operation will be explained. First, from the host computer 1-2' on the information processing center 30 side to the center NCUII-
Terminal side configuration data is given to . The specific contents of this setting data include, for example, terminal ■D data, telephone number of the center, rainfall collection cycle, rainfall alarm value, periodic reporting time,
The current time, etc.

The center NCU II transmits the setting data from the host computer 1.2 to the remote rainfall collection device 14 on the terminal side according to the transmission procedure shown in FIG.

As shown in FIG. 4, first, a selection signal IR (IJ ringing signal) is sent from the center NCUI 1 to the remote rainfall collection device 1-4 via the exchange 31. This selection signal calls a predetermined remote rainfall collection device 14 on the terminal side.

This center NCU II constitutes a calling means for calling a predetermined information processing center using the general subscriber telephone line. Then, the called remote rainfall collection device 14 and the center NCUII are connected via a general subscriber telephone line, and the remote rainfall collection device 14 on the terminal side
An ANS signal (answer signal) is sent from. That A
The center NCU receives the NS signal, and then the center
U], 1 to the remote rainfall collection device 1-4 on the terminal side. An ACK signal is returned from the remote rainfall collection device 14 on the terminal side to the center NCUII- side, and upon receiving the reply signal, the center NCU further transmits setting data to the remote rainfall collection device 14 side.

Furthermore, A C again from the remote rainfall collection device ↑4 on the terminal side.
The K signal is sent to the center NCULI-, and when the information processing center 30 side determines that all setting data has been transmitted, a completion signal is sent from the center NCU 11 to the remote rainfall collection device 1-4. In response to this, a termination signal is sent back from the remote rainfall collection device 14 to the center NCUII side. Furthermore, a signal to cut off the line is sent from the center NCUI 1 to the exchange 31, and a recovery signal is sent from the remote rainfall collection device 14 on the terminal side to the exchange 31, thereby ending the transmission of the setting data. Note that this recovery signal is a signal equivalent to hanging up the telephone receiver on the terminal side.

The remote rainfall collection device 14 on the terminal side is the center NCUL
The modem 24 receives setting data from L and stores the data in the memory section 19. The contact output from the rain sensor 8 is sent to the center interface section 1 according to the rainfall collection cycle.
6, the signal is converted into an electrical signal, and the signal is input to the input section 20. The control unit 20 controls the counting unit 1 according to the rainfall collection cycle.
7, the amount of rainfall is cumulatively counted, and the information processing center 30
The accumulated rainfall count value and the collection time are stored in the memory section 19 while being compared with the setting data from .

The data stored in this memory section 19 is shown in FIG.

As shown in FIG. 5, the contents of the data stored in the memory section 19 are data regarding collection date, time, and cumulative rainfall amount. Further, t indicates the collection time, for example, collection is performed every 15 minutes. Cumulative rainfall amount (100, 100,
101, etc.) is the accumulated rainfall from the time when the setting data was sent from the information processing center 30 to the remote rainfall collection device 14 and set as described above. The hourly rainfall for display is the hourly rainfall calculated and displayed at each time by calculating the cumulative count value for the collection time in the memory section.
The current rainfall amount is displayed as a count value after calculating the hourly rainfall amount.

In the remote rainfall collection device 14, the calculation unit 21 determines whether or not the rainfall count value during the rainfall collection cycle exceeds the above-mentioned rainfall warning value set in the memory unit 19, and it is determined that the rainfall count value exceeds the rainfall alarm value set in the memory unit 19. In this case, the control unit 22 gives information to the modem 24 and automatically reports the information to the information processing center 30. FIG. 6 shows the automatic notification transmission procedure.

As shown in Figure 6, first, the remote rainfall collection device 1 on the terminal side
4, a selection signal (IR) is given to the center NCU 1.1 via the exchange 31. The control section 22 that transmits a selection signal (IR) and the modem 24 constitute a calling means for calling a predetermined information processing center using the general subscriber telephone line. Center NCUII is
Upon receiving the selection signal, it transmits an ANS signal to the remote rainfall collection device 14 on the terminal side. The remote rainfall collection device 14 transmits the ID data already input and set in the memory unit 19 to the center NCU 1. Then, in the host computer 12 installed in the information processing center 30,
Based on the transmitted ID data, the installation location of the rainfall sensor 8 connected to the remote rainfall collection device 14 that is the transmission source is determined.

Next, a data request signal is transmitted from the center NCUII to the remote rainfall collection device 14, and in response to this, the data is sent from the remote rainfall collection device 14 to the center NCUll.

The control section 22 and modem 24 that transmit this data constitute a data transmitting means. Furthermore, center N
CUI 1 sends further data request signals to remote rainfall collection device 14 . When it is determined that all the data to be transmitted by the remote rainfall collection device 14 has been transmitted, a completion signal is transmitted to the center NCUII. Center NCULL
Then, upon receiving the end signal, the end signal is sent back to the remote rainfall collection device 14. Finally, a line cutoff signal is sent from the remote rainfall collection device 14 on the terminal side to the exchange 31, and a recovery signal is sent from the center NCUI 1 to the exchange 31.

Next, the remote rainfall collection device 14 also has a function of periodically reporting to the information processing center 30 side. In other words, the time set by the information processing center 30 is registered in the memory unit 19 as described above, and the control unit 22 manages the time using a timer and provides information to the modem unit 24 when the set time is reached. .

Then, the rainfall information is automatically reported from the modem section 24 to the information processing center 30. The rainfall information to be reported is each collection time and cumulative count value shown in FIG. Further, the procedure for transmitting this regular report is also the same as the procedure shown in FIG. 6 described above.

On the other hand, rainfall information can be collected by a call from the information processing center 30 in the same way as a regular report.

The transmission procedure is shown in FIG.

As shown in FIG. 7, first, a selection signal (IR multiplied signal) is transmitted from the center NCU II to the remote rainfall collection device 14 on the terminal side via the exchange 31.The remote rainfall collection device sends out an ANS signal, and Center NCUII
A data request signal is provided to the remote rainfall collection device 14 from the remote rainfall collection device 14 . The remote rainfall collection device 14 receives the data request signal and transmits data related to rainfall information to the center NCUII. Furthermore, the center NCU 11 provides a further data request signal to the remote rainfall collection device 14, and the remote rainfall collection device 14 receives the signal and transmits further data to the center NCUI 1. If the information processing center 30 side determines that all necessary data has been transmitted, it sends a termination signal to the remote rainfall collection device 14 side. In response to this, a termination signal is sent from the remote rainfall collection device 14 or the center NCU
Finally, the center NCU gives a line cutoff signal to the exchange 31, and the remote rainfall collection device 14 gives a recovery signal to the exchange 31, completing the data transmission. As shown in FIG. 7, the information processing center 3
0 can remotely collect rainfall information by remotely controlling the transmission process of rainfall information to a predetermined remote rainfall collection device 14, and can transmit rainfall information by transmitting the setting data shown in FIG. 4 mentioned above. The time and the like can be set in a predetermined remote rainfall collection device 14, and the host computer 12 having such functions and the center NCU 1 constitute an information transmitting remote control means.

The center NCU II and the host computer 42 constitute a center device installed in an information processing center for centrally processing terminal information. The remote rainfall collection device 14 constitutes a data terminal device that can be connected to the center device via a general subscriber telephone line. The display unit 23 provided in the remote rainfall collection device 14 displays the rainfall data in the memory unit 19 in the control unit 21-
It is configured to be able to display the hourly rainfall amount 3 hours ago, the hourly rainfall amount 2 hours ago, the hourly rainfall amount 1 hour ago, the current hourly rainfall amount, etc. calculated based on the information processing center 30, and also displays an alarm when automatically reporting to the information processing center 30. It also has functions. An alarm may be notified by emitting an alarm sound in conjunction with this alarm display.

Second embodiment Next, a second example will be described.

In this second embodiment, as shown in FIG. 8, the remote water collection device 1-4' includes not only a rainfall sensor 8 but also a water level sensor 36 for detecting the water level of a river, such as a float type water level sensor. It is connected. With this configuration, not only the rainfall information from the rainfall sensor 8 but also the water level information from the water level sensor 36 can be remotely collected online within the information processing center 30. This rainfall information and water level information are stored in the memory section 20, and the stored contents are shown in FIG. The stored information shown in FIG. 9 is almost the same as the stored information shown in FIG. 5, and the difference is that contact information representing water level information is recorded. For this water level information, contact information is stored at the collection time if there is no change in the water level, and if there is a change, the time and contact information are stored. The water amount information stored in the memory section 20 is transmitted using the same transmission procedure as in the first embodiment described above. The water level sensor 36 shown in FIG. 8 constitutes means for measuring information regarding the water level of the river.

"Effects of the Invention" The present invention as set forth in claim 1 has the advantage that since the rainfall information is sent online to the information processing center, it is possible to quickly process the rainfall information and take measures to prevent disasters at an early stage. In addition, since there is no need for staff to be dispatched to the site, the risk of accidents to staff can be minimized. Furthermore, the information processing center has the advantage of being able to collect rainfall information at a convenient time.

According to the second aspect of the present invention, not only the rainfall information measured by the rainfall sensor but also the measurement information other than the rain sensor is sent to the information processing center online, so that the measurement information including the rainfall information is sent online to the information processing center. This makes it possible to quickly take measures to prevent disasters, and since there is no need for staff to be dispatched to the site, it is possible to minimize the risk of disasters for staff. Moreover, there is also the effect that measurement information can be collected at a time convenient for the information processing center.

[Brief explanation of drawings]

FIG. 1 is a perspective view illustrating the installation state of a rainfall sensor. FIG. 2 is a configuration diagram for explaining the structure of the rain sensor. FIG. 3 is an overall block diagram showing an example of the rainfall information collection equipment according to the present invention. FIG. 4 is an operational explanatory diagram showing a data transmission procedure when setting and registering setting data on the terminal side remotely. FIG. 5 is a diagram showing information stored in the memory section of the remote rainfall collection device. FIG. 6 is an explanatory diagram illustrating the transmission procedure when transmitting information from the terminal side to the information processing center side. FIG. 7 is an explanatory diagram illustrating a transmission procedure when an information processing center issues a request for information transmission to a terminal and data is transmitted from the terminal to the center in response to the request. FIG. 8 is an overall block diagram showing another example of the rainfall information collecting equipment device according to the present invention. FIG. 9 is a diagram showing stored information stored in the memory section of the rainfall information collecting equipment shown in FIG. 8. FIG. 10 is a configuration diagram showing a conventional rainfall information collection device. In the figure, 8 is a rain sensor, and 11 is a center NCU. 12 is a host computer, 13 is a telephone line, 14.1
4' is a remote rainfall collection device, 16 is a water level sensor, 18 is a count section, 19 is a timer section, 20 is a memory section, 22 is a calculation section, 23 is a control section, 25 is a modem section, 30 is an information processing center, 31 is an exchange.

Claims (2)

[Claims] (1) Includes a center device that is installed in an information processing center and centrally processes terminal information, and a data terminal device that can be connected to the center device via a general subscriber telephone line, and the data terminal device is capable of determining the amount of rainfall. a rainfall information input section into which is input an output signal of a rain sensor whose contact output changes for each minimum measured rainfall unit; a counting means for counting rainfall and obtaining rainfall information; a calling means for calling a predetermined information processing center using the general subscriber telephone line; and a calling means for calling a predetermined information processing center using the general subscriber telephone line; and data oscillation means for automatically oscillating the rainfall information as the terminal information to the information processing center connected via the information processing center, the information processing center connects the predetermined data terminal device to the general subscription telephone. A calling means for making a call using a telephone line, and a rainfall information system that remotely controls the oscillation process of the rainfall information to the data terminal device which is called by the calling means and is connected to the general subscriber telephone line. A remote rainfall information collection equipment device, comprising: an information oscillation remote control means for collecting information remotely. (2) Includes a center device that is installed in an information processing center and centrally processes terminal information, and a data terminal device that can be connected to the center device via a general subscriber telephone line, and the data terminal device is capable of determining the amount of rainfall. an information input unit into which measurement information of a rain sensor that measures information about the rainfall sensor and measurement information other than the rain sensor are input; and automatically oscillating information regarding the measurement information input into the information input section as the terminal information to the information processing center that is called by the calling means and connected via the general subscriber telephone line. and data oscillation means for. The information processing center includes: a calling means for making a call to the predetermined data terminal device using the general subscriber telephone line; and an information oscillation remote control means for remotely controlling the oscillation process of information related to the measurement information inputted to the information input section and remotely collecting measurement information for the data terminal device, and remote rainfall information collection. Equipment equipment.