JPH09311991A - Automatic distribution system for accident information - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the automatic distribution system which adds the accident information received from a sensor to the report information stored previously to automatically produce a report of the accident information with almost no intervention of an operator and then automatically distributes the accident report to the relevant departments. SOLUTION: In this distribution system, the signals sent from a plurality of sensors 21 including a fire sensor, etc., are inputted to a CPU(central processing unit) 23 via a process input/output device 22. Then the CPU 23 processes the inputted signals and stores them in an auxiliary storage 24 as the accident information. The accident decision information is previously stored in the storage 24. Thus, the CPU 23 reads both accident and accident decision information out of the storage 24 and compares these information with each other to decide the occurrence of an accident. In addition, a FAX 28 is connected on line to the CPU 23 and therefore a report of the accident information that is automatically produced by the CPU 23 is automatically distributed to the relevant departments via the FAX 28.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic accident information distribution system, and in particular, when transmitting accident information to related departments, a report is automatically created and distributed by a communication device so that the content of an accident can be quickly The present invention also relates to an automatic delivery system of accident information that is reliably transmitted.

[0002]

2. Description of the Related Art FIG. 1 shows the structure of a conventional transmission device for detecting accident information and transmitting the accident information to related departments. For example, a plurality of sensors 11 such as a fire detector and a gas leak detector are connected to the process input / output device 12, and the process input / output device 12 inputs signals from the various sensors 11. Further, the process input / output device 12 is connected to the central processing unit 13, and the central processing unit 13 is connected to the auxiliary storage device 14. Therefore, the signal from the sensor 11 is input to the central processing unit 13 via the process input / output unit 12, and in the central processing unit 13,
The auxiliary storage device 1 processes this input signal and stores it as accident information.
4 is stored (stored). Further, the auxiliary storage device 14 stores in advance attribute information of various sensors 11 (for example, information such as sensor installation position, sensor type, sensor standard, etc.) and accident determination information. The central processing unit 13
Accident information and accident determination information are read from the auxiliary storage device 14 to determine whether or not an accident has occurred. Further, the central processing unit 1
3 includes a CRT device 15 which is a display unit and a printer device 1.
6, and a request operation panel 17 is connected to the CRT device 15. Therefore, by operating the request operation panel 17, the accident information described above can be displayed on the screen of the CRT device 15, and the printer 16 can output the accident information. Further, a communication device for allowing the operator to notify the relevant department of the accident information, for example, a FAX device 18 and a telephone device 19 exist separately and independently.

Next, the operation of the transmission device for transmitting accident information shown in FIG. 1 will be described.

The process input / output device 12 includes various sensors 1.
The signal from 1 is received. The central processing unit 13 accesses the process input / output unit 12 to receive a signal. The central processing unit 13 converts the signal into an engineering value when the signal is an analog input, and 0 when the signal is a digital input.
Or convert to one state. The engineering value or the 0/1 state converted by the central processing unit 13 is sent to the auxiliary storage device 14 and stored in the auxiliary storage device 14 as accident information.

Next, the central processing unit 13 accesses the auxiliary storage device 14 to read out the above-mentioned engineering value or 0/1 state stored in the auxiliary storage device 14. Further, the central processing unit 13 compares the accident determination information read from the auxiliary storage device 14 with the above-mentioned engineering value or 0/1 state to determine whether an accident or an accident has occurred. When it is determined that an accident has occurred, an alarm message is output to the CRT device 15 and the printer device 16.

After confirming the alarm content of the alarm message output to the CRT device 15 and the printer device 16, the operator manually notifies the alarm department to the relevant departments by using the FAX device 18 or the telephone device 19. That is, the telephone device 1
The alarm content is output to the related departments from 9 by a voice message, and the FAX device 18 outputs a document with the alarm content.

[0007]

However, in the above accident information detection and transmission device to the related departments, the means for communicating the accident information to the related departments is manually operated by the operator. Had no record of the accident report, and there was a possibility that it would be unclear whether or not the accident information had been reliably transmitted. Further, there is a problem in that there are many false alarms due to operator's mistakes, and there is a possibility that a prompt and proper response at the time of an accident cannot be achieved. Further, even in the case of a written communication by FAX, there is a problem that the operator may make a mistake in the FAX transmission destination and the communication may not reach the related departments that need to be reported.

The present invention has been made in view of the above-mentioned conventional problems, and an object thereof is to incorporate accident information from a sensor into pre-stored report preparation information (for example, a template of a report) to allow an operator. Is to provide an automatic accident information distribution system that automatically creates a report with little intervention in the report creation and automatically distributes this accident information report to the relevant departments.

[0009]

In order to solve the above problems, an automatic accident information distribution system according to the present invention has the following features.

(1) At least one sensor for detecting accident information, a storage unit for storing the accident information from the sensor, and pre-stored accident determination information and report preparation information; Accident occurrence determination means for comparing the accident information read from the storage unit with the accident determination information to determine whether or not an accident has occurred, and the report read from the storage unit when it is determined that an accident has occurred. And a central processing unit having an automatic report creating means for automatically creating a report based on the created information.

Therefore, the automatic accident information distribution system according to the present invention can determine the presence or absence of an accident from the output from the sensor and automatically prepare a report of the accident information. Can be quickly transmitted. Further, since the record of the accident report remains, the contents of the accident can be surely transmitted. Therefore, the accident reporter can save the time required for reporting and can devote himself / herself to post-accident treatment. (2) In the accident information automatic distribution system according to (1) above, the storage unit further links the accident level judgment information for judging an accident level and each accident level of the accident level judgment information. The accident report destination information in which the accident report destination is set is stored in advance, and the central processing unit reads the accident report destination information from the storage unit and selects the accident report destination according to the accident level. A selection means is provided to automatically create a report addressed to the selected report destination.

Therefore, a report of accident information is automatically created to a report destination that requires a report according to the accident level without the intervention of an operator.

(3) In the accident information automatic distribution system according to (1) above, the accident level judgment information for judging an accident level and each accident level of the accident level judgment information are further stored in the storage unit. Accident report format information in which a report format is set in advance by linking with the accident report format information is stored in the central processing unit, and the accident report format information is read from the storage unit into the accident report according to the accident level. A report format selecting means for selecting a report format is provided, and a report is automatically created based on the selected report format.

Therefore, the contents of the accident report can be automatically changed appropriately according to the degree of the accident, so that a proper accident report can be prepared.

(4) In the accident information automatic distribution system according to any one of (1) to (3) above, a communication device connected to the central processing unit is further provided, and the central processing unit is The communication device has automatic distribution means for automatically distributing the report to the report destination selected by the report destination selection means.

Therefore, it is possible to prevent the report from being omitted and to surely deliver the report to the report destination.

(5) In the accident information automatic distribution system according to any one of the above (1) to (3), the system further comprises a display unit connected to the central processing unit.

Therefore, the central processing unit can display the automatically created report on the display unit, and confirm, correct, and permit distribution of the contents of the report.

(6) In the accident information automatic distribution system described in (4) above, the automatic distribution means of the central processing unit is preset with a distribution permission waiting time from report preparation to distribution. After the predetermined delivery permission waiting time has passed, delivery is automatically performed without the permission of the reporter.

Therefore, it is possible to prevent the report omission due to the operator forgetting to deliver the report.

(7) In the accident information automatic distribution system according to any one of (1) to (6) above, the central processing unit further reports an accident status after a certain time has elapsed from the distribution of the accident report. The progress accident status reporting time is set, and after the progress accident status reporting time, the accident information continuously detected by the sensor is collected, and a progress report is automatically generated based on the report creation information. An automatic progress report creating means for creating is provided.

Therefore, since a progress report is automatically created after a certain period of time from the occurrence of the accident, the report recipient who has received the progress report, based on the progress status described in the progress report,
It can be determined whether the damage of the accident is expanding or contracting.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described.

The configuration of the accident information automatic distribution system according to the present embodiment will be described with reference to FIG. For example, a plurality of sensors 21 such as a fire detector and a gas leak detector are connected to the process input / output device 22, and the process input / output device 22 inputs signals from the various sensors 21. Further, the process input / output device 22 is connected to a central processing unit 23, and the central processing unit 23 is connected to an auxiliary storage device 24 which is a storage unit. Therefore, the sensor 21
Is input to the central processing unit 23 via the process input / output unit 22, and the central processing unit 23 processes this input signal and stores (stores) it in the auxiliary storage unit 24 as accident information. Further, the auxiliary storage device 24 stores in advance attribute information of the various sensors 21 (for example, information such as sensor installation positions, sensor types, sensor standards, etc.) and accident determination information. Therefore, the central processing unit 23
Has an accident occurrence judging means for reading the accident information and the accident judgment information from the auxiliary storage device 24 and judging the occurrence of the accident. Further, the central processing unit 23 has a display portion C
The RT device 25 and the printer device 26 are connected,
A request operation panel 27 is connected to the CRT device 25. Therefore, by operating the request operation panel 27, it is possible to correct the report contents of the accident information displayed on the screen of the CRT device 25,
Further, the accident information can be output from the printer device 26. Further, a communication device for communicating the accident information to the related department, for example, the FAX device 28, is the central processing unit 2.
Connected to 3 online.

Next, the operation of the transmission device for transmitting accident information according to this embodiment will be described.

First, the operation of accident determination and report processing will be described with reference to FIGS. 2 and 3 to 7.

The signals from the various sensors 21 are input to the process input / output device 22, and the central processing unit 23 accesses the process input / output device 22 to read the signals of all the sensors 21 (S3100). Further, the central processing unit 23
Reads the attribute information of the sensor from the auxiliary storage device 24. An example of the attribute information of the sensor of this embodiment is shown in FIG.
Is shown in In the sensor attribute database shown in FIG. 8, the name of each signal, the conversion formula to the engineering value, and unit information are set, and are used as information for signal input processing and report preparation.

Next, the central processing unit 23 uses the read signal x as an engineering value or 0/0 based on the attribute information of the sensor.
Convert to 1 state. For example, when the signal x is input as an analog signal, as shown in FIG. 8A, the signal x is converted into an engineering value according to a conversion formula corresponding to the type of signal. On the other hand, when the signal x is digitally input, as shown in FIG. 8B, a state of 0 or 1 depending on the signal, for example, normal /
Convert to one of the states of failure. After that, the engineering value or the state of 0/1 is stored in the signal database of the auxiliary storage device 24 (S3201, S3202). An example of the signal database is shown in FIG. The engineering value corresponding to each signal 1i and 2i is input into the signal database shown in FIG. In the present embodiment, the case of analog input is shown, but in the case of digital input, the state (value) of 0/1 is stored in the signal database. Here, i of the signals 1i and 2i means an integer from 1 to 9.

Next, the central processing unit 23 reads the accident determination database and the signal database, which are the accident determination information stored in the auxiliary storage unit 24, and compares them to determine whether or not an accident has occurred. (S3301 to S3
306). The determination as to whether or not an accident has occurred will be described later. Further, an example of the accident determination database is shown in FIG. The accident determination database shown in FIG.
An accident determination condition or the like is set corresponding to the accident number, and a plurality of determination conditions are set in this accident determination condition. In addition, the accident level and the reporting priority are set corresponding to the judgment conditions. In addition, the accident name for preparing the report and the signal data number added to the report are set.

Next, when it is determined that an accident has occurred, the central processing unit 24 selects and reads an appropriate format from the report format stored in the auxiliary storage device 24 according to the type / level of the accident, and reads it out. A report is created according to the format (S3307 to 3506). The preparation of the report will be described later.

When the report preparation is completed, a report preparation completion message is displayed on the CRT device 25 (S3).
At the same time, the contents of the report are output to the printer device 26 (S3700). Further, the FAX device 28 automatically delivers the report to the report destination.

The above operations will be described in detail below with reference to FIGS.

The determination of whether or not an accident has occurred will be described. First, the central processing unit 23 reads the data of the accident 1 in the accident determination database (FIG. 10) from the auxiliary storage device 24 (S3301, S3302). This accident 1
When recognizing that it is a signal for accident determination corresponding to the database of, for example, signal 1i, the central processing unit 23
The signal 1i in the signal database (FIG. 9) is read from the auxiliary storage device 24 (S3303). Next, the number n of accident determination conditions shown in FIG. 10 is read (S3304). Then, the read signal 1i is compared with the accident determination condition j and the accident determination is performed for the number of times n (S3305, S33).
06, S3307, S3312, S3313).

Whether or not an accident has occurred in the central processing unit 23 is judged by comparing the signal 1i with the accident judgment condition j described in the accident judgment condition. For example, when the data of the signal 1i is 11.1 with respect to the signal 1i> 11.0 of the accident determination condition 1, it is determined that an accident has occurred (S3306, S3307). When it is determined that an accident has occurred, the reporting priority of the accident is read and set from the accident determination database (FIG. 10) (S330).
8). Further, it is determined whether another accident has already occurred this time (S3309), and if it has occurred, the reporting priority of the previous accident is compared with the reporting priority of this other accident (S3310). If the previous accident reporting priority is high, the accident number, accident type, and accident level are read from the accident determination database (FIG. 10) and set (S3).
311). As a result, the processes are performed in descending order of report priority. The above processing is repeated for all accident determination number n (S
3314, S3315). In addition, "ON" in FIG.
This is a case where a signal is digitally input, and shows, for example, a state of "1" (accident occurrence).

Then, when the accident determination processing is completed, the report preparation processing is performed as follows (FIGS. 2 and 4).

The central processing unit 23 judges whether or not there is an accident this time (S3400), and if there is an accident, the type and accident level of the accident (described in the accident judgment database shown in FIG. 10). The corresponding report destination number and reporting place number are read from the auxiliary storage device 24 from the report destination database (FIG. 11) (S350).
1). The report destination database shown in FIG. 11 has a report destination and a report format corresponding to the accident level and the accident level. Further, there are a plurality of report destinations in the item of the same accident level and the same accident type. The number and the report format corresponding to this report number are set. As a result, it is possible to simultaneously create a report for a plurality of report destinations according to the report destinations. That is, for example, according to the accident level in the factory, it is possible to automatically create a report corresponding to each report destination to the factory manager, the head office, the prefecture's response organization, and the like.

Next, the corresponding report database (for example, the report database 1) is read from the report preparation fixed database (FIG. 12) based on the report number (S3).
502). Information for creating a report is described in the database 1, and the report is created according to the information (S3303 to S3305). For example, in the report database 1 shown in FIG. 12, the report form x
The fixed sentence creation information of the report is described such that the report destination “Den” is described in the position of 1: y1. That is, the report creation fixed database is a database for creating the fixed part of the report, and shows the sentence and the position where the sentence is written. Similarly, "Disaster Prevention Report" (x2:
y2), "sending date" (x3: y3), "year" (x4: y
4), “month” (x5: y5), “day” (x6: y6), and other fixed characters are described at predetermined positions.

Further, incidental information regarding the accident is created based on the report creation variable database (FIG. 13).
In this report creation variable database, variable description destinations, report data, and other description positions are set according to the type / level of accident. That is, the report destination name described above is x
21: It is the position of y21 and is written before "Den".
Similarly, the reporting date (x22: y22, x23: y2
3, x24: y24), accident occurrence time (x25: y2)
5, x26: y26, x270: y27, x28: y2
8, x29: y29) and the like are automatically written in predetermined places. An example thereof is shown in FIG. The underlined portion indicated by the solid line is the content set in the report fixed database, and the underlined portion indicated by the dotted line is created by the central processing unit 23 according to the accident content. Information. The central processing unit 23 has a clock, and the time when the central processing unit 23 receives a signal from the sensor 21, for example, is entered in the accident occurrence time column. The above report creation processing is performed for all report destinations (S3302 to S3506).

Next, when the report preparation to all report destinations is completed, the report preparation completion message is displayed on the CRT device 25 (shown in FIG. 2) (S3600).

The distribution of the report is usually performed after the distribution permission of the operator is input, but the distribution permission operation may not be performed due to the operator's convenience. Therefore, in the central processing unit 23, a delivery permission waiting time from report preparation to delivery is set in advance (S3800), and after the predetermined delivery permission waiting time has elapsed, automatic delivery is performed without the reporter's permission. Means are provided. As a result, the report is automatically delivered to a predetermined report destination via the FAX device 28 when a certain time has passed since the report was created, that is, when the delivery permission waiting time or more has elapsed.

Next, the automatic distribution process will be described with reference to FIG.

First, it is determined whether there is a report waiting for delivery permission (S4100). If there is a report waiting for distribution processing, the distribution permission waiting time is counted down (S4201). Next, it is determined whether the delivery permission waiting time has elapsed (S4202). If the delivery permission waiting time has elapsed, the report is F
Deliver to each report destination by the AX device 28 (S430
1).

On the other hand, an operation in which the operator permits the distribution after confirming the contents of the report will be described with reference to FIG.

The operator confirms the message of the report preparation completion by the CRT device 25, performs the operation of displaying the contents of the report on the screen of the CRT device 25, and
Is displayed on the screen (S5100). The operator confirms the content of the displayed report (S5201), and if the content is OK and can be delivered, inputs the name of the reporter (S).
5202). On the other hand, if the content needs to be corrected, the operator inputs the content of the correction (S5203). As a result, the correction content is stored (S5300), and the central processing unit 23 corrects the report based on the correction content and redisplays the content of the report on the screen of the CRT device 25 (S54).
00). Then, when the content of the report is OK, the name of the reporter is input as described above (S520).
2). When the name of the reporter is input, it is determined that the distribution is permitted, the current time of the central processing unit 23 is stored in the report data (S5501), and the reporter's name is stored in the report. (S5502), the FAX device 28 delivers the report to each report destination (S5600). In addition,
In FIG. 6, the part shown by the dotted line shows the operation of the operator, and the part shown by the solid line shows the operation of the central processing unit 23.

Further, FIG. 7 shows a processing operation of the central processing unit 23 (shown in FIG. 2) which reports the accident situation thereafter at a constant time interval after the report is delivered when the accident occurs. The central processing unit 23 is set with the elapsed accident situation reporting time for reporting the accident situation after a certain time has passed from the accident occurrence report distribution, and the sensor 21 continuously detected within this elapsed accident situation reporting time. The accident information, that is, the data for reporting, is the report data of the accident determination database (shown in FIG. 10) (for example, signal 1 in the case of accident 1).
i, signal 1 m) and collect (S6200).
Further, the elapsed accident situation reporting time (“reporting interval time” shown in FIG. 7) is counted down (S6301), and when the time has passed (S6302), the data collection time and the time are collected as shown in FIG. The progress report in which the measurement data of the sensor 21 is described is created (S6400) and distributed to the report destination (S6500). The operation of creating the progress report and delivering the report destination is the same as described above. As described above, by creating and distributing the progress report, the report destination can determine whether the damage of the accident is increasing or decreasing based on the progress status.

In this embodiment, various reference databases are stored in the auxiliary storage device 24 and the central processing unit 23.
Reads necessary data from the auxiliary storage device 24,
I decided to perform the process, but it is not limited to this,
In order to improve the processing speed, some of the above databases may be stored in advance in the memory of the central processing unit 23.

[0047]

As described above, according to the automatic accident information distribution system of the present invention, the central processing unit determines whether or not an accident has occurred based on the output from the sensor, and automatically reports the accident information. Since the report is created, the reporter can quickly inform the content of the accident without creating the report by himself. Further, since the record of the accident report remains, it is possible to confirm whether or not the contents of the accident have been transmitted without fail. Therefore, the accident reporter can save the time required for reporting and can devote himself / herself to post-accident treatment.

Further, since the accident report destination information in which the accident report destination is set corresponding to each accident level of the accident level judgment information is stored in the storage unit, the central processing is automatically performed without operator intervention. The device can select an accident report destination according to the accident level from the storage unit and create a report addressed to the accident report destination. Therefore, the report can be quickly prepared and delivered to the report destination according to the accident level.

Further, since the accident report format information in which the format of the report corresponding to each accident level of the accident level judgment information is set is stored in the storage unit, it is automatically controlled by the operator without intervention. The processing device can flexibly and automatically change the content of the accident report according to the degree of the accident by selecting a report format from the storage unit according to the accident level.

Further, since the created report is automatically delivered from the communication device to the report destination, the report omission can be prevented and the report can be reliably delivered to the report destination. Further, by displaying the automatically created report on the display unit connected to the central processing unit, the operator can confirm, correct, and permit distribution of the contents of the report. Therefore, correct information can be surely transmitted to the report destination.

Further, since the central processing unit has an automatic delivery means for automatically delivering the report without the permission of the reporter after the elapse of a predetermined delivery permission waiting time, it is assumed that the operator forgets to deliver the report due to omission of the report. Can be prevented.

Further, the central processing unit is set with the elapsed accident status reporting time at which the accident status is reported after a certain time has passed since the accident report was delivered, and after this elapsed accident status reporting time, the sensor continuously detected. Since the automatic progress report creating means for collecting the accident information and automatically creating the progress report based on the report creation information is provided, the progress report is automatically created at regular time intervals after the occurrence of the accident. Therefore, the report recipient who has received the progress report can determine whether the damage of the accident is expanding or reducing based on the progress status described in the progress report.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of a conventional accident information detection and transmission device to relevant departments.

FIG. 2 is a diagram showing a configuration of an accident information detection and transmission device to relevant departments according to the present invention.

FIG. 3 is a flowchart illustrating an example of accident determination of accident information and report creation processing according to the present invention.

FIG. 4 is a flowchart illustrating an example of accident determination of accident information and report creation processing according to the present invention, which is a continuation flowchart of FIG. 3;

FIG. 5 is a flowchart illustrating an example of automatic distribution processing of accident information according to the present invention.

FIG. 6 is a flowchart illustrating an example of accident information report confirmation processing according to the present invention.

FIG. 7 is a flowchart illustrating an example of progress report processing of accident information according to the present invention.

FIG. 8 is a diagram showing an example of a sensor attribute database according to the present invention.

FIG. 9 is a diagram showing an example of a signal database according to the present invention.

FIG. 10 is a diagram showing an example of an accident determination database according to the present invention.

FIG. 11 is a diagram showing an example of a report destination database according to the present invention.

FIG. 12 is a diagram showing an example of a report creation fixed database.

FIG. 13 is a diagram showing an example of a report creation variable database.

FIG. 14 is a diagram showing an example of a report.

FIG. 15 is a diagram showing an example of a progress report.

[Explanation of symbols]

21 sensor, 22 process input / output device, 23 central processing unit, 24 auxiliary storage device, 25 CRT device, 2
6 printer device, 27 request operation panel, 28
FAX machine.

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[Procedure amendment]

[Submission date] January 7, 1997

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claim 4

[Correction method] Change

[Correction contents]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0015

[Correction method] Change

[Correction contents]

(4) In the accident information automatic distribution system according to any one of (1) to (3) above, a communication device connected to the central processing unit is further provided, and the central processing unit is The communication device has automatic distribution means for automatically distributing the report to the report destination selected by the report destination selection means or a predetermined report destination .

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0036

[Correction method] Change

[Correction contents]

The central processing unit 23 judges whether or not there is an accident this time (S3400), and if there is an accident, the type and accident level of the accident (described in the accident judgment database shown in FIG. 10). the report number and report destination number corresponding from the report destination database (11) based on in which) read from the auxiliary storage device 24 (S350
1). The report destination database shown in FIG. 11 has a report destination and a report format corresponding to the accident level and the accident level. Further, there are a plurality of report destinations in the item of the same accident level and the same accident type. The number and the report format corresponding to this report number are set. As a result, it is possible to simultaneously create a report for a plurality of report destinations according to the report destinations. That is, for example, according to the accident level in the factory, it is possible to automatically create a report corresponding to each report destination to the factory manager, the head office, the prefecture's response organization, and the like.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0038

[Correction method] Change

[Correction contents]

Further, incidental information regarding the accident is created based on the report creation variable database (FIG. 13).
In this report creation variable database, variable description destinations, report data, and other description positions are set according to the type / level of accident. That is, the report destination name described above is x
21: It is the position of y21 and is written before "Den".
Similarly, the reporting date (x22: y22, x23: y2
3, x24: y24), accident occurrence time (x25: y2)
5, x26: y26, x2 7: y27, x28: y2
8, x29: y29) and the like are automatically written in predetermined places. An example thereof is shown in FIG. The underlined portion indicated by the solid line is the content set in the report fixed database, and the underlined portion indicated by the dotted line is created by the central processing unit 23 according to the accident content. Information. The central processing unit 23 has a clock, and the time when the central processing unit 23 receives a signal from the sensor 21, for example, is entered in the accident occurrence time column. The above report creation processing is performed for all report destinations (S3302 to S3506).

Claims (7)

[Claims] 1. At least one sensor for detecting accident information, a storage unit for storing accident information from the sensor, and pre-stored accident determination information and report preparation information, and the storage unit. An accident occurrence determination means for comparing the accident information read from a section with the accident determination information to determine whether or not an accident has occurred, and the report creation read from the storage section when it is determined that an accident has occurred. An automatic distribution system for accident information, comprising: a central processing unit having an automatic report creating means for automatically creating a report based on information. 2. Accident report destination information in which an accident report destination is set in the storage unit by linking with accident level determination information for determining an accident level and each accident level of the accident level determination information. Is stored in advance, the central processing unit is provided with report destination selection means for reading the accident report destination information from the storage unit and selecting an accident report destination according to the accident level, and The automatic distribution system for accident information according to claim 1, wherein a report is automatically created. 3. The accident report in which the format of the report is set in the storage unit in such a manner that accident level judgment information for judging an accident level and each accident level of the accident level judgment information are linked. Format information is stored in advance, and the central processing unit is provided with report format selecting means for reading the accident report format information from the storage unit and selecting an accident report format according to the accident level. The automatic distribution system of accident information according to claim 1, wherein a report is automatically created based on the report format. 4. A communication device connected to the central processing unit, wherein the central processing unit automatically sends the report from the communication device to the report destination selected by the report destination selecting means. The automatic distribution system for accident information according to any one of claims 1 to 3, further comprising an automatic distribution means for distributing. 5. The display device further comprises a display unit connected to the central processing unit, wherein the central processing unit causes the display unit to display the automatically created report, and confirms the contents of the report. The automatic distribution system for accident information according to any one of claims 1 to 3, wherein correction and distribution permission operations can be performed. 6. The automatic distribution means of the central processing unit is further preset with a distribution permission waiting time from report creation to distribution, and after the predetermined distribution permission waiting time has elapsed, it is automatically transmitted without the permission of the reporter. The automatic distribution system for accident information according to claim 4, wherein the automatic distribution system is provided for. 7. The central processing unit is further provided with an elapsed accident status reporting time at which an accident status is reported after a certain time has passed from the accident occurrence report distribution, and the sensor continues after the elapsed accident status reporting time. The automatic progress report creating means for collecting the accident information detected by the above and automatically creating a progress report based on the report creation information is provided. An automatic distribution system for accident information according to any one of 6.