JP2002359693A - Remote supervisory system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remote supervisory system that can quickly recognize a fault in a supervisory object at a remote place so as to eliminate the need for patrolling the supervisory object for recognizing whether or not a fault takes place. SOLUTION: A fault information transmission means 1 provided to each of supervisory objects 4 has a mobile phone or a personal handy phone system (PHS) and gives a telephone number of the phone in response to a fault of a corresponding supervisory object 4 to a supervisory means 2 via a public telephone network 8. When receiving the telephone number from the fault information transmission means 1, the supervisory means 2 recognizes the corresponding supervisory object 4 from the received telephone number and reports a fault of the recognized supervisory object 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote monitoring system, and can be effectively used, for example, for monitoring whether or not the aviation obstruction light of a power transmission tower has become disconnected.

[0002]

Some transmission towers are provided with aviation obstruction lights, as is well known, and their presence can be easily recognized even at night from the viewpoint of preventing aircraft accidents. ing. If the aviation obstruction light of such a transmission tower is not turned on due to the disconnection, there is a risk of causing an aircraft accident, especially at night. The method of finding and repairing is taken. As a result, not only will there be a time delay in finding the center of the aviation obstruction light, but also nighttime patrol will be required because the aviation obstruction light is often turned off by turning off the power in the daytime. Together with this, problems such as lack of ease of maintenance occur. From such a viewpoint, it is desired that an abnormality of a monitoring target in a remote place such as a transmission tower provided with an aviation obstacle light can be quickly recognized without relying on patrol.

The present invention has been made based on the above-mentioned viewpoint, and an object of the present invention is to provide a remote monitoring system capable of quickly recognizing an abnormality of a monitoring target in a remote place and eliminating the need for patrol of the monitoring target. It is to provide a system.

[0004]

According to the present invention, there are provided abnormal information transmitting means provided for each of a plurality of monitored objects, and monitoring means connected to each abnormal information transmitting means via a public telephone network. Each abnormal information transmitting means has a mobile phone or a simplified type mobile phone, and responds to the corresponding monitored target abnormality, and transmits the telephone number of the telephone included in each abnormal information transmitting means via the public telephone network. Given to the monitoring means,
When the monitoring unit receives a telephone number from the abnormality information transmitting unit, the monitoring unit recognizes a corresponding monitoring target from the telephone number, and notifies the abnormality of the recognized monitoring target by the remote monitoring system. Achieve the goal.

According to such a configuration, when an abnormality occurs in the monitored object, the abnormality information transmitting means provided in the monitored object transmits the telephone number of the portable telephone or the simplified portable telephone through the public telephone network. The monitoring means recognizes the monitoring target in which the abnormality has occurred from the telephone number and notifies the abnormality. Therefore, it is possible to immediately recognize the monitoring target in which the abnormality has occurred due to the occurrence of the abnormality in the monitoring target without performing the inspection of the monitoring target.

In the present invention, there are provided abnormality information transmitting means provided for each of a plurality of monitored objects, and monitoring means connected to each abnormality information transmitting means via a public telephone network. The transmitting means has a mobile phone or a simplified mobile phone, and responds to the abnormality of the corresponding monitoring target,
In addition to providing the telephone number of the telephone provided by each abnormality information transmitting means to the monitoring means via the public telephone network, and responding to a test signal given from the telephone when the telephone is called from outside, A telephone number of a telephone is provided to the monitoring unit via the public telephone network, and the monitoring unit recognizes a corresponding monitoring target from the telephone number when a telephone number is given from the abnormality information transmitting unit, The above-mentioned object is achieved by a remote monitoring system which notifies an abnormality of a recognized monitoring target and calls a telephone of the abnormality information transmitting means corresponding to each monitoring target via the public telephone network in response to an external operation. To achieve.

According to such a configuration, as described above, it is possible to immediately recognize a monitoring target in which an abnormality has occurred due to the occurrence of a monitoring target abnormality without patroling the monitoring target, and also to monitor each monitoring target. It is possible to check from the monitoring means whether or not the abnormal information transmitting means provided in the apparatus operates normally. That is, in response to an external operation, when the monitoring unit calls the mobile phone or the simplified mobile phone of each monitoring target abnormality information transmitting unit via the public telephone network, the corresponding monitoring target abnormality information transmitting unit is called. The telephone number is provided to the monitoring means via the public telephone network in response to a test signal provided from the portable telephone or the simplified portable telephone. Since the monitoring means recognizes the monitoring target from the given telephone number and notifies the monitoring target, it is possible to check whether the intended abnormal information transmitting means operates normally.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a block diagram showing an example of an embodiment of the present invention. In FIG.

The abnormal information transmitting means 1 is provided in each of a plurality of power transmission towers 4 provided with the aviation obstacle lights 3. Each transmission tower 4 has an aircraft obstacle light control panel 5. The aviation obstacle light control panel 5 controls the lighting of the aviation obstacle light 3 and
When the aviation obstacle light 3 is turned off due to the disconnection, a disconnection signal indicating the disconnection of the aviation obstacle light 3 is supplied to the abnormality information transmitting means 1. Each transmission tower 4 corresponds to a plurality of objects to be monitored in the claims. The abnormality information transmitting means 1 and the monitoring means 2 are connected via a base station 6, a telephone station 7, and a public telephone network 8. The abnormal information transmitting means 1 has a function of giving the telephone number of the mobile phone 13 of the abnormal information transmitting means 1 to the monitoring means 2 by receiving the disconnection signal from the aviation obstacle light control panel 5 as described later. Have. Further, as described later, the abnormal information transmitting means 1 is connected to the mobile phone 13 included in the abnormal information transmitting means 1 by a call from the monitoring means 2.
Is supplied with a test signal from the mobile phone 1
The function of giving the telephone number 3 to the monitoring means 2 is provided.
The telephone number is given to the monitoring means 2 by a well-known number display service.

FIG. 2 is a block diagram showing the aviation obstacle light control panel 5 and the abnormality information transmitting means 1 of FIG.

The aviation obstruction light control panel 5 detects a deficiency of the aviation obstruction light 3 and a deficiency signal by detecting the deficiency of the aviation obstruction light 3. It includes a disconnection signal output relay 10 for outputting, and a reset switch 11 for resetting the output of the disconnection signal. The disconnection signal output relay 10 has a normally open contact in this example, closes the contact when the disconnection detector 9 detects the disconnection of the aviation obstacle light 3, and outputs a voltage signal of a predetermined level to the abnormality information. It is given to the transmitting means 1. Such a disconnection signal output relay 10 includes a reset switch 11
Is operated to return to the open state.

An abnormality information transmitting means 1 transmits a telephone number to a monitoring control means 2 under the control of the transmission control apparatus 12 for inputting a disconnection signal, and responds to a call from the monitoring means 2. It has a mobile phone 13 that supplies a test signal to the transmission control device 12, and a reset switch 12a provided in the transmission control device 12. Transmission control device 1
2, a transmission control signal a for controlling off-hook and on-hook of the mobile phone 13 is transmitted a predetermined number of times at predetermined time intervals T as shown in FIG. Is output N times, and the output is stopped. If the reset switch 12a is operated while the output number of the transmission control signal a is the predetermined number N, the transmission control device 12 stops outputting the transmission control signal a at that time. When the mobile phone 13 is taken off-hook, the receiver is taken from the main body of the fixed telephone, and when the mobile phone 13 is taken on-hook, the receiver is returned to the main body of the fixed telephone.
In addition, the transmission control device 12 has a function of outputting a transmission control signal a once in this example when a test signal is input from the mobile phone 13 according to a flowchart of FIG. 7 described later.

FIG. 3 is an explanatory diagram of a transmission control signal output from the transmission control device 12 of FIG. 2 in response to the core disconnection signal.
The transmission control signal a is composed of two pulse signals, and the first pulse signal is an off-hook pulse a ₁ for making a call.
In the second pulse signal is on hook pulse a ₂ to hang up. Such a transmission control signal a responds to the rising of the disconnection signal from the disconnection signal output relay 10 until the output number of the transmission control signal a reaches a predetermined plurality of times N every predetermined time T. Is output. If the reset switch 12a is operated while the output number of the transmission control signal a is the predetermined number N, the output is stopped at that point, as described above. The predetermined time T and the predetermined number N are
Considering the case where the telephone number of the mobile phone 13 is not received by the monitoring means 2 due to the unstable radio wave condition or noise which occurs temporarily, even in such a case, the telephone number of the mobile phone 13 is Is determined experimentally to ensure reception of

[0014] mobile phone 13 stores a telephone number of the monitoring means 2 side to the memory, as shown in FIG. 4, the call monitoring means 2 by the off-hook pulse a ₁ outgoing control signal a is applied over, after notifying the telephone number of the cellular phone 13 so as hanging up by on-hook pulse a ₂ outgoing control signal a is applied. Off-hook pulse outgoing control signals a a ₁ a on-hook pulse a ₂
Is set based on a call preparation time, a call time, and the like. If the time interval t is too long, the line occupation time becomes long, which may adversely affect the transmission of the mobile phone by other abnormal information transmitting means. The mobile phone 13 also includes the monitoring unit 2
And gives a call signal to the transmission control device 12 as a test signal.

Transmission control device 1 provided in each transmission tower 4
The transmission control signal a output from 2 is the output interval of the transmission control signal a in each of the transmission control devices 12 of each power transmission tower 4 so that the transmission from the mobile phone 13 of each power transmission tower 4 does not overlap. The predetermined time T is set to be different. That is, as shown in FIG. n-1 of the power transmission transmitting the control of the originating control device provided in the tower signal a _n-1 for a predetermined time, which is the output interval T ₁
Than No. which is the output interval of the oscillation control signal a _n outgoing control device provided in the n transmission tower of a predetermined time T2 by the large outgoing control signal a _n-1 and outgoing control signals a _n and such that do not overlap I have to. This allows
Even if the transmissions of the mobile telephones of a plurality of power transmission towers overlap, when one connection is terminated, the other mobile telephone is monitored by the monitoring means 2.
Can be called to prevent the monitoring means 2 from being notified of the disconnection of the aviation obstruction light 3.

Returning to FIG. 1, the monitoring means 2 includes a public telephone network 8
And a monitoring computer 15 connected to the public telephone network 8 via the transmitting / receiving device 14. As shown in FIG. 6, the monitoring computer 15 stores the telephone numbers α _{1 to} α _n of the mobile phone 13 of the abnormality information transmitting means 1 provided in each power transmission tower 4 and the data K of each power transmission tower 4.
And a table representing the correspondence relationship between ₁ ~K _n.
The data K ₁ ~K _n of each transmission tower 4 contains line name and towers number. Thereby, the abnormality information transmitting means 1
Of the cellular phone 13 is the base station 6 and is connected to the transceiver 14 via a telephone station 7 and the public telephone network 8, a telephone number is for example alpha ₁ of the cellular phone 13 is provided to the monitoring computer 15 which originated , monitoring computer 15 is adapted to be able to read the data K ₁ of the power transmission tower corresponding to the telephone number alpha _1. According to the flowchart of FIG. 8 described later, such a monitoring computer 15 determines whether each of the transmission towers is based on whether or not the telephone number of the mobile phone 13 has been given from the abnormality information transmitting means 1 provided in each of the transmission towers 4. It has a function of monitoring occurrence of disconnection of the aviation obstacle light 3 of 4, and notifying the transmission tower in which the disconnection has occurred due to occurrence of the disconnection. The monitoring computer 15
Also, according to the flowcharts of FIGS. 9, 10 and 11 described later, the mobile telephone 13 of the abnormal information transmitting means 1 provided in each power transmission tower 4 is called, and the abnormal information transmitting means 1 provided in each power transmitting tower 4 is called. It has a function to check whether it operates normally.

FIG. 7 is a flow chart of the transmission control device 12 of FIG. 2, and FIG. 8 is a flow chart of the monitoring control of the monitoring computer 15 of FIG. 9, 10, and 11
9 is a flowchart of the inspection control of the monitoring computer 15 in FIG. 1, and terminals A, B, and C in FIG.
10 are connected to terminals A, B, and C of the same reference
Are connected to the terminal D of the same reference in FIG.

If the aviation obstacle light 3 is not disconnected and the monitoring means 2 does not check the transmission control device 12 of each abnormality information transmission means 1, the aviation obstacle light control panel 5
And the abnormal information transmitting means 1 is not output.
No test signal is given from the mobile phone 13
The transmission control device 12 of the abnormality information transmission means 1 returns to step 20 via steps 20 and 21 in FIG. 7 and does not output the transmission control signal a. Monitoring means 2
The monitoring computer 15 returns to step 30 via steps 30 and 31 in FIG.
As shown in FIG. 12, a monitoring-in-progress screen is displayed on the display unit 15a of No. 5 as shown in FIG. In the monitoring screen of FIG. 12, reference numeral 40 denotes an inspection switch. When the switch 40 is clicked, the monitoring computer 15 enters the inspection control of FIGS. 9, 10, and 11 described later.

When a fault occurs in the aviation obstacle light 3, a deficiency signal is provided from the disconnection signal output relay 10 of the aviation obstacle light control panel 5 to the transmission control device 12 of the abnormality information detecting means 1.
As a result, the transmission control device 12 enters the processing of steps 22, 23 and 24 from step 20 of FIG. In the processing of steps 22, 23, and 24, when the reset switch 12a is not operated, the transmission control signal a is output every predetermined time T until the number of outputs reaches the predetermined number N. The transmission control device 12 determines that the number of times of output of the transmission control signal a has reached the predetermined number N, so that the transmission control signal
Then, the output of the transmission control signal a is stopped, and the count value of the number of times of output of the transmission control signal a is cleared. Thereby, the mobile phone 13 notifies the monitoring means 1 of the telephone number of the mobile phone 13 to the monitoring means 1 a predetermined number of times N times at the time interval of the predetermined time T by the transmission control signal a from the transmission control device 12. Becomes As described above, the predetermined time T and the predetermined number N are set so that the monitoring unit 2 can reliably receive the telephone number of the mobile phone 13 even when the radio wave condition is unstable as described above. Will be notified. If the reset switch 12a of the transmission control device 12 is operated while the output number of the transmission control signal a is in the middle of the predetermined number N, the transmission control device 12 goes to step 25 from step 23, and stops the output of the transmission control signal a. Then, the process returns to step 20 after clearing the output count value. Reset switch 1
The operation of 2a is performed manually.

The monitoring computer 15 of the monitoring means 2 comprises:
When a telephone number is given via the transmitting / receiving device 14, FIG.
Step 32 is entered from Step 31 of FIG.
Phone number α₁~ Α_nCorresponding to
Transmission tower data K₁~ K _nIs read. Next,
In step 33, the tower number which is the data of the transmission tower read out
And the line name, and the date and time when the
In the next step 34 and the monitoring computer
The display section 15a shown in FIG.
Is displayed as well as a warning at step 35.
An alarm sound is generated, and then the process proceeds to step 36. Display 1
5a shows the screen of the power transmission tower where the power failure occurred.
The tower number, track name, and date and time when the disconnection occurred are displayed.
It is. In the disconnection occurrence screen of FIG.
Switch, the reset switch 41 must be clicked.
If it returns from step 36 to step 34,
Is displayed, and the reset switch 41 is clicked.
To return to step 30 from step 36,
It returns to the visual state. It is recognized that the center of the aviation obstruction light 3 has been broken.
After that, the worker went to the transmission tower where
Repair of cored aviation obstacle light 3 and decentering of aviation obstacle light control panel 5
Reset the detector 9 and, if necessary, send the abnormal information
Resetting the output of the transmission control signal a of the transmission control device 12 of stage 1
Cuts.

When the monitoring switch 2 on the monitoring screen in FIG. 12 is clicked in the monitoring means 2, the monitoring computer 15 enters the inspection control shown in FIGS. First, in step 50 of FIG.
An inspection screen is displayed on 5a as shown in FIG. Thereby making it possible to check the screen of the display unit 15a pylon number and line names are displayed is data K ₁ ~K _n of each transmission tower, for selecting a transmission tower by clicking each transmission tower . In the inspection screen of FIG. 14, reference numeral 42 denotes a selection end switch. When the switch 42 is clicked, the monitoring computer 15 enters Step 52 from Step 51, and the selected transmission tower is determined based on the table of FIG. A call is made to the mobile phone 13 corresponding to the telephone number, and after the mobile phone 13 is called, the call is cut off.

The mobile telephone 13 of the abnormality information transmitting means 1 corresponding to the selected transmission tower is called by the monitoring means 2 and
The call signal is given to the transmission control device 12 as a test signal. As a result, the transmission control device 12 enters the processing of steps 26 and 27 from step 21 in FIG. 7, and after the mobile phone 13 goes on-hook, the transmission control signal a
Is output. Thereby, the mobile phone 13 transmits the telephone number to the monitoring unit 2. In this example, the transmission control signal a is output once at the time of inspection. However, the transmission control signal a may be supplied a plurality of times at predetermined time intervals as in the case of a core cut. Of course it is good.

The monitoring computer 15 of the monitoring means 2
When the telephone number is notified, the process goes from step 53 in FIG. 9 to step 54 in FIG. 10, and reads out the power transmission tower corresponding to the notified telephone number based on the table in FIG.
Next, at step 55, steps 50 and 5 of FIG.
The data of the power transmission tower selected in the process 1, the data of the power transmission tower read out in the process of step 54 in FIG. 10, and the inspection date and time are stored in the inspection result file, and in the next step 56, the display unit of the monitoring computer 15 is stored. An inspection result screen is displayed at 15a instead of the inspection screen as shown in FIG. On the inspection result screen of the display unit 15a, a tower number and a track name as data of the selected transmission tower, a tower number and a track name as read data of the transmission tower, and an inspection date and time are displayed. Thereby, from the comparison between the selected transmission tower and the read transmission tower,
It can be recognized that the transmission control device 12 of the selected transmission tower is operating normally. In the inspection result screen of FIG. 15, reference numeral 43 denotes a reset switch, and reference numeral 44 denotes an inspection end switch. If the reset switch 43 is not clicked, the monitoring computer 15 returns from step 57 to step 56 to continue displaying the inspection result screen,
When the reset switch 43 is clicked, the inspection end determination from step 57 to step 58 is started. If the inspection end switch 44 is not clicked, the control returns from step 58 to step 50 of FIG. 9 to continue the inspection control, and the inspection end switch 44 is clicked to return to the monitoring control of FIG.

If the telephone number is not notified after a predetermined time has elapsed in steps 53 and 59 in FIG. 9, the monitoring computer 15 enters step 60 in FIG. 9 from step 59 in FIG. The data of the power transmission tower and the inspection date and time selected in the process of 51 are stored in the inspection result file, and the data of the power transmission tower and the inspection date and time selected in the next step 61 are displayed on an inspection result screen, and the process proceeds to step 62. As a result, in the inspection result screen of FIG. 15, the display of the power transmission tower that has been read out becomes blank, and it is possible to recognize an abnormality in the operation of the abnormality information transmitting means 1. Note that the same message is displayed when the telephone number is not notified from the mobile phone 13 due to unstable radio wave conditions. However, if the same power transmission tower is inspected a plurality of times, unstable radio wave conditions may be detected. Or not. The predetermined time in step 59 is set based on the time from when the monitoring means 2 calls the mobile phone 13 of the abnormality information transmitting means 1 until the mobile phone 13 notifies the telephone number. If the reset switch 43 is not clicked, the monitoring computer 15 returns from step 62 to step 61 and continues to display the inspection result screen. When the reset switch 43 is clicked, the monitoring computer 15 performs the inspection from step 62 to step 58 in FIG. The end determination is made, and as described above, the inspection end switch 44
In response to the click, the control returns to the continuation of the inspection control or the monitoring control.

In the above-mentioned example, the portable telephone 13 is provided in the abnormality information transmitting means 1, but the portable telephone, that is, PH
S may be used. FIG. 16 is an explanatory diagram of a transmission control signal of a transmission control device when a simplified mobile phone is used, and FIG.
FIG. 9 is an explanatory diagram of the operation of the simplified mobile phone in response to the transmission control signal of FIG. The transmission control signal b is a single pulse signal, which is output in response to the rise of the disconnection signal from the disconnection signal output relay 10, and causes the portable telephone to go off-hook at the rise and on-hook at the fall. The transmission control signal b is
As in the case of the mobile phone 13, the transmission control signal b is output at predetermined time intervals T until the number of output times of the transmission control signal b reaches a predetermined multiple number N. The simplified portable telephone stores the telephone number of the monitoring means 2 in a memory, makes a call to the monitoring means 2 at the rise of the transmission control signal b, notifies the telephone number of the simplified portable telephone, and then controls the transmission. The telephone is disconnected at the falling of the signal b. Pulse width t _p of the outgoing control signal b
Is set based on the call preparation time, the call time, and the like, and is desirably shortened so as not to adversely affect transmission from other abnormal information transmission means.

In the example described above, in the inspection control, the inspection result is confirmed by displaying the selected transmission tower and the read transmission tower, but the present invention is not limited to this. Instead of giving such a display, for example, the monitoring unit may check the inspection result by comparing the transmission history with the reception history.
Further, in the above example, the transmission tower having the aviation obstruction light was described as a monitoring target, but is not limited thereto.
For example, it is needless to say that the present invention can be applied to other monitoring targets such as monitoring of the water level at each point in a river.

[0027]

As described above, according to the present invention, the abnormality information transmitting means provided for each of the plurality of monitoring targets includes:
In response to an abnormality of the corresponding monitoring target, the telephone number is provided to the monitoring unit via the public telephone network in response to the abnormality of the corresponding monitoring target, and the telephone number is transmitted from the abnormality information transmitting unit. Is given, the monitoring means recognizes the corresponding monitoring target from the given telephone number and reports the abnormality, so that it is possible to quickly recognize the occurrence of the abnormality in the remote monitoring target. It is possible to provide a remote monitoring system which can eliminate the necessity of patrol of a monitoring target for recognizing whether or not an abnormality has occurred, and can achieve maintenance easiness and maintenance cost reduction. it can.

In addition to the above configuration, in response to an external operation, the monitoring means calls a portable telephone or a simplified portable telephone of the abnormality information transmitting means of each monitored object via the public telephone network, thereby providing a corresponding monitoring. Since the target abnormality information transmitting means responds to the test signal given from the called mobile phone or the simplified mobile phone, the telephone number is provided to the monitoring means via the public telephone network, so that the remote location can be monitored. It is possible to check from the monitoring means whether or not the abnormality information transmitting means operates normally without going to the target, and the easiness of the checking work can be greatly improved.

Further, when an abnormality occurs in the corresponding monitoring target, the telephone number is notified a predetermined number of times at predetermined time intervals from the mobile phone or the simplified mobile phone as the abnormality information transmitting means. It is possible to prevent a case where the telephone number is not received by the monitoring unit due to unstable radio wave condition or noise, and it is possible to reliably notify the monitoring unit of the telephone number of the mobile phone or the simplified mobile phone.

Further, the predetermined time interval of the transmission control signal is set so that the transmission from the portable telephone or the simplified portable telephone of the abnormality information transmitting means to be monitored does not overlap.
Since the abnormality information transmission means of each monitoring target is different, even if the transmissions of a plurality of monitoring target mobile phones or simplified mobile phones overlap, the other telephone calls the monitoring means at the end of one connection. Therefore, it is possible to prevent an adverse effect that the monitoring means cannot be notified of the abnormality of the monitoring target.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing an example of an embodiment of the present invention.

FIG. 2 is a block diagram showing an aviation obstacle light control panel and abnormality information transmitting means of FIG. 1;

FIG. 3 is an explanatory diagram of a transmission control signal output from the transmission control device of FIG. 2 in response to a core disconnection signal.

FIG. 4 is an explanatory diagram of an operation of the mobile phone of FIG. 2 in response to a transmission control signal.

FIG. 5 is an explanatory diagram for explaining each relationship of transmission control signals of the transmission control device of FIG. 2 provided in each power transmission tower.

FIG. 6 is an explanatory diagram of a table showing a correspondence relationship between a telephone number of a mobile phone and each power transmission tower of the monitoring computer of FIG. 1;

FIG. 7 is a flowchart of the transmission control device of FIG. 2;

FIG. 8 is a flowchart of the monitoring control of the monitoring computer of FIG. 1;

FIG. 9 is a flowchart of inspection control of the monitoring computer of FIG. 1;

10 is a flowchart of inspection control of the monitoring computer of FIG. 1, which is connected to terminals A and C of the same reference numerals in FIG. 9;

FIG. 11 is a flowchart of inspection control of the monitoring computer of FIG. 1, and is connected to terminals B and D of the same reference numerals in FIGS. 9 and 10;

FIG. 12 is a diagram illustrating an example of a monitoring screen of the monitoring computer of FIG. 1;

FIG. 13 is a diagram showing an example of a disconnection occurrence screen of the monitoring computer of FIG. 1;

FIG. 14 is a view showing an example of an inspection screen of the monitoring computer of FIG. 1;

FIG. 15 is a diagram showing an example of an inspection result screen of the monitoring computer of FIG. 1;

FIG. 16 is an explanatory diagram of a transmission control signal of a transmission control device when a simplified type mobile phone is used.

FIG. 17 is an explanatory diagram of the operation of the simplified portable telephone in response to the transmission control signal of FIG. 16;

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 abnormal information transmitting means 2 monitoring means 3 aviation obstruction light 4 power transmission tower 5 aviation obstruction light control panel 8 public telephone network 9 disconnection detector 10 disconnection signal output relay 12 transmission control device 13 mobile phone 14 transmission / reception device 15 monitoring computer

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Atsushi Yoshida 1-50 Yamanaka-cho, Showa-ku, Nagoya-shi, Aichi Prefecture San-o-cho Yamanaka-cho 302 (72) Inventor Go Tsuyoshi Nakazawa 201 72) Inventor Daisuke Shimohiro 5135-118 Nishishinda, Asahimae-cho, Owariasahi City, Aichi Prefecture (72) Inventor Shingo Hayashi 203, 2-17 Inafuri-dori, Chigusa-ku, Nagoya City, Aichi Prefecture 203 (72) Inventor Kiyonobu Kato Iwakura, Aichi Prefecture 127 Odenji, Ino-cho, Chuo-den Iwakura Apartment 302 (72) Inventor Morito Niwa 74 Ishigane-cho, Meito-ku, Nagoya-shi, Aichi 130 Dormitory Nakaden Fujimori 130 (72) Inventor Koichi Isobe 2 Ogimachi, Meito-ku, Nagoya-shi, Aichi -1 Nishiyama Apartment 7-306 (72) Inventor Minoru Watanabe 885-26 Fujikina, Tsurugashima-shi, Saitama Prefecture (72) Inventor Kazuhiko Fujino 71-4, Daimei-cho, Okazaki-shi, Aichi Prefecture 71-72 (72) Inventor Morita Hiroyuki Saitama Kawagoe-shi Matoba 2003-3 F-term (reference) 5C087 AA02 AA03 AA10 AA19 BB12 BB20 BB52 BB74 CC02 CC51 DD02 DD08 DD20 EE07 EE17 FF01 FF04 FF17 FF19 FF20 FF23 GG11 GG18 GG23 GG29 GG13 GG13 PP03 RR12

Claims (7)

[Claims] 1. An abnormal information transmitting means provided for each of a plurality of monitored objects, and a monitoring means connected to each abnormal information transmitting means via a public telephone network, wherein each abnormal information transmitting means is A telephone or a simplified cellular phone, and in response to the abnormality of the corresponding monitoring target, giving the telephone number of the telephone included in each abnormality information transmitting means to the monitoring means via the public telephone network; However, when a telephone number is given from the abnormality information transmitting means, a corresponding monitoring target is recognized from the telephone number, and an abnormality of the recognized monitoring target is reported. 2. An abnormality control apparatus according to claim 1, wherein each abnormality information transmission means outputs a transmission control signal for controlling off-hook and on-hook of said telephone set a predetermined number of times at predetermined time intervals in response to a corresponding monitoring target abnormality. The telephone set transmits the telephone number the predetermined number of times at the predetermined time interval in response to the transmission control signal of the transmission control apparatus; and the monitoring unit transmits the abnormality information provided for each monitoring target. 2. The remote control system according to claim 1, further comprising a table showing a correspondence relationship between the telephone number of the telephone of the means and each monitored object, based on the table, the monitored object corresponding to the given telephone number is recognized. Monitoring system. 3. An abnormal information transmitting means provided for each of a plurality of monitored objects, and a monitoring means connected to each abnormal information transmitting means via a public telephone network, wherein each abnormal information transmitting means is Having a telephone or a simplified mobile phone, in response to the abnormality of the corresponding monitoring target, giving the telephone number of the telephone provided by each abnormality information transmitting means to the monitoring means via the public telephone network, and from the outside. In response to a test signal given from the telephone when the telephone is called, the telephone number of the telephone is provided to the monitoring unit via the public telephone network, and the monitoring unit receives the telephone number from the abnormality information transmitting unit. When a telephone number is given, a corresponding monitoring target is recognized from the telephone number, and an abnormality of the recognized monitoring target is notified,
A remote monitoring system in which a telephone of the abnormality information transmitting means corresponding to each monitoring target is called via the public telephone network in response to an external operation. 4. An abnormality information transmitting means outputs a transmission control signal for controlling off-hook and on-hook of the telephone set a predetermined number of times at a predetermined time interval in response to an abnormality of a corresponding monitoring target, and outputs the test signal to the test signal. In response to the transmission control signal for outputting the transmission control signal at least once, wherein the telephone responds to the transmission control signal due to an abnormality of a corresponding monitoring target, and the telephone number changes at the predetermined time interval to the predetermined number. The telephone number is transmitted a number of times, and a telephone number is transmitted at least once in response to the transmission control signal by the test signal, and further, the test signal is provided to the transmission control device in response to a call from the monitoring means. The monitoring means indicates the correspondence between the telephone number of the telephone of the abnormality information transmitting means provided for each monitoring target and each monitoring target. 4. The apparatus according to claim 3, further comprising a table for recognizing a monitoring target corresponding to a given telephone number based on the table and calling a telephone of the abnormality information transmitting means corresponding to each monitoring target. Remote monitoring system. 5. The remote monitoring system according to claim 3, wherein the test signal is a call signal of the mobile phone or the simplified mobile phone. 6. The abnormality information transmitting means of each of the monitored objects, wherein the predetermined time intervals of the transmission control signal are different from each other so that transmissions from the abnormal information transmitting means of each of the monitored objects do not overlap. 5. The remote monitoring system according to 2 or 4. 7. The plurality of monitored objects are a plurality of power transmission towers provided with an aviation obstruction light, and the abnormality of the monitored object indicates a disconnection of an aviation obstruction light provided from an aviation obstruction light control panel of each power transmission tower. The remote monitoring system according to any one of claims 1 to 6, which is a disconnection signal.