JP2011095848A - Accident prevention monitoring control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an accident prevention monitoring control system for avoiding an accident while notifying an operator that it is close to a dangerous distance, and for, even when the worst case (vehicle body contact) occurs, preventing it from expanding to a significant accident. <P>SOLUTION: This monitoring control device 7 is provided with: a location information acquisition means 11 for acquiring location information related with a crane truck 8 obtained based on a signal from a GPS satellite 5; a transmission line information storage means 12 for storing information related with a transmission line located within the prescribed range of the crane truck 8; a collation means 13 for collating location information related with the crane truck 8 with location information related with the transmission line 3; an isolation distance determination means 14 for determining the isolation distance of the crane truck 8 and the transmission line 3 based on the collation result of the collation means 13; a warning issuing means 15 for issuing a warning to the crane truck 8 when the isolation distance determined by the isolation distance determination means 14 is shorter than a prescribed safety distance; and an automatic restoration device control means 18 for controlling the propriety of the use of the automatic restoration device. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an accident prevention monitoring control system, and more specifically, detects that a monitoring object has approached a dangerous distance of a transmission line, issues an alarm to the monitoring object, and uses an automatic recovery device. The present invention relates to an accident prevention monitoring control system that stops.

In order to efficiently transmit power over a long distance, the power generated at the power plant is sent to a transmission line that is boosted to an ultra-high voltage and hung on a transmission tower. When a crane is used for the work performed around the transmission line, there is a concern about a contact accident between the crane and the transmission line. Conventionally, when working on a crane under a power transmission line, a power line automatic recovery device (automatically stops power transmission to the power transmission line when a power transmission line accident is detected) according to the contact / request from the operator. The device that automatically starts transmission to the transmission line at the time of recovery is not used, and the automatic recovery device for the transmission line is made usable after visually confirming the recovery of the accident contents. However, if the operator forgets to contact the electric power company or if the operator carries out deliberate unannouncement, if a contact accident with the transmission line occurs, the automatic transmission line recovery device operates and temporarily transmits power. Although it was cut off, there was a case where power was transmitted again to the transmission line, leading to a major accident.
Therefore, in order to prevent these accidents, Patent Document 1 discloses an alarm device that automatically issues an approach alarm when a heavy work machine such as a crane approaches a certain distance from a transmission line. Yes. In Patent Document 2, the approach distance between the crane and the power transmission line is calculated based on the data measured by GPS in the horizontal direction and the infrared sensor in the vertical direction, and an alarm is given if the approach distance falls within the danger range. Is disclosed.

JP 2005-182667 A JP 2007-145518 A

However, both of the prior arts described in Patent Documents 1 and 2 issue an alarm when the crane approaches the power transmission line, but if the operator is not aware or if it is ignored consciously, There is a problem that it is impossible to prevent a contact accident.
The present invention has been made in view of such a problem, and calculates a separation distance from a power transmission line based on position information of a monitoring object by GPS and issues an alarm when the monitoring object approaches a dangerous distance. By not using the automatic power transmission line recovery device, the operator is informed that the danger distance has been approached and is avoided, and even when the worst situation (contact accident) occurs, it is prevented from expanding into a serious accident. An object is to provide an accident prevention monitoring control system.
Another object is to forcibly stop the movement of the object to be monitored and to prevent the accident from spreading when the alarm is not noticed.

In order to solve this problem, the present invention provides a position information acquisition means for acquiring position information related to a monitoring object obtained based on a signal from a GPS satellite, and a predetermined range of the monitoring object. A transmission line information storage unit that stores information relating to a transmission line located within, a position information related to a monitoring object acquired by the position information acquisition unit, and a transmission line obtained from the transmission line information storage unit Collation means for collating position information, separation distance determination means for determining a separation distance between the monitoring object and the power transmission line based on a collation result by the comparison means, and a separation distance determined by the separation distance determination means Alarm transmission means for issuing an alarm to the monitored object when the distance corresponds to a dangerous distance shorter than a predetermined safety distance, and power transmission to the transmission line automatically when an accident in the transmission line is detected The And an automatic recovery device control means for controlling availability of the automatic recovery device that automatically starts transmission to the power transmission line at the time of recovery, and a control means for controlling the respective means, the control means If the separation distance determination means determines that the separation distance is within the danger distance, the alarm transmission means issues an alarm to the monitored object and the time within the danger distance is The automatic recovery device control means stops the use of the automatic recovery device when it is determined that it has continued for a predetermined time.
In the present invention, the position of the monitoring object is detected by GPS, and the distance between the two is determined by comparing with the previously stored position information of the transmission line. As a result, when the distance between the two reaches a dangerous distance, an alarm is issued to the monitored object. Up to this point, it is known as prior art, but in the present invention, further, an alarm is issued and the automatic power transmission line recovery device is disabled to prevent reaching a serious accident even in the worst case (contact accident). To do. As a result, it is possible to notify the operator that the dangerous distance is approached and to avoid an accident, and to prevent a serious accident in advance.

According to a second aspect of the present invention, the monitoring object is provided with a movement stop means for stopping the movement of the monitoring object by receiving a stop signal, and the control means further includes a stop signal transmission means for transmitting the stop signal. And when the separation distance determination means determines that the separation distance is within the danger distance, the alarm transmission means issues an alarm to the monitored object and the stop signal transmission means causes the stop signal Is sent to stop the monitoring object.
In construction sites, the operator may not be aware of the alarm due to the surrounding noise. In such a case, the operator is unaware that the object to be monitored is approaching the transmission line, and in the worst case, a contact accident with the transmission line may occur. Therefore, in the present invention, a movement stop means that stops when the monitoring object receives a stop signal in advance is provided, and when an alarm is issued, the movement of the monitoring object is forcibly stopped by issuing a stop signal. Thereby, even when the operator does not notice that the alarm has been issued, the worst situation can be avoided.

According to a third aspect of the present invention, the control means includes display means for displaying a positional relationship between the monitoring object and the power transmission line, and the display means when the separation distance determination means starts the determination of the separation distance. The positional relationship between the monitored object and the power transmission line is displayed on the screen.
The monitoring control system can acquire the positional relationship between the monitoring object and the power transmission line based on the positional information from the GPS satellite. Therefore, the information can be displayed on the display and visually monitored in real time. Moreover, since it can be determined from the position information whether or not the monitoring object is located within the safe distance, each state can also be displayed by color. Thereby, the monitoring person can monitor the display content and give an instruction to the monitoring object.

According to a fourth aspect of the present invention, when the control means determines that the separation distance is within a safety distance by the separation distance determination means, and determines that the time located at the safety distance has continued for a predetermined time, The use of an automatic recovery device is started.
The automatic recovery device automatically shuts off power transmission when an abnormality occurs in the transmission line, and automatically recovers when the abnormality is canceled. Therefore, if the automatic recovery device is left unused, inconvenience will occur. Therefore, in the present invention, when the monitoring object is confirmed to be located at a safe distance for a predetermined time, the automatic recovery device is used. To start. Thereby, the use of the automatic recovery device can be effectively used when necessary.

According to a fifth aspect of the present invention, the monitoring object is a crane, a heavy machine, or a helicopter.
The transmission line is supported by a high steel tower in consideration of safety in order to flow high-voltage power. Therefore, even if a general vehicle, a work vehicle, etc. pass just under a power transmission line, it is installed in the height which does not have any trouble. However, for a vehicle having a structure extending upward such as a crane, there is a risk that the tip of the crane may come into contact with the power transmission line in some cases. It is also conceivable that a heavy machine contacts the steel tower and destroys the steel tower. Furthermore, helicopters that fly above the ground as well as vehicles that travel on the ground have a further risk of contact accidents with power transmission lines. Therefore, in the present invention, these cranes, heavy machinery, or helicopters are targeted as monitoring objects. Thereby, it can apply as a system which monitors the contact accident of a power transmission line in a wide field.

According to a sixth aspect of the present invention, the separation distance between the monitoring target that the warning transmission means issues a warning and the transmission line is determined by the high-voltage class of the transmission line.
For example, high-voltage currents of 22 KV, 66 KV, 110 KV, and 220 KV flow through the transmission line, and these are called various high-voltage classes. That is, the higher the high voltage class, the higher the voltage, and the greater the separation distance. Therefore, in the present invention, the isolation distance is determined by the high voltage class of the transmission line. Thereby, the isolation distance suitable for the high-pressure class can be set.

According to the present invention, the position of an object to be monitored is detected by GPS, the distance between both is determined by comparing with the previously stored position information of the transmission line, a warning is issued, and the automatic transmission line restoration device cannot be used. As a result, even if the worst situation (contact accident) occurs, a serious accident is prevented, so that the operator is informed that he is approaching a dangerous distance to avoid the accident and prevent a serious accident in advance. can do.
In addition, the monitoring object is provided with a movement stopping means that stops when a stop signal is received in advance, and when an alarm is issued, the movement of the monitoring object is forcibly stopped by issuing a stop signal. Even if the user is not aware that the alarm has been issued, the worst situation can be avoided.
In addition, it can be displayed on the display from the position information and visually monitored in real time, and it can be determined from the position information whether the monitored object is located within the safe distance. Since it can also be displayed separately, the monitor can monitor the display content and give an instruction to the monitored object.
In addition, when it is confirmed that the monitoring object is located at a safe distance for a predetermined time, the use of the automatic recovery device is started, so that the use of the automatic recovery device can be effectively used when necessary.
Moreover, since a crane, a heavy machine, or a helicopter is targeted as a monitoring object, it can be applied as a system for monitoring a contact accident of a transmission line in a wide range of fields.
Moreover, since the isolation distance is determined by the high-voltage class of the transmission line, it is possible to set an isolation distance suitable for the high-voltage class.

It is a schematic diagram which shows typically the structure of the accident prevention monitoring control system which concerns on embodiment of this invention. It is a block diagram which shows the structure of the monitoring control apparatus which concerns on this invention. It is a flowchart explaining operation | movement of the monitoring control system which concerns on this invention. It is a figure explaining the example of a display displayed on the monitoring monitor.

  Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. However, the components, types, combinations, shapes, relative arrangements, and the like described in this embodiment are merely illustrative examples and not intended to limit the scope of the present invention only unless otherwise specified. .

  FIG. 1 is a schematic diagram schematically showing a configuration of an accident prevention monitoring control system according to an embodiment of the present invention. This accident prevention monitoring control system (hereinafter simply referred to as a monitoring control system) 100 includes a GPS satellite 4, a communication satellite 23, a power plant 1, a power transmission tower 2, a power transmission line 3, a substation 6 having an automatic recovery device, and a crane vehicle. (Monitoring object) 8 and an accident prevention monitoring control device (hereinafter simply referred to as a monitoring control device) 7, and the electric power generated from the power plant 1 passes through the transmission line 3 laid on the transmission tower 2. Is sent to the substation 6 where the voltage is stepped down and further sent to each customer via the transmission line. Although not shown in the substation, automatic transmission that automatically stops transmission to the transmission line when an accident in the transmission line 3 is detected and automatically starts charging the transmission line at the time of recovery. A recovery device is provided, and whether or not the automatic recovery device can be used is controlled by the monitoring control device 7. This embodiment demonstrates the case where it monitors so that the crane vehicle 8 and the power transmission line 3 which are working around the power transmission line 3 may not cause a contact accident. The crane vehicle 8 includes an antenna 9 for performing communication between the GPS satellite 4 and the communication satellite 23, a GPS receiver for calculating position information, and a movement stop means for stopping movement by receiving a stop signal. The monitoring control device 7 includes an antenna 5 for performing communication between the GPS satellite 4 and the communication satellite 23.

Next, a schematic operation of the monitoring control system 100 will be described. It is assumed that the crane vehicle 8 has received an application for construction from an electric power company that manages the transmission line 3 in advance. In addition, the electric power company receives the construction schedule from the construction requester and gives approval. The crane vehicle 8 receives a GPS signal from the GPS satellite 4, calculates position information of the crane vehicle 8 by a GPS receiver, and transmits the position information to the monitoring controller 7 via the antenna 9 by the communication satellite 23. . The monitoring control device 7 compares the position information with the position information of the power transmission line stored in the database, and calculates the separation distance between the power transmission line 3 and the crane vehicle 8. If it is determined that the separation distance is less than the safe distance, the monitoring control device 7 transmits an alarm signal to the communication satellite 23 via the antenna 5. As a result, an alarm signal is transmitted from the communication satellite 23 to the crane truck 8, and the crane truck 8 that has received the signal recognizes that it is approaching the power transmission line 3. At the same time, the supervisory control device 7 issues a signal not to use the automatic restoration device to the substation 6.
In this embodiment, the position of the crane vehicle 8 is detected by GPS, and the distance between the two is determined by collating with the position information of the power transmission line 3 stored in advance. As a result, when the distance between the two reaches a dangerous distance, an alarm is issued to the crane vehicle 8. Up to this point, it is known as a prior art, but in this embodiment, further, an alarm is issued and the automatic recovery device for the power transmission line 3 is disabled, so that even when the worst situation (contact accident) occurs, it is expanded to a serious accident. This is to prevent this. As a result, it is possible to notify the operator that the dangerous distance is approached and to avoid an accident, and to prevent a serious accident in advance.

  FIG. 2 is a block diagram showing the configuration of the monitoring control apparatus according to the present invention. The monitoring control device 7 acquires position information regarding the crane 5 obtained based on a signal from the antenna 5, the communication unit 10 that communicates with the GPS satellite 4 and the communication satellite 23, and a signal from the GPS satellite 5. Position information acquisition means 11, power transmission line information storage means 12 storing information relating to power transmission lines located within a predetermined range of the crane vehicle 8, position information relating to the crane vehicle 8 acquired by the position information acquisition means 11, and Collating means 13 for collating position information related to the power transmission line 3 obtained from the power transmission line information storing means 12, and a separation for calculating the separation distance between the crane vehicle 8 and the power transmission line 3 based on the collation result by the collating means 13. A distance determination means 14; an alarm transmission means 15 for issuing an alarm to the crane 8 when the separation distance determined by the separation distance determination means 14 is shorter than a predetermined safety distance; and a power transmission line Automatic restoration device control means 18 for automatically controlling the availability of the automatic restoration device that automatically stops the transmission to the transmission line 3 when the accident is detected and automatically starts charging the transmission line 3 at the time of restoration. A monitoring monitor (display means) 19 for displaying the positional relationship between the crane vehicle 8 and the power transmission line 3, a stop signal transmission means 17 for transmitting a stop signal, a control section (control means) 16 for controlling each means, It is configured with.

  FIG. 3 is a flowchart for explaining the operation of the supervisory control system according to the present invention. First, the communication unit 10 receives position information of the crane vehicle 8 from the communication satellite 23 and inputs it to the position information acquisition unit 11 (S1). The control unit 16 collates the position information of the power transmission line 3 stored in the power transmission line information storage unit 12 with the position information of the crane vehicle 8 acquired by the position information acquisition unit 11 by the verification unit 13 (S2). The collating means 13 retrieves and collates the closest position information of the power transmission line 3 from the position information of the crane vehicle 8. Then, the separation distance between the two is calculated by the separation distance determination means 14 from the collation result, and the calculation result is passed to the control unit 16 (S3). At the same time, the control unit 16 converts the positional relationship between the power transmission line 3 and the crane truck 8 into display data and displays it on the monitor 19 (S4).

And it is judged from the calculation result whether the separation distance of the power transmission line 3 and the crane vehicle 8 is a safe distance (S5). If it is within the safe distance (Y in S5), the process returns to Step S1 and repeats the operation. If it is outside the safe distance (N in S5), the alarm transmission means 15 is instructed to issue an alarm (S6). ). The alarm transmission means 15 transmits an alarm from the antenna 5 to the communication satellite 23 via the communication unit 10, and is transmitted from the communication satellite 23 to the crane vehicle 8. The crane 8 that has received the signal recognizes that it is approaching the power transmission line 3 by an alarm. In addition, the control unit 16 determines whether or not the alarming time has continued for a predetermined time (S7), and confirms that the predetermined time has continued (Y in S7). Regardless, it is determined that it is not separated from the power transmission line 3, and the automatic restoration device control means 18 transmits a signal not to use the automatic restoration device provided in the substation (S8). Further, when a signal not to use the automatic recovery device is transmitted, a stop signal for forcibly stopping the crane vehicle 8 may be transmitted from the stop signal transmitting means 17 via the communication unit 10 (S9). ).
That is, at a construction site or the like, the operator may not be aware of the alarm due to the surrounding noise. In such a case, the operator does not notice that the crane vehicle 8 is approaching the power transmission line 3, and in the worst case, a contact accident with the power transmission line 3 may occur. Therefore, in this embodiment, the crane vehicle 8 is provided with a movement stop means that stops when a stop signal is received in advance, and when a warning is issued, a stop signal is issued to forcibly stop the movement of the crane vehicle 8. . Thereby, even when the operator does not notice that the alarm has been issued, the worst situation can be avoided.

The power transmission line 3 is supported by the high steel tower 2 in consideration of safety in order to flow high-voltage power. Therefore, even if a general vehicle, a work vehicle, etc. pass right under the power transmission line 3, it is installed in the height which does not have any trouble. However, for a vehicle having a structure extending upward such as a crane, there is a risk that the tip of the crane may come into contact with the power transmission line 3 in some cases. It is also conceivable that the heavy machinery contacts the steel tower 2 and destroys the steel tower 2. Furthermore, helicopters that fly above the ground as well as vehicles that move on the ground have a further risk of contact accidents with the power transmission line 3. Therefore, in this embodiment, these crane vehicles 8, heavy machinery, or helicopters are targeted as monitoring objects. Thereby, it can apply as a system which monitors the contact accident of the power transmission line 3 in a wide field | area.
Further, for example, high-voltage currents of 22 KV, 66 KV, 110 KV, and 220 KV flow through the power transmission line 3, and these are called various high-voltage classes. That is, the higher the high voltage class, the higher the voltage, and the greater the separation distance. Therefore, in this embodiment, the isolation distance is determined by the high voltage class of the transmission line 3. Thereby, the isolation distance suitable for the high-pressure class can be set.

  FIG. 4 is a diagram for explaining a display example displayed on the monitor 19. In this example, the identification number (1-6) is attached to the steel tower 20 (round shape), and the system of the power transmission line 22 that connects the steel towers is displayed. In this example, the monitoring object 21 is displayed on the power transmission line between the steel towers 2 and 3. That is, the monitoring control system 100 can acquire the positional relationship between the crane vehicle (monitoring object 21) 8 and the power transmission line 3 based on the positional information from the GPS satellite 4. Therefore, the information can be displayed on the monitor 19 and visually monitored in real time. Moreover, since it can be determined from the position information whether the crane vehicle 8 is located within the safe distance, each state can also be displayed by color. Thereby, the monitor can monitor the display content and give an instruction to the crane vehicle 8.

  DESCRIPTION OF SYMBOLS 1 Power station, 2 Transmission tower, 3 Transmission line, 4 GPS satellite, 5 Antenna, 6 Substation, 7 Surveillance control device, 8 Crane, 9 Antenna, 10 Communication part, 11 Location information acquisition means, 12 Transmission line information storage Means, 13 collating means, 14 separation distance judging means, 15 alarm sending means, 16 control unit, 17 stop signal sending means, 18 automatic recovery device control means, 19 monitoring monitor, 20 steel tower, 21 monitored object, 22 power transmission line, 100 Supervisory control system

Claims (6)

Position information acquisition means for acquiring position information relating to a monitoring object obtained based on a signal from a GPS satellite, and transmission line information storage for storing information relating to a transmission line located within a predetermined range of the monitoring object A collation means for collating the position information related to the monitoring object acquired by the position information acquisition means with the position information related to the transmission line obtained from the transmission line information storage means, and a collation result by the collation means A separation distance determination means for determining a separation distance between the monitoring object and the power transmission line based on the distance, and a separation distance determined by the separation distance determination means corresponds to a dangerous distance shorter than a predetermined safety distance Alarm transmission means for issuing an alarm to the monitored object, and power transmission to the power transmission line is automatically stopped when an accident in the power transmission line is detected, and power transmission to the power transmission line is automatically performed at the time of recovery Start An automatic recovery device control means for controlling the availability of the automatic recovery device that, and a control means for controlling said each means,
When the separation distance determination means determines that the separation distance is within the danger distance, the control means issues an alarm to the monitoring object by the alarm transmission means and is positioned within the danger distance. An accident prevention monitoring control system characterized in that the automatic recovery device control means stops the use of the automatic recovery device when it is determined that the operation time has continued for a predetermined time.   The monitoring object is provided with movement stop means for stopping movement of the monitoring object by receiving a stop signal, and the control means further comprises stop signal transmission means for transmitting the stop signal, and the separation distance When the determination means determines that the separation distance is within the danger distance, the alarm transmission means issues an alarm to the monitored object, and the stop signal transmission means transmits the stop signal to the monitoring object. The accident prevention monitoring control system according to claim 1, wherein the monitoring object is stopped.   The control means includes display means for displaying a positional relationship between the monitoring object and the power transmission line, and the monitoring object is displayed on the display means when the separation distance determination means starts the determination of the separation distance. The accident prevention monitoring control system according to claim 1, wherein a positional relationship between the power transmission line and the power transmission line is displayed.   When the control means determines that the separation distance is within the safety distance by the separation distance determination means and determines that the time located at the safety distance has continued for a predetermined time, the use of the automatic recovery device The accident prevention monitoring control system according to claim 1, wherein the accident prevention monitoring control system is started.   The accident prevention monitoring control system according to any one of claims 1 to 4, wherein the monitoring object is a crane, a heavy machine, or a helicopter.   The accident according to any one of claims 1 to 4, wherein a separation distance between an object to be monitored by the alarm transmission means and the transmission line is determined by a high voltage class of the transmission line. Prevention monitoring control system.

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