JP2011197979A - Watch timer reset output method, and output device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem wherein reset button depression that is a watch timer reset signal output method for a bridge navigation watch alarm system (BNWAS), and an navigation equipment operation, are working loads for a person on duty, and a problem wherein an infrared sensor can not monitor an unmanned operation state when the person on duty swoons.SOLUTION: This output device or the like is constituted of three which are a sensor A for detecting the person in duty at a usual time, a sensor B for detecting the swoon person on duty when the person on duty falls into a swoon, and a control part for a watch timer reset output for controlling the watch timer reset output and an output, the person on duty is determined to be under normal working, when the person on duty is detected by the sensor A and not detected by the sensor B, to output a watch timer reset signal from the control part, the person on duty is determined to fall into swoon, to get into the unmanned operation state, in a case other than the case determined under the normal working, and the control part does not output the watch timer reset signal.

Description

The present invention relates to an apparatus and method for outputting a watch timer reset signal to a BNWAS using a weight sensor.

The BNWAS (Bridge Navigation Watch Alarm System) avoids unmanned driving due to sleep on duty or mental and physical accidents at the time of navigation on duty, or generates an alarm for some reason such as excessive work load. This is a system that automatically transfers an alarm to a place where there is a captain's room or a reserved crew when it is incapable of dealing with it (Non-Patent Document 1).

With respect to the operation of BNWAS, a conventional method is shown in FIG.

The watcher can output the watch timer reset signal from the watch timer reset signal generator 101 in a certain way within a certain period of time so that it is not in an unmanned operation state or an overworked state in the place where the captain's room or the crew of the reserve is located. I need to inform you.

Conventional output timing of the watch timer reset signal is, for example, when the reset button 103 is dropped, when the navigation device 105 is operated, when the duty is recognized by the infrared sensor 107, or the like.

While the watch timer reset signal is not output, the value indicated by the one-touch counter continues to decrease (step 109), and when the value indicated by the counter becomes 0 (step 111), an alarm is generated (step 113).

When the one-touch timer reset signal is output, the one-touch counter is initialized (step 115), and the decrease of the value indicated by the counter is started again (step 117).

BNWAS performance standards IMO MSC128 (75)

The conventional watch timer reset signal output method, such as reset button dropping and navigation device operation, has a problem that it becomes a work load of the watchmaker, and the infrared sensor cannot monitor the unmanned operation state when the watchmaker is overwhelmed.

In order to solve the above problems, the present invention provides:
In the watch timer reset method for outputting a watch timer reset signal to BNWAS,
Sensor A for detecting the person on duty at normal time, sensor B for detecting the person on duty who has fallen over when the person on duty is overturned, and a control unit for watch timer reset output for controlling the watch timer reset output and output It consists of three,
When the person on duty is detected by the sensor A and not detected by the sensor B, it is determined that the person on duty is in normal operation, and the control unit outputs a watch timer reset signal,
The control unit does not output a watch timer reset signal by judging that the person on duty is overturned and is in an unattended operation state except when it is determined that the normal operation is being performed,
This is a watch timer reset method.

Further, the present invention is the watch timer reset device characterized in that the sensor A and the sensor B are weight sensors, and the sensor B is provided so as to surround the sensor A.

In the watch timer reset device according to the present invention, the sensor A is an infrared sensor and the sensor B is a weight sensor.

As described above, the sensor A for detecting the person on duty at the normal time and the weight sensor B for detecting the person on duty at the time of overturning the person on duty are provided. If the watcher is detected by the sensor A and not detected by the sensor B, a watch timer reset signal is output. If the watcher is detected by the sensor A but not detected by the sensor B, the watch timer reset signal is not output.

Unlike reset button dropping and navigation device operation, the watch timer reset signal is output just by standing in front of the navigation device, so it does not become the work load of the watch person. Unlike the infrared sensor, the watch timer reset contact signal is not output when the supervisor is overwhelmed, so the unattended operation status can be monitored.

It is a figure regarding the operation | movement of the conventional BNWAS. It is a figure regarding operation | movement at the time of providing the sensor B so that the circumference | surroundings of the sensor A may be enclosed using the weight sensor for both sensors A and B. It is a figure regarding operation | movement at the time of using an infrared sensor for sensor A and using a weight sensor for sensor B. 1 is a watch timer reset device according to the present invention.

In the following, preferred embodiments of the present invention will be described with reference to the drawings.

  The present invention is characterized in that a sensor A and a sensor B are used as the devised sensor 401 as shown in FIG. 4 with respect to the infrared sensor 107 for recognizing the presence of a person on duty in FIG.

As a first embodiment, a case where the sensors A and B are both weight sensors as shown in FIG. 2 and the sensor B is provided so as to surround the sensor A will be described.

The person on duty performs a duty on the sensor A and does not get on the sensor B. In this state, only the sensor A recognizes the person on duty, and as shown in the operation table of the control unit, the sensor A is ON, the sensor B is OFF, and a watch timer reset is output.

If the person on duty falls over and falls over the sensors A and B, both the sensor A and the sensor B recognize the person on duty, and the sensors A and B as shown in the operation table of the control unit. Both are ON and the watch timer is not reset.

Further, when the person in charge of the duty is away from the sensor A and above the sensor B, only the sensor B recognizes the person on duty, and as shown in the operation table of the control unit, the sensor A is OFF, the sensor B Is ON and the watch timer is not reset.

  Similarly, when the on-duty state of the person on duty is away from both the sensor A and the sensor B, neither the sensor A nor the sensor B can recognize the person on duty, and the sensor A and the sensor B as shown in the operation table of the control unit. Is also OFF, and the watch timer is not reset.

  As described above, in the state where the person on duty is overwhelmed, step 109 in FIG. 1 continues for a certain period of time, so the watch timer counts to 0 (step 111) and an alarm is generated (step 113).

Next, as a second embodiment, a case will be described in which an infrared sensor is used as the sensor A and a weight sensor surrounding the area detected by the sensor A is used as the sensor B as shown in FIG.

The person on duty performs a duty in the detection area of the sensor A and does not get on the sensor B. In this state, only the sensor A recognizes the person on duty, and as shown in the operation table of the control unit, the sensor A is ON, the sensor B is OFF, and a watch timer reset is output.

If the person on duty falls over and falls over the recognition range of sensor A and sensor B, both sensor A and sensor B will recognize the person on duty and sensor A as shown in the operation table of the control unit. And sensor B are both ON, and the watch timer is not reset.

Furthermore, when the person who is on duty is away from the recognition range of sensor A and is above sensor B, only sensor B recognizes the person on duty and sensor A is turned off as shown in the operation table of the control unit. Sensor B is ON and the watch timer is not reset.

  Similarly, if the person who is on duty is far from both the recognition range of sensor A and sensor B, neither sensor A nor sensor B can recognize the person on duty, and as shown in the operation table of the control unit, sensor A Sensor B is also OFF, and the watch timer is not reset.

  As described above, in the state where the person on duty is overwhelmed, step 109 in FIG. 1 continues for a certain period of time, so the watch timer counts to 0 (step 111) and an alarm is generated (step 113).

  In the present invention, the structures and methods of the infrared sensor and the weight sensor are not limited at all.

  In the present invention, the shape and size of the regions of the sensor A and the sensor B are not limited at all.

101 ... watch timer reset signal generator,
103 ... Reset button, 105 ... Navigation equipment, 107 ... Infrared sensor,
401: A sensor according to the present invention.

Claims (3)

In the watch timer reset method for outputting a watch timer reset signal to BNWAS,
Sensor A for detecting the person on duty at normal time, sensor B for detecting the person on duty who has fallen over when the person on duty is overturned, and a control unit for watch timer reset output for controlling the watch timer reset output and output It consists of three,
When the person on duty is detected by the sensor A and not detected by the sensor B, it is determined that the person on duty is in normal operation, and the control unit outputs a watch timer reset signal,
The control unit does not output a watch timer reset signal by judging that the person on duty is overturned and is in an unattended operation state except when it is determined that the normal operation is being performed,
Watch timer reset method. The watch timer reset device according to claim 1, wherein the sensor A and the sensor B are weight sensors, and the sensor B is provided so as to surround the sensor A. The watch timer reset device according to claim 1, wherein the sensor A is an infrared sensor and the sensor B is a weight sensor.