KR102210786B1 - Monitoring system of work environment using sound quality camera and position information system of crew and method thereof - Google Patents

Abstract

Disclosed are a noise monitoring system for a working environment using an acoustic camera and a crew location information system, and a ship or offshore structure including the same. A noise monitoring system for a work environment using an acoustic camera and a crew location information system according to an embodiment of the present invention is arranged in a work area where equipment or facilities are located, and is provided to detect noise in a space where the equipment or facilities are arranged. An acoustic camera; And it is connected to the acoustic camera and collects the noise value according to the time of the work area from the acoustic camera, collects the noise average value according to the exposure time of the noise for each worker entering the work area, and the average noise value of the worker is It includes a noise control unit provided to provide an alarm to the operator when it is more than a predetermined noise reference value to the operator.

Description

Noise monitoring system and method of working environment using acoustic camera and crew location information system {MONITORING SYSTEM OF WORK ENVIRONMENT USING SOUND QUALITY CAMERA AND POSITION INFORMATION SYSTEM OF CREW AND METHOD THEREOF}

The present invention relates to a noise monitoring system and method for a work environment using an acoustic camera and a crew location information system, and to a ship or offshore structure including the same, and more particularly, to a facility of a ship or offshore structure using an acoustic camera, The present invention relates to a noise monitoring system and method of a work environment using an acoustic camera for monitoring equipment and the presence or absence of an abnormality on a worker and a crew location information system, and a ship or offshore structure including the same.

The development of global resource development technology and the recognition of the importance of marine resources have led to continuous development in the offshore plant field. As the drilling work of energy resources, which was performed only on land, gradually became possible to realize coastal, coastal to sea, and deep deep sea areas, many drilling equipments have been newly developed.

For the development of such marine resources, special ships or offshore structures equipped with drilling drills have been developed. Among these, the Drillship has established itself as one of the most essential drilling rigs for offshore drilling.

In addition, as the role of drilling ships has become increasingly important, such as the development of drilling ships for special purposes such as icebreakers capable of drilling in ice regions, the development of drilling ships with additional special functions is continuing.

Unlike general ships, drilling ships are equipped with search and drilling equipment, so they can search the continental shelf or deep sea floor, which has a high possibility of burying resources, and are capable of mining minerals or crude oil buried in the area through the bottom of the sea.

Recent drilling vessels are equipped with advanced drilling equipment capable of developing energy resources such as crude oil, natural gas, and gas hydrates in deep bottom regions, as well as so-called drillships that can navigate on their own power like a general ship ( drill ship).

This drilling vessel is equipped with a drill pipe for drilling. The drill pipe can perform drilling work on the submarine ground using a drill bit and fluid mud coupled to the lower end.

In addition, in order to monitor whether the drill pipe is operating normally or if there are signs of failure, an acoustic camera is installed on the drilling vessel to monitor the operation status of the drill pipe by collecting sound from the operating area of the drill pipe near the drill pipe. Can be.

However, the existing surveillance system using an acoustic camera as described above for equipment or facilities that can generate noise, such as a drill pipe, collects the sound of the work area in which the equipment or facility is located to check whether the equipment or facility is abnormal. Since it is just grasping, there was a negligible aspect of noise monitoring for workers.

Korean Patent Application No. 10-2009-53780

According to an embodiment of the present invention, noise exposure to workers is monitored based on noise generated from equipment or facilities mounted on a ship or an offshore structure and location recognition information of workers to prevent the harmful effects of noise to workers. It is intended to provide a noise monitoring system and method for a working environment using an acoustic camera and a crew location information system, and a ship or offshore structure including the same.

According to an aspect of the present invention, there is provided an acoustic camera disposed in a work area in which equipment or facilities are located, and configured to detect noise in a space in which the equipment or facilities are disposed; And a noise value according to time of the work area is collected from the sound camera by being connected to the sound camera, and a noise average value according to the exposure time of the noise for each worker entering the work area is collected, and the When the average noise value of the worker is more than the noise reference value predetermined to the worker, the noise monitoring system of the work environment using an acoustic camera including a noise control unit provided to provide an alarm to the worker and a crew location information system Can be provided.

It may further include a location recognition unit disposed on the worker to provide the location information of the worker arranged in the work area of the equipment or facility to the noise control unit.

An alarm unit connected to the noise control unit and capable of providing the alarm may be further included.

In the noise control unit, a noise reference value is stored, and the noise average value and the noise reference value are defined as an average value obtained by dividing an integral value of noise for the work area over time by time, and the noise reference value Silver, may be provided according to each worker according to the work environment.

The noise control unit includes: a remote server disposed in a plurality of work areas corresponding to the sound camera; And a central control server connected to the remote server so as to transmit/receive with the remote server respectively disposed in the plurality of work areas, wherein at least one of the remote server and the central control server comprises the worker from the location recognition unit It is provided to be able to collect the location information of, and may be provided to generate a signal that provides the alarm.

At least one of the remote server and the central control server is the plurality of tasks based on data on corresponding noise values and location information from the acoustic camera and the location recognition unit respectively disposed in the plurality of work areas The noise exposure value and the noise exposure time for each worker in the area are stored, and the noise average value is calculated based on the noise exposure value and the noise exposure time, and the noise average value for the worker is the noise standard When the value is greater than or equal to the value, it may be provided to provide the alarm unit with an alarm signal for avoidance from the work area to the operator.

The location recognition unit may be provided to include a card-type tag that detects location information at the entrance of the work area or a GPS recognizer that receives location information from a satellite.

The acoustic camera may be provided to collect acoustic signals related to pressure fluctuations or sound density.

According to another aspect of the present invention, the noise control unit stores the noise value of the work area, the noise exposure value for the worker disposed in the work area, and the noise exposure time by the acoustic camera, and at the same time, Calculating an average noise value for the worker based on the noise exposure value for the worker and the noise exposure time for the worker; The noise control unit proceeds to the next step when the noise average value for the worker is equal to or greater than the noise reference value predetermined for the worker, otherwise proceeds to the previous step again; And providing, by the noise control unit, an alarm for avoidance from the work area to the worker when the average noise value for the worker is greater than or equal to a predetermined noise reference value for the worker.

It may further include the step of collecting the location information of the worker by the location recognition unit disposed on the worker.

The noise control unit includes: a remote server disposed in the plurality of work areas corresponding to the sound camera; And a central control server connected to the remote server so as to transmit/receive with the remote server respectively disposed in the plurality of work areas, wherein at least one of the remote server and the central control server comprises the worker from the location recognition unit It is possible to collect the location information of and generate a signal that provides the alarm.

The remote server checks the noise value of each work area and the noise exposure time of the worker by the acoustic camera and transmits it to the central control server, and the central control server makes noise for the workers in each work area. Based on the exposure value and the exposure time of the noise to the worker, the noise average value for the worker is calculated, and the central control server, wherein the noise average value among the plurality of work areas is greater than or equal to a noise reference value predetermined for the worker. A signal may be transmitted to the remote server to provide an alarm for avoidance from the work area to an operator in the work area.

As the location recognition unit, a card-type tag that detects location information at the entrance of the work area or a GPS recognizer that receives location information from a satellite is used, and the remote server includes pressure fluctuations or sound density from the acoustic camera. It can be used to collect related acoustic signals.

According to another aspect of the present invention, there may be provided a ship or offshore structure including a noise monitoring system of a working environment using the acoustic camera and a crew location information system.

According to an embodiment of the present invention, noise exposure to workers is monitored based on noise generated from equipment or facilities mounted on a ship or offshore structure and location recognition information of workers to prevent the harmful effects of noise to workers. It is possible to provide a noise monitoring system and method of a working environment using a sound camera and a crew location information system, and a ship or offshore structure including the same.

1 is a block diagram of a noise monitoring system in a work environment using an acoustic camera and a crew location information system according to an embodiment of the present invention.
2 is a flow chart of a method for monitoring noise in a work environment using an acoustic camera and a crew location information system according to an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described with reference to specific embodiments shown in the accompanying drawings. Differences in the embodiments of the present invention to be described later should be understood as matters that are not mutually exclusive. That is, without departing from the spirit and scope of the present invention, specific shapes, structures, and characteristics described may be implemented in other embodiments in relation to one embodiment, and the location of individual components in each disclosed embodiment or It should be understood that the arrangement may be changed, and similar reference numerals in the drawings refer to the same or similar functions over several aspects, and the length, area, thickness, and the like may be exaggerated for convenience.

As shown in FIGS. 1 and 2, the noise monitoring system of a working environment using an acoustic camera and a crew location information system according to an embodiment of the present invention is disposed in a work area with equipment or facilities, and The acoustic camera 100 provided to detect the noise of the arranged space, the acoustic camera 100 is connected to the acoustic camera 100 to collect the noise value according to the time of the work area, and each entering and leaving the work area It includes a noise control unit 101 for collecting the average noise value according to the exposure time of the noise for the operator.

The noise control unit 101 is provided to provide an alarm to the operator when the average noise value of the operator is equal to or greater than a noise reference value predetermined to the operator.

The acoustic camera 100 according to the present embodiment may be disposed in a work space or area where noise and vibration are generated a lot, such as a ship or an offshore structure.

The acoustic camera 100 may detect noise generated in the work area and provide it to the noise control unit 101, and the noise control unit 101 may provide the noise control unit 101 from equipment or facilities disposed in the work area based on the noise value. The operation and working conditions of equipment or facilities can be checked primarily by the generated noise. The acoustic camera 100 may be provided to collect acoustic signals related to pressure fluctuations or sound density.

At this time, when a worker is disposed in the work area to perform work, the worker is exposed to noise and fatigue due to noise may accumulate. For the worker, the standard value of the noise that the worker can receive can be determined. The reference value of this noise may be determined for each area or for each operator's function.

For example, the operator of the power generation room may be determined to receive a maximum of 80 decibels per hour per day. Accordingly, the worker can receive a cumulative noise of 640 decibels based on 8 hours of work per day. In some cases, such a worker may move from the power generation room to the engine room and work.

At this time, when the noise of the engine room measured by the acoustic camera 100 is 100 decibels, the operator is exposed to 100 decibels, and therefore, working for more than 6.4 hours is not allowed in the engine room. When working 6.4 hours in the engine room, the accumulated noise to the worker is 640 decibels, which is the same as the electric leakage noise per day in the power plant.

In addition, the noise exposure value transmitted to the worker may be determined based on the noise value of the work area, and this noise exposure value may be set smaller than the noise value of the work area according to the worker's covering or noise protection equipment.

On the other hand, the location information of the worker may be collected in various ways, and it is possible by image recognition by a camera or by a location recognition function built into a single mobile device as well as an access device disposed at the entrance of the work area.

As described above, the noise monitoring system of the work environment using the acoustic camera and the crew location information system according to the present embodiment, the operator to provide the location information of the worker arranged in the work area of the equipment or facility to the noise control unit 101 It may further include a location recognition unit 120 disposed on.

The location recognition unit 120 may be provided to include a card-type tag 125 for detecting location information at the entrance of the work area or a GPS recognizer 122 for receiving location information from a satellite.

The location recognition unit 120 may provide the work position of the worker to the noise control unit 101, and accordingly, the work time of the worker working in the work area can be calculated, and the worker is exposed to noise based on this The noise exposure time can be calculated.

In addition, the noise control unit 101 can calculate the average noise value of the worker based on the noise exposure value and the noise exposure time according to each work area of the worker, and by using this, the worker in the work area determines the noise determined by the worker. It can be judged whether the reference value has been reached.

At this time, when the noise exposure value and the noise exposure time of the worker whose noise exposure time is monitored by the acoustic camera 100 and the location recognition unit 120 reaches the noise reference value, the noise control unit 101 Alarms can be provided so that they can be avoided in the work area.

To this end, the noise monitoring system of the working environment using the acoustic camera and the occupant location information system according to the present embodiment further includes an alarm unit 140 connected to the noise control unit 101 and capable of providing an alarm. I can.

In the noise control unit 101 according to the present embodiment described above, noise reference values of all workers are stored, and the noise average value and the noise reference value are an average obtained by dividing the integral value of noise for the work area over time by time. It is defined as a value, and the noise reference value may be provided according to each worker according to the work environment.

The noise control unit 101 includes a remote server 112 disposed in a plurality of work areas, respectively, corresponding to the acoustic camera 100, and a remote server to transmit and receive with a remote server 112 disposed in a plurality of work areas, respectively. It includes a central control server 115 connected to 112, at least one of the remote server 112 and the central control server 115 is provided to collect the location information of the worker from the location recognition unit 120, It may be arranged to generate a signal that provides an alarm.

According to the present embodiment, the remote server 112 may collect the worker's location information from the worker's location recognition unit 120 in the work area and provide it to the central control server 115.

At least one of the above-described remote server 112 and the central control server 115 is provided with corresponding noise values and location information from the acoustic camera 100 and the location recognition unit 120 respectively disposed in a plurality of work areas. Based on the data, the noise exposure value and noise exposure time for each worker in a plurality of work areas are stored, and the average noise value is calculated based on the noise exposure value and the noise exposure time. In the case of more than the noise reference value, it may be provided to provide an alarm signal to the alarm unit 140 for avoidance from the work area to the operator.

According to this embodiment, the central control server 115 checks the noise value transmitted from the remote server 112 in real time and the location information of each worker transmitted from the location recognition unit 120 to calculate the noise exposure time, Based on these, the average noise value can be calculated.

In addition, the central control server 115 may compare the noise average value with the stored noise reference value of the worker, and provide an alarm signal to the remote server 112 when the real-time noise average value of the worker is more than the noise reference value. , The remote server 112 may operate the alarm unit 140 based on such an alarm signal.

Of course, the alarm unit 140 may be directly operated by the central control server 115. The alarm of the alarm unit 140 may be transmitted to the operator through a display or a speaker included in the alarm unit 140, or through both.

In addition, the mobile terminal 130 may be set to automatically receive a warning call to the mobile terminal 130 possessed by the operator or to activate an automatic alarm. The central control server 115 may operate the mobile terminal 130 by an internal terminal wired or wireless network device or the above-described remote server 112.

Hereinafter, a method of monitoring a noise monitoring system in a working environment using the above-described acoustic camera 100 and the occupant location information system will be described.

1 and 2, in the noise monitoring system of a working environment using an acoustic camera and a crew location information system according to an embodiment of the present invention, the noise control unit 101 is operated by the acoustic camera 100. It stores the noise value of the area, the noise exposure value for the worker placed in the work area, and the noise exposure time, and at the same time, the noise for the worker based on the noise exposure value for the worker in the work area and the noise exposure time for the worker. The step of calculating the average value, and when the noise control unit 101 proceeds to the next step when the average noise value for the worker is more than the noise reference value predetermined for the worker, otherwise proceeds to the previous step again, The noise control unit 101 may include providing an alarm for avoidance from the work area to the worker when the average noise value for the worker is greater than or equal to a predetermined noise reference value for the worker.

Accordingly, the operator can avoid from the work area by receiving or detecting the alarm signal provided from the noise control unit 101 when the average noise value is more than the reference noise value, and does not exceed the recommended or standardized noise standard. It can be protected from physical or mental fatigue or damage caused by noise.

The noise reference value described above may be set lower than the recommended or standardized noise reference value, and the operator proceeds to work within the range of the allowed noise accumulation value.

At this time, the noise monitoring system of the working environment using the acoustic camera and the occupant location information system according to an embodiment of the present invention further includes the step of collecting the location information of the worker by the location recognition unit 120 disposed on the worker. can do.

As described above, the location information of the worker is also possible by a camera disposed in the work area or an entrance sensor such as fingerprint recognition, but a location recognition unit 120 that can be attached or mounted on the worker in order to increase the efficiency of location information recognition. Use.

As the location recognition unit 120, a card-type tag 125 for sensing location information at the entrance of the work area or a GPS recognizer 122 for receiving location information from a satellite is used, and the remote server 112 It can be used to collect sound signals related to pressure fluctuations or sound density from the camera 100.

At this time, the noise control unit 101, as described above, corresponding to the acoustic camera 100, the remote server 112 disposed in each of the plurality of work areas, and the remote server 112 disposed respectively in the plurality of work areas It includes a central control server 115 connected to the remote server 112 to transmit and receive, at least one of the remote server 112 and the central control server 115, the location information of the worker from the location recognition unit 120 It collects and can generate a signal that provides an alarm.

According to this embodiment, the remote server 112 checks the noise value of each work area and the noise exposure time of the worker by the acoustic camera 100 and transmits it to the central control server 115, but the central control server 115 (A) Based on the noise exposure value for the worker in each work area and the noise exposure time for the worker, the average noise value for the worker can be calculated.

In addition, the central control server 115 transmits a signal to the remote server 112 to provide an alarm for avoidance from the work area to the worker in the work area where the average noise value among the plurality of work areas is equal to or greater than a predetermined noise reference value Can be transmitted.

At this time, the remote server 112 operates the alarm unit 140 and may provide an alarm signal to the operator through the mobile terminal 130 that the operator has.

Meanwhile, a ship or offshore structure according to an embodiment of the present invention may include a noise monitoring system of a working environment using the above-described acoustic camera 100 and a crew location information system.

Such a ship or offshore structure may be a drilling vessel or a drilling structure having a work area for drilling mainly by drilling, but is not limited thereto, and a floating structure or a semi-submersible structure having an offshore plant is also possible.

As described above, one embodiment of the present invention has been described, but based on this, if a person of ordinary skill in the relevant technical field does not depart from the spirit of the present invention described in the claims, addition, change, and Various modifications and changes may be made to the present invention by deletion or addition, and this will also be included within the scope of the present invention.

100: acoustic camera
101: noise control unit
105: remote server
110: central control server
120: location recognition unit
122: GPS recognizer
125: card type tag
130: mobile terminal
140: alarm unit

Claims (14)

An acoustic camera disposed in a work area in which the equipment or facilities are located, and provided to detect noise in a space in which the equipment or facilities are disposed; And
It is connected to the acoustic camera and collects the noise value according to the time of the work area from the acoustic camera, collects the average noise value according to the exposure time of the noise for each worker entering the work area, the worker When the noise average value of is greater than or equal to a predetermined noise reference value to the operator, it includes a noise control unit provided to provide an alarm to the operator,
Further comprising a location recognition unit disposed on the worker to provide the location information of the worker disposed in the work area of the equipment or facility to the noise control unit,
An alarm unit connected to the noise control unit and capable of providing the alarm,
The noise control unit,
A remote server disposed in a plurality of work areas corresponding to the sound camera; And
And a central control server connected to the remote server to transmit/receive with the remote server respectively disposed in the plurality of work areas,
At least one of the remote server and the central control server is provided to collect the location information of the worker from the location recognition unit, and is provided to generate a signal for providing the alarm,
The location recognition unit includes a card-type tag for detecting location information at the entrance of the work area or a GPS recognizer for receiving location information from a satellite, and noise monitoring of a work environment using a crew location information system system.
delete delete The method of claim 1,
In the noise control unit, a noise reference value is stored,
The noise average value and the noise reference value are defined as an average value obtained by dividing the integral value of noise for the work area over time by time,
The noise reference value is a noise monitoring system of a work environment using an acoustic camera and a crew location information system each provided according to the worker according to the work environment.
delete The method of claim 1,
At least one of the remote server and the central control server,
Noise exposure value and noise exposure time for each worker in the plurality of work areas based on data on corresponding noise values and location information from the acoustic camera and the location recognition unit respectively disposed in the plurality of work areas Save it,
The noise average value is calculated based on the noise exposure value and the noise exposure time,
When the noise average value for the worker is equal to or greater than the noise reference value, a work using an acoustic camera and a crew location information system provided to provide the alarm unit with an alarm signal for avoidance from the work area to the worker Environmental noise monitoring system.
delete The method of claim 1,
The acoustic camera is a noise monitoring system for a working environment using an acoustic camera and a crew location information system provided to collect acoustic signals related to pressure fluctuations or sound density.
By the acoustic camera to which the noise control unit is connected, the noise value of the work area, the noise exposure value for the worker placed in the work area, and the noise exposure time are stored, and at the same time, the noise exposure value for the worker in the work area and the Calculating an average noise value for the worker based on the exposure time of the noise to the worker;
The noise control unit proceeds to the next step when the average noise value for the worker is greater than or equal to the noise reference value predetermined for the worker, otherwise proceeds to the previous step again; And
When the average noise value for the worker is greater than or equal to a noise reference value predetermined for the worker, the noise control unit provides an alarm for avoidance from the work area to the worker,
Further comprising the step of collecting the location information of the worker by the location recognition unit disposed on the worker so as to provide the location information of the worker disposed in the work area of the equipment or facility to the noise control unit,
The noise control unit,
A remote server disposed in each of the plurality of work areas corresponding to the sound camera; And
And a central control server connected to the remote server to transmit/receive with the remote server respectively disposed in the plurality of work areas,
At least one of the remote server and the central control server, collects the location information of the worker from the location recognition unit, generates a signal for providing the alarm,
The remote server checks the noise value of each work area and the noise exposure time of the worker by the acoustic camera and transmits it to the central control server,
The central control server calculates a noise average value for the worker based on the noise exposure value for the worker in each work area and the noise exposure time for the worker,
The central control server transmits a signal to the remote server to provide an alarm for avoidance from the work area to a worker in a work area in which the noise average value among the plurality of work areas is equal to or greater than a predetermined noise reference value to the worker,
As the location recognition unit, a card-type tag that detects location information at the entrance of the work area or a GPS recognizer that receives location information from a satellite is used,
The remote server collects and uses an acoustic signal related to pressure fluctuations or sound density from the acoustic camera, and a noise monitoring method of a working environment using an acoustic camera and a crew location information system. delete delete delete delete delete

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