KR101087221B1 - Buoy for oceanographic observation - Google Patents

Abstract

The present invention relates to a buoy for marine observation, and more particularly, it is possible to more stably float the sea surface by improving the buoy structure to prevent breakage and loss of buoys, buoyancy according to the installation location and environment of buoys The present invention relates to a buoy for marine observation, which can easily adjust the degree and detect, process, store, and transmit information about the marine environment.

The buoy for marine observation according to the present invention, the body is composed of a long frame structure, and fixed to the inside of the body is installed in the body to observe and process and store information about the marine environment, and a plurality of the body is provided A buoyancy body that is continuously inserted into the outer periphery of each, the buoyancy control unit is coupled to the body to support the number of the buoyancy body to be adjustable, and the mooring unit is connected to the mooring equipment in the lower portion of the body.

Marine observation, ocean survey, buoy, buoy, mooring, buoyancy control, CPU, CDMA

Description

BUOY FOR OCEANOGRAPHIC OBSERVATION}

The present invention relates to a buoy for marine observation, and more particularly, it is possible to more stably float the sea surface by improving the buoy structure to prevent breakage and loss of buoys, buoyancy according to the installation location and environment of buoys The present invention relates to a buoy for marine observation, which can easily adjust the degree and detect, process, store, and transmit information about the marine environment.

Buoys are usually installed to float on the sea and to mark the vessel's route or entry zone through the clock. In addition, as the modernization of fisheries and military applications, environmental monitoring and exploration activities are actively conducted, it has been widely researched and used as an unmanned apparatus for marine observation, which can collect information about the marine environment. Moreover, in Korea, where the three sides are surrounded by the sea, the necessity is increasing.

Conventional marine observation buoys are provided for recognition as floating bodies, and also have a spherical, disc, cylindrical or rod-like integral body in their structure. Observation equipment and a wireless transceiver may be provided inside the body.

However, the buoy for marine observation according to the prior art, if the integral body as a buoyant float is damaged by natural phenomena such as typhoons, tsunamis and sailing vessels, expensive buoys and expensive mooring equipment installed on the buoy are also damaged and There is a problem that is lost.

In addition, the buoy structure according to the prior art cannot adjust the buoyancy according to the installation position and environment of the buoy, there is a problem that it is difficult to repair and replace each component installed in the buoy and buoy.

An object of the present invention devised to solve the problems of the prior art as described above, to improve the structure of the buoys to provide a buoy for marine observation that can stably float the sea surface to prevent breakage and loss of buoys There is.

In addition, it is to provide a buoy for marine observation that can easily adjust the degree of buoyancy according to the installation location and environment of the buoy.

In addition, the present invention provides a buoy for marine observation that can detect, process, store, and transmit information about the marine environment.

Other objects, specific advantages and novel features of the invention will become more apparent from the following detailed description and preferred embodiments in conjunction with the accompanying drawings.

In order to achieve the above object, the marine observation buoy of the present invention, the body consisting of a long frame structure, fixed to the inside of the body and the marine observation unit for sensing and processing and storing information about the marine environment, A plurality of buoyancy bodies are continuously inserted into the outer periphery of the body, buoyancy control unit coupled to the body to support the number of the buoyancy body to be adjustable, and the mooring unit is connected to the mooring equipment below the body It is made to include.

In addition, the buoyancy control unit, a plurality of support rings are slidably coupled to each other along the frame of the body, and screwed through the support ring, respectively, by pressing the frame of the body respectively to support the plurality of support rings It characterized in that it comprises a plurality of fixing bolts for fixing each.

In addition, the body is a plurality of insertion grooves are formed through the longitudinal direction of the frame, each of the fixing bolt of the buoyancy control unit is characterized in that the insertion groove is fixed.

In addition, the mooring portion is formed in the lower portion of the body is characterized in that it comprises a mooring ring to which the mooring equipment is connected, and the balance weight coupled to the lower portion of the body.

In addition, the marine observation unit, a sensor unit for detecting at least one or more information of the current flow, wave height, water temperature, air pressure, wind direction, wind speed, a CPU for processing and storing the information detected from the sensor unit, the CPU It is characterized by including a built-in observation equipment box.

The offshore observation unit may further include a transceiver capable of transmitting and receiving the information processed and stored in the CPU.

In addition, the transceiver is characterized in that the transmission and reception by the CDMA method.

In addition, the transceiver is characterized in that it can transmit and receive information about the current location.

In addition, it characterized in that it further comprises a safety light installed on the upper portion of the body.

As described above, the buoy for marine observation according to the present invention, since a plurality of buoyancy bodies are coupled to the outer periphery of the body to protect the marine observation part fixedly installed in the body, it is possible to stably float the sea surface to prevent breakage and loss of buoys. You can prevent it.

In addition, by adjusting the number of the plurality of buoyancy body through the buoyancy control unit it is possible to easily adjust the buoyancy according to the installation position and environment of the buoy to drift or mooring the buoy.

In addition, by providing a marine observation unit can detect, process, store and transmit and receive information about the marine environment.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the buoy for ocean observation according to the present invention.

1 is a perspective view showing an embodiment of a marine observation buoy according to the present invention, Figure 2 is an exploded perspective view of the embodiment of Figure 1, Figure 3 shows another embodiment of a marine observation buoy according to the present invention Figure 4 is an exploded perspective view of the embodiment of Figure 3, Figure 5 is a perspective view of the buoyancy control unit of the buoy for marine observation according to the present invention, Figure 6 is a marine observation buoy for marine observation according to the present invention This is a block diagram showing the connection status of the negative.

The buoy for marine observation of the present invention, as shown in Figures 1 to 6, the body 100, the marine observation portion 200, buoyancy body 300, buoyancy control unit 400, mooring unit 500 and It comprises a safety light 600.

Body 100 is composed of a long frame structure is coupled to various components to be described later to be firmly produced, it is preferable to be made of stainless steel in consideration of corrosion. The body 100 is produced in a columnar frame structure as shown in Figures 1 to 4 if the buoyancy body 300 to be described later can be inserted and fixed, for example to be produced in a frame structure of a cylinder or polygonal column shape Can be.

The marine observation unit 200 is fixedly installed inside the body 100 to sense and process and store information about the marine environment. As shown in FIG. 6, the sensor unit 210 detects information of at least one of the flow of the current, the wave height, the water temperature, the air pressure, the wind direction, and the wind speed, and processes and stores the information detected from the sensor unit 210. It may be configured to include a CPU 220 and the observation equipment box 230 in which the CPU 220 is built.

The sensor unit 210 includes various sensors 211, 212, 213 for detecting information on the marine environment, and it is sufficient to be installed at an appropriate position in order to detect information on each marine environment. . For example, a sensor for measuring the flow of sea current may be installed according to the height from the surface water to the deep water, and a sensor for measuring the wind direction or the wind speed may be installed above the body floating on the sea surface. In addition, since the sensor unit 210 can sense information about the marine environment, the above-listed information is just one example and has no relation to any marine environment.

The CPU 220 processes and stores the information detected by the sensor unit 210. Accordingly, the CPU 220 may include an information processing unit 221 for processing the sensed information and an information storage unit 222 for storing the processed information, and may process and store the information of the CPU 220. And since the control technology can be implemented by a conventional technology, a detailed description thereof will be omitted.

Observation equipment box 230 is shown in Figures 1 to 4, to protect the CPU 220 from sea water, is installed inside the body 100, the CPU 220 is embedded . In addition, in order to maintain and repair the CPU 220 built in the observation equipment box 230, the observation equipment box 230 may be provided with a lock (not shown).

In addition, the marine observation unit 200 may further include a transceiver 240 capable of transmitting and receiving the information processed and stored in the CPU 220. As shown in FIG. 6, the transceiver 240 may transmit and receive the above information to an external main computer 10 or the ship 20, and the transmission and reception method may be any wireless transmission and reception method. However, transmission and reception using the CDMA (Code Division Multiple Access) method is preferable in that there is no loss of information due to radio interference or disturbance. On the other hand, the transceiver 240 may transmit and receive information about the current location. That is, by receiving the information about the current position from the GPS satellite 30 and transmits the information about the current position to the main computer or ship, it can be easily found even if the buoy is lost by sea water. Since the CDMA transmission and reception technique and the position information transmission and reception technique using GPS can be implemented by a conventional technique, a detailed description thereof will be omitted.

As shown in Figures 1 to 4, the buoyancy body 300 is provided with a plurality is continuously inserted into the outer periphery of the body 100, respectively. The buoyancy body 300 is to float in the water by providing buoyancy to the buoy for marine observation according to the present invention, it is made of a low density material. For example, the buoyancy body 300 may use polyethylene foam, urethane foam, or the like. Since the buoyancy body 300 as described above is inserted into the outer circumference of the body 100 has a donut shape, a plurality is provided and arranged continuously. The buoyancy body 300 may protect the body 100 and the marine observation portion 200 installed inside the body 100 from the outside. As the buoyancy body 300 is provided with a plurality, the buoyancy provided to the buoy can be adjusted according to the number of the buoyancy bodies 300. In order to adjust the number of buoyancy body 300 is provided with a buoyancy control unit 400 to be described later.

The buoyancy control unit 400 is coupled to the body 100 so as to support the number of the buoyancy body 300 to be adjustable. That is, as shown in Figures 1 to 4 buoyancy control unit 400 may be composed of a support ring 410 and the fixing bolt 420. The support ring 410 is provided with a plurality is slidably coupled along the framework of the body 100, respectively. In addition, the fixing bolt 420 is also provided in the same number as the support ring 410 and screwed through the support ring 410, respectively, by pressing the frame of the body 100, respectively, the plurality of support rings ( Fix 410 respectively. Therefore, the support ring 410 is located on the upper and lower ends of the position to be fixed of the plurality of buoyancy body 300, respectively, and then the fixing bolt 420 is rotated to fix the support ring 410 in the position by buoyancy body 300 can be fixed and supported. At this time, as shown in Figures 3 and 4 to form a plurality of insertion grooves 110 through the longitudinal direction of the frame in the body 100 for a more secure fixing of the support ring 410, the buoyancy control unit Each of the fixing bolts 420 of 400 is designed to be inserted and fixed in the insertion groove 110. Accordingly, the fixing bolt 420 is not limited to simply pressing the frame outer periphery of the body 100, the bolt 420 is inserted into the insertion groove 110 of the body 100 to fix the support ring 410 It can make more solid.

The mooring part 500 is formed at the bottom of the body 100 is connected to the mooring equipment (not shown). 1 to 4, the mooring part 500 is formed in the lower portion of the body 100, the mooring ring 510 is connected to the mooring equipment, and the balance weight coupled to the lower portion of the body 100 ( 520). Mooring equipment refers to general equipment that can collect information about various marine environments according to the height below sea level, and detailed description thereof will be omitted. The balance weight 520 is coupled to the lower portion of the body 100 to hold the center during the floating of the body 100 and the buoyancy body 300, thereby maintaining a balance. The weight of the balance weight 520 should be set in consideration of the buoyancy control of the buoyancy body 300.

Safety light 650 may be provided with one or a plurality, it is installed in order to serve as a route sign of a ship, such as a light at night, as shown in Figures 1 to 4 the upper portion of the body 100 Is installed on.

On the other hand, the power supply for the operation of the sensor unit 210, the CPU 220, the transceiver 240 and the stabilization lamp 600 may be a battery provided in advance, along with the solar cell and the light collecting plate and the The component can also be powered.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

1 is a perspective view showing an embodiment of a buoy for marine observation according to the present invention,

2 is an exploded perspective view of the embodiment of FIG.

3 is a perspective view showing another embodiment of a buoy for marine observation according to the present invention;

4 is an exploded perspective view of the embodiment of FIG. 3,

5 is a perspective view showing a buoyancy control unit of the buoy for marine observation according to the present invention,

Figure 6 is a block diagram showing the connection state of the marine observation portion of the buoy for ocean observation according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: body 110: insertion groove

200: maritime observation

210: sensor 220: CPU

230: observation equipment box 240: transceiver

300: buoyant body

400: buoyancy control unit

410: support ring 420: fixing bolt

500: mooring part

510: mooring ring 520: balance weight

600: safety light

Claims (4)

A body composed of a long frame structure, A marine observation unit fixedly installed in the body to sense, process, and store information about a marine environment; A buoyancy body is provided with a plurality is continuously inserted into the outer periphery of the body, A buoyancy control unit coupled to the body to support the adjustable number of buoyancy bodies; The mooring portion is connected to the lower portion of the body is connected to the mooring equipment, The buoyancy control unit, A plurality of support rings slidably coupled along the frame of the body, A marine observation buoy comprising a plurality of fixing bolts respectively screwed through the support rings and pressurizing the skeleton of the body to respectively fix the plurality of support rings. delete The method of claim 1, The body has a plurality of insertion grooves are formed through the longitudinal direction of the frame, Each of the fixing bolts of the buoyancy control unit is buoy for ocean observation, characterized in that the insertion groove is fixed. The method of claim 1, The marine observation unit, A sensor unit for detecting at least one of flow of current, wave, water temperature, air pressure, wind direction, and wind speed; A CPU for processing and storing information sensed from the sensor unit; Buoy for marine observation, characterized in that it comprises an observation box equipped with the CPU.

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