KR101679547B1 - Train Type Light buoy For Maritime Searching - Google Patents

Abstract

The present invention relates to a train type light emitting buoy which is to search organic matter in the sea. The train type light emitting buoy comprises: an air bounce member (10) where a waterproof pack (25) is installed on the top surface thereof; a reflection window (16) which is attached to multiple Velcro parts (15) formed on the top surface of the air bounce member (10); a probe terminal (301) which has a micom (200) therein and a probe part (300) on one surface; and a control device (201) which has a light emitting terminal (21).

Description

[0001] The present invention relates to a train type light buoy for maritime search,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a luminescent buoy for the purpose of searching for organic matter in the sea, and more particularly, to a luminescent buoy for searching an organic matter in the sea, more specifically, To a light-emitting buoyancy material which can be detected.

In the search for organic matter such as corpses at sea, the detection of organic matter becomes more difficult, especially at night, and because the radius or position of the search may change while the search party searches, the success rate of search for organic matter decreases with time There was a problem.

In order to solve this problem, it is necessary to set a boundary for the search point by means such as a buoy, and it is desirable to search through a buoy with a light emitting function for easy identification even during the night. As an example of an open document that can be utilized for night search, there is a light emitting buoy posted in Korean Registered Utility Bulletin No. 20-0468118.

The above-mentioned document discloses that a light emitting buoy having a light emitting function includes a body portion and a lamp portion having at least one light emitting element arranged on the inserting portion and a body portion having a concave portion or a groove on an upper surface thereof.

Here, it is described that the insertion portion is inserted into the concave portion of the body portion, whereby the lamp portion is fixed to the body portion.

Further examples of the multifunctional offshore rescue buoy published in the Chinese Patent Application No. C20142537378 U, which includes a technology capable of visually confirming a specific signal or state among light-emitting buoys having such a characteristic, can be further exemplified.

This document describes that a buoy body and a buoy of ocean structure equipped with a hydrogen balloon are interconnected by a rope, and the buoy is further provided with a cylinder.

A hydrogen balloon is further provided with a hook and controllable buttons on the inner wall of the barrel, a solar cell is provided at one side of the hydrogen balloon, and energy is supplied to the hydrogen balloon, It is stated that it is possible to generate a distress signal.

In order to detect or detect a search target made of a body or an organic material when the features of the above documents are combined with each other, a buoy type radar device and a buoy type radar system disclosed in Japanese Patent Application Laid-Open No. 2008-224355 For example.

This document discloses a position and attitude measuring apparatus that is installed in a sea area where a V-shaped radar apparatus floated on the sea floats on the sea is to be detected and detects its own position and attitude in the V-type radar apparatus, A target information database for registering information, and a communication device for transmitting and receiving target information to a trap or other buoy type radar device.

Accordingly, the radar device floats on the sea and transmits the target information to the ship by the communication device while having the target search, detection and tracking, and it is described that the target of the area that can not be directly detected by the ship-mounted radar device is detectable.

Although all of the above documents are characterized in that they are suitable for finding organic matter or body at sea at night, the above-mentioned buoy type radar apparatus and buoy type radar system are widely known products that are suitable for portable use. Since there is no means to detect a body, there are many restrictions in order to find out exactly where the search target is located by directly identifying it with the naked eye, and it is difficult to accurately identify the search radius even if there is usually a search object have.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method for detecting a position of an organic matter Thereby obtaining an effective night-time search. SUMMARY OF THE INVENTION

According to an aspect of the present invention, there is provided an air bounce apparatus including an air bounce (10) capable of being filled with gas on an inner surface thereof, a plurality of light bounces (10) And a reflecting window 16 is attached to a plurality of velcro parts 15 provided on the upper surface of the air bounce 10 so that the luminous lamp 20 can emit water during operation, 1, the above-described waterproof package 25 is provided with a microcomputer 200 having a built-in microcomputer 200 therein, The control device 201 includes a controller 201 and a control unit 201. The controller 201 includes a control unit 201 and a control unit 201. The control unit 201 includes a control unit 201, The light emitting lamp 20 is mounted on the light emitting element 21, and as shown in FIG. 3, The control device 201 controls the light emission lamp 20 according to a value designated or modified by the microcomputer 200. [

The luminescent lamp 20 is connected to the control device 201 through a terminal while being connected to the air bounce 10 through the velcro part 15, The light intensity of the lamp 20, and the color of the output light, so that the output signal can be transmitted.

A plurality of air bounces 10 are basically connected through a joint ring 101 provided at both ends of the air bounce 10 in the form of trains as shown in Figs. 3 to 4, or as shown in Figs. 1A to 1C It is possible to solve the problems faced by the present invention by having features that can increase the efficiency of search by mounting accessories.

As described above, according to the present invention, it is possible to facilitate the search support by providing a clear search radius at the time of night search, and at the same time, the location of the organic matter in the vicinity of the buoy can be detected so that effective night search can be performed There is an effect that can be done.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing in detail an external organic structure of a sea-based light-emitting buoyant buoy in a preferred embodiment of the present invention. FIG.
1A is an embodiment in which a seed anchor 135 is attached to a joint ring 101 in a preferred embodiment of the present invention.
1B is an embodiment in which a net 136 is attached to a joint ring 101 in a preferred embodiment of the present invention.
1C is an embodiment in which both the seed anchor 135 and the net 136 are attached to the joint ring 101 in a preferred embodiment of the present invention.
FIG. 1D is an embodiment showing a state in which the luminescent lamp 20 is provided on the right and left sides of the air bounce 10, according to a preferred embodiment of the present invention.
FIG. 1E is an embodiment showing a state in which the luminescent lamp 20 is provided corresponding to the upper and lower surfaces of the air bounce 10, according to a preferred embodiment of the present invention.
2 is an exploded view of an apparatus of a navigation light emitting light emitting buoy in a preferred embodiment of the present invention.
FIG. 3 is a view showing a state in which a plurality of train-type light emitting buoys for maritime search are connected to perform a search operation in a preferred embodiment of the present invention. FIG.
FIG. 4 is an exemplary view showing a state in which a light color of a light emitting lamp 20 is changed when an organic matter to be searched is near in a preferred embodiment of the present invention. FIG.
FIG. 5 is a simplified wiring diagram showing an arrangement and roles of components inside or adjacent to each other in a microcomputer 200 according to a preferred embodiment of the present invention.
FIG. 6 is a simplified layout diagram showing in detail a relationship among respective components provided inside a probe 300 according to a preferred embodiment of the present invention. FIG.
FIG. 7 is a flowchart showing a process of changing the color of light emitted from the light emitting lamp 20 due to the detection of nitrogen and phosphorus in a preferred embodiment of the present invention.
FIG. 8 is an exemplary view showing a state in which a small amount of objects are arranged and connected through a heaving rope 139 in a preferred embodiment of the present invention.

Hereinafter, the present invention will be described more specifically based on the drawings and the examples.

The present invention relates to an air bounce (10) capable of being filled with gas on an inner surface thereof, a luminescent lamp (20) having a plurality of correspondingly disposed inside the air bounce (10) The reflecting window 16 is attached to the plurality of the velcro portions 15 provided on the upper surface of the bounce 10 so that the light emitting lamp 20 can emit water during operation, 1, the waterproof case 25 includes a controller 201 having a microcomputer 200 therein, and a controller 201 having the microcomputer 200 installed therein. A probe 300 is attached to a probe terminal 301 provided on one side of the control device 201 and a light emitting terminal 21 provided on one side of the outside of the control device 201 is provided with a light emitting lamp 20, which are connected to each other as shown in FIG. 3, are connected to the microcomputer 200 Along the forward or deformation so that the controller 201 can control the light emitting lamps (20).

Best Mode for Carrying Out the Invention Hereinafter, an appropriate use example of the circular device will be described based on the embodiments and the drawings.

Fig. 2 is an exploded view of the apparatus of the navigation search type light emitting buoy. The waterproof case 25 functions to secure the control device 201 from the inflow of seawater and prevent it from being lost.

The luminescent lamp 20 is connected to the control device 201 through a terminal while being connected to the air bounce 10 through the velcro part 15, The light intensity of the lamp 20, and the color of the output light, so that the output signal can be transmitted to the light emitting lamp 20.

1D to FIG. 1E, it is preferable that the light-emitting lamp 20 is also vertically and horizontally shaped so as to face the upper surface of the air bounce 10.

On the other hand, the control unit 201 is provided with a setting button 205 and a display unit 209 on the upper surface thereof. The user can input an increment command of the displacement value regarding the target of the search or the water quality of the seawater, 300, whether or not to use the light emitting lamp 20, and brightness and blinking degree.

In general, seawater contains nitrogen and phosphorus, which are unique to plankton, dead fish, and other microorganisms. The amount of nitrogen and phosphorus can be detected differently depending on geographical location, currents, and conditions (red tide phenomenon).

Therefore, it is necessary to detect the nitrogen and phosphorus contained in the seawater in the range to be searched so as to detect only the abnormality when ignoring the amount of nitrogen or phosphorus in the seawater requiring the search, So that the increment command command 200a for normalizing the value can be outputted through the setting button 205. [

5 is a simplified wiring diagram showing the arrangement and role of the microcomputer 200 provided inside the control device 201 and the internal or adjacent components of the microcomputer 200, The memory 210 is provided on the inner surface of the microcomputer 200 and the memory 210 is provided with an increment instruction command 200a, an absolute instruction command 200b and a lamp emission macro 200M, do.

The above-described commands (absolute command, incremental command, lamp emission macro) are provided in the microcomputer 200, and include a displacement value checking unit 220, Lt; RTI ID = 0.0 > 230 < / RTI >

The generation of the output signal described above may be performed by the displacement value checking unit 220 or the lamp light emission command unit 230 by a setting command by the setting button 205 or by detecting a displacement value by the scanning unit 300 .

An input signal capable of outputting values such as an increment setting 205a, an absolute command 205b, a light intensity setting 205c and a mining mode setting 205d to the setting button 205 is input to a microcomputer 200, and operates the lamp emission macro 200M according to the value of the input signal, and directly transmits the value through the lamp emission command unit 230 to form an output signal.

In the present invention, the color of the light emitted from the light emitting lamp 20 may be changed when the organic matter to be searched is near through the probe 300 as shown in FIG. The above-described method will be described in more detail. The displacement value inspection unit 220 detects the displacement value in the amount of nitrogen or phosphorus of the sea water incrementally set in the memory 210 (Blue, red, and green) that are easily distinguished from each other by the search unit, and the displacement value (i.e., the displacement value) (Yellow, pink, sky, and blue) are observed with the light source primary color and the multi-color light emitting diode (LED) of which the color of the primary color gradually becomes closer to the organic matter to be searched .

It is preferable that the power consumption of the light emitting diode of the above-described light emitting lamp 20 is in the range of 100 W to 500 W.

In order to enable the above-described implementation, the probe 300 is configured as shown in FIG. 6, and the configurations of the probe 300 form an organic relationship with each other.

A probe measuring unit 380 is provided at a lower end of the probe 300. A thermal decomposition unit 335 is provided inside the probe measurement unit 380 for precisely controlling the components of the seawater at the probe radius, The thermal decomposition unit 335 decomposes the seawater by heating and decomposing the component to be measured in the form of ion or salt, and then measures the two-wavelength absorbance of the decomposed seawater and measures the total nitrogen A reaction unit 341 for measuring total phosphorus in the seawater quantitatively measured by the total nitrogen absorbance meter 339 and a reagent for detecting the whole phosphorus, A reagent filling section 345 for injecting the reagent into the reaction section 341 and a waste hose 355 for discarding waste water after the reaction detection in the reaction section 341; The converter section 389 is provided.

The total nitrogen measurement and the total measurement according to the above-mentioned configuration are cited in Korean Patent Registration No. 10-0840181, which is cited from the paragraph No. 0019 and the adjacent paragraphs of the apparatus and method for measuring total nitrogen and total phosphorus disclosed in Korean Patent Publication No. 10-0840181, In detail, the reagent filled in the reagent filling part 345 for realizing such an implementation includes a phosphate-phosphorus detection reagent prepared by mixing Potassium Pyrosulfate, Ascorbic acid, Molybdate, and tartrate, and the molybdate Is sodium molybdate and tartrate is a phosphate-phosphate detection reagent characterized by antimony Potassium tartrate.

The claw measuring unit 380 is provided with a cap 346 on the outer surface of the reagent filling unit 345 so that the above-mentioned reagent can be administered according to the user's preference. The cap 346 is provided with a waterproof protrusion 347 on the outer surface of the hinge cap 346 to prevent changes in reagent properties due to inflow of seawater.

The crankshaft 310 and the servomotor 320 are disposed inside the probe 300 in order to implement a method for detecting nitrogen and phosphorus as described above. And a disposal eyedropper 351 is disposed inside the inflow hole 331 and the disposal hose 355 in the inflow section 330. The inflow section 330 and the disposal infusion section 351 are provided in the inflow section 330 and the disposal hose 355, respectively.

The servo motor 320 rotates 180 degrees to flow the crankshaft 310 and the inlet port 331 connected to both ends of the crankshaft is rotated by 180 degrees to detect the presence of the organic matter by detecting the total nitrogen and the total phosphorus, And the waste disposing syringe 351 are contracted or relaxed so that the seawater can be introduced or discharged.

In this method, when the torque is transmitted to the crankshaft 310 by the rotation speed of the servo motor 320, the disposal dropper 351 is subjected to a strong pressure so that the seawater discharged through the disposal hose 355 is discharged and discharged It is characterized by the fact that when the seawater is pumped out and discharged, the seawater mixed with the seawater can be separated from the seawater, so that there is no error in remeasurement of the whole person and total nitrogen .

The detailed implementation of the measurement method as described above includes an absolute command step S100 for returning the displacement value to the initial setting by inputting the absolute command 205b command to the microcomputer 200 through the setting button 205, An increment setting step of inputting the basic setting values of all the nitrogen and the whole phosphorus of the seawater in the search range through the setting button 205 to the increment command command 200a provided in the memory 210, (300) is continuously supplied to the seawater so that the turntable (300) continuously measures the total nitrogen and total phosphorus present in the seawater at regular intervals, and thereby the nitrogen or phosphorus (Step S300).

When the displacement value checking unit 220 provided in the microcomputer 200 detects a displacement of a predetermined amount or more from the set value of the increment instruction command 200a inputted in the increment setting step S200 in the detection step S300, And a minus transformation command step (S400) for generating a command signal according to the degree of displacement of the displaced value from the default value of the incremented seawater and transmitting the command signal to the lamp light emission command unit 230.

Thereafter, the lamp emission command unit 230 has a mining command step (S500) for converting the command signal to an output signal and transmitting the command signal to the light emission terminal 21, so that the emission lamp 20 is brought upside down to the primary color or primary color It is possible to search for an organic matter or a body by emitting a mining color.

The air bounce 10 may be made of fibers capable of producing a buoyancy material such as synthetic rubber, natural rubber, latex or canvas so that the air bubbles can be filled with air, A plurality of air bounces 10 are basically connected in the form of a train as shown in FIGS. 3 to 4 through a joint ring 101 provided at both ends of the airbag 10, or an accessory is mounted as shown in FIGS. 1A to 1C Thereby increasing the efficiency of the apparatus.

1A is an embodiment in which a seed anchor 135 is attached to a joint ring 101. Fig.

The seed anchor 135 is connected by a heaving rope 139 and is characterized in that it can prevent the air bounce 10 from deviating from a certain range or more. In addition, sand, There are features that can set the weight differently.

1B is an embodiment of connecting the net 136 to the heaving rope 139 after connecting the heaving rope 139 to the joint ring 101. Fig.

While searching for a search radius, it does not allow dangerous fish (such as canned shark) to enter the search area through the net 136. In this case, the search range of the organic matter or the body to be searched is narrowed, There is a feature that makes it possible.

1C is an embodiment in which both the net 136 and the seed anchor 135 are connected to the joint ring 101. Since the operation and effect are the same as in FIGS. 1A to 1B, a detailed description thereof will be omitted, Is characterized in that when the apparatus according to the present invention can not be provided in large quantities, the heaving ropes 139 are connected to the medium at intervals as shown in FIG. 8 so that the search station can perform a search operation.

In addition, the waterproof case 25 may be dismounted from the air bounce 10 according to the user's preference. The lower end of the waterproof case 25 is composed of a Velcro 425 for detachable attachment and can be detached and used when maintenance or maintenance is required.

In carrying out the above-described operation, the center bounce unit 10 should be detachable so that the air bounce unit 10 can be normally operated on the sea surface.

The bounce wings 120 may be installed at both ends of the insertion portion 102 so that the bounce wings 120 may be installed on the upper surface of the joint ring 101, The bushing 121 is provided at one end of the bounce wing 120 corresponding to the insertion portion 102 so as to prevent the device according to the present invention from overturning and causing a difficult situation to be searched.

The float 121 is made of a foamable synthetic polymer compound such as styrofoam and eVa, and floats on the upper surface of the seawater and plays a role of holding the center of the apparatus.

As described above, according to the present invention, the search party is capable of locating a body or an organic matter to be searched and searching for it at night, and the specific contents described above are claimed.

It should be understood, however, that the scope of the appended claims is not intended to be limited only by the specific scope of the appended claims, but is only limited by the scope of the appended claims.

10: Air bounce 15: Velcro part
16: reflection window 20: luminescent lamp
21: light emitting terminal 25: waterproof pack
101: joint ring 102:
120: Bounce wing 121: Float
135: Mr. Anchor 136: Net
139: Hibing rope 200: Microcomputer
200a: Incremental command 200b: Absolute command
200M: Lamp emission macro 201: Control device
205: Setting button 209:
205a: Increment setting 205b: Absolute command
205c: Mining intensity setting 205d: Mining type setting
210: memory 220: displacement value checking section
230: lamp light emission command unit 300:
301: Toss terminal 310: Crankshaft
320: Servo motor 330: Inflow part
331: Inflow syringe 335: Heat decomposition unit
339: total nitrogen absorbance meter 341: reaction part
345: reagent filling part 346: casement cap
347: waterproof projection 351: disposal eyedropper
355: Disposal hose 380:
389: Converter section 425: Detachable Velcro
S100: Absolute command step S200: Increment setting step
S300: Detecting step S400: Mining transformation command step
S500: mining instruction step

Claims (11)

An air bounce 10 in which a waterproof package 25 is mounted on an upper surface of a gas filled body,
A plurality of the velcro portions 15 on which the reflection window 16 is stuck are provided on the upper surface of the air bounce 10,
A controller 201 having a setting button 205 and a display unit 209 on the upper portion thereof is provided inside the waterproof case 25,
The microcomputer 200 having the memory 210 having the increment instruction command 200a, the absolute instruction command 200b and the lamp emission macro 200M set on the setting button 205 is provided on the inner surface of the microcomputer 200, And is provided in the control device 201,
A plurality of light emitting lamps 20 which are provided in the interior of the air bounce 10 so as to project from the upper surface and are mounted on the light emitting terminal 21 further provided on one side surface of the control device 201 In the traction type light emitting buoy for marine search,
A displacement value inspection unit 220 and a lamp emission instruction unit 230 for generating an output signal are provided in the microcomputer 200 corresponding to the memory 210. The displacement value inspection unit 220 When the displacement value is detected in the amount of nitrogen or phosphorus of the seawater whose increment is set in the memory 210, the mining color is extracted and viewed from the luminescent lamp 20 as the displacement value increases,
The control device 201 further includes a probe terminal 301 on which a probe 300 is mounted,
The crank shaft 310 and the servomotor 320 are provided inside the probe 300. The probe 300 includes a thermal decomposition unit 335 for thermally decomposing the seawater at the lower end of the probe, A total nitrogen absorbance meter 339 for measuring total nitrogen through measurement of the absorbance and a difference calculation, a reaction unit 341 for measuring total phosphorus in the seawater quantified by the total nitrogen absorbance meter 339, A reagent filling unit 345 filled with a detectable reagent and a detection probe unit 380 in which a waste hose 355 for discarding waste water after reaction detection is organic-bonded is further provided Trawling light - emitting buoy for marine search.
delete The method according to claim 1,
Wherein the luminescent lamp (20) is configured such that the closer the primary color of the organic light to be searched is, the closer the primary color is to the primary color.
delete The method according to claim 1,
A converter unit 389 for converting a value detected by the reaction unit 341 into a digital signal is further provided inside the probe measurement unit 380
Characterized in that a hinge cap (346) having a waterproof protrusion (347) on the outer surface is further provided on the outer surface of the reagent filling part (345).
The method according to claim 1,
An inflow port 330 positioned at the front of the probe 300 and introducing seawater into the inflow port 330 and an inlet port 331 and a disposal port 351 And a plurality of light emitting buoys for illuminating the sea.
delete delete The method according to claim 1,
A joint ring 101 provided at both ends of the air bounce 10,
Wherein the bounce wings (120) can be mounted on both ends of the insertion portion (102) provided on the upper surface of the joint ring (101). 10. The method of claim 9,
And the seed anchor (135) can be attached to the joint ring (101) through the heaving rope (139).
10. The method of claim 9,
Wherein a net 136 is connected to the heaving rope 139 after the heaving rope 139 is connected to the joint ring 101. [

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