KR100549050B1 - sensing device for tidal current - Google Patents

Abstract

The present invention relates to an algae flow detector for detecting the flow of algae, and to form a buoyant means floating on the water as a degradable material in the water, the buoyancy means so that the submerged means that sinks in the water is further connected to the connecting member. By making it easy to grasp the flow of algae, and to avoid causing environmental pollution.

Algae, detection, buoy, decomposition, luminous, diving

Description

Tidal current detector {sensing device for tidal current}

1 is a view showing an embodiment of a tidal flow sensor according to the present invention

2A illustrates another embodiment of an algae flow detector in accordance with the present invention.

Figure 2b is a view showing the cross-sectional configuration of the algae flow detector according to the present invention

* Description of the symbols for the main parts of the drawings *

10, 20: buoy means 22: joule

24: diving means 26: insertion groove

The present invention relates to an algae flow detector, and more particularly, by forming a buoyant means floating on the water or a submerging means submerged in the water as a degradable material in the water, to prevent environmental pollution, to grasp the trend of fish by the flow of algae Algae flow detector to enable.

In general, the angler's direction, which is the actual flow of seawater, could not be easily identified by anglers in the sea fishing.

Accordingly, there is a problem in that it is not possible to easily grasp the position of the fish group moving along the algae, it is difficult to find a good place.

In addition, as a bobber installed in a conventional fishing line has a problem that the flow of algae in the sea cannot be grasped at all because the bobbin is moved by the waves or the wind when the waves or the wind is severe.

An object of the present invention for solving the problems as described above is to determine the flow of algae irrespective of a fishing rod by using a buoyant means floating on the water and a tide flow detector connected to the buoy means means. have.

In addition, the buoy means or submersible means is formed of a material that can be decomposed in water, to prevent environmental pollution, to enable the night light to be used at night.

A feature of the present invention for achieving the above object is that the algae flow detector submerged in water and has a weight so as to move according to the flow of the algae and the buoy means floating on the water is formed of water degradable material To provide.

On the other hand, the buoy means is further connected to the submerged means that sinks in the water, the diving means is formed with a weight enough to move the buoy means in accordance with the algae flow while the buoy means does not sink in the water. It is formed of biodegradable material.

In addition, the buoy means forms a groove into which the submersible means can be inserted, so that when the bird flow detector is thrown, the diving means is thrown into the buoy means, and after the throwing means, the diving means is buoyed. Separate from water and placed in water.

In addition, the algae flow detector is to enable the use even at night using a luminous dye.

In addition, the biodegradable material in the above uses a biodegradable plastic made of starch or aliphatic polyester, or a biodegradable polymer, starch or the like.

The biodegradable plastics may be classified into three types according to raw materials used, such as natural polymers, chemical synthetic polymers, and microbial polymers.

Natural polymers include starch extracted from grains, cellulose, hemi-cellulose derived from grains and reeds of grains, and chitin and protein derived from shells of crabs and shrimps.

In addition, synthetic polymer refers to a polymer prepared by polymerization process of raw materials such as amino acids prepared by fermentation technology, for example, PCL [Poly (ε-caprolactone)], PLA [Poly (lactic acid)], Diol / Diacid-based aliphatic polyester, poly (glycolic acid), poly (phosphate ester) and poly (phosphazene).

The microorganism producing polymer is polyhydroxybutyric acid (PHB). PHB is a poly-hydroxyalkanoate that is a homopolymer of D-3-hydroxy-butyric acid in a straight line.

An embodiment of the present invention having the above configuration will be described with reference to the accompanying drawings.

1 is a view showing an embodiment of a tidal flow sensor according to the present invention.

The algae flow detector according to the present invention has a weight and the buoy means 10 floating on the water is formed of a material that is degradable in water.

On the other hand, the buoy means 10 uses a biodegradable material that can be dissolved by dissolving in water within 1-2 hours after throwing.

In addition, the luminous dye is added at the time of manufacturing the buoy means 10 to be used at night, or apply a separate luminous pigment to the outer peripheral surface.

This algae flow detector is used when two thirds of the buoy means 10 are submerged in water and there are few waves.

2A and 2B illustrate an algae flow detector in accordance with another embodiment of the present invention.

The algae flow detector is composed of a buoy means 20 that floats on the water, the buoy means 20 and the diving means 24 are connected to the connection member (for example, thread, string, etc.) 22 is located in the water, In the lower part of the buoy means 20, an insertion groove 26 into which the diving means 24 can be inserted is formed, and during the throwing, the diving means 24 is thrown in the state of being inserted into the buoy means 20. After the throwing, the diving means 24 are separated from the buoy means 20 so as to be positioned in the water.

In the above configuration, the diving means 24 is formed with a weight to allow the buoy means 20 to move while the buoy means 20 moves while the submersible means 24 moves in accordance with the flow of algae.

On the other hand, the algae flow detector also uses a biodegradable material that can be dissolved by dissolving in the water within 1-2 hours after throwing the buoy means 20 and the diving means 24.

In addition, the luminous dye is added at the time of manufacturing the buoy means 20 to be used at night, or to form a separate luminous layer on the outer peripheral surface.

Such a tidal flow detector can be used on days with waves, and in this case, the buoy means 20 is actually buoyant because the submersible means 24 actually moves with the algae in the water, even though it is somewhat flown by the waves. Since the means 20 is moved along the diving means 24, the angler can see the direction of the actual bird flow by looking at the buoy means 20.

According to the present invention having the configuration as described above, it is possible to easily grasp the flow of birds when fishing, there is an effect that can easily catch the position to fish.

In addition, since the material constituting the algae flow detector is biodegradable, there is an effect that can prevent environmental pollution.

Claims (5)

Algae flow detector, characterized in that about two-thirds of the whole is submerged in water, weighed so as to move according to the flow of algae, and the buoy means floating on the water is produced by alternatively biodegradable plastic, biodegradable polymer, starch. 2. A tidal flow detector according to claim 1, wherein the buoy means is luminous. And a diving means connected to the buoy means and a connecting member to the buoy, wherein the diving means is formed with a weight enough to move the buoy means according to the algae flow while the buoy means does not sink in the water. Means and diving means is an algae flow detector, characterized in that the alternative manufacturing of biodegradable plastic, biodegradable polymer, starch. 4. The tidal flow sensor according to claim 3, wherein the buoy means forms a groove in which the diving means can be inserted. 2. A tidal flow detector according to claim 1, wherein the buoy means is luminous.

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