JPH1084814A - Float - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it easy to visually find a float used for a fish net, a mark, a buoy or the like even at night. SOLUTION: A float main body 10 is provided with a light emitting source 21, a battery 22, a charging/discharging controller 23 and a solar battery 24. The battery 22 operates the light emitting source 21 through the controller 23, and the source 21 emits light to display an installed position to outside.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a float used as a buoy for fixing a fishing net, a buoy for indicating a fixed point on the sea such as a navigation sign, or the like.

[0002]

2. Description of the Related Art As a float used for fishing nets, markings, buoys, etc., hollow molded articles made of ABS resin are mainly used.

[0003] That is, a conventional float can be used by making a hollow molded product of a predetermined shape from an ABS resin having excellent weather resistance and floating it on the water surface.

[0004]

According to the prior art, since the float is installed on the water surface, it is difficult to visually detect the float at night, and the fishing net is cut off by the ship or the float is broken. There was a problem that there were not many.

Accordingly, an object of the present invention is to provide a float which can be easily found visually even at night by mounting a light emitting source on the float body in view of the problems of the prior art. It is in.

[0006]

Means for Solving the Problems To achieve the above object, the structure of the present invention comprises a hollow float main body, a light emitting source mounted on the float main body, a battery incorporated in the float main body and supplying power to the light emitting source. And a solar cell mounted on the upper surface of the float main body and charging the battery via a charge / discharge controller.

[0007] The float body may be formed of titanium or a titanium alloy.

Further, a discharge terminal is attached to a bottom surface of the float body, and a battery can be connected to the discharge terminal via a current controller.

Further, the battery may be installed at the bottom of the float body.

[0010]

According to the structure of the present invention, the float main body is equipped with a light emitting source, a battery, a charge / discharge controller, and a solar cell. Can be displayed. The light emitting source may be lit continuously or intermittently. Further, as the light emitting source, a flash lamp such as a xenon lamp can be used in addition to the light emitting diode element and the semiconductor laser element. on the other hand,
The solar cell charges the battery via the charge / discharge controller during the daytime, and the battery supplies power to the light emitting source via the charge / discharge controller when the solar cell stops generating power at night.

A float body made of titanium or a titanium alloy does not elute into seawater and can achieve good durability. Even if marine organisms such as shellfish and seaweed adhere to the surface, it can be easily removed. Can be removed. Note that it is preferable to use pure titanium having a purity of 99% or more. In addition, titanium alloy, pure titanium, palladium, aluminum, tin, molybdenum, vanadium,
Those to which stable elements such as zirconium, silicon, chromium, and iron are added are preferable. However, the stable element may be a single element or a combination of two or more.

If a discharge terminal is provided on the float body, the discharge terminal causes a weak current to flow between the float body and the float body through the seawater to electrolyze the seawater near the surface of the float body, thereby providing a sterilizing effect. Generates chlorine ions. That is, the discharge terminal can effectively prevent marine organisms such as shellfish and seaweed from attaching to the surface of the float body. The current controller regulates the operation timing of the discharge terminal and optimally controls the current value from the discharge terminal.

If the battery is installed at the bottom of the float body, the battery can also serve as a ballast weight of the float body, and the center of gravity of the float body can be set at the bottom.
The float body does not accidentally overturn.

[0014]

Embodiments of the present invention will be described below with reference to the drawings.

The float is constructed by combining the float body 10, a light source 21, a battery 22, a charge / discharge controller 23, and a solar cell 24 (FIG. 1).

The float body 10 includes an upper member 11 and a lower member 12 made of titanium or a titanium alloy. The upper member 11 is formed in a bowl shape with an open bottom surface,
The upper surface is formed flat. An outer flange 11a is formed at the lower end of the upper member 11, and a plurality of hooks 11b, 11b,.
The lower member 12 is formed in a bowl shape with an open top corresponding to the upper member 11, and has an outer flange 12a formed at the upper end. Therefore, the float main body 10 is
By seam welding the outer flange 11a of the lower member 12 and the outer flange 12a of the lower member 12, the upper member 11 and the lower member 12 can be hermetically joined to form a hollow interior.
However, the float main body 10 may be formed of another metal material or a synthetic resin material.

The float body 10 has a light emitting source 21 and a solar cell 24 mounted on the upper surface. A charge / discharge controller 23 is incorporated in the float main body 10, and a battery 22 is provided at the bottom. The light source 21 is provided with a dome-shaped lens 21a.

The solar cell 24 includes a charge / discharge controller 23
, And the charge / discharge controller 23 is connected to the battery 22. The battery 22 is connected to the light emission source 21 via the charge / discharge controller 23 and the timer 23a.
It is connected to the.

The solar cell 24 includes a charge / discharge controller 23
, The battery 22 can be charged by the power generated by the sunlight. Further, the battery 22 can supply power to the light emitting source 21 via the charge / discharge controller 23 and the timer 23a. However, the charge / discharge controller 23
Depends on the amount of power generated by the solar cell 24.
2 is switched between charging and discharging, and the timer 23a regulates the operation timing of the light emitting source 21. That is, the timer 23a
For example, when the power generation by the solar cell 24 is stopped at night, the light emitting source 21 can be operated after a predetermined time. It is assumed that the light-emitting source 21 is continuously lit through its own controller (not shown), intermittently lit at predetermined time intervals, or emits flash light. On the other hand, the lens 21a of the light emitting source 21 concentrates the light from the light emitting source 21 in a horizontal direction or an obliquely upward direction.

Such a float can be used, for example, by attaching it to a rope Na of the fishing net N in order to indicate the installation location of the fishing net N (FIG. 2). Float body 10
Can be connected to the rope Na by inserting the rope Na into the side hooks 11b.
The float attached to the rope Na in this manner allows the fishing net N to be suspended through the rope Na even if the fishing net N is suspended in water.
The surface of the fishing net N can be clearly displayed even during the night by emitting light from the light emitting source 21 even at night.

[0021]

[Other Embodiments] A float body 10 has discharge terminals 2
5 may be attached (FIG. 3). The discharge terminal 25 is fixed to the bottom surface of the float main body 10 via an insulating material 25a. The discharge terminal 25 is connected to a positive pole of the battery 22 via a current controller 26, and a negative pole of the battery 22 is connected to the float body 10.

The discharge terminal 25 can be connected to the battery 22 via an insulated cable 25b disposed along the side surface of the float body 10 (FIG. 1A). The insulated cable 25b is connected to the float body 1 via the sealing material 25c.
0 is drawn into the inside from the upper surface of the sealing material 25c.
Seals the float body 10 airtightly. In addition,
The discharge terminal 25 may be attached to the float main body 10 via an insulating material 25a that penetrates the lower surface of the float main body 10 in an airtight manner (FIG. 2B).

The battery 22 applies a voltage between the discharge terminal 25 and the float main body 10 via a current controller 26 to electrolyze seawater near the surface of the float main body 10 so that the battery 22 is near the surface of the float main body 10. To generate germicidal chlorine ions. Therefore, the float body 10 at this time hardly attaches marine organisms such as shellfish and seaweed to its surface. The current controller 26 controls the value of the discharge current from the discharge terminal 25 optimally and defines the operation timing of the discharge terminal 25. For example, the current controller 26 may operate the discharge terminal 25 continuously, but may intermittently operate the discharge terminal 25 for, for example, several hours a week, depending on the growth rate of the attached marine life. .

In the above description, the float body 10
May be provided with an opening / closing lid for inspection on the upper surface. Further, the float according to the present invention can be widely used not only as being attached to the fishing net N, but also as a buoy indicating a fixed point on the sea such as a navigation sign or a buoy.

[0025]

As described above, according to the present invention, by mounting the light emitting source on the float main body, the light emitting source can be operated and the installation position can be clearly displayed. Has an excellent effect that it can be easily found visually from a distance.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of the entire configuration.

FIG. 2 is an explanatory view of a use state.

FIG. 3 is a main part configuration diagram showing another embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Float body 21 ... Light emission source 22 ... Battery 23 ... Charge / discharge controller 24 ... Solar cell 25 ... Discharge terminal 26 ... Current controller

Claims (4)

[Claims] 1. A hollow float body, a light emitting source mounted on the float body, and incorporated in the float body.
A float comprising: a battery for supplying power to the light emitting source; and a solar cell mounted on the upper surface of the float body and charging the battery via a charge / discharge controller. 2. The float according to claim 1, wherein the float body is formed from titanium or a titanium alloy. 3. The float according to claim 1, wherein a discharge terminal is attached to a bottom surface of the float main body, and the battery is connected to the discharge terminal via a current controller. 4. The battery according to claim 1, wherein the battery is installed at a bottom of the float body.
The float according to any one of the above.