KR20150090367A - Cage culture booth practicable self generation electricity - Google Patents

Abstract

The present invention relates to an autonomously generatable cage culture booth formed in an upper part of a cage culture shelter, wherein a space for enabling a person to take a rest and live therein is ensured, and a camera for monitoring the cage culture and a generation device for generating natural energy are installed in the outside thereof. A bottom surface (200) for ensuring a space (100) for enabling a person to live therein is formed in the booth. A side wall (400) having a slope surface with a slope of 20-50° is formed to a roof (300) from each outskirt side of the bottom surface. An opening and closing door (500) through which person can enter and exit from the space is formed in the side wall in one side thereof. A solar cell (600) for generating electricity by receiving solar light is formed in a sidewall in the other side thereof where it is sunshiny. A monitoring camera (700) for monitoring surroundings of the cage culture and a wind generator (800) for generating electricity by receiving wind are formed on the roof. The booth has a shape which becomes downwardly wider from the roof which is the uppermost part towards the bottom surface.

Description

Cage culture booth practicable self generation electricity booth

The present invention provides a self-generating cage culture facility installed at the upper part of a cage culture cage where a space for human resting inside can be secured, a camera for monitoring the cage culture farm and a power generation device for generating natural energy, It's about the booth.

A typical container box 10 having a rectangular parallelepiped shape as shown in FIG. 1 is installed in the cage farm caterer A in which various fishes and abalone are cultured and used as a resting space.

In addition, a surveillance camera C is installed and monitored in the container box 10 to prevent various kinds of fish and abalone cultured in a cage farm, but a separate battery is used for electricity supplied to the surveillance camera There is a problem that such a battery needs to be charged periodically.

In addition, since the capacity of the battery is limited, there is a problem that electricity required in the container box 10 other than the surveillance camera can not be used, and there is a problem in that it is not equipped with convenient facilities for electric use .

Also, the container box 10 is a rectangular parallelepiped. Due to the nature of the sea, the wind box is very windy, especially when a typhoon occurs, the wind box is resisted and the container box 10 is moved from the installation position. Respectively.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

First, in a caged fish farm where a variety of fish and abalone are cultured, it is possible to take a break after work or to take a rest when the work can not be done due to weather deterioration (rainy weather)

Second, all the electricity used in the booth of the present invention is generated by using wind energy and sunlight, which are natural energy, while monitoring various fishes and abalone cultured in a cage farm,

Third, it is to provide a Cathuri farm booth that can minimize the influence of the wind and maximize the wind and solar light concentrator to increase the efficiency of electric power generation.

In order to attain the above object, the present invention provides a cage culture system comprising: a cage culture facility installed on an upper part of a cage culture facility where a room for a person to stay in the cage is secured inside and a surveillance camera for monitoring the cage culture farm surroundings is installed outside; In the booth,

The inside of the booth is formed with a bottom surface 200 for securing a space 100 in which a person can live. At each of the outer sides of the bottom surface, a slope of 20-50 degrees is applied to the roof 300 A side door 400 having a sloped surface having a sloped surface is formed on the side wall 400. A side door 400 is provided at one side of the side wall to open / A solar cell 600 for generating electricity is installed on the roof and a surveillance camera 700 for monitoring the periphery of the farm and a wind power generator 800 for generating electricity by wind are installed on the roof, And gradually becomes wider as it goes down to the lower part of the formation.

The bottom surface is formed in a quadrangular shape having a shape similar to that of the upper part of the cage farm house. The side wall is composed of four sides. A transparent window for confirming the vicinity of the cage farm is installed on the side wall. ) Is formed so as to have a slope of 20 - 50 from one side to the other side.

In addition, a solar cell 600 that generates electricity by receiving sunlight is installed on a roof formed to have a slope of 20 to 50 degrees, and the solar cell 600 that generates electricity by receiving the sunlight includes at least two or more And the solar cell 600 installed on the side wall is installed to have the same inclination as the slope of the side wall.

As described above, the booth for self-development of the present invention having the above-described structure can be used in a caged fish farm where various fishes and abalone are cultured for a short time after work or when the weather deteriorates Second, all the electricity used in the booth of the present invention is used to generate wind energy and sunlight, which are natural energy, and to monitor various fishes and abalone cultured in the cage farms. Third, it has the effect of minimizing the influence of wind and maximizing the condensation of wind and sunlight, thereby increasing the efficiency of electric power generation.

FIG. 1 is a schematic view showing a state where a conventional container box is installed in a cage farm custard;
FIG. 2 is a perspective view of a cage farm booth in a self-power generation mode according to the first embodiment of the present invention,
FIG. 3 is a perspective view of a cage farm booth in a self-generating manner of the second embodiment of the present invention,
FIG. 4 is a perspective view of a self-powering cage farm booth of the present invention installed in a cage farm,
FIG. 5 is a schematic view showing an electric power generation system and an electric control system installed in a cage farm booth capable of self-power generation according to the present invention. FIG.

2 to 5, a bottom surface 200 is formed at a lower portion of the booth for self-development of the cage culture booth according to the present invention so that a space 100 in which a person can live and relax can be secured, At each of the outer sides of the bottom surface 200, a sidewall 400 having an inclined surface with a slope of 20 to 50 degrees from the top to the roof 300 is formed.

The bottom surface 200 has a shape similar to that of the upper portion of the cage farming cell A, and is most preferably tetragonal.

The sidewall 400 is connected to each of the outer sides of the bottom surface 200 to reach the roof 300. The sidewall 400, the bottom surface 200, .

The sidewall 400 is formed to have an inclination with a slope of 20-50 ° in the self-powerable cage farm booth installed above the cage farm house A of the present invention. The reason for this is to maximize the condensing efficiency of the sunlight after the installation of the solar cell 600, which will be described below, while minimizing the influence of the wind to increase the electric energy generation efficiency.

The condensing efficiency of the sunlight is slightly different depending on the season, but it is best to maintain the inclination of 30 to 40 ° in 1, 2, 3, 9, 10, 11 and December, and 4, 5, 6, 7 and 8 It is best to install the wall so that it maintains an inclination of 20 - 30 °.

In addition, the sidewall of the cage farm booth of the present invention has a trapezoidal shape that gradually widens from the top roof to the bottom forming the bottom surface, To maximize the solar light collecting efficiency of the solar cell 600.

On the other hand, the shape of the roof 300 in the cage farm booth of the present invention may be formed horizontally as shown in Fig. 2, or may be formed so as to have an inclined surface having a slope from one side to the other, as shown in Fig.

The roof 300 may be provided with a solar cell 600 receiving solar light on an inclined surface having a slope from one side to the other. It is preferable that the inclined surface forming the roof 300 is directed to the south, because the south is most affected by the sun.

The slope of the inclined surface forming the roof 300 is preferably 20-50 degrees, which is the same as the inclination reason of the side wall 400, and a description thereof will be omitted.

The side door 400 is provided with an opening and closing door 500 through which the person can enter and exit the space 100. The opening and closing door 500 is installed so as to have the same slope as that of the side wall 400 However, it may be installed and used so as to form a vertical as required.

In addition, the solar cell 600 mounted on the side wall 400 and generating electricity by receiving solar light may be installed only on a sidewall facing south, or may be installed on two or more sidewalls that receive sunlight to increase the amount of electricity generated.

The surveillance camera 700 for monitoring the periphery of the cage farm and the wind power generator 800 for generating electricity by wind are installed in many places of the roof 300. The reason why the surveillance camera 700 is installed The reason for installing the wind power generator 800 is to generate electric power by using the wind power of the sea because the frequent occurrence of stolen accidents of fish or abalone cultured in a cage farm is prevented.

5, electricity generated by the solar cell 600 and the wind power generator 800 is supplied to the surveillance camera 700 and various devices interlocked with the surveillance camera 700, ) To provide electricity to the various facilities and household appliances necessary for living.

The solar cell 600 installed on the sidewall 400 may be installed on the sidewall 400. The sidewall 400 may be provided with a transparent opening / closing window for confirming the surroundings of the overturning farm outside the cage farm booth of the present invention. So as to have the same slope as the slope of the slope.

As described in the above effect, the self-powering cage pond booth of the present invention described above can be used in a cage culture farm where various fishes and abalone are cultured, or after work, In addition, all the electricity used in the booth of the present invention can be used to generate natural energy, such as wind power and sunlight, while monitoring the fishes and abalone cultured in the cage farm, Thereby maximizing the condensation of wind and sunlight, thereby increasing the efficiency of electric power generation.

100: space 200: bottom surface
300: roof 400: side wall
500: opening / closing door 600: solar cell
700: Surveillance camera 800: Wind generator
A: Caged fish farm

Claims (7)

A caged fishery booth installed at the upper part of a cage farm (A) having a surveillance camera for securing a space for people to live and rest inside, and for monitoring the vicinity of a cage farm,
The inside of the booth is formed with a bottom surface 200 for securing a space 100 in which a person can live. At each of the outer sides of the bottom surface, a slope of 20-50 degrees is applied to the roof 300 A side door 400 having a sloped surface having a sloped surface is formed on the side wall 400. A side door 400 is provided at one side of the side wall to open / A solar cell 600 for generating electricity is installed on the roof and a surveillance camera 700 for monitoring the periphery of the farm and a wind power generator 800 for generating electricity by wind are installed on the roof, The booths are self-generating cages that grow gradually as they go down to the bottom. The method according to claim 1,
Wherein the bottom surface is formed in a quadrangular shape having a shape similar to that of the upper portion of the cage farming seltzer, and the sidewall is composed of four surfaces. The method according to claim 1,
Wherein the sidewall is provided with a transparent window for confirming the vicinity of the cage farm. The method according to claim 1,
Wherein the roof (300) is formed to have a slope of 20-50 from one side to the other side. 5. The method of claim 4,
And a solar cell (600) for generating electricity by receiving sunlight is installed on the roof formed to have the inclination of 20 - 50 °. The method according to claim 1,
Wherein the solar cell (600) receiving the solar light and generating electric power is installed on at least two side walls. The method according to claim 1,
Wherein the solar cell (600) installed on the sidewall is installed to have the same inclination as that of the sidewall.

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