KR101464487B1 - A water culture device - Google Patents

Abstract

A hydroponic cultivation apparatus using wind and sunlight according to the present invention comprises: a frame constituted by a plurality of supports standing upright on the ground surface and formed in multiple stages at intervals in a direction perpendicular to the supports; A nutrient storage tank in which a discharge pump is configured to discharge the nutrient solution stored in the nutrient solution storage tank, the nutrient solution storage tank being formed in the form of a water tank so that the nutrient solution is stored in the multi- A support portion formed in the form of a plate that is seated on the seating table and an extension portion extending in an upper direction to form an outer wall, the upper portion being open at an outer side forming a rim of the support portion, A bad hole formed in the form of a plate which is seated on the upper side of the extension of the stand, and is composed of a receiving plate in which a plurality of receiving grooves are formed so as to accommodate pollen for hydroponic cultivation; A light emitting means for irradiating light with a hydroponic planting pot placed on the receiving plate of the bed as the under surface of the bed; A supply hose for supplying the nutrient solution stored in the nutrient solution storage tank to the nutrient solution reservoir by the operation of the discharge pump is connected to one side of the discharge pump of the nutrient solution storage tank, A hose constituted by a connection hose connected to the other side of the installed soft drink storage tank and the nutrient solution storage tank and for returning the supplied drug solution to the nutrient solution storage tank, and a connection hose connected to each of the plurality of bad holes; An electric power supply means comprising a wind power generating means provided on an upper portion of the frame and generating an electric power by including an impeller rotated by wind power and a solar light integrating means provided on the frame for generating electricity by integrating sunlight; And a battery that is mounted on the frame and stores electricity generated from the electricity supplying unit to supply electricity to the light emitting unit and the discharge pump.
Therefore, by supplying the light and nutrient solution necessary for the growth of plants due to the electricity generated by the electricity generated by using nature such as wind and sunlight, it is possible to reduce the maintenance cost while being environmentally friendly, And the supply method of light and nutrient solution necessary for the growth of plants is adopted not by the existing high-voltage electric power system but by the electric power supply system using the electric energy stored by the natural energy, The effect is prevented.

Description

A water culture device using wind and solar light

The present invention relates to a hydroponic cultivation apparatus using wind power and solar light, and more particularly, to a hydroponic cultivation apparatus using wind power and solar light, and more particularly, And to a hydroponic cultivation apparatus using wind power and solar light, in which the maintenance cost is reduced.

Generally, the hydroponic cultivation apparatus grows plants in a culture medium made of water and water-soluble nutrients without using soil. Such hydroponic cultivation apparatuses can be used for cultivating hydroponic crops in a vinyl house or building, installing them in a pond or a reservoir Most of the plants used for cultivating hydroponic crops were potted plants using buoyancy materials such as styrofoam.

In recent years, however, indoor and outdoor interior decoration has been widely used. In addition to the interior decoration, hydroponic cultivation equipment used in this way can directly observe the state of the roots and their growth patterns to produce learning effects and produce clean, uncontaminated vegetables and crops. This is a trend that the usage is steadily increasing.

However, such a hydroponic cultivation apparatus is inconvenient because it is large in size, and sunlight required for growing is constantly supplied in the room.

In order to solve these problems, artificially produced light was supplied to the plants, but this increased the electricity consumption and caused the maintenance cost to be excessively increased. In addition, the apparatus and the maintenance cost for supplying the nutrients necessary for growing the plants were also required It has been difficult to use it indoors or outdoors.

Registration Utility Model No. 20-0429390

It is an object of the present invention to provide an electric power storage device for storing electricity by sunlight and wind power to supply light and nutrients required for plant growth to plants, And to provide a hydroponic cultivation apparatus using wind power and solar light that is environmentally friendly and low in maintenance cost.

In order to achieve the above object, the present invention provides a hydroponic cultivation apparatus using wind and sunlight, comprising: a plurality of supports standing upright on the ground; A frame to be constructed; A nutrient storage tank in which a discharge pump is configured to discharge the nutrient solution stored in the nutrient solution storage tank, the nutrient solution storage tank being formed in the form of a water tank so that the nutrient solution is stored in the multi- A support portion to be seated on the seating table is formed, and on the outer side of the support portion, an upper portion is opened to form an extension portion constituting an outer wall, and an upper portion of the support portion is seated on an upper portion of the extension portion of the nutrient solution receptacle. And a receiving plate having a plurality of receiving grooves formed in the shape of a plate to accommodate the flower pot for hydroponic cultivation; A light emitting means for irradiating light with a hydroponic planting pot placed on the receiving plate of the bed as the under surface of the bed; A supply hose for supplying the nutrient solution stored in the nutrient solution storage tank to the nutrient solution reservoir by the operation of the discharge pump is connected to one side of the discharge pump of the nutrient solution storage tank, A hose composed of a connection hose connected to the other side of the sanitary napkin to be installed and the recovery hose connected to the nutrient solution storage tank and for recovering the supplied chemical liquid to the nutrient solution storage tank, An electric power supply means comprising a wind power generating means provided on an upper portion of the frame and generating an electric power by including an impeller rotated by wind power and a solar light integrating means provided on the frame for generating electricity by integrating sunlight; And a battery that is mounted on the frame and stores electricity generated from the electricity supplying unit to supply electricity to the light emitting unit and the discharge pump.

The solar light integrating means includes a solar module plate having a plurality of solar cells for collecting solar light. The solar module is mounted on the solar module plate, And an azimuth angle sensor for measuring and transmitting the position and direction of the solar module module. The bracket is erected on the ground while supporting the upper and lower sides of the solar module plate from the rear side of the solar module plate, A motor for applying power to the rotating shaft, and a track for moving the sun based on the position and direction of the solar module plate according to the azimuth angle transmitted by the azimuth sensor. The built-in program is used to drive the motor, and the slope of the photovoltaic module plate becomes And a controller for changing the power of the power source.

And an extension part formed in the nutrient solution receiving part is formed with a stopping step at an inner side of the upper end, and a latching part which is seated on both sides of the receiving plate and is inserted into the latching part is protruded downward.

As described above, according to the present invention, since electricity generated by using electricity such as wind and solar light is generated, the light and nutrient solution necessary for the growth of plants are supplied to the plants, It is possible to supply electricity stably without the need of constructing the electrical equipment of the plant and to supply the light and nutrient solution required for the growth of the plant to the power supply using the storage battery The adoption of the method has an effect of preventing a safety accident in advance.

Also, an azimuth sensor for measuring the position and direction of the solar integrating means is included, and a program in which the trajectory of the sun moves based on the position and direction of the solar integrating means is stored in a database according to the measurement value sent from the azimuth sensor. The slope of the solar integrated plate can be varied to correspond to the changed position of the sun by the season and time due to the controller so that the efficient integration can be performed and the efficiency of solar light integration can be improved regardless of the installation place and installation angle It is possible to increase the energy efficiency, and it is effective in practical use.

In addition, since the nutrient solution receptacle and the receiving plate have the structure of the hooking jaw and the fastening part, the binding force is improved, and the pot for the hydroponic cultivation is firmly fixed, and the separation and the coupling are easy, so that the bed can be easily cleaned and the pollen for hydroponic cultivation can be easily replaced There is an effect that the use becomes easy.

1 is an exemplary view showing a preferred embodiment of the present invention,
2 is a use state diagram showing a preferred embodiment of the present invention,
3 is an exemplary view showing a preferred form in which a nutrient solution according to the present invention is fed through a feed hose,
4 is an exemplary view showing a preferred form in which a nutrient solution according to the present invention is recovered through a recovery hose,
FIG. 5 is a systematic diagram showing a state in which electricity generated by the electricity supplying means according to the present invention is stored in a battery,
6 is an exemplary view showing a preferred form of a bad according to the present invention,
7 is a use state diagram showing a preferred embodiment of a bad according to the present invention,
8 is an exemplary view showing a preferred form in which a protrusion is formed on a support according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view showing a preferred embodiment of a light-emitting device for a wooden building according to the present invention. The apparatus for cultivating water using wind and sunlight according to the present invention comprises a water- It can be used indoors and outdoors by growing plants.

1 and 2, the present invention includes a frame 10, a nutrient solution storage tank 20 for storing a nutrient solution for supplying nutrients to plants, a bed 30 for storing pots for hydroponic cultivation, A hose 50 for recovering the nutrient solution supplied and supplied to the hydroponic pots for the hydroponic cultivation, an electricity supply means 60 for generating electricity, a storage battery 90 for storing and supplying the generated electricity ).

The frame 10 includes a plurality of supports 11 erected perpendicular to the paper surface and is formed in the multistage with a gap in the vertical direction on the support 11 so that the nutrient solution storage tank 20, And a seating table (13) on which the bed (30) is seated.

The nutrient solution storage tank 20 is seated on the lowest seating base 13 formed in a multi-stage structure, and the external shape of the nutrient solution storage tank 20 is configured in the form of a water tank to store the nutrient solution for growing plants. (20) is provided with a discharge pump (21) so that the nutrient solution stored therein is discharged to the outside.

The material of the nutrient solution storage tank 20 is formed of synthetic resin so that it can be easily processed to be connected to the hose 50 to be described later and is light in weight so that it is easy to graft both inside and outside of the room, .

6 and 7, the bed 30 includes a nutrient solution receiving table 31 and a receiving plate 35. The nutrient solution receiving table 31 is seated on the seating table 13, And the upper portion of the supporting portion 32 is formed as an outer portion of the supporting portion 32. The upper portion of the extending portion 33 is formed as an outer wall.

The receiving plate 35 is formed in the form of a plate that is seated on the upper side of the extending portion 32 formed in the nutrient solution receiving stand 31 and has a plurality of receiving grooves 36 formed therein to accommodate pollen for hydroponic cultivation.

It is preferable that the beds 30 constructed in the above-described configuration are arranged in at least one or more than one on the seating table 13. [

The pollen for hydroponics cultivated in the nutrient solution receiving basin 31 is formed in the form of pollen in which vegetation is generally used and is tapered so as to spread upward in the lower direction so as to be stably stood in the receiving groove 36 So that the nutrient solution flowing into the nutrient solution receiving chamber 31 can easily penetrate into the hydroponic pots by forming a through hole in the lower portion.

In addition, in the present invention, it is not limited to plants planted in hydroponics, but seedlings can be planted. In general, the size of plant seedlings is smaller than that of ordinary plants, so productivity can be improved. It is also possible to use the flowerpot for cultivating hydroponics and the seedling plate separately.

The light emitting means 40 is configured to irradiate the light necessary for plant growth with a flowerpot for hydroponic cultivation placed on the receiving plate 35 of the bed 30 by the lower surface of the seating table 13 formed in a multi- 40 may be composed of a general light emitting body such as an incandescent lamp or a fluorescent lamp that emits light, but it is preferable that the light emitting diode is composed of an LED (light emitting diode) which does not require replacement or maintenance because of long- Do.

The hose 50 includes a supply hose 51, a recovery hose 53 and a connection hose 55 as shown in Figs. 3 and 4. The supply hose 51 is connected to a nutrient solution storage tank 20 is configured to supply the nutrient solution stored in the nut 30 to the nutrient solution reservoir 31 of the bed 30 by one side connected to the discharge pump 21 of the nutrient solution storage tank 20, (31) and supplies the nutrient solution stored in the nutrient solution storage tank (20) to the nutrient solution receiving vessel (31) by the operation of the discharge pump (21).

The recovery hose 53 is connected to the other side of the nutrient solution receiving chamber 31 on which the supply hose 51 is installed and the nutrient solution storage tank 20 so that the nutrient solution supplied to the nutrient solution receiving vessel 31 is returned to the nutrient solution storage tank 20).

The connecting hoses 55 are connected to the nutrient solution receiving bases 31 of the plurality of bed 30 to supply the nutrient solution supplied to the supply hose 51 to the nutrient solution receiving bases 31, And collecting the nutrient solution supplied to the stand 31 to the recovery hose 53 at a time.

That is, the connection hose 55 connects the nutrient solution receiving bases 31 to one side of the nutrient solution receiving bases 31 and is also connected to the supply hose 51. The other side of the nutrient solution receiving bases 31 is connected to the nutrient solution receiving bases 31, (31) and connected to the recovery hose (53).

The electric power supply means 60 is constructed to generate electric power according to the use of the present invention. The electric power supplying means 60 includes a wind power generating means 70 installed near the frame 10 and including an impeller rotated by wind power to generate electricity. And solar collecting means (80) installed in the vicinity of the frame (10) to generate electricity by accumulating sunlight.

The battery 90 is configured to store electricity generated from the electricity supply means 60 mounted on the frame 10 and supply electricity to the light emitting means 40 and the discharge pump 21, respectively.

Therefore, the electric power supply means 60 generates electricity by using natural materials such as wind power and sunlight, and thus the light and nutrient solution necessary for the growth of the plants are supplied to the plants due to the generated electricity. In addition, the supply method of light and nutrient solution required for the growth of plants is adopted not by the existing high-voltage power system but by the power supply system using the battery 90, which is stored through natural energy, thereby preventing safety accidents .

Here, the solar light integrating means 80 includes a solar module plate 81 in which a plurality of solar cells for integrating sunlight are arranged as shown in FIG.

The solar integrating unit 80 includes an azimuth angle sensor 83 mounted on an upper side of the solar module plate 81 for measuring the position and direction of the solar module plate 80 on the ground due to the intensity of the magnetic field, .

The solar light integrating means 80 includes a power means 85 for turning the solar module plate 81 so as to increase the solar light coupling efficiency, A bracket 86 standing upright on the ground while supporting the upper and lower sides of the solar module plate 81 on the rear side of the solar module module 81, A motor 88 for applying power to the rotation shaft 87 and a motor 88 for controlling the position of the solar module module 81 according to an azimuth angle transmitted by the azimuth sensor 83. [ And the direction in which the sun moves, and the calculated value is converted into a database, and the inclination of the solar module plate 81 is varied by driving the motor 88 with a program embedded therein And a controller 89.

That is, by the program embedded in the controller 89, the motor 88 is driven so as to correspond to the changed position of the sun by the season and time, so that the inclination of the solar module module 81 is varied, So that it is possible to improve the efficiency of collecting sunlight without increasing the installation place and the angle of installation, thereby improving the energy efficiency, and it is possible to have an excellent practical effect.

On the other hand, as shown in Figs. 6 and 7, the extension 33 formed in the nutrient receiving bail 31 is formed with a stopping step 34 inwardly at the upper end thereof, And a latching portion 37 which is seated on both sides of the latching jaw 34 and is inserted into the latching jaw 34 is protruded downward.

Therefore, the coupling force between the nutrient solution reservoir 31 and the reception plate 35 is improved to firmly fix the flowerpot for hydroponics, and the separation or coupling between the nutrient solution reservoir 31 and the reception plate 35 is facilitated So that the bad 30 can be easily cleaned and the flowerpot for cultivating hydroponics can be easily replaced.

As shown in FIG. 8, the inside of the supporter 11 is hollow and the protrusions 12 protruding partly on both sides of the hollow correspond to each other. The hollow supporter 11 is connected to the supply hose 51, The supply hose 51 and the recovery hose 53 can be fixed to the protruding portion 12 by the protruding portion 53.

Meanwhile, the wheel 100 is formed at a lower portion of the seat 13 located at the lowermost end of the frame 10 so that it can be easily moved, so that it can be used regardless of the place.

10: Frame 11: Support
13: seat base 20: nutrient solution storage tank
21: Exhaust pump 30: Bad
31: nutrient solution reservoir 32: support
33: extension part 34:
35: receiving plate 36: receiving groove
37: engaging portion 40: light emitting means
50: Hose 51: Supply hose
53: Recovery hose 55: Connection hose
60: Electric power supply means 70: Wind power generation means
80: solar integrating means 81: solar module plate
83: azimuth sensor 85: power means
86: Bracket 87:
88: motor 89: controller
90: Battery 100: Wheel

Claims (5)

A frame 10 constituted by a plurality of supports 11 standing upright on the ground, and a seating table 13 formed in multiple stages at intervals in the vertical direction on the supports 11;
In the multi-stage seating pad 13, a nutrient solution storing tank 20 (see FIG. 1) is formed in the form of a water tank so that the nutrient solution is stored therein so that the nutrient solution stored therein is discharged to the outside. );
A supporting part 32 is mounted on the seating table 13 and an extension part 33 is formed on the outer side of the supporting part 32 to form an outer wall to open the upper part A receiving plate 35 in the form of a plate resting on the nutrient solution receiving stand 31 and an extension part 33 of the nutrient solution receiving stand 31 and having a plurality of receiving grooves 36 for accommodating pollen for hydroponics A bed 30 made up of;
Light emitting means (40) for irradiating light with a flowerpot planting pot placed on the receiving plate (35) of the bed (30) at a lower surface of the seat (13);
One side is connected to the discharge pump 21 of the nutrient solution storage tank 20 and the other side is connected to the nutrient solution receiving vessel 31 of the bed 30 to be connected to the nutrient solution storage tank 20 And a supply hose 51 for supplying the stored nutrient solution to the nutrient solution storage basin 31 is connected to the other side of the solution supply vessel 31 on which the supply hose 51 is installed and the nutrient solution storage tank 20, And a connection hose 55 connected to the medicament receiving bases 31 of the plurality of beds 30 so as to be connected to the fluid storage tank 20, A hose 50;
A wind power generator 70 installed in the vicinity of the frame 10 to generate electricity by including an impeller rotated by wind power and a solar power generator 70 installed in the vicinity of the frame 10 for generating electricity by integrating sunlight, An electric supply means (60) comprising an accumulating means (80);
And a battery 90 mounted on the frame 10 to store electricity generated from the electricity supplying means 60 and supply electricity to the light emitting means 40 and the discharge pump 21,
Wherein the inside of the supporter (11) is hollow and the protrusions (12) partially protruding on both sides of the hollow correspond to each other. The method according to claim 1,
The solar light integrating means (80)
And a solar module plate 81 in which a plurality of solar cells for integrating solar light are arranged,
And an azimuth angle sensor 83 attached to the upper side of the solar module plate 81 to measure and transmit the position and direction of the solar module plate 81 on the ground due to the intensity of magnetic force,
A bracket 86 standing upright on the ground while supporting the upper and lower sides of the solar module plate 81 from the rear side of the solar module module plate 81 and a bracket 86 And a motor 88 for applying power to the rotation shaft 87. The azimuth angle sensor 83 detects an azimuth angle of the solar module plate 81, The motor 88 is driven by a program with a built-in program formed by converting the numerical values calculated by calculating the trajectory of the sun moving on the basis of the position and the direction of the sun 81, And a controller (89) for varying the slope of the wind power and the sunlight. The method according to claim 1,
An extension portion 33 formed in the nutrient solution receiving portion 31 is formed with a hooking step 34 at a stepped portion inside the upper end portion thereof,
And a latching part (37) which is seated on both sides of the receiving plate (35) and is seated on the latching jaw is protruded downward. delete The method according to claim 1,
Wherein the wheel (100) is formed as a lower part of the seat (13) positioned at the lowest end of the frame (10).

Images