KR20130006595U - Multiple-stage hydroponic device fixed on rotary axis - Google Patents

Abstract

The present invention relates to a multi-stage fixed rotary hydroponic cultivation device that utilizes sunlight as the main light source for the efficient commercial production of leafy vegetables. It is a growing device.


In most existing plant factories, there is a huge initial facility cost by using artificial light such as LED as the main light source with little utilization of solar light. However, the cultivation device reduces power costs generated by using only minimal auxiliary light source In order to maximize the use of sunlight, the planting bed is rotated at a constant distance, allowing light from the lower planting bed to be spaced between the upper planting beds. It is a kind of plant cultivation tray which is assembled in a multi-stage in consideration of the proper step spacing for stable production of crops, and is a leaf vegetable producing plant designed to efficiently control continuous nutrient supply, increase space utilization, and reduce energy use. A cultivation apparatus for a factory.

Description

Multi-stage hydroponic device fixed on rotary axis}

The present invention is to solve the problems of the prior art for a plant factory which is not economically competitive due to excessive initial facility costs. The present invention relates to a multistage fixed rotary hydroponic cultivation device selected in consideration of the method.

In general, a variety of cultivation methods have been carried out in a greenhouse or greenhouse in a greenhouse or greenhouse to be less affected by the climate, but the efficiency is very low. In addition, the plant factory model developed by some research institutes or companies has not yet been economically feasible to produce agricultural products by applying it to rural sites because of the large initial investment cost, and there are few examples.

However, as the public's desire for safe food is increasing, and the unstable rural economy is a problem due to the skyrocketing and falling agricultural prices due to the climate, there is no pesticide and no pollution in the future without being limited by natural phenomena such as climate. Agricultural producers with the concept of a plant factory capable of producing agricultural products tend to be the main focus.

Therefore, in order to enhance the competitiveness of the plant factory, the development of economical cultivation device is essential.

The present invention solves the problems of the cultivation device applied in the existing plant model as described above

In order to maximize the utilization of sunlight, which is a natural light, the purpose of providing this method is to provide a rotary grower composed of multiple stages to increase production efficiency and to build a competitive plant factory-type cultivation system with low initial installation cost. It is.

■ In order to achieve the above purpose, the present invention requires an economically sized external design, and the height of the plant can be grown in a limited area and the height that can be applied to the general height of the greenhouse (4M). Was set.

■ Rotating main body is divided into circular stages with proper spacing.

It is fixed to the structure by a bearing, and a plurality of cultivation beds are installed at the top of each stage, and the nutrient solution supplied to the top cultivation bed is fed, and the over-flow excess nutrient solution is supplied to the next lower cultivation bed and finally A nutrient solution circulation system, which is collected in a drainage tank, is filtered and fed back to the top,

■ By rotating the main body about the axis, it is possible to evenly distribute the sunlight required by the cultivating plants, and also to minimize the interference (shading) of the light by arranging the cultivation beds at the top and bottom of each other.

■ The spacing between the circular ends attached to the main body and the size of the cultivation bed installed on each end are made of a variable type so as to be realized in various forms according to the type of plant to be grown.

■ As the main body rotates, it is not necessary to illuminate the auxiliary light in all directions, but to

Even if only the auxiliary lighting is installed, the cultivated plant can be lighted evenly. For this purpose, install a fluorescent lamp or LED module in the vertical direction,

■ The rotary driving force is connected to the reduction motor, which is the driving source, and the chain through the gear attached to the lower part of the shaft.

Or by connecting with a plurality of the main body by using a single drive unit a plurality of main body

Rotational driving is possible, minimizing the use of initial installation costs and maintenance power.

As described above, according to an embodiment of the present invention, the present invention has the following effects as compared to the plant factory presented as an example.

■ By lightening the structure of the cultivation device, the initial construction investment cost is much lower than the existing example, and the cultivation device can be driven with less power.

■ By installing in multiple stages, the cultivation efficiency per unit area can be maximized.

■ By rotating the main body and arranging the cultivation beds at the bottom of each other, the irradiation of the natural sunlight at the bottom between the cultivation bed spaces is universally uniform, so that photosynthesis of the cultivation plants is sufficient and even growth is possible. Savings in facility costs and operating expenses (power costs, etc.) for the light source required for the installation of fixed planting beds in the form of a general plant factory,

■ The cultivation bed is separated from the upper and lower parts, and when planting plants in the cultivation area, standardized urethane sponge medium is used to simplify work management and increase productivity.

1 is a front view of a cultivation apparatus according to an embodiment of the present invention.
2 is a structural form of a circular cultivation stage of the cultivation apparatus according to an embodiment of the present invention
The schematic is shown.
3 is installed on one circular cultivation stage of the cultivation apparatus according to an embodiment of the present invention
The layout of the cultivation bed.
4 is a perspective view of one cultivation bed of the cultivation apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail to be easily carried out by those skilled in the art of the invention. However, the design may be implemented in a number of different forms and is not limited to one embodiment described herein. That is, as shown in the accompanying drawings, Figures 1 to 4 ,

■ The side height of the cultivation apparatus is set to a maximum of 4,000mm, the interval distance of the circular stage 101 is

Considering the height of the plant grown at least 300mm was set to a maximum of 700mm.

■ The size of the circular stage 101 is limited to the size of 1,000 ~ 2,000mm in diameter in consideration of smooth workability, each stage is the central axis 104 is fixed to the upper bearing 105 and the lower bearing 106 Supported by, to install the space bar (space bar) 102 so that the distance between the upper and lower intervals is adjusted according to the conditions of the plant to be grown. In addition, the structure of one stage is a cultivation bed (103) to be installed on the upper end using the a-beam (201) (30 ~ 50mm) and square tube 202 (19 ~ 50mm) in consideration of the required weight and light transmittance to the lower end Apply a network structure to support).

■ Rotational driving force of the main body is supplied to a motor 113 including a speed reducer in one direction via a rotating chain 112 connecting single or plural main bodies to a sprocket 111 attached to the central shaft 104. Each body is provided with an opening and closing device 114 so that the rotation chain 112 for transmitting the driving force can be individually attached and detached.

■ The nutrient supply of the cultivation device is supplied to the circular feeder 122 fixed to the shaft through the nutrient solution supply pipe 121, the supplied nutrient solution is the upper part of the cultivation bed through the branch pipe 123 and the hose 124 It is supplied to the liquid supply port 402 of 401. In the cultivation bed, a drain port 404 is installed in the lower part of the growing bed 403 to maintain an appropriate water level, and the surplus nutrient solution is branched so that the liquid supply port 402 of the draining port 404 and the lower growing bed 103. ). In addition, the drainage at the bottom is discharged to the axis center through the drainage (125).

■ The cultivation bed is composed of the upper plate 401 and the lower nutrient container 403 to be separated up and down, the upper plate is installed according to the square or round hole in the left and right intervals (50mm ~ 250mm) according to the type of plant grown The hole size can be from 20mm to 80mm. When planting plants

It is formulated using the urethane sponge medium 405 suitable for a hole.

■ Auxiliary light source for the cultivation device is used locally by using the fluorescent lamp and LED lighting that are modular in terms of the cultivation device.

■ In addition, although one embodiment of the present invention has been described in detail, this is a preferred embodiment of the present invention

The present invention should not be construed as being limited to the example, which is merely an example, and as an exemplary embodiment of the present invention, the scope of the present invention is not limited thereto. It should be decided by the technical spirit of the utility model registration claim.

101 Round Growing 102 Space Bar
103 Planting Bed 104 Center
105 Upper bearing 106 Lower bearing
111 Sprockets 112 Chain
113 Electric motor (with reducer) 114 Switchgear
121 Supply Pipe 122 Feeder
123 Branch Pipe 124 Hose
125 Drainer 401 Cultivated Bed Top
402 Supply port 403 Lower cultivation bed
404 Drainer 405 Sponge Badge

Claims (5)

A shaft that can be rotated with upper and lower bearings attached, and
Fixed-rotation cultivation device consisting of a 10-stage or plural-stage replanter holder (circular) attached to the axis in the vertical direction. According to claim 1,
Install a plurality of hydroponic cultivation bed in the upper and lower parts detachable on the top of the cradle, and the upper and lower cultivation beds are alternately arranged to minimize the shade between each stage, the upper part of the cultivation bed is connected to the hose by one side It is a cultivation plate composed of cultivation holes with a certain interval according to the kind of feeder and leafy vegetables, and the lower part consists of a nutrient solution container with a drainage port that can be connected to the cultivation bed feeder at the bottom and the water level can be adjusted at one level. Hydroponic cultivation device fixed to the cradle. According to claim 1, The lower portion of the shaft and the drive gear fixedly attached; And a fixed rotation cultivation device composed of a drive motor including a series of chains and a reducer capable of interlocking two or a plurality of drive gears. The method according to any one of claims 1 and 2, wherein each of the cultivation is performed by a pump at the top of the shaft.
An infusion device receiving the nutrient solution transferred to the device; From the fluid unit to the top cradle through the flexible hose
It is connected to each cultivation bed feed part installed, and the surplus nutrient solution is passed through the drainage port of the lower cultivation bed, and is supplied through the hose to the cultivation bed supply port of the lower part, and is finally passed through the drain port of the lower cultivation bed.
Fixed Rotary Cultivator. The method of claim 1 or claim 1,
Fixed outer cultivation device, characterized in that the outer surface of the main body made of one or a combination of the auxiliary light source using a fluorescent lamp or LED module.

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