KR20110000268U - Upright type Vegetation apparatus for sun tracking - Google Patents

Abstract

The present invention relates to the cultivation of indoor plant crops, in the present invention, the upright support can be rotated by receiving power from the outside, and the multiple supports are arranged for each height of the support so that the crops can grow. Supports connected to the turntable can track sunlight as the sun moves during the day, bringing large amounts of sunlight to the crop, and being upright, the device can effectively grow large quantities of crops even in small indoor spaces. to be.

Cultivator, Sunlight, Upright, Sun Tracing, Functional Sand

Description

Upright type Vegetation apparatus for sun tracking}

In indoor crop cultivation, the height of the space is usually at least the height of the person. If the height of the crop grown on the floor is less than tall, and it is transferred to an upright vegetation device and stratified above and below the space, more crops can be grown in a limited space. In the present invention, the upright vegetation device is rotatable by chasing sunlight, thereby providing assistance for the growth of the crop.

In addition, the present invention relates to a solar tracked upright vegetation device that provides water using only functional sand, not general sand, and can be easily installed without a separate drainage system.

As a cultivation aid for indoor use, a stepped pedestal or floor cultivation is common. Such cultivation uses space only in two-dimensional plane, so the cultivation area per unit area is limited, and there is a cost burden for securing and installing space for drainage facilities. In particular, the amount of sunlight to receive sunlight is bound to be limited. In plant crop cultivation, the internal space is the biggest variable in maintenance cost, and the cultivation technology to make the best use of the light entering the space is important.

In general indoor cultivation, if the plant is grown only on the ground or using a stepped pedestal, the cultivation in a limited indoor space is two-dimensional and its cultivation area is constant. In particular, in indoor crop cultivation, the interior space is the biggest variable of maintenance cost, and it is necessary to bring more crops effectively in this limited space. Sunlight does not only enter the floor of the indoor space, but also the entire space, which is why a three-dimensional planting device is required inside the space.

In the present invention, the flowerpot 2 having a layered layer is attached to the vertical support 1. In addition, when the upright cultivation device is arranged at regular intervals in the indoor space, the total cultivation area of the pots in which the crops grow is widened to the three-dimensional space. In addition, each vertical support (1) can be rotated so that it can be effectively irradiated with sunlight in the sun along the sunlight, and the use of functional sand does not require a separate drainage device for convenience and low maintenance costs Provide.

By placing the flower pot 2 on the vertical support, it is possible to secure more cultivation area than cultivation on the floor. When the upright cultivation apparatus is arranged at regular intervals in the limited indoor space, crops are grown using the maximum sunlight in the entire indoor space. In particular, for growing vegetables or fruits that require a lot of sunlight, the vertical support is rotated to maximize the amount of sunlight. This support provides the convenience of work through the attachment of the water supply pipe and the removal of unnecessary drainage. The plant can be separated from the support, making it suitable for the future automation of crop cultivation.

The method of solar tracking in the present invention is a structure that applies the method of the solar tracking device of Korea Patent Application Publication No. 2005-0111830, registered in your company, so the description and description of additional solar tracking methods are omitted. In the present invention, the flower pot 2 is attached to the vertical support 1. This flower pot 2 has a layered layer in the middle of the vertical support 1. In addition, the support 1 is connected to the rotating plate 3 so as to rotate by receiving external power. The flower pot 2 is in a detachable form so as to be detachable. Rotating plate (3) connected to the support (1) may be transmitted to the gear or the tooth is attached to the outside so as to receive the force directly or indirectly from the external motor or the like. The height of the support 1 can be designed to the extent allowed by the space or the height of the workable area. The flowerpot 2 attached to the layered floor sets its height between layers according to the size of the crop. The flower pot 2 is not fixed so that it can be easily replaced. In this pot stand 2, it is also possible to additionally install a water supply pipe in order to supply moisture or nutrition to the layered layer. The functional sand (4) prevents the decay of moisture in the stagnant state of the potted plant (2) without drainage holes to continue to nourish the plants in the state of the water there is no need for drainage holes and drainage device of the potted plant (2) do. In FIG. 2, the vertical support 1 is about 2 m in the case of manual work considering the height of the indoor space and the accessibility of the pot. The cross section is designed to withstand the load of the pot, but the material may be plastic, wood, aluminum, etc. in consideration of economical efficiency. The rotating plate also rotates the vertical support in accordance with a signal tracking the sun from an external controlled motor.

1 is a front view of a solar tracked upright vegetation device

FIG. 2 is a cross-sectional view taken along line AA ′ of FIG. 1 of a sun tracked upright vegetation device.

Figure 3 is an isometric view showing in detail the sun-traced upright vegetation device

<Description of the symbols for the main parts of the drawings>

 1: support

 2: flower pot

 3: turntable

 4: functional sand

Claims (3)

As a plant cultivation aid that effectively uses space in indoor crop cultivation, There are several layers of planters for crop cultivation (2), which are supported by vertical supports, which are also connected to a rotating plate so that the vertical supports can be rotated so that they can track the light of the sun under external power. How to increase the efficiency of growing indoor crops Claim 1 is characterized by the use of functional sand which does not require drainage. The upright vegetation device according to claim 1, which can be applied to indoor cultivation of a building-type agricultural factory, which can be applied even in a building by receiving sunlight from an outer wall of a transparent glass.

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