KR20200007225A - Lighting apparatus for plant growth - Google Patents

Abstract

Provided is a lighting apparatus for cultivating a plant, which can be conveniently installed, maintained and repaired, and has an excellent energy saving effect. To this end, the present invention comprises: a cylindrical lighting housing including a reflective surface formed on the inner surface thereof; a light source supplying light into the lighting housing; and a lighting window provided in a longitudinal direction of the lighting housing to diffuse light to the outside, wherein an upper cap and a lower cap each include fastening groove portions on opposite end portions in a longitudinal direction, and the lighting window includes fastening protrusions on both ends corresponding to the fastening groove portions in a longitudinal direction. According to the present invention, the lighting housing includes an upper cap and a lower cap which have a circular arc shape, and the lighting window is formed between the upper cap and the lower cap such that one cylindrical light path is formed, and thus, the lighting apparatus can be conveniently installed, maintained and repaired due to a simple structure. In addition, local illumination is provided to a portion required to cultivate a plant by means of a light source installed on one or both sides of the lighting house and thus, the lighting apparatus has an excellent energy saving effect.

Description

Lighting apparatus for plant growth

The present invention relates to a plant growth lighting apparatus, and more particularly, to a plant growth lighting apparatus that is easy to install and maintain, as well as excellent energy saving.

The plant factory is an agricultural system that can produce a variety of high value-added agricultural products by artificially controlling the growing environment.

These plant plants grow plants by stacking them from one to several layers in order to increase the cultivation area in a limited space.

The installation of a plant factory requires a large initial investment to secure various facilities, and it is pointed out that the expansion of costs, such as light and heat costs, required for production.

Published Utility Model Publication No. 20-2011-0009247 (published Sep. 29, 2011) is designed to solve cost problems such as energy costs, and to grow plants indoors by using LEDs to allow plants to photosynthesize. It provides an LED lighting device for easy plant cultivation.

It includes a rod-shaped mounting groove formed in the longitudinal direction at the lower side, a heat radiation frame formed with a heat radiation groove on the upper side, an LED module mounted on the mounting groove and mounted with a plurality of LEDs and components on one side, According to the structure of the LED lighting device for plant cultivation comprising a cover member which covers the LED module as a transparent material and is fixed to the heat dissipation frame, and the LED cultivation device for plant cultivation composed of such a configuration, the LED is used to allow plants to photosynthesize indoors. It is described that the plant is easy to grow, the LED module can be easily fixed to the heat dissipation frame by the seating groove, and can easily dissipate heat generated from the LED by the heat dissipation groove on the upper side.

The conventional technology having the above configuration has the effect of reducing the light-heating ratio by replacing LEDs made of fluorescent or incandescent lamps with LEDs, but still requires a large initial investment, and there is a limit in reducing the light-heating costs required for production. .

The present invention has been made to solve the above-mentioned problems of the prior art, it is to provide a lighting device for plant growth not only easy installation and maintenance, but also excellent energy saving.

The present invention, in order to solve the above problems, a cylindrical illumination housing having a reflective surface formed on the inner surface, a light source for supplying light in the lighting housing, and the illumination provided in the longitudinal direction in the lighting housing to diffuse the light to the outside Characterized in that the window is provided.

The lighting housing is composed of an upper cap and a lower cap of an arc shape, the lighting window is characterized in that provided between the upper cap and the lower cap.

The upper cap and the lower cap are fastening grooves are formed at both ends in the longitudinal direction, and the illumination window is characterized in that the fastening protrusions are formed at both ends corresponding to the fastening groove.

The illumination window is characterized in that the irradiation angle is adjusted according to the different arc size of the upper cap and the lower cap.

And the illumination housing is characterized in that the reflection projection for diffusely reflecting the light supplied from the light source on the inner surface is formed.

According to the present invention, the lighting housing consists of an arc-shaped upper cap and a lower cap, and a lighting window is provided therebetween to form a cylindrical light path, thereby simplifying installation and maintenance due to a simple structure, Only the parts necessary for growth by the light source installed on one side or both sides are localized lighting has an excellent effect on energy saving.

1 is a perspective view of a plant growth lighting apparatus according to the present invention,
2 is a cross-sectional view of the lighting device for plant growth according to the present invention;
Figure 3 is an installation example of the plant growth lighting apparatus according to the present invention,
Figure 4 is an exemplary view of adjusting the irradiation angle of the lighting device for plant growth according to the present invention,
5 is an exemplary view showing the internal structure of the lighting device for plant growth according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the lighting device for plant growth according to the present invention.

1 is a perspective view of a plant growth lighting apparatus according to the present invention, Figure 2 is a cross-sectional view of the plant growth lighting apparatus according to the present invention.

Referring to the drawings, an embodiment according to the present invention is a cylindrical lighting housing 10 having a reflective surface on the inner surface, a light source 20 for supplying light in the lighting housing 10, and the lighting housing 10 ) Is provided in the longitudinal direction is provided with an illumination window 30 for diffusing the light to the outside.

In the above technical configuration, the lighting housing 10 is arranged side by side in the direction in which the crop is planted, the reflection surface (unsigned) is formed to reflect light on the inner surface.

The light source 20 is installed at each end or both ends of the lighting housing 10 to illuminate the inside of the lighting housing 10, and when the light source 20 is installed only at one end of the lighting housing 10, the other end is connected to the light source. Corresponding mirrors (unsigned) for correspondingly reflecting light may be further provided.

In addition, the light source 20 may be implemented as an LED illuminator or natural light that is mined light.

The lighting window 30 is made of a transparent material and diffuses the light in the lighting housing to the outside to provide the light necessary for plant growth.

At this time, since the size of the lighting window is limited, the local illumination is made.

The lighting window 30 is preferably manufactured in the form of a concave lens, diverging lens so as to emit light from the lighting housing 10 to the outside.

According to the above technical configuration, the light generated from the light source 20 is transmitted to the end of the lighting housing 10, the reflection surface is provided on the inner wall of the lighting housing 10 can reduce the loss of light, Formation allows light to be emitted to the outside of the lighting housing 10.

Therefore, when the lighting housing 10 is disposed in the crop planting direction, it is possible to provide light necessary for growth through the lighting window 30.

In the embodiment of the present invention has been shown an example in which the lighting window 30 is installed on both sides of the lighting housing 10, one or more lighting windows 30 may be installed depending on the size of the lighting housing 10 or the planting state of the crop. .

Next, the lighting housing 10 is formed of an arc-shaped upper cap 10a and a lower cap 10b, and the lighting window 30 is provided between the upper cap 10a and the lower cap 10b. .

More specifically, the upper cap 10a and the lower cap 10b are fastened grooves 11 are formed at both ends in the longitudinal direction, and the illumination window 30 has a length at both ends corresponding to the fastening grooves 11. The fastening protrusions 31 are formed in the direction.

According to the above technical configuration, the lighting housing 10 is manufactured by separating the upper cap (10a) and the lower cap (10b), it can be easily manufactured and installed by placing the lighting window 30 therebetween.

That is, the fastening grooves 11 formed at both ends of the upper cap 10a and the lower cap 10b and the fastening protrusions 31 formed at both ends of the lighting window 30 are fastened in a fitting manner by a sliding method, thereby providing a single fit. It is cylindrical.

Therefore, as shown in FIG. 3, the lighting housing 10 is disposed along the crop planting direction, and the lighting housing 10 is hanged on a fixture such as a crop planting frame (not shown) using a wire 40 at predetermined intervals. ) Can be installed easily.

Of course, the lighting housing 10 may be manufactured in a cylindrical shape and perforated at regular intervals to provide the lighting window 30.

Next, the illumination window 30 may be adjusted according to the different arc size of the upper cap (10a) and the lower cap (10b).

Referring to FIG. 4, when the upper cap 10a and the lower cap 10b are made of an arc of the same size, the illumination window 30 is positioned in the middle of the illumination housing 10 so that the irradiation angle is horizontal.

As another example, when the upper cap 10a is made of an arc having a smaller size than the lower cap 10b, the illumination window 30 is biased upwards to form the irradiation angle Θ.

On the contrary, when the upper cap 10a is made of an arc larger than the lower cap 10b, the illumination window 30 is shifted downward so that the irradiation angle is inverted.

Therefore, the irradiation angle can be set in a desired direction without changing the position of the lighting housing 10.

Referring to FIG. 5, the lighting housing 10 has a reflection protrusion 50 for diffusely reflecting light supplied from a light source on an inner surface thereof.

This is to prevent the brightness of the light in the illumination window 30 from varying the distance between the light source 20 by diffusely reflecting the light to uniform the brightness in the lighting housing 10.

The above description is an exemplary embodiment for aiding the understanding of the present invention, and the present invention is not limited to the present invention. It may be modified.

10: lighting housing
10a: top cap
10b: lower cap
11: fastening groove
20: light source
30: lighting window
31: fastening protrusion
40: wire
50: reflective projection

Claims (5)

Cylindrical lighting housing formed with a reflective surface on the inner side,
A light source for supplying light into the lighting housing;
The lighting device for plant growth, characterized in that the illumination housing is provided in the longitudinal direction and provided with a light window for diffusing the light to the outside. The method of claim 1,
The lighting housing consists of an arc-shaped upper cap and a lower cap,
The lighting window is a plant growth lighting device, characterized in that provided between the upper cap and the lower cap. The method of claim 2,
The upper cap and the lower cap is formed with a fastening groove in the longitudinal direction at both ends,
The lighting window is a plant growth lighting device, characterized in that the fastening protrusions are formed in the longitudinal direction at both ends corresponding to the fastening groove. The method of claim 2,
The lighting window is a plant growth lighting device, characterized in that the irradiation angle is adjusted according to the different arc size of the upper cap and the lower cap. The method of claim 1,
The lighting housing is a lighting device for plant growth, characterized in that the reflection projection for diffusely reflecting the light supplied from the light source on the inner side.

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