KR102197450B1 - Lighting apparatus for plant growth - Google Patents

Abstract

The present invention provides a lighting device for plant growth that is easy to install and maintain as well as energy saving.
To this end, the present invention provides a cylindrical lighting housing having a reflective surface formed on the inner surface and consisting of an arc-shaped upper cap and a lower cap, a light source for supplying light into the lighting housing by being installed at one or both ends of the lighting housing A lighting window is provided between the upper cap and the lower cap of the lighting housing to diffuse light outward, and the irradiation angle of light is adjusted according to different arc sizes of the upper and lower caps.
The upper cap and the lower cap have fastening grooves formed at both ends in the longitudinal direction, and the lighting window has fastening protrusions formed at both ends in the longitudinal direction corresponding to the fastening grooves.
According to the above technical configuration, the lighting housing is composed of an arc-shaped upper cap and a lower cap, and a lighting window is provided between them to form a single cylindrical optical path. There is an excellent effect in energy saving because only the part necessary for growth is illuminated by a light source installed on one or both sides of the housing.

Description

Lighting apparatus for plant growth

The present invention relates to a lighting device for plant growth, and more particularly, to a lighting device for plant growth that is excellent in energy saving as well as easy installation and maintenance.

Plant factories are agricultural systems that can produce various high value-added agricultural products in large quantities by artificially controlling the cultivation environment.

These plant factories cultivate plants by stacking them from one floor to several layers in order to expand the cultivation area in a limited space.

In order to install a plant factory, a large initial investment is required to secure various facilities, and the expansion of costs such as light and heat required for production is pointed out as a disadvantage.

Public Utility Model Publication No. 20-2011-0009247 (published on September 29, 2011) was devised to solve cost problems such as light and heat costs, and to grow plants indoors by allowing plants to photosynthesize using LEDs. It provides an LED lighting device for easy plant cultivation.

Here, as a rod shape, a seating groove is formed in the longitudinal direction on the lower side, a heat dissipation frame with a heat radiation groove formed on the upper side, an LED module seated in the seating groove and a plurality of LEDs and parts are mounted on one side, According to the configuration of an LED lighting device for plant cultivation including a cover member fixed to the heat dissipation frame and covering the LED module as a transparent material, and the LED lighting device for plant cultivation having such a configuration, the plant can photosynthesize indoors by using the LED. It is described that it is easy to cultivate plants in, and the LED module can be easily fixed to the heat dissipating frame by means of a seating groove, and the heat generated from the LED can be easily released by the heat dissipating groove on the upper side.

The conventional technology composed of the above configuration has the effect of partially reducing the cost of light and heat by replacing the light made of fluorescent or incandescent light with LED, but still requires a large initial investment, and there is a limit to reducing the light and heat cost required for production. .

The present invention was conceived to solve the problems of the prior art described above, and it is intended to provide a lighting device for plant growth that is excellent in energy saving as well as easy installation and maintenance.

In order to solve the above problems, the present invention has a cylindrical lighting housing having an arc-shaped upper cap and a lower cap with a reflective surface formed on the inner surface, and each installed at one or both ends of the lighting housing to emit light in the lighting housing. A light source for supplying and a lighting window for diffusing light to the outside between the upper and lower caps of the lighting housing are provided, and the irradiation angle of light is adjusted according to different arc sizes of the upper and lower caps. do.

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

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In addition, the lighting housing is characterized in that a reflective protrusion for diffusely reflecting light supplied from a light source is formed on an inner surface thereof.

According to the present invention, the lighting housing is composed of an arc-shaped upper cap and a lower cap, and a lighting window is provided between them to form a single cylindrical optical path, so that installation and maintenance are not only simple due to the simple structure, but also There is an excellent effect in energy saving because only the part necessary for growth is illuminated by a light source installed on one or both sides.

1 is a perspective view of a lighting device for growing plants according to the present invention,
2 is a cross-sectional view of the lighting device for growing plants according to the present invention,
3 is an exemplary view of the installation of the lighting device for plant growth according to the present invention,
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 growing plants according to the present invention.

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

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

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

In the above technical configuration, the lighting housing 10 is arranged side by side in the direction in which the crops are planted, and a reflective surface (unsigned) is formed so as to reflect light on the inner surface.

The light source 20 is installed at one or both ends of the lighting housing 10 to illuminate the inside of the lighting housing 10. When the light source 20 is installed only at one end of the lighting housing 10, the other end of the light source is In response, a reflecting mirror (not shown) for reflecting light may be further installed.

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 light necessary for plant growth.

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

The lighting window 30 is preferably manufactured in the form of a concave lens or a diverging lens so that light can radiate outward from the lighting housing 10.

According to the above technical configuration, light generated from the light source 20 is transmitted to the end of the lighting housing 10, and a reflective surface is provided on the inner wall of the lighting housing 10 to reduce light loss, and the lighting window 30 The formation makes it possible to emit light outside the lighting housing 10.

Therefore, when the lighting housing 10 is disposed in the direction of planting crops, light necessary for growth can be provided through the lighting window 30.

In the embodiment of the present invention, an example in which the lighting windows 30 are installed on both sides of the lighting housing 10 is illustrated, but one or more lighting windows 30 may be installed depending on the size of the lighting housing 10 or the planting condition of crops. .

Next, the lighting housing 10 is made 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 have fastening grooves 11 formed at both ends in the longitudinal direction, and the lighting window 30 has a length at both ends corresponding to the fastening grooves 11. A fastening protrusion 31 is formed in the direction.

According to the above technical configuration, the lighting housing 10 is manufactured separately into an upper cap 10a and a lower cap 10b, and by placing the lighting window 30 between them, it can be easily manufactured and installed.

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 form by a slide method. It will form a cylindrical shape.

Therefore, as shown in Figure 3, by arranging the lighting housing 10 according to the planting direction of the crop, and hanging it on a fixture such as a crop planting frame (not shown) using a wire 40 at predetermined intervals, the lighting housing 10 ) Can be installed easily.

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

Next, in the illumination window 30, the irradiation angle of light may be adjusted according to different arc sizes 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 located 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 size smaller than that of the lower cap 10b, the illumination window 30 is skewed upward so that the irradiation angle Θ forms a V-shape.

Conversely, when the upper cap 10a is made of a larger arc than the lower cap 10b, the illumination window 30 is shifted downward so that the irradiation angle forms an inverse V-shape.

Therefore, even without changing the position of the lighting housing 10, it is possible to set the irradiation angle of light in a desired direction.

Further, referring to FIG. 5, the lighting housing 10 has a reflective protrusion 50 for diffusely reflecting light supplied from a light source on an inner surface of the lighting housing 10.

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

The above description is an example to aid understanding of the present invention, and does not limit the present invention, and if a person having ordinary knowledge in the technical field to which the present invention belongs, variously within the scope of matters described in the claims of the present invention. It will be possible to implement it by transforming it.

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

Claims (5)

A cylindrical lighting housing with a reflective surface formed on the inner surface and consisting of an arc-shaped upper cap and a lower cap,
A light source installed at one or both ends of the lighting housing to supply light into the lighting housing, and
A lighting window is provided between the upper cap and the lower cap of the lighting housing to diffuse light to the outside, and the irradiation angle of light is adjusted according to different arc sizes of the upper and lower caps. Lighting device. delete The method of claim 1,
The upper cap and the lower cap have fastening grooves formed at both ends in the longitudinal direction,
The lighting device for plant growth, characterized in that the fastening projections are formed at both ends in the longitudinal direction corresponding to the fastening groove. delete The method of claim 1,
The lighting device for plant growth, characterized in that a reflective protrusion for diffusely reflecting the light supplied from the light source is formed on the inner surface of the lighting housing.

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