JP6722938B6 - Lighting equipment for aquatic plants - Google Patents

Description

The present invention relates to an aquatic plant illumination device.

The present applicant has proposed a water plant ornamental lighting device (hereinafter, referred to as a conventional example) disclosed in Design Registration No. 1464444.

This conventional example is placed on the upper part of the aquarium so as to brightly illuminate the inside of the aquarium so that the aquatic plants can be satisfactorily viewed, and to supply the light necessary for growing the aquatic plants, especially the aquatic plants installed indoors. Mandatory for aquariums.

By the way, in the conventional example, an LED is adopted as a light emitting body that constitutes a light emitting portion provided in the apparatus main body, and is more energy-saving and excellent in cost than a fluorescent lamp or a metal hide lamp.

Design Registration No. 1464444

The present inventor has conducted further research on the aquatic-plant ornamental lighting device provided with the above-mentioned LED luminous body, and as a result, has developed an epoch-making aquatic-plant ornamental illumination device which exhibits unprecedented effects.

The gist of the present invention will be described with reference to the accompanying drawings.

An aquatic plant ornamental lighting device comprising an LED light emitting body 1 having a red light emitting element portion 1A emitting red light, a green light emitting element portion 1B emitting green light, and a blue light emitting element portion 1C emitting blue light, The light emission intensity corresponding to the peak wavelength of the light emitted from the red light emitting element portion 1A is set to 77% to 97% of the light emission intensity corresponding to the peak wavelength of the light emitted from the blue light emitting element portion 1C, The light emission intensity corresponding to the peak wavelength of the light emitted from the green light emitting element portion 1B is set to 70% to 90% of the light emission intensity corresponding to the peak wavelength of the light emitted from the blue light emitting element portion 1C. The present invention relates to an aquatic plant ornamental lighting device.

The illumination device for ornamental water plants according to claim 1, further comprising: a light emitting part (3) provided with a plurality of the LED light emitting bodies (1) below a substrate body (2), and a plurality of heat radiating plates above the substrate body (2). The present invention relates to a water-grass ornamental lighting device in which 4 is erected at intervals.

Further, in the illuminating device for ornamental aquatic plants according to claim 2, the radiating plate 4 is provided with a large number of through holes 4a.

Further, in the illuminating device for ornamental aquatic plants according to any one of claims 2 and 3, the light emitting section 3 is provided with a light diffusion plate 6 for diffusing light emitted from the LED light emitting body 1. The present invention relates to a characteristic aquarium lighting device.

Since the present invention is configured as described above, compared to the above-mentioned conventional example, the color of the aquatic plants will be more vivid, and moreover, the growth of the aquatic plants in the aquarium will be good, and there will be unprecedented operational effects. It will be a revolutionary illuminating device for ornamental aquatic plants.

It is a usage state explanatory view of a present Example. It is a perspective view which shows a present Example. It is an exploded perspective view showing this example. It is a perspective view which shows a present Example. It is an explanatory sectional view of an important part of the present embodiment. It is an enlarged explanatory view of the principal part of the present embodiment. 6 is a graph showing the relative values of the emission intensity corresponding to the peak wavelength of the light emitted from the red light emitting element portion 1A, the green light emitting element portion 1B, and the blue light emitting element portion 1C that configure the light emitting body 1 according to the present embodiment.

A preferred embodiment of the present invention will be briefly described with reference to the drawings showing the operation of the present invention.

In the conventional example, a white LED that produces white light by applying a yellow fluorescent material (filter) to a blue LED is used as an LED light emitter, but when the conventional example is actually used, yellow is strongly emitted and aquatic plants are used. The present invention has been completed in view of the fact that the green color of (1) may not appear vividly (the aquatic plants do not look healthy).

That is, the inventor of the present invention has an LED light emitting body 1 having, as an LED light emitting body, a red light emitting element portion 1A that emits red light, a green light emitting element portion 1B that emits green light, and a blue light emitting element portion 1C that emits blue light. In addition, various experiments were repeated by appropriately adjusting the intensity of light emitted from each element part, and white light suitable for viewing and growing aquatic plants was generated.

Specifically, the present invention, the light emitted from the red light emitting element portion 1A, the light emission intensity corresponding to the peak wavelength, 77% of the light emitted from the blue light emitting element section 1C, to the emission intensity corresponding to the peak wavelength The light emission intensity corresponding to the peak wavelength of the light emitted from the green light emitting element portion 1B is set to 70% to 90% of the light emission intensity corresponding to the peak wavelength of the light emitted from the blue light emitting element portion 1C. It is set to %.

In fact, when the above-mentioned white light is applied to the aquatic plant in the aquarium from the LED luminous body 1 of the present invention, the green color of the aquatic plant looks vivid (the aquatic plant looks healthy) and the growth of the aquatic plant becomes good. (It is presumed that photosynthesis came to be performed well.)

That is, the present inventor has found by experimentation each wavelength at which the green color of aquatic plants looks vivid and photosynthesis is performed well.

Specific embodiments of the present invention will be described with reference to the drawings.

The present embodiment is an aquatic plant ornamental illumination including an LED light emitter 1 having a red light emitting element portion 1A that emits red light, a green light emitting element portion 1B that emits green light, and a blue light emitting element portion 1C that emits blue light. It is a device.

Specifically, the present embodiment has a configuration in which the light emitting portion 3 is provided in the main body portion 5 that is suspended and held by the suspending wire 10. The main body 5 may be of a type mounted on the water tank 11 as disclosed in Design Registration No. 1464444, instead of the hanging type.

The main body 5 is a hollow structure composed of a top member 5A, a bottom member 5B, a front member 5C, a rear member 5D, a left member 5E and a right member 5F, and each member is integrally connected via a screw. It

The ceiling member 5A is a plate-shaped member formed of an appropriate metal member as shown in FIGS. 1 to 3, and a connecting hole 5a to which the hanging wire 10 is connected is provided at the left and right positions.

Therefore, in this embodiment, the lower ends of the two suspending wires 10 hanging from the stand 13 provided on the aquarium stand 12 are connected to the ceiling member 5A, and the upper position of the aquarium 11 placed on the aquarium stand 12 is positioned. Will be distributed to Reference numeral 5a' is a hole through which a power cord 14 described later is inserted.

The bottom member 5B is a plate-like member formed of an appropriate metal member (metal member having high heat conductivity) as shown in FIGS. A substrate body 2 and a light diffusion plate 6 that form a light emitting portion 3 described later are provided on the lower surface portion.

As shown in FIGS. 1 to 5, the heat dissipation plate 4 is a plate-shaped body having the same shape and formed of an appropriate metal plate member (metal member having high heat conductivity). The material is erected on the upper surface of the material 5B in the width direction of the bottom member 5B with an interval.

Further, the heat dissipation plate 4 is provided with a large number of circular through holes 4a.

Therefore, a good heat dissipation effect can be obtained by each of the heat dissipation plates 4, and moreover, a large number of through holes 4a are formed in each of the heat dissipation plates 4 to form an air passage in which air flows in the main body 5. A good cooling effect can be obtained without air being trapped inside.

Since a large number of LED light emitters 1 (RGB LEDs) are used in this embodiment as described later, the amount of heat generated is large, and in this respect also, it is significant to have the good heat dissipation effect described above. Therefore, it is excellent as a structure for prolonging the life of the LED light emitting body 1.

The front member 5C and the rear member 5D are elongated bodies formed of appropriate metal members as illustrated in FIGS. 1 to 5, and the left and right ends of the front member 5C and the rear member 5D are left members 5E and It is connected to each of the right side members 5F.

The left side member 5E and the right side member 5F are plate-like members formed of appropriate metal members as shown in FIGS. 1 to 4, and are included in the top member 5A, the bottom member 5B, the front member 5C, and the rear member 5D. It is connected to the left and right ends.

Further, the left side member 5E and the right side member 5F are provided with window holes 5e and 5f, respectively, which allow air to flow in and out of the main body 5 through the window holes 5e and 5f.

As shown in FIGS. 4, 5 and 6, the light emitting unit 3 is configured by vertically and horizontally providing a large number of LED light emitters 1 on the lower portion of the substrate body 2, and the LED light emitters 1 are arranged at the lower facing positions of the LED light emitters 1. Is provided on the lower surface of the bottom member 5B with a gap in the vertical direction.

Wirings to which the electric cords 14 are connected are provided on the substrate body 2, and the LED light emitting bodies 1 are provided on the wirings. Reference numeral 14a is an adapter.

The heat generated when the LED light-emitting body 1 emits light is transferred from the substrate body 2 to the heat dissipation plate 4 via the bottom member 5B.

As shown in FIG. 6, the LED light emitter 1 has a red light emitting element portion 1A that emits red light, a green light emitting element portion 1B that emits green light, and a blue light emitting element portion 1C that emits blue light, and is white. It is an LED (RGB LED) that generates light.

In this embodiment, the light emitted from each of the red light emitting element portion 1A, the green light emitting element portion 1B, and the blue light emitting element portion 1C is variously adjusted so that the green of the aquatic plant looks vivid and the progress of photosynthesis becomes the best. White light was confirmed by an experiment, and the light emission intensity of each light emitting element portion in that case was examined. As a result, it was confirmed that the light emission intensity was as shown in the graph of FIG. 7.

Thus, in this embodiment, the light emitted from the red light emitting element portion 1A, the light emission intensity corresponding to the peak wavelength, set to 87% of the light emitted from the blue light emitting element section 1C, to the emission intensity corresponding to the peak wavelength is, the light emitted from the green light emitting element section 1B, the light emission intensity corresponding to the peak wavelength of light emitted from the blue light emitting element portion 1C, which is set at 80% of the emission intensity corresponding to the peak wavelength, further When the experiment was carried out by adjusting the emission intensity , similar results were obtained within the range of ±10% of each numerical value.

Therefore, the light emission intensity corresponding to the peak wavelength of the light emitted from the red light emitting element portion 1A is set to 77% to 97% of the light emission intensity corresponding to the peak wavelength of the light emitted from the blue light emitting element portion 1C, of light emitted from the green light emitting element section 1B, the light emission intensity corresponding to the peak wavelength of light emitted from the blue light emitting element section 1C, is set at 70% to 90% relative to the emission intensity corresponding to the peak wavelength.

Since this embodiment is constructed as described above, the light emitted from the red light emitting element portion 1A, the light emission intensity corresponding to the peak wavelength, the emission intensity corresponding to the light emitted from the blue light emitting element section 1C, the peak wavelength is set to 87% to the configuration, the light emitted from the green light emitting element section 1B, the light emission intensity corresponding to the peak wavelength of light emitted from the blue light emitting element section 1C, 80% of the emission intensity corresponding to the peak wavelength Has been done.

Actually, when the above-mentioned white light was applied to the aquatic plant in the aquarium from the LED luminous body 1 of this example, the green color of the aquatic plant looked vivid (the aquatic plant looked healthy), and the growth of the aquatic plant was good. (It is assumed that photosynthesis has come to be performed well.)

In addition, in the present embodiment, the light emitting portion 3 provided with a large number of light emitting bodies 1 is provided below the substrate body 2, and a plurality of heat dissipation plates 4 are erected at intervals above the substrate body 2. The heat generated from the LED light emitter 1 described above can be radiated well.

Further, in the present embodiment, since the heat dissipation plate 4 is provided with a large number of through holes 4a, even better heat dissipation is performed.

It should be noted that the present invention is not limited to this embodiment, and the specific constitution of each constituent element can be designed as appropriate.

DESCRIPTION OF SYMBOLS 1 LED light emitting body 1A Red light emitting element part 1B Green light emitting element part 1C Blue light emitting element part 2 Substrate body 3 Light emitting part 4 Heat sink 4a Through hole 6 Light diffusion plate

Claims (4)

What is claimed is: 1. An aquatic plant ornamental lighting device comprising an LED light emitter having a red light emitting element portion that emits red light, a green light emitting element portion that emits green light, and a blue light emitting element portion that emits blue light. of light emitted from the part, the emission intensity corresponding to the peak wavelength of light emitted from the blue light emitting element portion, is set to 77% to 97% to the emission intensity corresponding to the peak wavelength, from the green light emitting element section The emission intensity corresponding to the peak wavelength of the emitted light is set to 70% to 90% of the emission intensity corresponding to the peak wavelength of the light emitted from the blue light emitting element section. Lighting equipment. The illumination device for aquatic plants according to claim 1, further comprising: a light emitting portion provided with a plurality of the LED light emitters on a lower portion of a substrate body, and a plurality of heat radiating plates standing upright on the upper portion of the substrate body. An illumination device for ornamental aquatic plants, which is characterized by being installed. The illuminating device for ornamental aquatic plants according to claim 2, wherein the heat dissipation plate is provided with a large number of through holes. The ornamental aquatic plant lighting device according to claim 2, wherein the light emitting portion is provided with a light diffusion plate that diffuses light emitted from the LED light emitter. Lighting equipment.