JP6923967B2 - LED green light LED device using composite light. - Google Patents

Description

The present invention relates to a moth-proof device that can irradiate a plant leaf body with an LED green light composite light at night or in the dark to reduce the influence of flower bud formation and utilize the LED green light composite light.

Nocturnal moths are active at night when the surroundings are dark due to their nocturnal nature, but stop their activities when the surroundings become bright. It is well known that it is suppressed, and even in a moth-proof device using green light of a green fluorescent lamp, the moth-proof effect of the green light of a green fluorescent lamp is well known.
It affects the heat of the green fluorescent lamp itself and the amount of electricity consumed.
According to the characteristics of short-day plants and long-day plants, there are many difficulties in the treatment technology of the moth-proof method only in the wavelength range of the green light of the green fluorescent lamp.
However, the present invention relates to a technique born from the need for a wavelength having characteristics suitable for plants by changing a single color wavelength of a green LED into a light beam having a composite wavelength and changing the linear wavelength of the green LED.

We invent a moth-proof device using LED composite light rays that can enhance the illuminance better and bring out more moth-proof effect than the effect that has the advantage of the wavelength and the amount of light of the green fluorescent lamp.
Further, the present invention relates to a moth-proof device using a combined LED light beam, which reduces the influence of the green LED and flower bud formation on the LED.

Japanese Patent Application No. 2013-259581
Japanese Patent Application No. 2014-49413

Catalog issued by Panasonic Electric Works Co., Ltd. in June 2009 Catalog issued by Panasonic Electric Works Co., Ltd. in October 2008

In the above-mentioned "[0004]" document, LED green composite light is specified by using light rays.
The wavelength region is specified in the material of "[0005]" described above.

According to the present invention, a moth control device using the green LED composite light beam can be used to control moths, which are pests, by irradiating the moth control device that can use the green light of the LED at night or in the dark.

When flower buds are formed in the leaves of a plant at night or in the dark for a long period of time, it becomes an adverse condition that greatly affects stable plant growth.
A method of using a moth-proof device under stable plant growth by allowing the plant to irradiate the leaf body of the plant for a long time at night or in the dark in order to solve the above-mentioned adverse conditions.
That is, a moth-proof device using the green LED composite light beam, which is less affected by flower bud formation.

The ray color that affects flower bud formation is the ray color of the LED ray, that is, the red ray.
"[0005]"
Catalog issued by Panasonic Electric Works Co., Ltd. in June 2009 As shown in the catalog issued by Panasonic Electric Works Co., Ltd. in October 2008, the red wavelength region indicates the flower bud formation region.

Panasonic Corporation Eco Solutions Company Marketing Headquarters Urban Environmental Products Sales Planning Department Catalog April 2012

In the display described in "[0010]", a moth-proof lamp using a green fluorescent lamp having a main wavelength of 500 to 600 nm and containing almost no red light component is displayed.

This moth-proof lamp is a green LED, and is a moth-proof device using an LED composite light beam having a composite wavelength of LED green light, which is within the wavelength range of green light of 500 nm to 550 nm.

A detailed description will be given based on Table 3 of "[0014]", Table 4 of "[0015]", Table 5 of "[0016]" and Table 6 of "[0017]" described below.

And the wavelength of green light of 500 nm to 550 nm The monochromatic light shown in Table 3 of "[0014]", which has the peak wavelength λP of 511 nm of the green light LED and the wavelength range of green light of 500 nm to 550 nm. be.

It is the monochromatic light shown in Table 4 of “[0015]”, which is the wavelength range of the LED having a peak wavelength λP of 518 nm and the green light of 500 nm to 550 nm.

It is the monochromatic light shown in Table 5 of “[0016]”, which is the wavelength range of the LED having a peak wavelength λP of 5530 nm and the green light of 500 nm to 550 nm of the green light LED.

The wavelength shown in Table 3 of the LED “[0014]” having a peak wavelength λP of 511 nm of the green light LED and the wavelength shown in Table 5 of the LED having a peak wavelength λP of 530 nm of the green light LED [0016]. They were placed side by side and arranged to construct a moth-proof lamp device of the LED green light composite light shown in Table 6 of "[0017]".

The LED "[0014]" having a peak wavelength λP of 511 nm for a green light LED and the wavelength shown in Table 4 of the LED "[0015]" having a peak wavelength λP of 518 nm for a green light LED. A device for arranging and arranging the LED "[0016]" Table 5 having a peak wavelength λP of 530 nm of the green light LED side by side, and displaying the LED green light composite light moth-proof lamp shown in "[0018]" Table 7. Was built.

Next, consider a green fluorescent lamp as a moth-proof lamp.

The waveform of the moth-proof lamp of the green fluorescent lamp is displayed in "[0025]" Table 8.

Build the green composite light of the LED.
Considering the waveform of the moth-proof lamp of the green fluorescent lamp in "[0025]" Table 8, it has the wavelength position of L0 and the wavelength range of yellow light, but in "[0017]" Table 6. There is no yellow wavelength in the combined green wavelength range of all LEDs.

However, a wavelength close to that of the green fluorescent lamp of the moth-proof lamp is constructed in the green wavelength region in which the LEDs in Table 6 of "[0017]" are combined.

The wavelength shown in Table 3 of the LED having a peak wavelength λP of 511 nm for a green light LED and the wavelength shown in Table 5 of the LED “[0016]” having a peak wavelength λP of 530 nm for a green light LED. , And arranged and arranged side by side, and arranged and arranged the yellow light LED of 5% of the composite light constructed by the LED for which the composite light shown in Table 6 was constructed, and arranged and arranged in the table of "[0029]". A composite light moth protection device for green light with nine wavelengths was constructed.

The region of the wavelength of L0 in Table 9 described in "[0029]" A yellow wavelength could exist.
However, we were able to construct an LED green light composite light moth-proof lamp with a waveform similar to that of a green fluorescent moth-proof lamp.

Claims (4)

In an LED device having a green monochromatic light having a wavelength of 500 nm to 550 nm, two or more kinds of a plurality of maximum peaks of the green monochromatic LED having different maximum peak wavelengths are formed in the wavelength range of the green monochromatic light LED. The LED device having a composite waveform of green light LEDs in which the green LEDs having a green wavelength are arranged side by side and arranged. In an LED device having a green monochromatic light having a wavelength of 500 nm to 550 nm, two or more kinds of a plurality of maximum peaks of the green monochromatic LED having different maximum peak wavelengths are formed in the wavelength range of the green monochromatic light LED. The LED device having a composite waveform of the LEDs having a green wavelength arranged side by side and arranged and arranged, and LEDs having a wavelength of 570 nm to 610 nm arranged side by side and arranged. The LED device having yellow light according to claim 2 is an LED having a composite waveform of green light according to claim 2 and having 5% of the green light of the LED. The LED device having a composite waveform. The LED device having yellow light according to claim 2 is the LED device having a composite waveform of the LEDs in which LEDs having yellow light that enable dimming are arranged side by side and arranged.