KR20130005225U - Lamp Lighting Source Apparatus - Google Patents

Abstract

The present invention relates to a kind of lamp light source device, comprising at least one solid state laser light emitting diode and at least one light emitting diode, each of which can emit a red light wavelength or a blue light wavelength, the solid state laser light emitting diode is one Provide a first light source region of the light emitting diode, wherein the light emitting diode is irradiated with light to provide a second light source region, the second light source region overlapping the first light source region at a distance away from the light emitting diode to form a light source overlapping region; By placing the plant within the light source overlapping region, this can promote plant growth, and can achieve to provide a specific light wavelength and energy into the structure, and also long service life, energy saving environmental protection, high light energy It has advantages such as utilization rate and no radiation.

Description

Lamp light source device {Lamp Lighting Source Apparatus}

The present invention provides a lamp light source device, in particular a lamp that has a long service life, protects the environment with energy saving, high light energy utilization, no radiation, and does not produce a light beam with no effect on plant growth It is a light source device.

In general, in the environment in which plants are grown, the spectral wavelength of the light source affects the good and bad of plant growth, and is generally classified into red color temperature and blue color temperature, the blue color temperature has a large effect on the photosynthesis of the plant, and the red color temperature is photosynthesis Have a pronounced effect on the photoperiodic effect, and presently evidence shows that different wavelengths of light have different effects on plant photosynthesis, and that as the plants progress photosynthesis and flowering, the absorption peak of chlorophyll is around 660 nm. Promotes growth in red light. And when the flower buds are formed, they promote growth in blue light around 450 nm, whereby the plant lamps in combination are particularly important in the ratio of red light and blue light, and also blue is advantageous for plant leaf growth, and red It is due to the fact that the plant is favorable for flowering and fruiting. However, all of the light sources of commercially available plant lamps emit a lot of electric energy by emitting useless ultraviolet and infrared rays in plant growth, which not only saves energy resources but also helps a lot in plant growth. Do not.

Therefore, the inventor of the utility model collects relevant data in consideration of the above-mentioned deficiencies, and has accumulated many years of experience in this industry through various evaluations and deliberations. Longer, energy-saving, environmentally friendly, high light energy utilization, no radiation, and no lamp light sources with no effect on plant growth were designed.

The main purpose of the present invention is to promote plant growth, protect the environment with energy saving, have the advantage of no radiation, and do not emit ineffective rays to plant growth through solid laser light emitting diode and light emitting diode It irradiates a red light wavelength or a blue light wavelength.

Another object of the present invention is that a solid-state laser light emitting diode (Laser Diode) can provide a single wavelength of 380nm to 750nm to further concentrate the energy to substantially promote plant growth.

Another object of the present invention is a light emitting diode (Light Emitting Diode) also saves more than 70% electrical energy, longer service life, and environmental protection by energy saving, higher utilization of light energy, It does not produce rays that have no effect on growth.

In order to achieve the above-mentioned advantages, the main structure of the present invention includes at least one solid state laser light emitting diode and at least one light emitting diode, the solid state laser light emitting diode and the light emitting diode emit a red light wavelength or blue light wavelength, solid state laser The light emitting diode is irradiated with light to provide one first light source region, the light emitting diode is irradiated with light to provide one second light source region, and the second light source region is spaced apart from the light emitting diode, By overlapping to form a light source overlapping area, by placing the plant in the light source overlapping area, when the plant is irradiated from the light source overlapping area, the red and blue mixed light can control the intensity or on / off of the light beam with the controller unit That is, the plant absorbs the red light wavelength and the blue light wavelength (ie mixed light) simultaneously, To be able to achieve the enemy growth wavelength promotes the growth of plants and leaves, it is advantageous to maeteum of plant flowering and fruit.

With the above-mentioned technique, the general plant lamp present in the conventional plant lamp emits ultraviolet rays and infrared rays which are useless for plant growth, and wastes a lot of electrical energy, thereby improving practical utility of the above-described advantages of the present invention. Achieved.

1 is a plan explanatory view of a preferred embodiment of the present invention.
2 is a block diagram of a preferred embodiment of the present invention.
3 is an explanatory view of a preferred embodiment of the present invention.
4 is a diagram illustrating a wavelength of a preferred embodiment of the present invention.
5 is a view illustrating a wavelength of a preferred embodiment of the present invention.

As shown in Fig. 1 and Fig. 2, there is shown a plan explanatory diagram and a block explanatory diagram of a preferred embodiment of the present invention, as can be clearly seen in the drawings,

The present invention provides at least one solid state laser light emitting diode (1) for providing one first light source region (11) formed by irradiating light having one of a red light wavelength and a blue light wavelength; And at least one light emitting diode 2 providing one second light source region 21 formed by irradiating light having one of a red light wavelength and a blue light wavelength, wherein the second light source region 21 is a light emitting diode. The light source overlapping region 3 is formed by overlapping with the first light source region 11 at a distance from the second light source, and a solid state laser light emitting diode 1 and a light emitting diode 2 are provided. Is electrically connected to the controller unit 4, through which the intensity or on / off of the light beam is controlled.

With the above-described structure and the designed design, the operation of the present invention will be described as follows, and at the same time, FIGS. 1 to 5 are planar explanatory diagrams, block explanatory diagrams, implementation explanatory diagrams, and wavelength descriptions of preferred embodiments of the present invention. 1 and the explanatory drawing of the wavelength, and as can be clearly seen in the drawing, the controller unit 4 drives and controls the operation of the solid state laser light emitting diode 1 and the light emitting diode 2, thereby solid-state laser light emission. The diode 1 is irradiated to the first light source region 11 of the red light wavelength (which can be seen to be 380 nm to 750 nm with reference to FIGS. 4 and 5) which is optimal for plant photosynthesis, and then to the light emitting diode 2. To irradiate the second light source region 21 of the blue light wavelength, or moreover, the solid state laser light emitting diode 1 irradiates the blue light wavelength, and the light emitting diode 2 irradiates the red light wavelength; The first light source region 11 and the second light source region 21 define a light source overlap region 3 where they overlap, and the light source overlap region 3 is a mixed light wavelength of a blue light wavelength and a red light wavelength, and overlaps the light source. By arranging the plant bonsai 5 in the region 3, this allows the control unit 4 to again control the mixed light of red and blue to achieve the optimum growth wavelength for the plant, thus growing the plant leaves. Promotes plant growth and is beneficial for flowering and fruiting of plants.

However, the above description is merely an embodiment of the present invention, and does not limit the registered scope of the present invention, and all the simple modifications and equivalent structural changes made by operating the contents of the specification and drawings of the present invention are all registered scope of the present invention. Include in.

Therefore, with reference to all the accompanying drawings, when using the present invention, there are actually the following advantages compared to the prior art:

1. Through solid laser light emitting diodes (1) and light emitting diodes (2), it promotes plant growth, protects the environment by saving energy, has the advantages of no radiation, and emits ineffective rays on plant growth Irradiate a red light wavelength or a blue light wavelength which is not.

2. The solid state laser light emitting diode 1 can provide a single wavelength of 380 nm to 750 nm, thus further concentrating energy to substantially promote plant growth.

3. The light emitting diode (2) also saves 70% or more of electrical energy than ordinary plant lamps, has a longer service life, protects the environment by saving energy, has high light energy utilization, and has no effect on plant growth. Does not produce.

1: solid state laser light emitting diode 11: first light source region
2: light emitting diode 21: second light source region
3: light source overlapping area 4: controller unit
5: plant bonsai

Claims (4)

In the lamp light source device,
At least one solid state laser light emitting diode (Laser Diode) providing one first light source region formed by irradiating light; And at least one light emitting diode disposed in correspondence with the position of the solid state laser light emitting diode and providing one second light source region formed by irradiating light.
And the second light source region overlaps the first light source region at a distance from the light emitting diode to form one light source overlapping region. The method of claim 1,
And said solid state laser light emitting diode is one of a red light wavelength and a blue light wavelength. The method of claim 1,
And the light emitting diode is one of a blue light wavelength and a red light wavelength. The method of claim 1,
And said solid state laser light emitting diode and said light emitting diode are electrically connected to a controller unit.

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