CN201748315U - New solar plant growth fill light - Google Patents

Abstract

The utility model discloses a novel solar plant growth supplementary light, comprising a lamp body and a solar device; the lamp body comprises an outer shell, an LED light source and a lampshade; the outer shell is provided with a containing cavity; the LED light source comprises RGB three-primary color lamp beads distributed in an array, and the LED light source is arranged in the containing cavity; the lampshade covers the LED light source; the solar device comprises a solar panel and an external storage battery, the solar panel is electrically connected to the external storage battery; the external storage battery is electrically connected to the LED light source, and an LED driving power supply is arranged between the external storage battery and the LED light source; thereby, the LED light source is electrically connected to the solar device, and the solar device is used to power the LED light source, so that solar energy can be stored during the day and the stored energy can be released at night, so that lighting can be tailored for different plants and different growth periods of different plants, and solar energy can be fully utilized to achieve the purpose of energy saving and environmental protection.

Description

New solar plant growth fill light

technical field

The utility model relates to the technical field of plant growth supplementary light, in particular to a novel solar plant growth supplementary light.

Background technique

The normal growth and development, flowering and fruiting of plants are all accomplished through photosynthesis, photomorphogenesis, and photoperiod regulation. Plant light plays a key role in the growth process. Modern agriculture has made great strides in the direction of technology and industrialization. It is an indispensable and important part of the modern agricultural industry to use modern lighting technology to adjust the environmental luminosity factors of crops on demand. At present, in greenhouse planting, the light sources used to make up for the lack of light on the sun’s super-large display screen are generally fluorescent lamps, high-pressure sodium lamps, and incandescent lamps to illuminate plants, and continuously provide extremely high luminous flux for plant growth through their own illuminants. The spectral energy distribution is designed according to the needs of the human eye for light, and the spectrum required for plant growth is different from the needs of the human eye. At the same time, these lamps are high-energy-consuming products with short lifespan and relatively narrow spectrum. Also, these lamps need to be connected to an external power source, which is neither energy-saving nor environmentally friendly.

Utility model content

In view of this, the utility model aims at the lack of the existing technology, and its main purpose is to provide a new type of solar plant growth supplementary light, which stores solar energy during the day and releases the stored energy at night, providing different plants and different plants. Tailor-made lighting for different growth periods to achieve the purpose of energy saving and environmental protection.

In order to achieve the above object, the utility model adopts the following technical solutions:

A new type of solar plant growth supplementary light includes a lamp body and a solar device, and the lamp body is connected to the solar device through wires; the lamp body includes a casing, an LED light source and a lampshade; the casing has an accommodating cavity; The LED light source includes RGB three-color lamp beads distributed in an array, the LED light source is arranged in the aforementioned accommodating cavity, and the LED light source is covered with a reflector; the lampshade covers the LED light source; the solar device includes There is a solar panel and an external battery, the solar panel is electrically connected to the external battery; the external battery is electrically connected to the aforementioned LED light source, and a device for adjusting the color temperature of the LED light source is set between the external battery and the LED light source LED driver power supply.

As a preferred solution, the lampshade is transparent glass, and the light transmittance of the transparent glass is greater than 93%.

Compared with the prior art, the utility model has obvious advantages and beneficial effects. Specifically, it can be known from the above technical solutions:

1. Through the electrical connection between the LED light source and the solar device, the solar device is used to supply power to the LED light source, so that the solar energy can be stored during the day, and the stored energy can be released at night to provide different plants and plants with different growth periods. Customize lighting and make full use of solar energy to achieve the purpose of energy saving and environmental protection.

2. According to the rich wavelength types of LEDs, which coincide with the spectral range of plant photosynthesis and light morphology, by using LED drive power to adjust the color temperature of LED light sources, and according to the requirements of users' plants for light, pure monochrome can be used. Light (such as red, blue) or compound spectrum (red + green + blue three primary colors mixed light), can also concentrate specific wavelengths of light to irradiate crops in a balanced manner, so that plants can be supplemented scientifically and reasonably to ensure that plants are fully photosynthesized It can not only regulate the flowering and fruiting of plants, but also control the height of plants and the nutritional content of plants, so that the leaves of plants are thick, the roots are developed, and the growth is good, which enhances resistance and immunity, promotes early maturity, increases production, and improves fruit quality. .

In order to more clearly illustrate the structural features and effects of the utility model, the utility model will be described in detail below in conjunction with the accompanying drawings and specific embodiments:

Description of drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Explanation of the accompanying drawings:

10. Lamp body 11. Shell

12. LED light source 13. Lampshade

20. Solar installations 21. Solar panels

22. External battery 30. LED drive power

Detailed ways:

Please refer to FIG. 1 , which shows the specific structure of a preferred embodiment of the present invention, including a lamp body 10 and a solar device 20 .

Wherein, the lamp body 10 includes a housing 11 , an LED light source 12 and a lampshade 13 . The housing 11 has an accommodating cavity therein. The LED light source 12 is arranged in the aforesaid accommodating cavity, and the LED light source 12 includes RGB three primary color lamp beads distributed in an array, and the wavelength types of the LED are rich, which coincides with the spectral range of plant photosynthesis and light morphogenesis, and The LED light source 12 is covered with a reflector (not shown in the figure), and the light of the LED light source 12 can be concentratedly irradiated in a fixed direction by using the reflector. And, the lampshade 13 covers the LED light source 12 , the lampshade 13 is transparent glass with a light transmittance greater than 93%, and the lampshade 13 is used to protect the LED light source 12 .

The solar device 20 is electrically connected to the LED light source 12 of the lamp body 10 through wires, and supplies power for the LED light source 12 in the lamp body 10 to emit light and generate heat. The solar device 20 includes a solar panel 21 and an external storage battery 22 , the solar panel 21 is electrically connected to the external storage battery 22 , the solar panel 21 can convert light energy into electrical energy, and store the electrical energy in the external storage battery 22 . The external storage battery 22 is electrically connected to the aforementioned LED light source 12 , and the external storage battery 22 is used for powering the LED light source 12 .

And, an LED driving power supply 30 is arranged between the external storage battery 22 and the aforementioned LED light source 12, and the LED driving power supply 30 is used to adjust the color temperature of the LED light source 12, so that different plants can properly and fully utilize the The light emitted by the light source 12 promotes the growth of plants.

The LED light source 12 of the present utility model is in a closed state during the daytime, and the solar panel 21 of the solar device 20 converts light energy into electric energy, and stores the electric energy in the external storage battery 22. The device 20 can reserve enough electric energy to provide sufficient preparation for the use of the LED light source 12 at night. At night, only need to turn on the LED driving power supply 30, the external storage battery 22 can supply power for the light emitting and heating of the LED light source 12, there is no need to connect an external power supply, it is easy to use, energy-saving and environmentally friendly. Moreover, according to different plants, the color temperature of the LED light source 12 can be controlled by adjusting the LED driving power supply 30, so that different plants can properly and fully absorb the light source and promote plant growth.

The design focus of the present utility model is:

1. Through the electrical connection between the LED light source and the solar device, the solar device is used to supply power to the LED light source, so that the solar energy can be stored during the day, and the stored energy can be released at night to provide different plants and plants with different growth periods. Customize lighting and make full use of solar energy to achieve the purpose of energy saving and environmental protection.

2. According to the rich wavelength types of LEDs, which coincide with the spectral range of plant photosynthesis and light morphology, by using LED drive power to adjust the color temperature of LED light sources, and according to the requirements of users' plants for light, pure monochrome can be used. Light (such as red, blue) or compound spectrum (red + green + blue three primary colors mixed light), can also concentrate specific wavelengths of light to irradiate crops in a balanced manner, so that plants can be supplemented scientifically and reasonably to ensure that plants are fully photosynthesized It can not only regulate the flowering and fruiting of plants, but also control the height of plants and the nutritional content of plants, so that the leaves of plants are thick, the roots are developed, and the growth is good, which enhances resistance and immunity, promotes early maturity, increases production, and improves fruit quality. .

The above are only preferred embodiments of the present utility model, and do not limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present utility model , all still belong to the scope of the technical solution of the utility model.

Claims (2)

1. A novel solar plant growth supplementary light is characterized in that: it includes a lamp body and a solar device, and the lamp body is connected with the solar device by a wire; the lamp body includes a shell, an LED light source and a lampshade; It has an accommodating cavity; the LED light source includes RGB three-color lamp beads distributed in an array, the LED light source is arranged in the aforementioned accommodating cavity, and the LED light source is covered with a reflector; the lampshade covers the LED light source; the solar device includes a solar panel and an external storage battery, the solar panel is electrically connected to the external storage battery; the external storage battery is electrically connected to the aforementioned LED light source, and a device for LED drive power supply for adjusting the color temperature of the LED light source. 2. The new solar plant growth supplementary light according to claim 1, characterized in that: the lampshade is transparent glass, and the light transmittance of the transparent glass is greater than 93%.

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