KR101214058B1 - Led lighting apparatus with down flow fan - Google Patents

Abstract

PURPOSE: A LED lighting apparatus with a down flow fan is provided to control the light having different wavelengths according to the kind or the growth time of plants. CONSTITUTION: The light of LEDs(1a) is emitted by controlling a power source and a control device. The light of different wavelength is selectively irradiated to a plant according to plants or the state of growth. The LED substrate is installed inside a housing(3). A blower(2) is formed in the inside of a cover(4) covering the housing. Blast holes(11,31) pass through the LED substrate and the housing.

Description

LED lighting apparatus with down flow fan

The present invention relates to an LED lamp, and more particularly, to a down flow LED lamp that not only cools heat generated in a circuit including an LED more easily, but also generates a wind downward and supplies it to a required place. will be.

In addition, the present invention is made of LEDs of various wavelengths that can help the growth of the plant can be adjusted to the quality of light according to the type or growth time of the plant downflow LED that can have a good effect on the growth of the plant It is about a lighting.

Fluorescent lamps or incandescent lamps are widely used as lamps for lighting or advertising. However, these lamps have relatively low illumination and low energy efficiency. Hereinafter, such as using " LED " is commonly used (hereinafter referred to as " LED lighting ").

LED lightings typically include an LED substrate on which a plurality of LEDs are installed and a circuit pattern is formed for supplying power to the LED, and a housing supporting the LED substrate. When the LED emits light, a large amount of heat is generated in the circuit as well as the LED itself. Since it is generated, a heat dissipation means for dissipating heat to the outside is provided.

On the other hand, as a technology for cultivating a large amount of plants in a small area as a property, plant cultivation facilities such as plastic houses, plant factories are used a lot. Plants cultivated in these plant cultivation facilities need light for photosynthesis, and light is an energy source for photosynthesis of plants, and the effects of sun-effect, photogenicity, and photomorphism. It serves as a source of information for shaping. Among the lights irradiated with plants, the ratio of red light / near red light (Red / Far-Red) affects the photomorphogenesis of plants and the distribution of photosynthetic products, and the starch content of water-soluble sugars and leaves is the quality of light It is known that the action depends on the action of phytochrome. Phytochromes are photoreceptive proteins that allow plants to detect changes in red and super red light, while phytochromes are in inactive Pr form and are activated by red light to be converted to near-infrared absorption type Pfr to induce biological responses The reaction which is converted to Pr which is inactive again by red light is repeated.

In addition, one of the physiological effects on red light plants include the height of pepper height, cucumber stem elongation, increased broccoli stem charcoal, decreased anthocyanin content of grape calender, accelerated flowering time of tulip, increased number of splits of leek, apple It is known to affect the reduction of anthocyanin production, increase the adhesion of seedlings, promote the growth of bellflower, and increase the photosynthesis of ginseng.

Accordingly, the plant cultivation facility must be provided with means for supplying light, and is equipped with various kinds of lighting means. Patent Documents 1 to 4 are examples of plant cultivation facilities equipped with lighting means. They use fluorescent or LED as lighting means for supplying light to plants, and it is possible to supply plants with various wavelengths to help plants grow, but to irradiate blue or red light at a fixed rate. There was a problem in that the quality of the light can not be properly adjusted according to the type of plant growing, planting, differentiation, fruiting, fruiting, etc.

In addition, such a plant cultivation facility has to seal the space in which the plant is grown and artificially pollinate a bee or a butterfly for pollination or artificial pollination. The cost of producing bees for pollination of plants not only increases production costs, but also causes workers to be stung by the bees, and when the workers work on the water manually, it takes a lot of time and money to work with them. there was.

In addition, in winter, the temperature inside the cultivation facility must be kept constant so that it does not interfere with the growth of the plant. Therefore, various kinds of heating means must be installed separately to increase the internal temperature. There was.

1.Korea Patent Registration No. 1090929 2.Korean Patent Publication No. 2004-0010426 3.Korean Patent Registration No. 0879711 4.Korean Patent Registration No. 0902071

The present invention was developed to solve the problems of the prior art as described above not only can more easily cool the heat generated in the circuit including the LED, but also help the air circulation and moisture (heat) by using the heat wind An object of the present invention is to provide a flow LED lamp.

In addition, an object of the present invention is to provide a down-flow LED lighting that can adjust the quality of light in accordance with the type of plant or growth time.

In detail, the present invention installs a blower and forms one or more blow holes in the LED substrate to increase the cooling efficiency of the LED and the circuit board by absorbing and discharging heat while the wind blown from the blower passes through the LED substrate, this heating It is not only to provide a heating effect by supplying the air to the room, but also to provide a down-flow LED lighting lamp so that the supplied wind blows pollen of the plant to make moisture.

The present invention for achieving this purpose is configured by installing a plurality of LED substrates are installed in the interior of the housing that receives the power supplied by the control means to emit light, the cover covering the back of the housing to the wind toward the LED substrate The blower is provided with a cooling fan (cooling fan), characterized in that the LED substrate is formed with one or more blow holes for absorbing the heat of the LED substrate and then moved toward the plant while the wind blown from the blower is discharged forward.

The downflow LED lighting lamp according to the present invention preferably has a plurality of LEDs that generate light of the same wavelength and a plurality of LED groups that emit light of different wavelengths.

In addition, the present invention can be separated into two or more LED substrates each form a module, each module can be selectively controlled.

In addition, the LEDs installed in each module generate light of the same wavelength, and the LEDs installed in different modules may generate light of different wavelengths, or the LEDs installed in each module may generate light of the same wavelength. The LEDs can form a group and have a plurality of LED groups emitting light of different wavelengths.

According to another aspect of the present invention, there is provided an LED substrate having a plurality of LEDs installed therein for emitting light by receiving power controlled by a control means, wherein the LEDs have a plurality of LEDs generating light having the same wavelength. Forming a group of, characterized in that having a plurality of LED groups for emitting light of different wavelengths.

Even in the case of the lamps divided into a plurality of groups, a blower for blowing air toward the LED board is further installed on the cover covering the rear surface of the housing, and the air blown from the blower on the LED board is discharged to the front to remove the heat of the LED board. It is desirable to form one or more blowholes that are absorbed and then moved towards the plant.

The present invention allows the wind generated in the blower to be supplied to the plant via the LED board to absorb heat in the process of passing through the LED board to cool the LED board, and to provide heating to the space where the plant grows by heating And heating can be performed at the same time has the effect of reducing the power required for lighting and heating.

In addition, the present invention is to install the LED to generate light of different wavelengths on the LED substrate to further control the growth of the plant by controlling the quality of light according to the type or growth time of the plant.

Furthermore, the present invention allows the wind supplied from the blower to blow pollen of the plant so that moisture can be produced, so that it is not necessary to artificially put a bee or the like in the plant cultivation facility for moisture, so there is no worry about the cost of putting them in or the bee sting. You can work in a stable state.

1 is a perspective view showing an example of a down flow LED lamp according to the present invention,
2 is a bottom perspective view showing an example of a down flow LED lamp according to the present invention;
3 is a perspective view showing another example of the down flow LED lamp according to the present invention,
Figure 4 is a side cross-sectional view showing a state in which a part of the down flow LED lighting according to the present invention is cut off,
5 is an exploded perspective view of an example of a downflow LED lamp according to the present invention;
6 is a bottom view of an example of a downflow LED lamp according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings of the present invention, the sizes and dimensions of the structures are enlarged or reduced from the actual size in order to clarify the present invention, and the known structures are omitted so as to reveal the characteristic features, and the present invention is not limited to the drawings . DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention.

The downflow LED lighting according to the present invention is to cool the heat generated from the LED substrate more easily and to heat the plant cultivation space using this heat to enable heating without using a separate power source, LED substrate (1) At least one blowing hole 11 is formed in the rear portion, and a blower 2 serving as a cooling fan is provided on the rear surface.

As illustrated in FIG. 5, the down flow LED lamp of the present invention has a housing 3 similar to a conventional LED lamp, and the LED substrate 1 is detachably installed inside the housing 3. do. As shown in FIGS. 1 to 6, the housing 3 is provided with a plurality of heat dissipation fins 3a so that heat generated from the circuit and the LED 1a of the LED substrate 1 can be released more quickly. It was. As shown in FIGS. 4 and 5, the housing 3 has a groove in which the LED substrate 1 can be seated on the front surface thereof, and a blow hole 31 is formed at a portion corresponding to the blow hole 11. Formed, allowing the wind from the blower to pass through.

In addition, in order to increase the heat dissipation efficiency of the LED, the inner end of the LED 1a is installed to be interviewed on the inner wall of the housing 3 so that the heat generated from the LED can be conducted to the heat dissipation of the LED substrate 1 and the housing. A space through which air can flow is formed between the inner walls of (3). (See Fig. 4).

It is preferable that the housing 3 is made of aluminum or the like having excellent thermal conductivity.

2, 3, 5, and 6, the LED substrate 1 is provided with a plurality of LEDs 1a, and is supplied with power controlled by a control means (not shown). 1a) will blink.

The blower 2 is provided as a means for cooling the circuit of the LED substrate 1 and the LED 1a more quickly, and the blower 2 is led as shown in FIGS. 1, 4 and 5. It is installed on the cover 4 detachably attached to the back surface of the substrate 1 and blows the wind toward the LED substrate 1 side, and this wind is supplied to the plant on the front side via the LED substrate 1. Accordingly, the wind generated by the blower 1 absorbs heat from the LED substrate 1 and moves to supply warm air to the plant. One or more blow holes 11 are formed in the LED substrate 1 so that the wind generated from the blower 2 can be supplied to the plant via the LED substrate 1.

As shown in FIG. 2, only one blower hole 11 may be formed in the center of the LED substrate 1, or a plurality of blower holes 11 may be formed on the front surface of the LED substrate 1 as illustrated in FIG. 3. In addition, the air blowing hole 11 may be formed in an arc shape to form a concentric circle as shown in Figure 6, and can be formed in various forms, such as radial, these examples and drawings limit the claims of the present invention It is not.

One or more fixing rings 4a are formed on the cover 4 to which the blower 2 is installed, as shown in FIGS. 1 and 5, so that the down flow LED lamp of the present invention can be more easily installed.

In addition, the present invention is equipped with an LED (1a) that can be irradiated with light of various wavelengths in order to adjust the quality of the light according to the type of plant or growth time to further activate the growth of the plant.

When all the LEDs 1a generate light of different wavelengths, the amount of light is small so that the growth of the plant cannot be greatly influenced. Therefore, a plurality of LEDs 1a that generate light of the same wavelength form a group. Many groups are installed. That is, LEDs in any one group generate light of the same wavelength, and LEDs are provided which generate different wavelengths for each group. Thus, the method of configuring the LED (1a) into a plurality of groups for generating the light of the same wavelength can be carried out in various modifications, a preferred example is as follows.

First, as shown in FIGS. 1 to 6, the LED substrate 1 is separated into two or more to form a single module, and each module is provided with an LED 1a for generating light having different wavelengths. Can be configured.

Another example is a method in which LEDs 1a for generating light of different wavelengths are mixed or installed in one LED substrate 1 in a group. However, if LEDs of different wavelengths are installed on one LED substrate 1, the circuit for LED blinking control can be complicated, so as to separate and modularize the LED substrate 1 into two or more modules, and It is preferable to install LEDs of different wavelengths.

The LED groups (or modules) having different wavelengths may be selectively controlled by selecting them from the control means. That is, by controlling the control means, only the LED having a wavelength at which the plant can grow in an optimal state in accordance with the type of plant or the growth time can be lit.

In addition, the down flow LED lamp according to the present invention further installed a reflector 5 on the front surface of the LED substrate 1 to reflect the light so that the light generated from the LED (1a) can be irradiated toward the plants. Of course, the reflective plate 5 is also provided with a blowing hole 51 corresponding to the blowing hole 11. In addition, a plurality of light-transmitting holes 5a are formed in the reflector 5 to correspond to the LEDs 1a to allow the light generated by the LEDs 1a to pass therethrough.

In addition, when the LED substrate 1 is installed horizontally or inclined toward the center of the housing, since the light generated from the LED 1a is collected and irradiated to any part, the area to which the light is irradiated may be narrowed. Accordingly, in the present invention, the LED substrate 1 is installed to be inclined outward from the center of the housing so that the light can be irradiated to a wide area. (See FIG. 4) That is, as shown in FIG. The LED substrate 1 is installed to be inclined outward to widen the area irradiated with light, and the angle at which the LED substrate is inclined may vary depending on the height at which the LED lights of the present invention are installed or the area to be illuminated. The present invention is not limited thereto.

The ventilation holes formed in the LGD panel 1, the housing 3, and the reflecting plate may be formed in the shape of a nozzle to control an area in which wind passes through, and the shape of the nozzle may be an area or plant in which plants are grown. It may vary depending on the height and position of the lamp of the invention is installed detailed description thereof will be omitted.

The light generated from the LED 1a is preferably a red light having a wavelength of 600 nm to 700 nm, a blue light of 400 nm to 500 nm, and a phytochrome system of 650 nm to 740 nm.

The effect of the light of each wavelength (or color) on the plant has already been described in the prior art, but in detail, the red light is effective for photosynthetic reaction of the pigment plants, blue light is effective in the optical property and form formation, phytochrome Since the system is effective for germination and flower formation in the reversible photoreaction of red light and far-infrared light, it is preferable to light LEDs of one or more wavelengths by selecting a wavelength according to the type of plant grown or growing process.

1: Substrate Module 1a: LED 11: Blowing Hole
2: blower
3: housing 3a: heat dissipation fin 31: blowing holes
4: cover 4a: retaining ring
5: reflector

Claims (7)

LED lighting lamp equipped with a blower that blows the wind toward the LED board inside the cover, which is installed on the inside of the housing with a plurality of LEDs installed with a plurality of LEDs to emit light under the control of the control means. To
Wind blown from the blower is discharged forward through the LED board to absorb the heat of the LED board and to form at least one blowing hole penetrating the LED substrate and the housing through the LED substrate and the housing to lower the warmth to the plant Characterized in that pollen is blown out while delivering moisture.
The LED may include a plurality of LEDs generating light having the same wavelength as a group, and having a plurality of groups emitting light having different wavelengths, thereby controlling the wavelength of light selectively irradiated according to the type or growth state of the plant. You can choose
The LED is interviewed in the housing down heat LED lighting, characterized in that the heat generated from the LED is conducted to the housing to radiate heat delete The method of claim 1,
Down LED lamps, characterized in that the front surface of the LED board is installed with a reflector reflecting the light emitted from the LED to the front The method of claim 1,
The LED substrate is a down-flow LED lamp, characterized in that installed inclined outwards toward the center of the center portion of the housing delete delete delete

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