KR102600677B1 - LED lighting device for plant cultivation - Google Patents

Abstract

The present invention relates to an LED lighting device for growing plants such as leafy vegetables, strawberries, and fruits and vegetables.
For this purpose, the present invention relates to an LED lighting device 100 for plant cultivation, which includes a body 110 having fitting grooves 111 formed at both inner ends so that a PCB module 120 can be inserted and assembled; A finishing cover 150 that is assembled at both ends of the body 110 and secures both ends of the PCB module 120; Cable glands (160) each assembled on the finishing cover (150) and fixing the power cable (170); and a power cable 170 that is connected to both ends of the PCB module 120 to selectively supply power.
The present invention constructed as described above significantly improves the function of the LED lighting device for plant cultivation so that plants can grow well. As a result, the quality and reliability of the LED lighting device for plant cultivation are greatly improved to create a good image for improving plant cultivation. It was done.

Description

LED lighting device for plant cultivation}

An embodiment of the present invention relates to an LED lighting device for growing plants such as leafy vegetables, strawberries, and fruits and vegetables. More specifically, the function of the LED lighting device for growing plants is greatly improved so that plants grow well. As a result, an LED lighting device for growing plants is provided. The quality and reliability of lighting devices have been significantly improved to create a good image for improving plant cultivation.

As you know, incandescent lamps, fluorescent lamps, halogen bulbs, high-pressure sodium bulbs, etc. have been used in the past for lighting necessary for plant growth, but recently, semiconductor light-emitting diodes (LEDs) for plant cultivation have replaced them, providing lighting that the conventional technology did not have. It can generate the effects of photosynthesis and leaf greening in plant growth and generate ripple economic effects through energy savings and environmental protection.

These recent plant growth and growth cultivation devices of lighting devices with light-emitting diodes (LEDs) for plant cultivation irradiate light of the optimal wavelength band and brightness according to the characteristics of the plants and the parameters to be controlled, thereby growing the plants. A plant growth and growth training device using a light emitting diode that can be controlled by forming a control unit for growth and growth has been disclosed.

In addition, similar literature shows that various types of LEDs that emit light of the optimal wavelength according to the type and growth process of the plant are combined in an appropriate ratio, with one type selected from among red, blue, green, white, infrared, and ultraviolet LEDs. Alternatively, there is literature that arranges two or more types of LEDs in an appropriate ratio on a board so that they can be replaced depending on the type of plant or growth situation.

However, the above prior art and the like had the following problems.

In other words, the above-described prior art has the problem of not being able to grow high-quality plants because its structure does not provide natural light that is closest to the sunlight required for plant growth.

In addition, the above-described prior art had the problem of preventing the LED module from lifting when being placed and not being able to align and seat the LED module stably due to structural defects.

In addition, the prior art also had a problem in that the PCB was not made of metal and a heat dissipation plate, and there was no guide groove.

In addition, the conventional technology cannot reflect light because there is no white paint reflection layer, and light loss occurs, so there is a problem that luminous efficiency cannot be maximized.

In addition, the above-mentioned prior art also had a problem in that it could not maximize the growth of cultivated plants because it could not adjust the ratio of light irradiated due to its structure.

In addition, the prior art was unable to implement various types of pieces of debt due to its structure, resulting in a problem of not providing an optimal environment for plant growth.

In addition, the prior art also had a problem in that the insulating layer could not increase the heating effect.

In order to solve the above-mentioned problems, the following prior art documents have been developed, but there is still a big problem that the problems of the above-described prior art cannot be solved at once.

Republic of Korea Patent Publication No. 2339718 (December 10, 2021) has been registered. Republic of Korea Patent Publication No. 1133725 (2012. 03. 29) has been registered. Republic of Korea Patent Publication No. 1809557 (December 11, 2017) has been registered. Republic of Korea Patent Publication No. 0902071 (2009. 06. 03) has been registered. Republic of Korea Patent Publication No. 1184631 (2012. 09. 14) has been registered.

The present invention was developed to solve all the problems of the prior art as described above, and its first purpose is to provide an LED lighting device for plant cultivation with a body, an insertion groove, an LED module, a finishing cover, a cable gland, and a power cable. The second purpose of the present invention based on the above technical configuration is to significantly improve the function of LED lighting devices for plant cultivation so that plants can grow well, and the third purpose is to provide high quality natural light that is closest to the sunlight required for plant growth. The fourth purpose is to prevent the LED module from lifting when it is seated and to ensure stable alignment and seating. The fifth purpose is to configure the PCB made of metal integrally with the heat dissipation plate. The efficiency of work was improved by being inserted into the guide groove, the 6th purpose was to reduce the number of working hours, the 7th purpose was to reduce the use of raw materials to reduce costs, and the 8th purpose was to reduce the use of raw materials. The paint reflection layer reflects light to prevent light loss, thereby maximizing luminous efficiency. The 9th purpose is to maximize the growth of cultivated plants by controlling the ratio of irradiated light, and the 10th purpose is to maximize the growth of cultivated plants. The purpose is to provide an optimal environment for plant growth by implementing various types of light irradiation angles by providing the required shape on the inside while maintaining the penetrating outer surface, and the 11th purpose is to increase the heat generation effect of the insulating layer. The 12th purpose is to significantly improve the quality and reliability of LED lighting devices for plant cultivation, thereby creating LED lighting devices for growing plants such as leafy vegetables, strawberries, and fruits and vegetables, which can create a good image for improving plant cultivation. to provide.

To achieve this objective, the present invention relates to an LED lighting device for growing plants such as leafy vegetables, strawberries, fruits and vegetables, and includes a body having fitting grooves formed at both ends of the interior so that a PCB module can be inserted and assembled; A finishing cover that is assembled on both ends of the body and secures both ends of the PCB module; Cable glands that are each assembled on the finishing cover and secure the power cable; and a power cable connected to both ends of the PCB module to selectively supply power. An LED lighting device for plant cultivation is provided.

As discussed in detail above, the present invention provides an LED lighting device for growing plants such as leafy vegetables, strawberries, fruits and vegetables, and is equipped with a body, a fitting groove, an LED module, a finishing cover, a cable gland, and a power cable.

The present invention based on the above-described technical configuration significantly improves the function of the LED lighting device for plant cultivation so that plants can grow well.

In addition, the present invention provides natural light that is closest to the sunlight required for plant growth, enabling the cultivation of high-quality plants.

In addition, the present invention prevents the LED module from lifting when seated and enables stable alignment and seating.

In addition, the present invention improves work efficiency by integrating a PCB made of metal with a heat dissipation plate and fitting it into a guide groove.

And the present invention is designed to reduce the number of working hours.

Additionally, the present invention seeks to reduce costs by reducing the use of raw materials.

In addition, the present invention is designed to maximize luminous efficiency because the white paint reflective layer reflects light and prevents light loss.

In particular, the present invention is designed to maximize the growth of cultivated plants by adjusting the ratio of the amount of light irradiated.

In addition, the present invention provides an optimal environment for plant growth by implementing various types of light irradiation angles by providing the required shape on the inside while maintaining the outer surface that transmits the fan.

In addition, the present invention allows the insulating layer to increase the heating effect.

Due to the above-described effects, the present invention is a very useful invention that significantly improves the quality and reliability of LED lighting devices for plant cultivation, thereby creating a good image for improving plant cultivation.

Hereinafter, a preferred embodiment of the present invention for achieving these effects will be described in detail according to the attached drawings.

Figure 1 shows an LED lighting device for plant cultivation applied to the present invention,
(a) shows the floor plan,
(b) shows the front view.
Figure 2 is a configuration diagram of a first embodiment of an LED lighting device for plant cultivation applied to the present invention and
Enlarged view of the lumbar region.
Figure 3 is a configuration diagram of a second embodiment of an LED lighting device for plant cultivation applied to the present invention.
Figure 4 is a configuration diagram of a third embodiment of an LED lighting device for plant cultivation applied to the present invention.
Figure 5 is a configuration diagram of a fourth embodiment of an LED lighting device for plant cultivation applied to the present invention.

The LED lighting device for growing plants such as leafy vegetables, strawberries, and fruits and vegetables applied to the present invention is configured as shown in FIGS. 1 to 5.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

In addition, the terms described below are terms established in consideration of the functions in the present invention, and may vary depending on the intention or custom of the producer, so their definitions should be made based on the content throughout the specification.

In addition, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of explanation, the present invention is not necessarily limited to what is shown in the drawings.

First, the present invention relates to an LED lighting device 100 for plant cultivation and is configured as follows.

That is, the present invention is provided with a body 110 having fitting grooves 111 formed at both ends thereof so that the PCB module 120 is inserted and assembled.

In addition, the present invention is assembled at both ends of the body 110, and is provided with a finishing cover 150 that secures both ends of the PCB module 120.

And the present invention is assembled to each of the finishing covers 150, and is provided with a cable gland 160 for fixing the power cable 170.

In addition, the present invention is provided with a power cable 170 that is connected to both ends of the PCB module 120 to selectively supply power.

In particular, the upper part of the body 110 applied to the present invention is made opaque to block external dust and protect the power supply components, and the lower part of the body 110 is made transparent to let out the dust. The upper opaque and lower transparent parts of the body 110 are made of resin into one body through double extrusion.

At this time, in order to make the upper part of the body 110 opaque, it is preferable that 3 to 5 parts by weight of titanium dioxide (TiO2), a coloring material, be included in the synthetic polymer resin.

Meanwhile, the lower transparent part of the body 110 applied to the present invention can be configured in the following embodiments to implement various types of light irradiation angles by maintaining the outer surface that transmits the fan and having the required shape on the inside. You can.

In other words, the radiation angle required for the growth size and shape of the plant is different, so that various growth and environments are provided.

(Example 1)

A semicircular curved surface 112 is formed inside the lower transparent part of the body 110 applied to the present invention so that the radiation angle of the LED light is shaped like a water drop, so that it can affect plant growth.

(Second Embodiment)

Groove curved surfaces 114 are formed on both sides of the central protruding surface 113 inside the lower transparent part of the body 110 applied to the present invention so that the radiation angle of the LED light has a single wave shape to promote plant growth. It was designed to influence.

(Third Embodiment)

Inside the lower transparent part of the body 110 applied to the present invention, side curved surfaces 116 are formed on both sides around the central curved surface 115 so that the radiation angle of the LED light has a plurality of wave shapes to promote plant growth. It was designed to influence.

(Example 4)

Inside the lower transparent part of the body 110 applied to the present invention, inclined surfaces 118 are formed on both sides of the horizontal surface 117 so that the radiation angle of the LED light can maintain the horizontal plane and affect plant growth. It was done.

On the other hand, the PCB module 120 applied to the present invention is configured as follows.

That is, in the present invention, a metal layer 121 is provided with a plurality of heat dissipation fins 121a at regular intervals.

Additionally, an insulating layer 122 is provided on the bottom of the metal layer 121 applied in the present invention.

At this time, the material of the insulating layer 122 preferably contains 5 to 8 parts by weight of a mixture of synthetic polymer resin and ceramic to increase heat dissipation effect and insulate the circuit and metal.

If the mixture is less than 5 parts by weight, the heat dissipation effect is reduced, and if it is more than 8 parts by weight, the insulating effect is reduced, so the amount of the mixture is preferably 5 to 8 parts by weight.

And an electric circuit layer 123 is provided on the bottom of the insulating layer 122 applied in the present invention.

In addition, a white paint reflection layer 124 is provided on the bottom of the electric circuit layer 123 applied in the present invention and improves luminous efficiency by reflecting light.

And a plurality of LED lamps 125 are provided at regular intervals on the bottom of the white paint reflection layer 124 applied to the present invention.

On the other hand, the plurality of LED lamps 125 provided at regular intervals in the PCB module 120 applied to the present invention can obtain a spectrum effect by arranging the light of the LED lamps 125 according to the wavelength (nm). Configure it so that

In addition, in the present invention, in order to obtain the above spectrum effect, the LED lamp 125 is composed of 100% white or 85 to 95% of white and 5 to 15% of blue 430 to 480 nm.

At this time, seedlings do not use a red light source to prevent overgrowth.

If the ratio of white to blue is less than 5%, the illuminance decreases, and if it is more than 15%, diffuse reflection occurs, so it is preferable that the ratio of white to blue is 5 to 15%.

In addition, the present invention uses an LED lamp (125) used for the growth of broad-leafed leafy vegetables when planting, with the proportion of leafy vegetables being 60-75% white, 630-690 nm 10-25% red, and 5-20% near-infrared 700-780 nm. , can be composed of a spectrum consisting of blue 430~480nm with a ratio of 5~25%.

In addition, in the present invention, the LED lamp (125) used for the growth of hard-leaved types of leafy vegetables is 65-80% white, 10-25% red 630-690 nm, and 5-20% near-infrared 700-780 nm. It can be composed of a spectrum consisting of a ratio of .

In addition, the present invention provides an LED lamp (125) used for growing fruits and vegetables such as strawberries, with the ratio of fruit and vegetable number 1 being 60-80% white, 10-25% red 630-690nm, 5-20% near-infrared rays 700-780nm, and 380% near-ultraviolet rays. It can be configured as a spectrum consisting of a ratio of ~430nm 5~20%.

Meanwhile, the present invention can be variously modified and take various forms when applying the above-mentioned components.

And it should be understood that the present invention is not limited to the particular form mentioned in the above detailed description, but rather includes all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims. It should be understood as

The effects of the LED lighting device for growing plants such as leafy vegetables, strawberries, and fruits and vegetables of the present invention configured as described above are explained as follows.

First of all, the present invention significantly improves the function of the LED lighting device for plant cultivation so that plants can grow well. As a result, the quality and reliability of the LED lighting device for plant cultivation are greatly improved to create a good image for improving plant cultivation. .

For this purpose, Figure 1 applied to the present invention shows an LED lighting device 100 for plant cultivation, (a) shows a plan view of the LED lighting device, and (b) shows a front view of the LED lighting device.

And Figure 2 shows the configuration of the first embodiment and an enlarged view of main parts of the LED lighting device 100 for plant cultivation applied to the present invention.

Hereinafter, the operational effects of the LED lighting device 100 for plant cultivation applied to the present invention described above will be described in more detail as follows.

First, in the present invention, the LED module 120 is assembled by inserting it into the fitting grooves 112 formed at both inner ends of the body 110.

Due to this, the present invention prevents the LED module from lifting when seated and provides the effect of stably aligning and seating the LED module.

Next, the present invention assembles and installs a finishing cover 150 that secures both ends of the PCB module 120 to both ends of the body 110, respectively.

Afterwards, the present invention assembles and installs a cable gland 160 that secures the power cable 170 to each of the finishing covers 150.

Subsequently, the present invention constructs an LED lighting device 100 for plant cultivation by drawing the power cable 170, which is provided at both ends of the PCB module 120, to the outside through the finishing cover 150 and the cable gland 160. do.

When power is applied to the LED lighting device 100 for plant cultivation in the assembled state as described above, the light of the plurality of LED lamps 125 provided in the PCB module 120 provides natural light closest to the sunlight required for plant growth. This is to enable the cultivation of high quality plants.

That is, the metal layer 121 provided on the PCB module 120 is made of metal to improve durability, and a plurality of heat dissipation fins 121a provided at regular intervals on the top dissipate heat generated from the LED lamp 125 to the outside. discharged to extend the service life.

In the present invention, an insulating layer 122 is provided on the bottom of the metal layer 121, and the insulating layer 122 increases the heat dissipation effect and provides an insulating effect between the circuit and the metal.

In addition, the present invention provides an electric circuit layer 123 on the bottom of the insulating layer 122, and a white paint reflection layer 124 is provided on the bottom of the electric circuit layer to reflect light and improve luminous efficiency. .

In particular, the first embodiment applied to the present invention forms a semicircular curved surface 112 inside the lower transparent part of the body 110 so that the radiation angle of the LED light is shaped like a water drop to affect plant growth. .

Meanwhile, Figure 3 shows the configuration of the second embodiment of the LED lighting device 100 for plant cultivation applied to the present invention, and has a central protruding surface 113 inside the lower transparent portion of the body 110 applied to the present invention. Groove curved surfaces 114 were formed on both sides of the center so that the radiation angle of the LED light became a single wave shape, which could affect plant growth.

On the other hand, Figure 4 shows the configuration of a third embodiment of the LED lighting device 100 for plant cultivation applied to the present invention, and shows a central curved surface 115 inside the lower transparent portion of the body 110 applied to the present invention. By forming side curved surfaces 116 on both sides centered on , the radiation angle of the LED light was made to have a plurality of waveform shapes to affect plant growth.

On the other hand, Figure 5 shows the configuration of the fourth embodiment of the LED lighting device 100 for plant cultivation applied to the present invention, with a horizontal surface 117 centered inside the lower transparent portion of the body 110 applied to the present invention. Inclined surfaces 118 were formed on both sides to keep the radiation angle of the LED light in a horizontal plane, thereby influencing plant growth.

Meanwhile, a plurality of LED lamps 125 provided at regular intervals on the PCB module 120 applied to the present invention are arranged to obtain a spectrum effect by arranging the light of the LED lamps 125 according to the wavelength (nm). In order to obtain the above spectrum effect, the LED lamp 125 is composed of 100% white or 85 to 95% of white and 5 to 15% of blue 430 to 480 nm.

As a result of the above, the present invention obtained the results shown in Tables 1 to 6 below.

Seedling/transplantation A spectrum

Regular leafy vegetables, broad-leaved type No. 1 B spectrum

Formal leafy vegetables, type 2 with hard leaves, C spectrum

Official fruit and vegetable D spectrum

division Testing by LED spectrum A B C D Seedling transplantation (yield) 80% 60% 70% 75% Weight of one official fruit and vegetable harvest (e.g. strawberries) 15g 23g 22g 30g Harvest weight of 1 head of regular leafy vegetables (broad-leaf type) 60~80g 90~125g 80~100g 70~90g Harvest weight of 1 leafy vegetable type with hard leaves 110g 112g 135g 110g

As a result of the above, the present invention was able to achieve the effect of suppressing the growth of young leaves by not using red light because the growth should not occur.

Near-ultraviolet rays are used to induce bees to fertilize pollen, and to improve coloring and fruit, red, blue, and near-infrared rays are used as photosynthesis is required after growing in young seedlings and in the intermediate stages of seedling and transplantation.

As described above, the present invention significantly improves the function of the LED lighting device for plant cultivation so that plants can grow well, and enables the cultivation of high-quality plants by providing natural light that is closest to the sunlight necessary for plant growth. This is to prevent lifting when the module is seated and to ensure stable alignment and seating. The PCB made of metal is integrated with the heat dissipation plate and is inserted into the guide groove to improve work efficiency and reduce work man-hours. This was done to reduce costs by reducing the use of raw materials, and the white paint reflective layer reflects light to prevent light loss, thereby maximizing luminous efficiency, and by adjusting the ratio of irradiated light. It provides the effect of maximizing the growth of cultivated plants.

The technical idea of the LED lighting device for growing plants such as leafy vegetables, strawberries, and fruit vegetables of the present invention is that the same results can be repeatedly implemented in practice. In particular, by implementing the present invention, technological development can be promoted and industrial development can be promoted, so it can be protected. It's well worth it.

<Explanation of symbols for main parts of the drawing>
100: LED lighting device for plant cultivation
110: body
111: Fitting groove
120: LED module
150: Finishing cover
160: Cable grand
170: Power cable

Claims (5)

Regarding an LED lighting device (100) for plant cultivation,
metal layer 121; An insulating layer 122 provided on the bottom of the metal layer 121 and containing 5 to 8 parts by weight of a mixture of synthetic polymer resin and ceramic to increase the heat dissipation effect and insulate the circuit and the metal; An electric circuit layer 123 provided on the bottom of the insulating layer 122; A white paint reflection layer 124 provided on the bottom of the electric circuit layer 123 and improving luminous efficiency by reflecting light; A body 110 with fitting grooves 111 formed at both ends thereof so that a PCB module 120 including a plurality of LED lamps 125 provided at regular intervals on the bottom of the white paint reflection layer 124 is inserted and assembled;
A finishing cover 150 that is assembled at both ends of the body 110 and secures both ends of the PCB module 120;
Cable glands (160) each assembled on the finishing cover (150) and fixing the power cable (170); and
A power cable 170 is connected to both ends of the PCB module 120 to selectively supply power;
A plurality of LED lamps 125 provided at regular intervals on the PCB module 120 arrange the light of the LED lamps 125 according to the wavelength (nm) to obtain a spectrum effect,
In order to obtain the above spectrum effect, the LED lamp 125 is composed of 100% white or 85-95% white and 5-15% blue 430-480 nm, or
For types of leafy vegetables with wide leaves, LED lamps (125) used for planting are used for the ratio of leafy vegetables: 60-75% white, 630-690nm red 10-25%, near-infrared 700-780nm 5-20%, and 430% blue. It consists of a spectrum consisting of a ratio of 5 to 25% of 480nm, or
For types of leafy vegetables with hard leaves, the LED lamp (125) used for growing when planting is made up of 65-80% white, 10-25% red 630-690nm, and 5-20% near-infrared ray, which is the ratio of number 2 for leafy vegetables. It consists of a spectrum, or
The LED lamp (125) used to grow strawberry fruits and vegetables is divided into 60-80% white, 10-25% red 630-690 nm, 5-20% near-infrared 700-780 nm, and 5-20% near-ultraviolet 380-430 nm. An LED lighting device for plant cultivation, characterized in that it consists of a spectrum consisting of a ratio of .
In claim 1,
The upper part of the body 110 is formed to be opaque to block external exposure and protect the power supply components,
The lower part of the body 110 is made transparent to let out the debt,
An LED lighting device for plant cultivation, characterized in that the upper opaque and lower transparent parts of the body 110 are made of resin as one body through double extrusion.
In claim 1 or 2,
A semicircular curved surface 112 is formed inside the lower transparent part of the body 110 so that the radiation angle of the LED light is shaped like a water drop to affect plant growth, or
Inside the lower transparent part of the body 110, groove curved surfaces 114 are formed on both sides around the central protruding surface 113, so that the radiation angle of the LED light has a single wave shape, which will affect plant growth. To enable, or
Inside the lower transparent part of the body 110, side curved surfaces 116 are formed on both sides around the central curved surface 115, so that the radiation angle of the LED light has a plurality of waveform shapes, which will affect plant growth. To enable, or
Inside the lower transparent part of the body 110, inclined surfaces 118 are formed on both sides of the horizontal surface 117, so that the radiation angle of the LED light maintains the horizontal plane, thereby affecting plant growth. LED lighting device for plant cultivation. delete delete

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