KR20220059010A - Suspended light apparatus for cultivation - Google Patents

Abstract

The present invention relates to a lighting device used in an indoor crop cultivation facility. The lighting device is made of a long column light emitting unit (10) in which a plurality of light sources (11) are vertically arranged and a control unit (20) for controlling the light sources (11). An upper end of the lighting device is coupled to be supported in a suspended type. Through the present invention, multi-directional high-intensity lighting for cultivated crops is possible and dense lighting device arrangement on a flat surface is possible, thereby drastically improving a lighting environment of facility cultivation.

Description

SUSPENDED LIGHT APPARATUS FOR CULTIVATION

The present invention relates to a lighting device used in an indoor crop cultivation facility, a long column light emitting unit 10 in which a plurality of light sources 11 are arranged in a longitudinal direction, and a control unit for controlling the light source 11 . It is composed of (20), etc., and is installed in a suspension type in which the upper end is supported by binding.

In facility agriculture, lighting is a key necessary factor for crop growth, and the appropriateness of the amount of light and illuminance of lighting has a profound effect on the crop's crop performance.

Conventional lighting for indoor crop cultivation facilities is a ceiling-mounted lighting similar to that of conventional indoor lighting, and the light emitted from the lighting device is irradiated from the upper side to the lower side.

Conventional lighting devices for plant cultivation facilities including Patent No. 934881 are mainly ceiling-mounted downward lighting devices, and have the same structure and operation as general indoor lighting.

In other words, a number of lights are arranged on the upper ceiling of the space in the cultivation facility where plants are grown to irradiate the rays downward. However, this lighting method has limitations in creating a sufficient and efficient lighting environment under an indoor cultivation environment.

In a general open-air cultivation environment, not only can a daylight lighting environment be created in which the amount of light and illuminance far exceed that of artificial lighting, but also, as reflected light from surrounding objects in a wide area is added, it is virtually omnidirectional rather than downward lighting. This can be done.

However, in case of performing only downward lighting through the ceiling installation device in the indoor cultivation environment for facility agriculture, it is not possible to secure sufficient light quantity and illuminance. Lack of lighting can result.

In particular, the lack of illumination for the side and lower part of the crop is inevitably more serious in proportion to the length and volume increase according to the growth of the crop and the consequent deepening of the cultivation density.

Therefore, a method of providing side lighting by intermittently installing standing lighting between crops may be considered, but these facilities may cause serious obstacles in the passage of workers and work performance, as well as in flat Since dense installation is virtually impossible, the effect also has insignificant limitations.

The present invention was devised in view of the above-described problems, and in a lighting device for plant cultivation, a plurality of light sources 11 are arranged in an axial direction of the light emitting unit 10 in a long column light emitting unit 10 . is installed, a control unit 20 for controlling a plurality of light sources 11 and supplying power is connected to the light emitting unit 10, and a binding hole 31 is formed at the upper end of the light emitting unit 10 to provide a support 32 ) is a hanging lighting device for plant cultivation, characterized in that it is bound to.

In addition, a plurality of proximity sensors 15 are arranged in the light emitting unit 10 in the axial direction of the light emitting unit 10 to detect an object in the light irradiation direction of the light source 11, and the proximity sensor 15 is a control unit It is a suspended lighting device for plant cultivation, characterized in that connected to (20), the light source (11) flickers depending on whether the proximity sensor (15) detects an object.

In addition, a Bluetooth module 25 for performing short-range low-power wireless communication is connected to the control unit 20, and as wireless communication between the smartphone 40 and the Bluetooth module 25 equipped with a Bluetooth function is performed, the control unit ( 20) is a suspended lighting device for plant cultivation, characterized in that it is manipulated.

Through the present invention, not only multidirectional high-intensity lighting for cultivated crops is possible, but also dense lighting devices can be arranged on a plane, thereby remarkably improving the lighting environment of facility cultivation.

In particular, by applying a suspension method in which the upper end of the lighting device is supported and the free activity of the lower end is guaranteed, it is possible for the worker to pass smoothly and perform work.

In addition, by selectively lighting the plurality of light sources 11 arranged in the axial direction of the long column-shaped light emitting unit 10 under the control of the control unit 20, it is possible to adjust the light emission section according to the growth state of the plant, thereby Efficient operation of the lighting device is possible and energy can be saved.

1 is a perspective view of the present invention;
2 is an explanatory diagram of the method of use of the present invention;
3 is an internal structural diagram of the present invention;
4 is an explanatory view of the support and movement method of the present invention;
5 is a perspective view of a chain-type embodiment of the present invention;
6 is an explanatory diagram of an operation method of the present invention;
7 is a perspective view of an embodiment of the present invention to which a proximity sensor is applied;
8 is an internal structural diagram of an embodiment of the present invention to which Bluetooth is applied.

The detailed configuration and operating principle of the present invention will be described with reference to the accompanying drawings.

First, FIG. 1 is a perspective view illustrating the appearance and structure of the present invention. As shown, the present invention has a long length in the vertical direction and a long column-shaped light emitting part having a binding sphere 31 formed at the upper end thereof. (10) is configured as a main body, and has a structure in which light is irradiated to the cultivated plant on the front side of the light emitting part (10).

That is, the present invention is a lighting device for plant cultivation that provides side illumination of indoor grown plants, as shown in FIG. 10) is arranged in the axial direction, is electrically connected to the plurality of light sources 11 to control the light sources 11, and the control unit 20 for supplying externally supplied power to the light sources 11 is a light emitting unit (10) is connected.

In the illustrated embodiment, a plurality of LED light sources 11 are vertically arranged in a line on a long column circuit board, and a control unit 20 is configured at the upper end of the circuit board, and these light sources 11 and the control unit 20 are It is built in a cylindrical housing, and a floodlight plate 12 for closing the housing is mounted on the front side of the light source 11 to protect the light source 11 from external impact and contamination.

In addition, as in FIGS. 1 to 3 , a binding sphere 31 is formed at the upper end of the light emitting unit 10 , and is bound to the support 32 to enable free movement as shown in FIG. 2 , the illustrated embodiment In the binding sphere 31, a hook is applied and a wire rope is applied as the support body 32, but in addition, a slider is applied as the binding sphere 31 and a rail may be applied as the support body 32.

That is, in the present invention, the support 32 is a guideway that is fixedly installed on the upper part of the cultivation facility, and the binding sphere 31 can be a movable body that moves horizontally along the guideway. When the binding sphere 31 is bound to the support 32 and operated in a stopped state, and it is necessary to move the lighting device due to the need for a worker to pass or work, as in FIG. 4 , the light emitting unit 10 is horizontally It is possible to move the lighting device of the present invention by simply pushing or pulling.

In particular, the lighting device of the present invention has a suspended structure in which the upper end is supported and the lower end is released to enable free activity, so that the light emitting unit 10 of the lighting device is rotated left and right without moving the lighting device as in FIG. 4 . As it is possible to move, it does not cause any practical obstacles to the normal passage of workers and work performance.

That is, the lighting device of the present invention can move in the same manner as a curtain or a foot, and in a stationary state, dense lighting devices can be arranged on the plane of the cultivation facility, and the operator can freely pass between the lighting devices. will have

In particular, as shown in FIG. 5 , by configuring the light emitting unit 10 in a chain shape in which a plurality of segments are connected by wires or the like, flexibility or flexibility can be imparted to the light emitting unit 10 itself, thereby allowing for smoother worker passage. This becomes possible.

In the lighting device of the present invention, as shown in FIGS. 1 to 6 , a plurality of light sources 11 arranged in the longitudinal and axial directions along the long column-shaped light emitting unit 10 as the main body are configured, and the control unit 20 As these light sources 11 are turned on by driving, it is possible to illuminate a wide area including the side part of the cultivated crop. lighting becomes possible.

In particular, although not shown in the drawing, the light source 11 may be installed on a plurality of sides rather than limited to one side of the light emitting unit 10, and the light source 11 may be installed on a plurality of sides, thereby providing more efficient multidirectional lighting. it becomes possible

In addition, in the present invention, the selective blinking of the individual light sources 11 can be carried out under the control of the control unit 20 through the unique elongated body and the vertical arrangement structure of the plurality of light sources 11, thereby, as in FIG. 6, It is possible to control the light emission section according to the growth state of the cultivated plant.

That is, in the initial immature stage of the cultivated crop, only the light source 11 disposed under the light emitting unit 10 is turned on, but as the cultivated crop grows, the lighting area is gradually increased and enlarged. It becomes possible not only to operate the device, but also to save energy and extend the lifespan of the lighting device.

In particular, as shown in FIG. 7 , a plurality of proximity sensors 15 are arranged in the light emitting unit 10 in the axial direction of the light emitting unit 10 to detect an object in the light irradiation direction of the light source 11 . In addition, by connecting these proximity sensors 15 with the control unit 20 so that the light source 11 flickers depending on whether the proximity sensor 15 detects an object, automatic operation of the lighting device is possible without user manipulation. .

The automatic operation of the lighting device of the present invention using the proximity sensor 15 is useful in cultivating a plurality of crops as shown in FIG. can be

Meanwhile, FIG. 8 shows that by applying Bluetooth, which is a low-power short-distance wireless communication, to the lighting device of the present invention, the entire lighting device can be easily operated even when a plurality of lighting devices are collectively constructed as in FIG. 2 as well as the manipulation of individual lighting devices. By making it possible to operate, the user can operate the lighting device by using his/her smartphone 40 equipped with a Bluetooth communication function.

That is, as the Bluetooth module 25 for performing short-range low-power wireless communication is connected to the control unit 20, and wireless communication between the smart phone 40 equipped with a Bluetooth function and the Bluetooth module 25 is performed, the control unit 20 ) is manipulated.

In this embodiment of Fig. 8, as the Bluetooth module 25 of the lighting device and the user's smartphone 40 are paired, the application program mounted on the smartphone 40 and the Bluetooth module 25 of the lighting device communicate with each other. When the user operates an input device such as a touch screen of the smart phone 40, the application program transmits the operation information to the Bluetooth module 25 of the lighting device, and accordingly the control unit 20 connected to the Bluetooth module 25 receives the manipulation information and adjusts the blinking state of the light source 11 .

10: light emitting part
11: light source
12: floodlight
15: proximity sensor
20: control unit
25: Bluetooth module
31: binding ball
32: support
40: smartphone

Claims (3)

In the lighting device for plant cultivation,
A plurality of light sources 11 are arranged in the axial direction of the light emitting unit 10 and installed in the long column light emitting unit 10 ;
a control unit 20 for controlling a plurality of light sources 11 and supplying power is connected to the light emitting unit 10;
A suspension type lighting device for plant cultivation, characterized in that the binding sphere 31 is formed at the upper end of the light emitting unit 10 and is bound to the support 32 .
The method according to claim 1,
A plurality of proximity sensors 15 are arranged in the light emitting unit 10 in the axial direction of the light emitting unit 10 to detect an object in the light irradiation direction of the light source 11;
The proximity sensor 15 is connected to the control unit 20;
A suspended lighting device for plant cultivation, characterized in that the light source 11 flickers according to whether the proximity sensor 15 detects an object.
The method according to claim 1,
A Bluetooth module 25 for performing short-range low-power wireless communication is connected to the control unit 20;
Suspension lighting device for plant cultivation, characterized in that the control unit 20 is operated as wireless communication between the smart phone 40 equipped with a Bluetooth function and the Bluetooth module 25 is performed.

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