KR102355768B1 - Artificial lighting system for promoting grass growth - Google Patents

Abstract

The present invention relates to an artificial lighting system for promoting grass growth which comprises: a bogie which has a trackless wheel of an in-wheel system method; a power LED lighting device for promoting grass growth which can be expanded according to a sports field and a damaged area of grass; and a cooling and heating device and a UV-C ultraviolet lamp which can quickly recover and grow the damaged grass by disinfecting and sterilizing the same while reducing power consumption and control temperature and humidity. In addition, the present invention has a unique effect of remotely managing the artificial lighting system through short-range wireless communications and a GPS location tracker for a vehicle.

Description

Artificial lighting system for promoting grass growth}

The present invention relates to an artificial lighting system, and in particular, a lighting device for facilitating turf growth that can be expanded according to the damaged area of a sports field and turf, a temperature/humidity control device, and a turf growth promotion that enables remote management of the system through short-distance communication It is related to the artificial lighting system for use.

In general, artificial lighting systems or artificial lighting systems that supplement the sunlight of plants use lighting and heat to prevent grass planted in the shaded areas of buildings such as golf courses or soccer fields or the northern shaded areas from growing and dying due to lack of sunlight. artificially promoting the growth of

Artificial lighting systems first appeared for crop cultivation, then were developed to promote grass growth, and their use is expanding mainly in Europe and the United States. Among sports stadiums, soccer fields are the most active in introducing artificial light, and many famous European professional football and American football clubs are used in home stadiums. At the same time, as artificial light devices suitable for golf courses are released, the number of golf courses that introduce them is also increasing. In particular, it is mainly used on greens where lawn management is important and lack of sunlight is the most important.

This artificial lighting system has been developed since the founder of SGL, who was a football fanatic in the Netherlands, applied what was used in the rose greenhouse in the late 1990s to the natural grass soccer field, as well as developing various growth solutions as well as the development of artificial lighting optimized for sports fields.

However, SGL's artificial lighting system provides a total mining area of 50 to 120 m ² equipped with 7 to 12 high pressure sodium (HPS, High Pressure Sodium) mining devices of 1000 W on equipment with a light width of 9.8 to 19.4 m. While it is suitable for fast growth and recovery of grass, it is not very good to secure space for storage after use and to install it. Also, since the turning radius is large and the driving wheels are not trackless, damage to the lawn is inevitable. In addition, the power consumption due to the use of high-pressure sodium such as 1000W is very high, and a separate power supply line and power supply control system must be installed, so it cannot be used directly as Plug and Play. In addition, there is still a problem that does not provide user convenience because there is no remote control function.

On the other hand, the LED lighting device for plant cultivation of Republic of Korea Patent Publication No. 10-1027205 (April 6, 2011) has been proposed.

However, this patented technology can perform the function of an artificial lighting system that promotes the growth of grass in a wider shaded area such as a sports field because it irradiates pulses of light with a wavelength suitable for the growth stage of plants at a predetermined cycle through an LED lighting device. none. In addition, the ability to recover and grow damaged grass and the remote control of the system itself through the communication network are impossible.

An object of the present invention is to solve the problems of the prior art, more specifically, a bogie having an in-wheel system type trackless wheel, a lighting device for facilitating turf growth that can be expanded according to the damaged area of a sports field and turf, and a damaged turf. It provides an artificial light system for facilitating turf growth that enables remote management of the system through short-distance communication and temperature/humidity control devices that quickly recover and grow.

According to the features of the present invention for achieving the above object, in the artificial lighting system for promoting turf growth, the trackless wheel 110, the support 120, and the frame 130 are integrated to move forward and backward, and rotate 360° and left and right. a bogie 100 having an arm (Arm, 140) that can be extended to a CCTV and a CCTV 150 for photographing the moving position of the bogie; It is mounted on one side of the frame 130 of the bogie, stores electricity generated from the solar module (Solar Cell Module, 210), intermittently controls the battery 220 capable of charging and discharging, and processing the video data of the CCTV 150 A power supply control device 200 having a Raspberry Pi 5 (Raspberry Pi5, 230) and; It is mounted on the frame 130 of the bogie and the lower part of the arm 140 that can be extended to the left and right, and has an artificial photosynthesis function to receive power from the power supply control device 200 to promote the growth of grass Power LED lighting 300 and; It is mounted inside the frame 130 of the bogie, and blows the high-temperature hot air that collects the high heat generated by the power LED lighting with a heat sink (Heat Sink, 410) to the first blower (420a), and the heat A cooling/heating device 400 that blows cool air cooled through the thermoelectric element 430 attached to the sink 410 to the second blower 420b to provide optimum temperature and humidity for recovering and growing damaged grass. )Wow; UV having a protective cover 510 mounted on the lower part of the frame 130 of the bogie, receiving power from the power supply control device 200 to disinfect and sterilize molds, viruses, and bacteria near the damaged lawn with ultraviolet rays -C ultraviolet lamp 500 and; A monitor 610 and a server 620 that control and manage the moving position of the bogie 100 from a remote location through short-range wireless communication between the transceiver 231 built in the Raspberry Pi 5 230 of the power supply control device 200 . ) provides an artificial lighting system for facilitating grass growth, characterized in that the control center 600 having a .

According to another embodiment of the present invention, the arm 140 that can be extended left and right is moved to the left and right by any one of a cylinder mounted inside the frame 130 of the bogie, a motor and a driving device having a chain. It is characterized in that it is extended (Extension) or is inserted into the frame.

According to another embodiment of the present invention, the arm 140 that can be extended to the left and right is mounted inside the frame 130 of the bogie, and any one of a slide method and a detachable method is selected by a driving means It is characterized in that it is extended to the left and right.

According to another embodiment of the present invention, the support 120 of the bogie is characterized in that the vertical height is adjusted by the hydraulic cylinder 121 .

According to another embodiment of the present invention, the wheel, the support 120, and the frame 130 of the trackless wheel 110 of the bogie 400 are die-casting and welding using a high-strength aluminum material. (Welding) is characterized.

According to another embodiment of the present invention, the trackless wheel 110 of the bogie is mounted in a set of three at the lower portion of the support 120 , and inside any one of the three wheels is front, rear, left, right and left. It is characterized in that the In-Wheel System method that integrates the driving and braking devices that enable driving and 360° rotation is applied.

According to another embodiment of the present invention, the Raspberry Pi 5 (Raspberry Pi5, 230) is characterized in that it includes a transceiver 231 capable of short-range wireless communication with the server 620 of the control center 600. .

According to another embodiment of the present invention, the Raspberry Pi 5 (Raspberry Pi5, 230), the control center 600 by processing the image data captured from the CCTV 150 mounted on one side of the bogie 100 It is characterized in that it is transmitted to the server (620).

According to another embodiment of the present invention, the Raspberry Pi 5 (Raspberry Pi5, 230), the power LED lighting lamp 300, the cooling/heating device 400, the UV-C ultraviolet lamp 500, the first / The second blower (420a, 420b) characterized in that the intermittent control of the power supplied to and driving.

According to another embodiment of the present invention, the Raspberry Pi 5 (Raspberry Pi5, 230) is linked with the vehicle GPS location tracker 800 to precisely control and manage the moving position of the bogie 100 in the control center 600 characterized in that

According to another embodiment of the present invention, the power LED lighting lamp 300 is characterized in that it includes a reflective shade 310 to expand the area of the light source irradiated to the grass.

According to another embodiment of the present invention, the power LED lighting lamp 300 is embedded in the lower portion of the arm 140, characterized in that it is mounted.

According to another embodiment of the present invention, the heat sink (Heat Sink, 410) of the cooling/heating device uses an aluminum material and has a heat dissipation fan (FAN) having a radiator structure, and the fan (FAN) has It is characterized in that it is applied by mixing liquid graphite with high thermal conductivity with a curing agent.

According to another embodiment of the present invention, the cooling/heating device 400 passes the cold air blown through the second blower 420b to the water storage tank 440 to promote the growth of grass in summer. It is characterized in that the cooled water is sprayed onto the lawn in a spray method.

The artificial light system for promoting grass growth according to a preferred embodiment of the present invention has the following effects.

(1) The present invention uses an aluminum material that is expandable left and right for the structure of the bogie and implements the trackless wheel in an In-Wheel System method, thereby reducing the weight of the lawn as well as wider artificial lighting. damage can be minimized.

(2) The present invention irradiates light such as power LED lighting to a shady place or a grass field planted in the north direction due to the building of a sports stadium, and heats the high heat generated in the LED element with a heater sink and blower ( By irradiating artificial light that replaces sunlight through blower), the growth of grass can be further promoted through photosynthesis, and power consumption can be dramatically reduced.

(3) According to the present invention, it is possible to provide optimum temperature and humidity through the cooling and heating device, so that damaged grass can be quickly restored and grown.

(4) In the present invention, it is possible to sterilize and sterilize molds, viruses, and bacteria near damaged lawns with ultraviolet rays through UV-C ultraviolet lamps, thereby preventing secondary lawn damage in advance.

(5) In the present invention, through short-distance wireless communication between the Raspberry Pi 5 of the power supply control device and the control center server, it is possible to easily control and manage not only the processing of image data captured by CCTV, but also the movement of the balance of the artificial lighting system at a remote location. there is an effect

1 is a view showing a commercial product and a prior art
2 is a view showing an extension and an in-wheel type bogie for an artificial light system for facilitating grass growth according to a preferred embodiment of the present invention;
3 is a view showing a photovoltaic module detachable from the bogie frame for the artificial light system for promoting grass growth according to a preferred embodiment of the present invention;
4 is a view schematically showing the overall technical configuration of an artificial lighting system for promoting grass growth according to a preferred embodiment of the present invention;
5 is a view showing left and right enlargement and vertical height of the artificial light system for promoting grass growth according to a preferred embodiment of the present invention;
6 is a view showing power interception control through Raspberry Pi 5 for an artificial lighting system for facilitating grass growth according to a preferred embodiment of the present invention;
7 is a view showing the temperature and humidity functions using power LED lighting for the artificial lighting system for promoting grass growth according to a preferred embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same components are given the same numerals as much as possible even though they are shown in different drawings, and even though the same numerals as in the prior art are displayed. The prior art should be interpreted as such. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

2 to 8, the core technical configuration means of the artificial light system for promoting grass growth according to a preferred embodiment of the present invention is a bogie 100, a power supply control device 200, a power LED lighting lamp 300, It consists of a cooling/heating device 400 , a UV-C ultraviolet lamp 500 , a control center 600 , and a vehicle GPS location tracker 800 .

2 to 5 , the bogie 100 is a means for driving the artificial light system for facilitating turf growth according to a preferred embodiment of the present invention, and includes a trackless wheel 110 , a support 120 , and a frame. 130 is integrated, and has an arm 140 that can move forward and backward, rotate 360°, and expand left and right, and a CCTV 150 for photographing the movement position of the bogie.

In addition, the arm 140 that can be extended to the left and right according to another embodiment of the present invention is mounted inside the frame 130 of the bogie, and any one of a slide method and a detachable method is selected by a driving means It includes a multi-level expansion to the left and right.

In addition, the support 120 of the bogie according to another embodiment of the present invention includes that the vertical height is adjusted by the hydraulic cylinder 121 .

In addition, the wheel, the support 120 and the frame 130 of the trackless wheel 110 of the bogie 100 according to another embodiment of the present invention are die-casting and Welding.

Here, performing die casting and welding of the wheel of the trackless wheel 110 of the bogie 400, the support 120, and the frame 130 is to avoid the use of unnecessary screws or brackets. This is to reduce the weight of the bogie as much as possible, and at the same time to strengthen the durability according to the front, back, left and right and 360° rotation in the grass field, and to protect the grass from the weight of the bogie.

In addition, the arm 140 that can be extended to the left and right according to another embodiment of the present invention is left and right by any one of a cylinder and a motor and a chain mounted inside the frame 130 of the bogie. to be extended or inserted into the frame.

Here, the reason that the arm 140 can be extended and inserted from the left and right sides of the frame takes into consideration space security and aesthetics when storing the artificial lighting system in a sports stadium, and when artificial lighting works, a larger lawn area It is characterized by allowing the field to be mined.

In addition, three trackless wheels 110 of the bogie according to another embodiment of the present invention are mounted in a set on the lower part of the support 120 , and inside of any one of the three wheels, front, rear, left, and right An in-wheel system method that integrates driving and braking devices that enable driving and 360° rotation is applied.

Here, the in-wheel system refers to a motor, which is a power source for rotating a wheel, a device for braking, etc. integrated and mounted inside the wheel. This has the effect of preventing damage to the turf of sports grounds by reducing the weight as the related parts are minimized because there is no power loss in the middle process because the motor directly drives the wheels without going through the power unit in several stages. . In particular, if the control center 600 turns the bogie remotely when combined with the bogie attitude control device (ESC), the adjustable area of the bogie 100 is further expanded, and the rotation angle and distance of the bogie can be shortened, thereby damaging the lawn. features that can be minimized.

2, 3, and 5, the power supply control device 200 intermittently controls the power supplied to each device of the artificial light system for facilitating grass growth and performs remote communication between the control center 600 As a means for this, it is mounted on one side of the frame 130 of the bogie, stores electricity generated from a solar module (Solar Cell Module, 210), intermittently controls the battery 220 capable of charging and discharging, and controlling the CCTV (150). It has a Raspberry Pi 5 (Raspberry Pi5, 230) that processes image data.

In addition, the solar module (Solar Cell Module, 210) according to another embodiment of the present invention is to be detachably attached to the upper frame 130 of the bogie (100).

Here, to make the solar module 210 detachable and attachable to the frame 130, the solar cell module 210 is attached to the frame 130 in a state in which the battery 220 is fully charged. By detaching from the vehicle, the weight of the bogie can be dramatically reduced. In other words, in the case of a 3KW~6KW class solar module, 8~10 panels of 1.64~1.98m ² are required, so the weight alone is close to 100kg. In addition, even considering the weight of the bogie itself, it has a weight of 300 kg or more, so even if trackless wheels are applied, damage to the turf becomes inevitable. On the other hand, if the power supply to the sports stadium is supplied by wire, problems such as twisting of wires during artificial lighting work may occur. Therefore, in an embodiment of the present invention, in order to solve this problem, the solar module 210 is detachable and attached to the frame 130 to minimize the weight of the artificial lighting system to minimize damage to the lawn. .

In addition, referring to FIG. 6 , the Raspberry Pi 5 (Raspberry Pi5, 230) according to another embodiment of the present invention includes a transceiver 231 capable of short-range wireless communication with the server 620 of the control center 600. Included.

In addition, the Raspberry Pi 5 230 according to another embodiment of the present invention processes the image data captured from the CCTV 150 mounted on one side of the bogie 100 to process the server 620 of the control center 600 ) to transmit.

In addition, the Raspberry Pi 5 (230) according to another embodiment of the present invention, the power LED lighting lamp (300), the cooling/heating device (400), the UV-C ultraviolet lamp (500), the first / second blower It intermittently controls the power and driving power supplied to the wah (420a, 420b). In addition, the power supplied to the air conditioner 700 and driving are controlled.

Here, the Raspberry Pi 5 230 has a kind of small computer function that can control and manage external devices, and is equipped with a Bluetooth function that enables wireless communication between internal devices. Therefore, through the server 620 and the transceiver 231 of the control center 600 of the sports stadium, it is possible to intermittently control various devices or devices through short-distance wireless communication with the Raspberry Pi 5 (Raspberry Pi5, 230), and to control the monitor 610. It has the characteristic of being able to precisely control and intermittently control the moving position of the bogie through

In addition, according to another embodiment of the present invention, the Raspberry Pi 5 230 may be linked with the vehicle GPS location tracker 800 to precisely control and manage the moving position of the bogie 100 in the control center 600 . .

5 to 7 , the power LED lighting lamp 300 is a lighting means having an artificial photosynthesis function for promoting the growth of grass, and an arm expandable left and right with the frame 130 of the bogie. , 140), and has an artificial photosynthesis function for accelerating the growth of grass by receiving power from the power supply control device 200 .

Here, when the power LED lighting lamp 300 is composed of a power LED element of a projection type of 15W or higher, the high heat generated from the heat sink of the power LED chip element together with the lighting having the high illuminance brightness that can penetrate to the foggy area By irradiating the grass through the heat sink 410 and the first blower 420a, the function of sunlight that can further promote the growth of grass can be replaced, so there is no problem in photosynthetic action required for plants. It is characterized by not having it.

In addition, the power LED lighting lamp 300 according to another embodiment of the present invention includes a reflective shade 310 to further expand the area of the light source irradiated to the grass.

In this case, the use of the reflective shade 310 has to spread the size of the bogie and the number of power LED lights in order to exert photosynthesis through the artificial lighting system on a wider lawn such as a soccer field, so power consumption and economic problems arise. Occurs. Therefore, in the embodiment of the present invention, the area of the light source irradiated to the grass through the reflective shade 310 is more expandable, so that both power consumption and economic problems can be solved. In addition, local illumination is possible through the reflective shade 310, so that the heavily damaged grass part can be intensively irradiated.

In addition, the power LED lighting lamp 300 according to another embodiment of the present invention includes being embedded in the lower portion of the arm 140 and mounted.

Here, the embedding of the power LED lighting lamp 300 in the lower portion of the arm 140 causes the arm 140 to expand to the left and right of the frame 130 due to jamming of the lighting lamp. has the effect of preventing it from happening.

5 to 7, the cooling/heating device 400 is mounted inside the frame 130 of the bogie, and condenses the high heat generated by the power LED lighting to a heat sink (Heat Sink, 410). Blows the high-temperature hot air that has been cooled to the first blower (First Blower, 420a), and blows the cold air cooled through the thermoelectric element 430 attached to the heat sink 410 to the second blower (Second Blower, 420b). ) to provide optimum temperature and humidity for recovery and growth of damaged grass.

Here, when the high heat radiated from the heat sink 410 is blown into the hot air through the first blower 420a, the artificial sunlight function is performed together with the Pawi LED lighting lamp 300 to help the photosynthesis of the grass, By blowing cold air to the second blower 420b by the Seebeck effect using the thermoelectric element 430 in contact with the heat sink 410, it is possible to dry the wet grass area due to lack of sunlight, so that the growth of grass It has the characteristics of promoting and rapidly recovering and growing damaged turf. In addition, it has a unique feature that can dramatically reduce power energy consumption by using the high heat of 90~110℃ generated from the heat sink of the power LED chip.

In addition, the heat sink (Heat Sink, 410) according to another embodiment of the present invention uses an aluminum material, has a radiator-structured heat dissipation fan (FAN), and the fan (FAN) has a high thermal conductivity liquid phase. It includes applying by mixing graphite with a curing agent.

In addition, the cooling/heating device 400 according to another embodiment of the present invention passes the cold air blown through the second blower 420b to the water storage tank 440 to promote the growth of grass in summer. This involves spraying the cooled water onto the lawn by spraying.

Here, the reason why the cooled water is sprayed onto the lawn by a spray method is that, in a normal lawn, growth is not made in winter, but growth is mainly promoted in summer, so cold water supply is required. Therefore, in an embodiment of the present invention, in order to supply cold moisture to a wider sports turf field or golf course, etc., the cold air blown through the second blower (420b) of the cooling/heating device 400 mounted on the bogie is cold air. It is characterized in that it is possible to spray by connecting a spray gun via the water storage tank 440 .

Here, in the case of the air conditioning/heating device 400 according to the embodiment of the present invention, in the case of a lawn planted in a shady place or in the north direction due to a building of a sports stadium, etc. It can be generated, and as a result, the growth of turf is not promoted and damage occurs. At this time, by providing optimum temperature and humidity for turf growth through the cooling/heating device 400 , damaged turfgrass can be restored and grown faster.

5 and 6 again, the UV-C ultraviolet lamp 500 according to another embodiment of the present invention is mounted under the frame 130 of the bogie 100, and the power supply control device ( 200) and has a protective cover 510 for disinfecting and sterilizing molds, viruses, and bacteria near the damaged lawn with ultraviolet rays.

Here, ultraviolet (Ultraviolet) is an electromagnetic wave with a shorter wavelength than visible light and longer than X-rays, and has a wavelength of 10 to 400 nm and can perform chemical actions. In particular, the UV-C (Ultraviolet C) UV lamp 500 applied to the embodiment of the present invention is completely absorbed by the ozone layer with a wavelength of 100 to 280 nm, and has the shortest wavelength and the highest energy among UV rays. It is the most effective at sterilizing mold, virus, and bacteria at a wavelength of around 265nm, but when exposed to the human body a lot, it can cause burns, skin cancer, and cataracts. In addition, it generates ozone gas that is harmful to the respiratory system by exciting oxygen in the air. Therefore, when performing a sterilization operation with the UV-C UV lamp 500, a protective cover 510 that limits the irradiation range of UV rays so as not to be exposed to the user's skin or eyes is required. At this time, the protective cover 510 may be sprayed using, for example, a transparent vinyl tube (not shown) and blower having a certain standard.

Referring to FIG. 6 , the control center 600 is a means for intermittently managing the movement position of the bogie of the artificial light system for facilitating turf growth according to an embodiment of the present invention from a remote location, and the power supply control device 200 ) monitor 610 and server 620 that control and manage the movement location of the bogie 100 from a remote location through short-range wireless communication between the transmitter/receiver 231 and the server 620 built in the Raspberry Pi 5 230 of ) has

Here, the transmitter/receiver 231 can install a ZigBEE network in a sports stadium, and ZigBEE is a high-level communication protocol that uses a low-power digital radio based on IEEE 802.15.4. It is a wireless standard that establishes a short-range low-power wireless network that can wirelessly adjust security, etc. The minimum power is less than 100mW and the communication distance is within 10~100m, but when a communication bridge is built, the communication distance can be extended to 3~4km, and devices requiring simple data communication can be connected to thousands of devices with little power. have.

As described above, the artificial lighting system for facilitating turf growth according to a preferred embodiment of the present invention is a bogie having an in-wheel system type trackless wheel, a sports field, and a turf growth promotion system that can be expanded according to the damaged area of the turf. Power LED lighting device, cooling/heating device capable of temperature and humidity control that reduces power consumption and sterilizes and sterilizes damaged grass to quickly recover and grow, and UV-C UV lamp, and artificial lighting system through short-distance wireless communication. It has a unique feature that enables remote management.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the claims below, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: bogie 110: trackless wheel
120: support 121: hydraulic cylinder
130: frame 140: arm
150: CCTV 200: power supply control device
210: solar module 220: battery
230: Raspberry Pi 5 231: Transmitter/receiver
300: power LED lighting light 310: reflective shade
400: cooling/heating device 410: heat sink
420a: first blower 420b: second blower
430: thermoelectric element 440: water storage tank
500: UV-C ultraviolet lamp 510: protective cover
600: control center 610: monitor
620: Server 800: Vehicle GPS location tracker

Claims (17)

In the artificial light for grass growth promotion,
The trackless wheel 110, the support 120, and the frame 130 are integrated, and the arm (Arm, 140) that can move forward and backward, rotate 360 °, and expand left and right, and CCTV 150 that records the movement position of the bogie. a bogie 100 having;
It is mounted on one side of the frame 130 of the bogie, stores electricity generated from a solar module (Solar Cell Module, 210), intermittently controls the battery 220 capable of charging and discharging, and processes the video data of the CCTV 150 A power supply control device 200 having a Raspberry Pi 5 (Raspberry Pi5, 230) and;
It is mounted on the lower part of the frame 130 of the bogie and the arm 140 that can be extended to the left and right, and has an artificial photosynthesis function for accelerating the growth of grass by receiving power from the power supply control device 200 Power LED lighting 300 and;
It is mounted inside the frame 130 of the bogie, and blows the high-temperature hot air that collects the high heat generated by the power LED lighting with a heat sink (Heat Sink, 410) to the first blower (420a), and the heat A cooling/heating device 400 that blows cool air cooled through the thermoelectric element 430 attached to the sink 410 to the second blower 420b to provide optimum temperature and humidity for recovering and growing damaged grass )Wow;
UV having a protective cover 510 mounted on the lower part of the frame 130 of the bogie, receiving power from the power supply control device 200 to disinfect and sterilize mold, virus, and bacteria near the damaged lawn with ultraviolet rays -C ultraviolet lamp 500 and;
A monitor 610 and a server 620 that control and manage the moving position of the bogie 100 from a remote location through short-range wireless communication between the transceiver 231 built in the Raspberry Pi 5 230 of the power supply control device 200 . ) Artificial lighting system for facilitating grass growth, characterized in that it includes a control center 600 having a.
According to claim 1,
The arm 140 that can be extended to the left and right is extended to the left and right by any one of a driving device having a cylinder, a motor, and a chain mounted inside the frame 130 of the bogie, or extended to the inside of the frame Artificial lighting system for facilitating grass growth, characterized in that it is inserted.
According to claim 1,
The arm 140 that can be extended to the left and right is mounted inside the frame 130 of the bogie, and any one of a slide method and a detachable method is selected by a driving means to extend left and right artificial light system for promoting grass growth.
According to claim 1,
The artificial lighting system for facilitating grass growth, characterized in that the upper and lower heights of the support 120 of the bogie are controlled by the hydraulic cylinder 121 .
According to claim 1,
The wheel of the trackless wheel 110 of the bogie 100, the support 120, and the frame 130 are made of high-strength aluminum by die casting and welding, characterized in that the grass growth Artificial lighting system for promotion.
According to claim 1,
The trackless wheel 110 of the bogie is mounted in a set of three on the lower part of the support 120 , and the inside of any one of the three wheels is driven to enable forward, backward, left and right driving and 360° rotation. and an in-wheel system that integrates a braking device.
According to claim 1,
The Raspberry Pi 5 (Raspberry Pi5, 230) is an artificial light system for promoting grass growth, characterized in that it includes a transceiver (231) capable of short-range wireless communication with the server (620) of the control center (600).
According to claim 1,
The Raspberry Pi 5 (Raspberry Pi5, 230) processes the image data captured from the CCTV 150 mounted on one side of the bogie 100 and transmits it to the server 620 of the control center 600 artificial light system for promoting grass growth.
According to claim 1,
The Raspberry Pi 5 (Raspberry Pi5, 230), the power LED lighting lamp 300, the cooling and heating device 400, UV-C ultraviolet lamp 500, the first / second blowers (420a, 420b) An artificial light system for promoting grass growth, characterized in that it intermittently controls the supplied power and drive.
According to claim 1,
The Raspberry Pi 5 (Raspberry Pi5, 230) interlocks with the vehicle GPS location tracker 800 to precisely control and manage the moving position of the bogie 100 in the control center 600. Artificial light for facilitating grass growth system.
According to claim 1,
The power LED lighting lamp 300 is an artificial lighting system for promoting grass growth, characterized in that it includes a reflective shade 310 to expand the area of the light source irradiated to the lawn.
According to claim 1,
The power LED lighting lamp (300) is an artificial lighting system for facilitating grass growth, characterized in that it is embedded in the lower portion of the arm (140).
According to claim 1,
The heat sink (Heat Sink, 410) of the cooling/heating device uses an aluminum material and has a heat dissipation fan (FAN) of a radiator structure, and liquid graphite (Graphite) with high thermal conductivity is applied to the fan (FAN) An artificial light system for promoting grass growth, characterized in that it is mixed with a hardener and applied.
delete delete delete According to claim 1,
The cooling/heating device 400 passes the cold air blown through the second blower 420b to the water storage tank 440 to promote the growth of the grass in summer, and sprays the cooled water to the grass. Artificial lighting system for promoting grass growth, characterized in that by spraying.

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