KR102163812B1 - Device lighting withmultilayered structure of solar cell module substrate and light lamp - Google Patents

Abstract

The present invention relates to a lighting device in which a photovoltaic cell module substrate and a lighting device of a lamp are provided in a multi-layered structure, and more particularly, a photovoltaic cell in which a photovoltaic cell consisting of a plurality of cells is formed in a thin film shape on the upper surface. The module board and LED lamp lighting devices are vertically and horizontally arranged in a multi-layered structure, which is installed in a spherical transparent lighting casing and placed on the top of the posts built around gardens and parks. By minimizing the projected area, it maintains a beautiful appearance, maintains the function of lighting equipment without significant influence on the weather such as snowfall in winter, and uses sunlight during the day by the illuminance sensor provided on the light-receiving surface of the solar cell module substrate. The power is independently produced and charged to the capacitor, and the led lamp irradiates light by receiving power from the capacitor after sunset, and the solar cell module substrate and the lighting equipment of the lamp are multi-layered in vertical and horizontal arrangement. By using the light of the upper lighting lamp to turn off the lower lighting lamp by the illuminance sensor provided on the light receiving surface of the solar cell module substrate of the lower lighting lamp, reserve power in the weather with less sunlight is secured. It does not require wiring for power supply, and by using a LED lamp as a light-emitting source, it relates to a lighting device having a photovoltaic cell module substrate capable of saving energy compared to a general lamp and a lighting device of the lamp in a multilayer structure.
A lighting device in which a photovoltaic cell module substrate and a lighting device of a lamp according to the present invention are provided in a multi-layered structure in a vertical and horizontal arrangement includes: a post built around a garden and a park; A spherical transparent first lighting casing in which an opening communicating with the inside is formed in the lower part; A cylindrical transparent second lighting casing received in the first lighting casing and having an opening communicating with the inside of the first lighting casing; A glove holder for fixing and supporting the first lighting casing and the second lighting casing; A first ventilation mechanism installed above the first lighting casing; A first lighting device that is spaced apart from an upper portion of the first casing in which the first ventilation mechanism is installed and is coupled to the center of an upper portion of the first lighting casing and outside of the second lighting casing; A second lighting device installed in the interior of the second lighting housing, having sunlight back to face each other in a vertical form with the first lighting device; A solar reflector installed below the second lighting device at a predetermined interval; a height adjusting part of the solar reflector installed below the solar reflector; The 3rd lighting device on the left, the 4th lighting device on the right, the 5th lighting device in the front, the 6th lighting in the rear, which is inside the first lighting casing and is installed in a horizontal arrangement in the circumferential direction on the upper side outside the second lighting casing. Equipment; A seventh lighting device on the left and an eighth lighting device on the right, which are inside the first lighting casing and installed on the side of the central portion outside the second lighting casing; It characterized in that it includes.

Description

Device lighting with multilayered structure of solar cell module substrate and light lamp}

The present invention relates to a lighting device in which a photovoltaic cell module substrate and a lighting device of a lamp are provided in a multi-layered structure, and more particularly, a photovoltaic cell in which a photovoltaic cell consisting of a plurality of cells is formed in a thin film shape on the upper surface. The module board and LED lamp lighting devices are vertically and horizontally arranged in a multi-layered structure, which is installed in a spherical transparent lighting casing and placed on the top of the posts built around gardens and parks. By minimizing the projected area, it maintains a beautiful appearance, maintains the function of lighting equipment without significant influence on the weather such as snowfall in winter, and uses sunlight during the day by the illuminance sensor provided on the light-receiving surface of the solar cell module substrate. The power is independently produced and charged to the capacitor, and the led lamp irradiates light by receiving power from the capacitor after sunset, and the solar cell module substrate and the lighting equipment of the lamp are multi-layered in vertical and horizontal arrangement. By using the light of the upper lighting lamp to turn off the lower lighting lamp by the illuminance sensor provided on the light receiving surface of the solar cell module substrate of the lower lighting lamp, reserve power in the weather with less sunlight is secured. It does not require wiring for power supply, and by using a LED lamp as a light-emitting source, it relates to a lighting device having a photovoltaic cell module substrate capable of saving energy compared to a general lamp and a lighting device of the lamp in a multilayer structure.

Recently, due to high oil prices and environmental problems, the renewable energy sector has attracted a lot of attention, and among them, research and mass production of solar cells are being actively conducted.

A solar cell is a device that converts light energy into electrical energy using the properties of a semiconductor.

This is because solar cells have the advantage of being able to use the energy source anywhere, compared to other renewable energy sources.

And because of the merit of no pollution, solar cells are being reevaluated once again from the viewpoint of preserving the global environment, and research as a next-generation clean energy source is actively being conducted.

In general, a solar cell is a device that converts light energy emitted by the sun into electrical energy using semiconductor properties, and uses a diode composed of a p-n junction, and is classified into various types according to a material used as a light absorption layer.

Briefly explaining the structure and principle of a solar cell, the solar cell has a PN junction structure in which a P (positive) type semiconductor and an N (negative) type semiconductor are bonded. When sunlight is incident on a solar cell of this structure, Holes and electrons are generated in the semiconductor by the energy of incident sunlight, and at this time, the holes (+) move toward the P-type semiconductor due to the electric field generated in the PN junction and the electrons The minus sign moves toward the N-type semiconductor and a potential is generated so that power can be produced.

In particular, solar cells using silicon as a light absorbing layer are classified into a crystalline substrate type solar cell and an amorphous thin film type solar cell.

On the other hand, LEDs, called light-emitting diodes, are junction diodes of intermetallic compound semiconductors, which use the pn junction structure of the semiconductor to create injected minority carriers (electrons or positive holes), and recombine them. It is to make it glow.

In recent years, various products using LEDs have been developed and applied in various industrial fields. In particular, LED lamps of high brightness have the advantage of having a semi-permanent life and very low power consumption, so conventional fluorescent lamps, incandescent lamps, halogen lamps, sodium lamps and It can replace various lamps including mercury lamps.

In other words, the LED lamp contains various harmful substances and has the effect of reducing environmental pollution by replacing the existing lamp with a short lifespan, and energy saving effect can also be obtained through the low power consumption of the LED lamp. .

On the other hand, the LED lamp consumes little power and can obtain red, green, and blue light output depending on the type of optical device, and is thus widely used for displaying images such as letters or numbers on electronic billboards as well as optical communication.

In addition, in order to display images such as letters and numbers in various colors, LED chips of different colors (three primary colors of light) are arranged in close proximity to express natural colors through color interference.

On the other hand, in general, a garden lamp is installed in a garden, park, golf course, or a promenade of a house to illuminate a light at night and guide a path. Such a garden lamp is installed close to the ground to illuminate the surroundings at night.

Conventional garden lights use electricity provided through cables and poles from a power supply station (KEPCO) as a power source, so there is a problem in that cost is incurred, and if the installation place is far from the power supply station, it is proportional to the distance. Electric poles and cables are required, so the initial facility cost is excessive, and there is a problem that causes safety accidents due to electric leakage.

On the other hand, garden lights usually illuminate the surroundings rather than illuminating the surroundings, and at the same time create an interior effect while illuminating the surroundings.It is important to add an aesthetic factor to the shape of the garden lights and the lights radiated through the garden lights. As a power source to solve the electrical wiring problem, which is a problem of the prior art, and to realize an independently driven garden,

In the case of using sunlight, the solar cell module occupies a relatively large area and is exposed to the outside in order to generate sufficient power, which is an obstacle to gardens where aesthetics are important.

In addition, conventional garden lamps usually use filament-type bulbs, mercury bulbs, or sodium bulbs as lighting lamps. These bulbs have a problem in that energy is wasted because they have a shorter lifespan and higher power consumption than LED lamps.

In addition, since conventional solar garden lights are greatly affected by the weather, in the case of snowfall or cloudy weather in winter, sufficient power is not produced by the solar power generation unit, or when the performance of the battery for storage or an abnormality occurs in the solar power generation unit, the garden light continues. There was a problem in that it was necessary to supply general electricity, which is a reserve power, through the lower part of the prop for lighting.

In addition, when replacing a conventional garden lamp with a solar garden lamp, there was a problem of the mental burden not to replace it with a solar garden lamp because the concept of loss for the existing facility investment cost was introduced because the existing facility's wire piping and wiring cannot be used. .

Korean Patent Registration No. 10-1170927 (registered on July 30, 2012) is a solar cell 12 that condenses sunlight on the top surface of the first lighting housing 10 so that two lighting lamps face each other in the upper and lower parts. It is combined, and solar cells are installed on the sides other than the top surface, and the power generated from the capacitor is used as a power source for the lighting lamp, and an auxiliary power capacitor (EDLC) using the electric double layer phenomenon is installed, so that the storage may not be good due to cloudy weather in the daytime. In this case, a dual light source lighting device that emits light using a condenser 42 is disclosed, but the horizontal area expansion of the first lighting housing may be limited, so the area including the side surface for installing a solar cell capable of condensing sunlight Therefore, when the power storage is not good due to cloudy weather in the daytime, the limit can be reached as a power source for a double light source lighting device, so there is a problem that a large-capacity capacitor (EDLC) must be installed for continuous lighting of the double light source lighting device.

In addition, Korean Patent Registration No. 10-01206963 (registered on 12.04.2012) uses a solar cell model superimposed substrate to produce high-efficiency power without using a large-area solar cell module substrate. A solar cell module substrate is formed by vertically forming a plurality of first partition walls at regular intervals on the upper surface of the photovoltaic module substrate, and forming a plurality of second partition walls vertically toward the lower surface. A photovoltaic module overlapping substrate and an LED landscape lighting device using the same have been disclosed, but during heavy snowfall in winter, the space between the bulkheads may be filled with snow, resulting in a rapid decline in solar power generation. There is a problem in that a separate power supply facility capable of receiving general electricity through the lower end of the pole 100 must be provided for landscape lighting.

In addition, Republic of Korea Patent Registration No. 10-1571926 (registered on November 19, 2015) reflects sunlight using a solar tracking system on a solar cell substrate arranged so that the light-receiving surface is perpendicular to the sunlight incident direction. A photovoltaic power generation device and method using a cooling method by direct contact and a light beam uniformly condensed using a flat mirror that increases solar light condensing efficiency by installing two or more flat mirrors to reflect sunlight on the light receiving surface of the solar cell substrate. Is disclosed, but this is a large-capacity solar power generation facility installed on a large horizontal area, and is not suitable for garden lights and street lamps installed in a limited space as a small capacity, and is a flat surface for increasing the light collection efficiency of the solar cell substrate formed with the sun behind it. The solar light reflection by the mirror alone has a limited problem in that the solar cell substrate and the flat mirror are sufficiently separated from each other to form an inclination angle, so that the solar light tracking system must be used.

For this reason, garden lights or street lights using solar cell modules are not significantly affected by the weather, and continuous lighting after sunset is possible without external power supply, and wireless communication-based garden lights can be turned on or off, or the amount of light and color can be adjusted. There is a need for research on the technical and commercial aspects of the solar cell module garden light, which is controlled and does not hinder the urban appearance due to the solar cell module relatively wider than a garden light or street light.

The problem to be solved by the present invention in consideration of the above problems is that it is possible to maintain the function of the lighting equipment without a significant effect on the weather such as heavy snowfall in winter, and by securing the reserve power in the weather with little sunlight, wiring for power supply It is not necessary, and it maintains a beautiful appearance by minimizing the horizontal projected area of the solar cell module, and by using the LED lamp as a light emitting source, energy can be saved compared to general lamps, and the power supply electricity used by the existing facilities It is to provide a lighting device equipped with a multi-layered structure of vertical and horizontal arrangements of a photovoltaic cell module substrate and a lighting device of a lamp that can simultaneously supply solar light that can use piping and wiring as reserve power and conventional power supply.

The problem to be solved of the present invention is not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

The solar cell module substrate and the lighting device of the lamp according to the present invention for solving the above problems are provided in a multi-layered structure. A solar cell composed of a plurality of cells is formed in the form of a thin film on the upper surface. The photovoltaic module board and the lighting equipment of the LED lamp are arranged in a vertical and horizontal arrangement, and are installed in a spherical transparent lighting casing with a multi-layered structure that is mounted on the top of the pillars built around the garden and park. By minimizing the horizontal projection area of the photovoltaic module, it maintains a beautiful appearance, maintains the function of the lighting equipment without a significant effect on the weather such as snowfall in winter, and the illumination sensor provided on the light receiving surface of the solar cell module Power is independently produced and charged to the capacitor, and after sunset, the led lamp irradiates light by receiving power from the capacitor, and the photovoltaic cell module substrate and the lighting equipment of the lamp are arranged vertically and horizontally. By using the characteristic of phosphorus, the lower lighting lamp is turned off by the illuminance sensor provided on the light receiving surface of the solar cell module substrate of the lower lighting lamp with the light of the upper lighting lamp to secure reserve power in the weather with less sunlight As a result, there is no need for wiring for power supply, and the LED lamp is used as a light-emitting source to save energy compared to general lamps. Therefore, it is installed close to the ground such as a garden, park, golf course, trail, and hiking trail. It has a variety of uses to illuminate the light and guide the way at night.

And as a means for achieving the object of the present invention, a lighting device provided with a solar cell module substrate and a lighting device of a lamp in a multi-layered structure according to the present invention includes a pillar built around a garden and a park; A spherical transparent first lighting casing in which an opening communicating with the inside is formed in the lower part; A tubular transparent second lighting casing accommodated in the first lighting casing and having an opening communicating with the inside of the first lighting casing; A glove holder for fixing and supporting the first lighting casing and the second lighting casing; A first ventilation mechanism installed above the first lighting casing; A first lighting device that is spaced apart from an upper portion of the first lighting casing in which the first ventilation mechanism is installed, and is coupled to the center of the upper portion of the first lighting casing and outside the second lighting casing; A second lighting device installed in the interior of the second lighting casing and having sunlight back to face each other in a vertical form with the first lighting device; A solar reflector installed below the second lighting device at a predetermined interval; a height adjusting part of the solar reflector installed below the solar reflector; The 3rd lighting device on the left, the 4th lighting device on the right, the 5th lighting device in the front, the 6th lighting in the rear, which is inside the first lighting casing and is installed in a horizontal arrangement in the circumferential direction on the upper side outside the second lighting casing. Equipment; A seventh lighting device on the left and an eighth lighting device on the right, which are inside the first lighting casing and installed on the side of the central portion outside the second lighting casing; Includes,

The first lighting device, the second lighting device, the third lighting device, the fourth lighting device, the fifth lighting device, the sixth lighting device, the seventh lighting device and the eighth lighting device are A solar cell module support plate capable of firmly fixing the solar cell module substrate and the solar cell module substrate, a capacitor capable of charging the power produced from the solar cell module substrate, and receiving power from the capacitor. A led lamp for irradiating light, an illuminance sensor provided on the light-receiving surface of the solar cell module substrate to charge the power produced during the day to the capacitor and to turn on the led lamp after sunset, and charging the capacitor and The control unit that controls the lighting of the led lamp and the first and second lighting devices of the first and second lighting devices having a vertical arrangement of light-transmitting materials that can refract and diffuse the transmitted light and have irregular patterns with different density. Lighting cover protecting led lamps and lighting to protect the lamp of the 3rd lighting device, 4th lighting device, 5th lighting device, 6th lighting device, 7th lighting device, and 8th lighting device It is characterized in that the cover, the capacitor, the LED lamp, and fixed to the control unit is formed of a lighting substrate that is fastened with a coupling member to the solar cell module support plate.

In addition, it is characterized in that the two or more solar cell module substrates and the lighting device of the lamp are formed in a multi-layer structure of vertical and horizontal arrangement in a cylindrical or polygonal cylindrical inner space including a transparent sphere of the first lighting casing. .

In addition, at least one of two or more solar cell module substrates and lamps in the inner space of a cylindrical or polygonal shape including a transparent sphere of the first lighting casing is vertical and It is characterized in that it is formed in a multi-layered structure in a horizontal arrangement shape.

In addition, the solar mirror reflector is installed on the upper surface of the height adjustment unit, and is fastened to and fixed to the coupling unit by a bolt-shaped screw provided in the lower portion of the height adjustment unit, and reflects the incident sunlight to reflect the solar cell module substrate. In order to improve the efficiency of condensing sunlight, the height of the solar reflector is adjusted according to the rotation of the screw according to the altitude of the sun for each region or season.

In addition, the glove holder is characterized in that the first lighting casing and the second lighting casing are formed to be detachable, and a coupling portion is further provided on the bottom of the coupling portion to be coupled to a post fixedly installed on the ground.

In addition, the illumination reflecting portion further provided at the lower end inside the illumination cover of the first lighting device and the upper end inside the illumination cover of the second illumination device is formed in a diamond-shaped or conical curved reflective inclined surface formed with various inclinations. It is characterized in that the light irradiated downward or upward according to the straightness of the light of the LED lamp of the lighting apparatus 1, 2 is reflected to be diffused to the outside of the first lighting apparatus and the second lighting apparatus.

In addition, the lamp of the first lighting device, the second lighting device, the third lighting device, the fourth lighting device, the fifth lighting device, the sixth lighting device, the seventh lighting device and the eighth lighting device is at least one white light Alternatively, it is characterized in that it is composed of a color-specific led element or an RGB three primary color led element or a complex color change element.

In addition, the LED lamps of the first lighting device, the second lighting device, the third lighting device, the fourth lighting device, the fifth lighting device, the sixth lighting device, the seventh lighting device and the eighth lighting device are arranged vertically and horizontally. In order to control the multi-layered garden light of the shape more conveniently and to enhance the aesthetic sense, the LED lamp is turned on/off in the whole or individually or according to the multi-layered structure by a wireless lighting control system and a light quantity color control system. It is characterized by controlling the color.

In addition, the first ventilation mechanism installed in the upper center of the first lighting casing is the first lighting due to heat generated by the power generation of the solar cell module of the lighting device installed inside the first lighting casing and the second lighting casing. It is for discharging internal air current to the outside in order to prevent freezing in winter due to condensation caused by the convection phenomenon caused by the difference between the inside and outside temperature of the casing and the second lighting casing, and characterized in that at least one ventilation mechanism is installed.

1 is a vertical sectional view A-A' of a lighting apparatus equipped with a solar cell module substrate and a lighting device of a lamp according to an embodiment of the present invention.
Figure 2 is a B-B' vertical cross-sectional view of a lighting device equipped with a solar cell module substrate and a lighting device of a lamp according to an embodiment of the present invention
3 is a plan view of a lighting device in which a photovoltaic cell module substrate and a lighting device of a lamp according to an embodiment of the present invention are provided in a multilayer structure
4 is a C-C' cross-sectional view of a lighting device in which a photovoltaic cell module substrate and a lighting device of a lamp according to an embodiment of the present invention are provided in a multilayer structure.
5 is an exploded perspective view of a lighting device including a photovoltaic cell module substrate and a lighting device of a lamp according to an embodiment of the present invention in a multilayer structure
6 is a plan view of a lighting device in which a solar cell module substrate and a lighting device of a lamp are provided in a multilayer structure according to another embodiment in which nine lighting devices of the present invention are installed.
7 is a longitudinal sectional view of a lighting device in which a photovoltaic cell module substrate and a lighting device of the lamp are provided in a multilayer structure according to another embodiment in which the lighting device of the present invention is installed in parallel with a photovoltaic lamp and an existing power supply lamp.

Hereinafter, a lighting device in which a photovoltaic cell module substrate and a lighting device of a lamp according to the present invention are provided in a multilayer structure will be described in more detail with reference to the embodiments shown in the drawings.

In describing the present invention, if it is determined that a detailed description of a related known function or configuration may obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to user intentions or precedents. Therefore, the definition should be made based on the contents throughout this specification.

In addition, in the description of the present invention, the same or similar components are assigned the same or similar reference numerals, and detailed descriptions thereof will be omitted.

1 is a vertical cross-sectional view of a lighting device equipped with a photovoltaic cell module substrate and a lamp lighting device according to an embodiment of the present invention, and FIG. 2 is a solar cell module according to an embodiment of the present invention. B-B' is a vertical cross-sectional view of a lighting device equipped with a substrate and a lighting device of a lamp, and FIG. 3 is a view of a lighting device having a solar cell module substrate and a lighting device of the lamp according to an embodiment of the present invention in a multilayer structure. It is a plan view, and FIG. 4 is a C-C' cross-sectional view of a lighting device in which a photovoltaic cell module substrate and a lighting device of a lamp according to an embodiment of the present invention are provided in a multilayer structure, and FIG. 5 is a Is an exploded perspective view of a lighting device in which a photovoltaic cell module substrate and a lighting device of a lamp are provided in a multilayer structure, and FIG. 6 is a view of a photovoltaic cell module substrate and a lamp according to another embodiment in which nine lighting devices of the present invention are installed. It is a plan view of a lighting device in which a lighting device is provided in a multi-layered structure, and FIG. 7 is a view of a photovoltaic cell module substrate and lamp according to another embodiment in which the lighting device of the present invention is installed in parallel with a photovoltaic lamp and an existing power supply lamp. It is a longitudinal cross-sectional view of a lighting device equipped with a multi-layered lighting device.

A lighting device provided with a solar cell module substrate and a lighting device of a lamp in a multi-layered structure according to the present invention comprises: a pillar built around a garden and a park; A spherical transparent first lighting casing in which an opening communicating with the inside is formed in the lower part; A tubular transparent second lighting casing accommodated in the first lighting casing and having an opening communicating with the inside of the first lighting casing; A glove holder for fixing and supporting the first lighting casing and the second lighting casing; A first ventilation mechanism installed above the first lighting casing; A first lighting device that is spaced apart from an upper portion of the first lighting casing in which the first ventilation mechanism is installed, and is coupled to the center of the upper portion of the first lighting casing and outside the second lighting casing; A second lighting device installed in the interior of the second lighting casing and having sunlight back to face each other in a vertical form with the first lighting device; A solar reflector installed below the second lighting device at a predetermined interval; a height adjusting part of the solar reflector installed below the solar reflector; The 3rd lighting device on the left, the 4th lighting device on the right, the 5th lighting device in the front, the 6th lighting in the rear, which is inside the first lighting casing and is installed in a horizontal arrangement in the circumferential direction on the upper side outside the second lighting casing. Equipment; A seventh lighting device on the left and an eighth lighting device on the right, which are inside the first lighting casing and installed on the side of the central portion outside the second lighting casing; Includes,

The first lighting device, the second lighting device, the third lighting device, the fourth lighting device, the fifth lighting device, the sixth lighting device, the seventh lighting device and the eighth lighting device are A solar cell module support plate capable of firmly fixing the solar cell module substrate and the solar cell module substrate, a capacitor capable of charging the power produced from the solar cell module substrate, and receiving power from the capacitor. A led lamp for irradiating light, an illuminance sensor provided on the light-receiving surface of the solar cell module substrate to charge the power produced during the day to the capacitor and to turn on the led lamp after sunset, and charging the capacitor and The control unit that controls the lighting of the led lamp and the first and second lighting devices of the first and second lighting devices having a vertical arrangement of light-transmitting materials that can refract and diffuse the transmitted light and have irregular patterns with different density. Lighting cover protecting led lamps and lighting to protect the lamp of the 3rd lighting device, 4th lighting device, 5th lighting device, 6th lighting device, 7th lighting device, and 8th lighting device It is composed of a cover, the capacitor, the LED lamp, and a lighting substrate that is fastened to the solar cell module support plate by a coupling member by fixing the control unit.

Looking at the drawings, a lighting device 1000 having a solar cell module substrate and a lighting device of a lamp according to the present invention in a multilayer structure according to an embodiment of the present invention includes a post 1010, a glove holder 1020, and The first lighting casing 1030, the second lighting casing 1040, the first lighting device 1050, the second lighting device 1060, the third lighting device 1070, and the fourth lighting device ( 1080), a fifth lighting device 1090, a sixth lighting device 1100, a seventh lighting device 1110, an eighth lighting device 1120, a solar reflector 1130, and a controller It is configured to include (1140) and a first ventilation mechanism (1150). In another embodiment, the preliminary external power supply light fixture 1160 may be not installed on the solar reflector 1130 and may be installed at that location.

The post 1010 is a cylindrical shape that is erected around a garden and serves to support other components of the present invention, and has a general shape with a circular top or a circular top as various designed castings.

The glove holder 1020 is fixedly installed with a post 1010 and a first lighting casing 1030 and a second lighting casing lower assembly stopper 1141 to be described later.

The lower stopper 1141 of the second lighting casing 1040 is fixedly installed by two or more fixing bolts 1042 of the glove holder of the lower stopper at the center of the inner upper end of the glove holder 1020, and the glove holder 1020 ), after the lower protruding protruding protruding protruding protrusion portion 1032 of the first lighting casing 1030 is introduced into the lower protruding protruding protruding protruding protrusion inlet 1021 of the first lighting casing 1030, The first lighting casing is fixed by three or more first lighting casing lower coupling fixing bolts 1022.

The lower portion of the glove holder 1020 is fastened to the side of the inlet portion 1026 at the top of the post by using at least three fixing bolts 1027.

The glove holder 1020 has a fixed bolt male screw portion 1022a, a fixed bolt fastening female screw portion 1022b, a lower second vent hole 1024, and a second lighting casing lower plug fastening female screw portion 1023.

The first lighting casing 1030 includes the second lighting casing 1040, the first lighting device 1050, the second lighting device 1060, the third lighting device 1070, and the fourth lighting device. A device 1080, a fifth lighting device 1090, a sixth lighting device 1100, a seventh lighting device 1110, an eighth lighting device 1120, a solar reflector 1130, It serves to provide a space for the adjustment unit 1140 to be installed, and serves to provide a spherical surface of the first ventilating device installation through hole 1151 so that the first ventilating device 1150 is installed outside the upper center, and the lower The first lighting casing protruding locking projection 1032 formed in the lighting device assembly inlet 1031, which is an opening communicating with the interior, is formed to be fastened and fixed to the glove holder 1020.

The material of the first lighting casing 1030 and the second lighting casing 1040 is a transparent polycarbonate having a higher density than air, a synthetic resin series, and the refractive index through which sunlight transmits (air: glass: polycarbonate, 1: 1.5 or so : It is desirable to use 1.59~1.74) to be able to collect sunlight.

The second lighting casing 1040 is accommodated in the first lighting casing 1030, and the upper vertically arranged first lighting device 1050 is formed at the center of the upper end outside of the second lighting housing 1040. It is fixed to the through hole 1042 and supported, and provides an internal space so that the second lighting device 1060 and the solar reflector 1130 are installed.

The third lighting device 1070, the fourth lighting device 1080, the fifth lighting device 1090 and the fifth lighting device 1090 are divided equally in four circumferential directions on the outer upper side of the second lighting casing 1040. 6 The lighting equipment 1100 is assembled in each of the lighting equipment assembly units 1044, 1045, 1046, 1047 in a horizontal arrangement, and fixed using the spherical surface of the inner central part of the first lighting casing 1030 (left side , Right, front, rear) and vertically below the third lighting device 1070, the fourth lighting device 1080, the fifth lighting device 1090, and the sixth lighting device 1100. The seventh lighting device 1110 and the eighth lighting device 1120 are divided into two equally circumferentially on the side of the outer central part of the second lighting casing 1040, respectively, in a horizontal arrangement shape. 1048, 1049) and fixedly installed (left, right) using the inner lower spherical surface of the first lighting casing 1030 is provided.

The second lighting casing 1040 is installed inside the transparent spherical first lighting casing 1030 to be exposed to sunlight, and forms an assembly part by cutting the cylindrical side, and is transparent and easy to mold polycarbonate, etc. It is preferable to use a corrosion-resistant material of, but it is also possible to use a mesh-type structure using stainless steel or copper alloy.

The assembly portion 1044 of the third lighting device 1070 is formed in a horizontal arrangement on the upper left side outside the second lighting casing 1040, and cuts the upper left side of the second lighting casing 1040 Rivets formed on the “V-shaped” shape of the third lighting equipment assembly table (1044c) made of a separate plate of corrosion-resistant material by forming the protrusions (1044a) in a “L” shape to form a rivet fastening through hole (1044b) It is configured by being fastened to the through hole 1044d with two or more rivets.

The assembly table 1044c of the third lighting device 1070 must be made of an elastic corrosion-resistant material. After the assembly table is formed, the second lighting casing 1040 is formed in the opening formed under the first lighting casing 1030. There is no inconvenience in insertion, and it may be easy to assemble and install with the concave inlet portion 1078a formed by protruding from the outside of the lighting substrate 1078 of the third lighting device 1070 from the inside of the first lighting casing 1030.

In addition, for the efficiency of assembling 8 lighting devices inside the first lighting casing (1070, 1080, 1090, 1100, 1110, 1120), the first lighting casing can be cut and reassembled after assembly is completed, but the first lighting It may be desirable if the appearance of the casing can recover from damage.

The assembly order of the third lighting device 1070 and the assembly part of the third lighting device is the installation of the assembly table of the second lighting casing 1040 and the cut-out protrusion 1044a and the lighting equipment assembly table 1044c are fixed with rivets. After that, the third lighting device 1070 is assembled and installed.

The horizontal arrangement assembly unit 1045 of each of the fourth lighting device 1080, the fifth lighting device 1090, the sixth lighting device 1100, the seventh lighting device 1110, and the eighth lighting device 1120, Since manufacturing of the 1046, 1047, 1048, and 1049 is the same as the assembly portion 1044 of the third lighting device 1070, a description of the same configuration will be omitted.

The first lighting device 1050 includes a photovoltaic cell module substrate 1051, a photovoltaic cell module support plate 1052, an illuminance sensor 1053, a capacitor 1054, a control unit 1055, and a wireless module receiver. Consisting of (1056) and the LED lamp (1057), the lighting substrate (1058), and the conical lighting cover (1059), the fastening of the solar cell module support plate 1052 and the lighting substrate 1058 is a solar cell module It is assembled with three or more screw pieces using the fastening piece through hole 1052a formed in the support plate and the female screw threaded fastening part 1058a formed in the lighting substrate. The photovoltaic module substrate 1051, the photovoltaic module support plate 1052, and the illuminance sensor 1053 are exposed inside the upper end of the first lighting casing 1030, and the capacitor 1054 and the control unit ( 1055) and the wireless module receiving unit 1056 are installed and assembled inside the lighting board 1058.

The photovoltaic cell module substrate 1051 is configured by embedding the illuminance sensor 1053 in a photovoltaic cell module made of a Si (silicon) material that is generally used.

The photovoltaic battery module support plate 1052 is mounted on the upper surface of the photovoltaic battery module support plate 1052 made of a plate member in the shape of a circular shade by the photovoltaic battery module substrate 1051 having the illumination sensor 1053 embedded therein. It acts as a pedestal if possible.

The photovoltaic cell module support plate 1052 is coupled to the lighting substrate 159 to be fixed, and considering the thickness at which a thread can be formed and the aesthetics of external exposure, it is a casting that can be molded or has resistance to sunlight. It would be desirable to have a synthetic resin.

The illuminance sensor 1053 turns on or turns off the led lamp 1057 in connection with the control unit 1055 using a change in resistance value according to the amount of light condensed on the light receiving surface of the solar module. When the resistance value decreases, power is charged to the capacitor 1054 and the led lamp 1057 is turned off, and when there is no light, the resistance value increases and the led lamp 1057 is charged with the power charged in the capacitor 1054 Is to light up.

In addition, the illuminance sensor 1053 may be configured as a separate illuminance sensor that is not built into the solar cell module.

The capacitor 1054 charges the electric power produced by the solar cell module substrate 151 and supplies electric power to the led lamp 154, and charging is controlled by the controller 156.

The capacitor 1054 is preferably a commercially available nickel-hydrogen (Ni-MH) capacitor, and the capacity is preferably at least one installed depending on the amount of power of the led lamp according to the required illuminance.

The led lamp 1057 serves to irradiate light by receiving power from the capacitor 153, and at least one tip emitting light according to the required illuminance is the lower surface of the solar cell module support plate 1052 It is installed in the center or circumference of the lighting cover 1059 to face the lower portion of the post 1010 at predetermined intervals.

Since the led lamp 1057 has a general characteristic of light distribution and a light distribution angle of about 90°, it is recommended to use a well-known diffusion type led lamp with a flat top surface of the led lamp and a white led that irradiates a soft light to illuminate the surroundings. It would be desirable.

The lighting cover 1059 serves to protect the LED lamp 1057 and may be made of a material such as transparent glass, acrylic, synthetic resin, etc. that can be molded so that light distribution can be diffused. It is preferable to form a pattern or scratch with a difference in density.

It can be assembled with the conical lighting cover 1069 of the second lighting device 1060 that is installed with the solar cell module substrate 1061 on the lower side of the conical lighting cover 1059 of the first lighting device 1050. A through hole 1059a is formed so that it is assembled by a fastening bolt 1050b of the illumination reflecting part 1050a of the first lighting device in connection with the second lighting casing through hole 1041.

The lighting reflecting part 1050a is the through hole of the second lighting device 1060 to be described later in a through hole 1059a formed in the center of the lower end inside the conical lighting cover 1059 of the first lighting device 1050 Inserting a fastening bolt integrally provided at the lower end of the lighting reflecting part 1060a of the second lighting device 1060 in (1069C) and inserting a through hole 1141 with the top surface of the second lighting casing 1040 interposed therebetween It penetrates through and is installed with a fastening nut.

The second lighting device 1060 is solar light so that the lower end of the lighting cover 1069 of the second lighting device 1060 face each other at the lower end of the lighting cover 1059 of the first lighting device 1050. Except for being installed in the inside of the second lighting casing 1040 with sunlight on the back so that a shaded area is formed on the battery module substrate 1061

The second lighting device 1060 includes a photovoltaic cell module substrate 1061, a photovoltaic cell module support plate 1062, an illuminance sensor 1063, a capacitor 1064, a control unit 1065, and a wireless module. Since the first lighting device 1050 is composed of the receiving unit 1066, the LED lamp 1067, the lighting cover 1069, the lighting reflecting part 1060a, and the lighting substrate 1068, the same component Detailed description will be omitted.

The first light reflecting part 1050a and the second light reflecting part 1060a are formed in a curved reflective slope of a diamond shape or a cone shape having various inclinations, so that the first lighting device 1050 and the second lighting device It is a structure to reflect the light irradiated downward or upward according to the straightness of the light of the LED lamp of 1060 to be diffused to the outside of the first lighting device 1050 and the second lighting device 1060.

The third lighting device 1070, the fourth lighting device 1080, the fifth lighting device 1090, and the sixth lighting device 1100 are inside the first lighting casing, and at the top outside the second lighting casing. Cylindrical glass covers (1079, 1089, 1099, 1109, 1209) for each lighting device are installed on the left, right, front, and rear, and are installed on the first lighting device 1050 and the second lighting device 1060. Except that the lighting reflecting units 1050a and 1060a are not installed, the configuration or function is the same as that of the first lighting device 1050, so a detailed description of the same components will be omitted.

The seventh lighting device 1110 and the eighth lighting device 1120 are installed inside the first lighting casing 1030 and installed on the left and right sides of the central portion outside the second lighting casing 1040, and When the third lighting device 1070, the fourth lighting device 1080, the fifth lighting device 1090, and the sixth lighting device 1100 are turned on, the seventh lighting device 1110 and the 8 It is turned off by the illuminance sensors 1113 and 1123 of the lighting device 1120, and the third lighting device 1070, the fourth lighting device 1080, the fifth lighting device 1090 and the sixth lighting The device 1100 is the same configuration as the first lighting device 1150, except that it can be turned on when the device 1100 is turned off or when the illuminance decreases, and can be used as a reserve power for snowfall or cloudy weather. Detailed description of the part will be omitted.

As a circular convex mirror of the solar reflector 1130, a structure that facilitates condensing sunlight on the light-receiving surface of the solar cell module substrate 1061 of the second lighting device 1060 installed with the sun's back on the incident sunlight to be.

The solar reflector height adjustment unit 1040 needs efficient condensing even at the highest altitude of the sun (spring and autumn: about 50 degrees, summer: about 75 degrees, winter: about 30 degrees) according to the earth's orbit and latitude. In case it would be desirable to adjust.

The solar reflector 180 maximizes the light reflectance by maximizing the light reflectance through a material having a high reflectance such as attaching a material such as a metal material having excellent light reflection properties such as aluminum electrolytic polishing or stainless electrolytic polishing, or a material such as glass or plastic. It would be desirable to eliminate the shaded area of the photovoltaic cell module substrate 1061 of the device 1060 to increase the power generation efficiency of sunlight.

The adjusting part 1140 is a lower part of the solar reflector 1030 so as to be adjusted according to the solar height of the solar reflector, and a height adjusting male screw part 1141 to the adjusting female screw part 1042 of the coupling part 1040 ) To be installed

The solar mirror reflector 1130 is installed on the upper surface of the adjusting part 1140, and fastened and fixed by a bolt-shaped reflector adjusting male screw part 1141 provided under the adjusting part 1140, The height of the solar reflector 1130 according to the rotation direction of the screw is adjusted to be low or high depending on the altitude of.

The first ventilation mechanism 1150 is outside of the first lighting casing 1030, and a first ventilation mechanism and a first lighting casing through-fastening bolt in the first ventilation hole through hole 1151 formed in the spherical surface of the upper center, It is fixedly installed by a nut 1152.

The first ventilation mechanism 1150 has a through hole formed in the center of the solar cell module of the eight lighting devices 1150, 1160, 1170, 1180, 1190, 1100, 1110, 1120 installed inside the first lighting casing. This is to prevent freezing in winter due to condensation caused by convection phenomenon due to temperature difference between the inside of the first lighting casing and the outside atmosphere due to heat generated by power generation, and at least one condensation to form internal and external air flow It is a structure in which a ventilation pipe hole suitable for the ventilation amount for prevention is formed inside the ventilation mechanism.

The first ventilation mechanism 1150 is exposed to the outside and is preferably made of a copper-based or stainless steel-based material that does not cause corrosion, and can be applied using a through hole of an open water sprinkler head for smooth flow of ventilation. May be.

The LED devices of the LED lamps (1057, 1067, 1077, 1087, 1097, 1107, 1117, 1127) of the lighting equipment (1050,1060,1070,1080,1090,1100,1110,1120) are commercially available flat type and , As a diffused high-brightness led device, it would be desirable to be composed of a LED device for each color including at least one or more white light or a LED device with three primary colors of RGB so that the multi-layered garden light can be controlled more conveniently and to enhance the aesthetic sense. .

The LED lamps (1057, 1067, 1077, 1087, 1097, 1107, 1117, 1127) of the lighting equipment (1050, 1060, 1070, 1080, 1090, 1100, 1110, 1120) are all or individually or according to a multilayer structure. It would be desirable to further include a wireless module receiving unit 156a of a wireless lighting control system (not shown) and a light quantity color controller (not shown) to turn on/off the lighting lamp or control brightness and color.

The wireless lighting system is equipped with a wireless module based on the known IEEE 802.15.4 wireless communication in each lighting device, and the entire or multiple garden lights according to the led control controller and the wireless signal, or individual or multi-layered led lighting colors or You can adjust the amount of light.

In addition, well-known light quantity and color control devices installed in each of the landscape lights are controlled by a remote signal transmitted wirelessly from the remote control unit of the wireless lighting system, and the amount of light is controlled by the main module lamp module and the sub lamp module. It would be desirable to control the garden light more conveniently by selectively controlling its brightness (luminance) and color.

As another embodiment of the present invention, FIG. 6 shows that it is possible to install up to 5 upper horizontally arranged lighting devices, so that when two lower horizontally arranged lighting devices and 2 vertically arranged lighting devices are installed, 9 are installed according to another embodiment. It is a plan view of a lighting device in which a photovoltaic cell module substrate and a lighting device of the lamp are provided in a multi-layered structure, and FIG. 7 is a parallel view of the lighting device of the present invention in place of the solar power generation lamp and the solar reflector A solar cell module according to another embodiment that can be installed and used by condensing and charging the preliminary external power lighting light emitted in the direction of the sky above the sun during a prolonged cloudy weather of a snowfall or rainy season. It is a longitudinal sectional view of a lighting device in which a substrate and a lighting device of a lamp are provided in a multi-layered structure.

Meanwhile, in the detailed description and accompanying drawings of the present invention, specific embodiments have been described, but the present invention is not limited to the disclosed embodiments, and the technical idea of the present invention to those of ordinary skill in the art to which the present invention pertains. Various substitutions, modifications and changes are possible within the range not departing from. Accordingly, the scope of the present invention is limited to the described embodiments and should not be defined, but should be construed as including the claims to be described later as well as those equivalents to the scope of the patent.

1000: A lighting device equipped with a solar cell module substrate and a lighting device of a lamp in a multilayer structure
1010: holding
1020: globe holder
1021: Inlet portion of the protruding jaw portion at the bottom of the first lighting casing glove
1022: Fixing bolt for lower end of the first lighting casing glove
1022a: fixing bolt male thread 1022b: fixing bolt female thread
1023: Female thread part of the second lighting casing lower plug coupling and fastening
1024: lower second ventilation hole
1026: inlet at the top of the post 1027: fixing bolts for post coupling
1027a: Male thread part of fixing bolt for post coupling
1027b: Female thread part for fixed fastening of post coupling
1030: 1st lighting casing
1031: lighting equipment assembly inflow protrusion 1032: protrusion engaging jaw at the bottom of the globe
1033: Installation of the upper first ventilation device
1040: second lighting casing
1041: lower stopper
1042: Upper first lighting device and lower second lighting device coupling bolt hole
1043: Lower cover and glove holder fixing bolt
1043a: Male thread of fixing bolt for lower cover and glove holder
1044: upper left horizontal arrangement third lighting device assembly
1045: Assembling part of the 4th lighting equipment arranged horizontally on the upper right
1046: upper front horizontal arrangement 5 lighting device assembly
1047: upper rear horizontal arrangement 6th lighting equipment assembly
1048: horizontal arrangement of the left side of the center part 7 lighting equipment assembly part
1049: Assembling part of the 8th lighting equipment, horizontally arranged on the right side of the center part
1044a, 1045a, 1046a, 1047a, 1048a, 1049a: 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment assembly stand installation cutout protrusion
1044b, 1045b, 1046b, 1047b, 1048b, 1049b: 3rd, 4th, 5th, 6th, 7th,
Rib fastening through-hole of the 8th lighting equipment assembly base installation
1044c, 1045c, 1046c, 1047c, 1048c, 1049c: 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment assembly table
1044d, 1045d, 1046d, 1047d, 1048d, 1049d: 3rd, 4th, 5th, 6th, 7th, 8th lighting fixture assembly base rib-tightening through-hole
1044e, 1045e, 1046e, 1047e, 1048e, 1049e: Rivets connected to the 3rd, 4th, 5th, 6th, 7th, 8th lighting fixture assembly and cut-out protrusions
1050: upper vertical arrangement first lighting device
1060: lower vertical arrangement second lighting device
1070; Top left horizontal arrangement 3rd lighting equipment
1080: Upper right horizontal arrangement 4th lighting equipment
1090: upper front horizontal arrangement 5th lighting equipment
1100: Upper rear horizontal arrangement 6th lighting equipment
1110: Central left horizontal arrangement 7th lighting equipment
1120: 8th lighting equipment arranged horizontally on the right side of the center
1050a: LED lamp lighting reflector for the first lighting lamp
1050b: Vertically arranged upper first lighting equipment and lower second lighting casing upper center glass cover fixing bolt male thread
1060a: 2nd illumination lamp LED lamp illumination reflector
1060b: Female threaded part of the fixing bolt of the upper center glass cover of the second lighting casing of the vertical arrangement upper first lighting device and lower second lighting device
1051. 1061, 1071, 1081, 1091, 1101, 1111, 1121: 1st, 2nd, 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment solar cell module substrate
1052. 1062, 1072, 1082, 1092, 1102, 1112, 1122: 1st, 2nd, 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment photovoltaic module substrate support
1053. 1063, 1073, 1083, 1093, 1103, 1113, 1123: 1st, 2nd, 3rd, 4th, 5th, 6th, 7th, 8th illumination sensor for solar cell module
1054. 1064, 1074, 1084, 1094, 1104, 1114, 1124: 1st, 2nd, 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment charging capacity
1055. 1065, 1075, 1085, 1095, 1105, 1115, 1125: 1st, 2nd, 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment control unit
1056. 1066, 1076, 1086, 1096, 1106, 1116, 1136: 1st, 2nd, 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment wireless module receiver
1057. 1067, 1077, 1087, 1097, 1107, 1117, 1127: 1st, 2nd, 3rd, 4th, 5th, 6th, 7th, 8th LED lamp
1058. 1068, 1078, 1088, 1098, 1108, 1118, 1128: 1st, 2nd, 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment capacity, control unit, wireless module receiver Installation lighting board
1078, 1088, 1098, 1108, 1118, 1208: 3rd, 4th, 5th, 6th. The concave inlet of the assembly table for the 7th and 8th lighting equipment
1059. 1069; Conical glass lighting cover for LED lamps for vertically arranged first and second lights
1059a. 1069a; Through-hole under the glass cover of the LED lamp of the vertically arranged first and second lights
1079, 1089, 1099, 1109, 1119, 1129: LED lamp cylindrical glass lighting cover of horizontally arranged 3rd, 4th, 5th, 6th, 7th, 8th lighting equipment
1130: solar reflector
1131: solar light reflection part 1142: solar light reflection part protective cover
1132: Solar light reflection part protective cover and solar light reflection part fixing support fastening piece
1133: Solar reflector fixed support
1140: solar reflector adjustment unit
1141: Male thread for adjusting the height of the fixing support for the solar reflector
1142: female screw for adjusting the height of the fixing support for the solar reflector
1143: Solar reflector fixing support and second lighting casing fixing bolt
1150: upper first ventilation mechanism
1151: first ventilation hole ventilation through hole
1152: bolt and nut for fastening through the first ventilation mechanism and the first lighting casing
1160: spare external power supply light fixture
1161: light bulb 1162: light socket 1163: external power supply line
1164: light fixture illuminance control unit

Claims (9)

A lighting device provided with a solar cell module substrate and a lighting device of a lamp in a multi-layered structure comprises: a pillar built around a garden and a park; A spherical transparent first lighting casing in which an opening communicating with the inside is formed in the lower part; A tubular transparent second lighting casing accommodated in the first lighting casing and having an opening communicating with the inside of the first lighting casing; A glove holder for fixing and supporting the first lighting casing and the second lighting casing; A first ventilation mechanism installed above the first lighting casing; A first lighting device that is spaced apart from an upper portion of the first lighting casing in which the first ventilation mechanism is installed, and is coupled to the center of the upper portion of the first lighting casing and outside the second lighting casing; A second lighting device installed in the interior of the second lighting casing and having sunlight back to face each other in a vertical form with the first lighting device; A solar reflector installed below the second lighting device at a predetermined interval; a height adjusting part of the solar reflector installed below the solar reflector; The 3rd lighting device on the left, the 4th lighting device on the right, the 5th lighting device in the front, the 6th lighting in the rear, which is inside the first lighting casing and is installed in a horizontal arrangement in the circumferential direction on the upper side outside the second lighting casing. Equipment; A seventh lighting device on the left and an eighth lighting device on the right, which are inside the first lighting casing and installed on the side of the central portion outside the second lighting casing; Includes,

The first lighting device, the second lighting device, the third lighting device, the fourth lighting device, the fifth lighting device, the sixth lighting device, the seventh lighting device and the eighth lighting device are A solar cell module support plate capable of firmly fixing the solar cell module substrate and the solar cell module substrate, a capacitor capable of charging the power produced from the solar cell module substrate, and receiving power from the capacitor. A led lamp for irradiating light, an illuminance sensor provided on the light-receiving surface of the solar cell module substrate to charge the power produced during the day to the capacitor and to turn on the led lamp after sunset, and charging the capacitor and The control unit that controls the lighting of the led lamp, and the LED of the first lighting device and the second lighting device in a vertical arrangement shape of a material through which light is formed with an uneven pattern of varying density and can be refracted and diffused. A lighting cover that protects the lamp and a lighting cover that protects the lamp of the third lighting device, the fourth lighting device, the fifth lighting device, the 6th lighting device, the 7th lighting device and the 8th lighting device And a solar cell module substrate and a lighting device of a lamp, characterized in that it is composed of a lighting substrate that is fastened to the solar cell module support plate by a coupling member by fixing the capacitor, the led lamp, and the control unit. Device
According to claim 1
Solar light, characterized in that at least two solar cell module substrates and lighting devices of a lamp are formed in a multilayer structure of vertical and horizontal arrangement in a cylindrical or polygonal cylindrical inner space including a transparent sphere of the first lighting casing Lighting device equipped with a battery module substrate and a lighting device of a lamp in a multi-layered structure According to claim 1
At least one solar cell module substrate among two or more solar cell module substrates and lamps in a cylindrical or polygonal cylindrical inner space including a transparent sphere of the first lighting casing has a vertical and horizontal arrangement shape A lighting device including a solar cell module substrate and a lighting device of a lamp in a multilayer structure, characterized in that it is formed in a multilayer structure According to claim 1
The solar reflector is installed on the upper surface of the height adjustment part, and is fastened to and fixed to the coupling part by a bolt-shaped screw provided in the lower part of the height adjustment part, and reflects the sunlight incident light to the solar cell module substrate. In order to improve the efficiency of light condensing, the height of the solar reflector is adjusted according to the rotation of the screw according to the altitude of the sun by region or season.
According to claim 1
The illumination reflecting portion further provided at the lower end inside the illumination cover of the first lighting device and the upper end inside the illumination cover of the second illumination device is formed in a diamond-shaped or conical curved reflective inclined surface formed with various inclinations, and the first, 2 A photovoltaic cell module substrate, characterized in that it reflects light irradiated downward or upward according to the straightness of the light of the LED lamp of the lighting device to be diffused to the outside of the first lighting device and the second lighting device, and Lighting device in which the lighting equipment of the lamp is provided in a multi-layered structure According to claim 1
The vertical and horizontal arrangement of the multi-layered lighting device lamp is a solar cell module substrate and lamp, characterized in that it is composed of at least one white light or color-specific led element or RGB three primary color led element or a complex color change element. Lighting device equipped with multi-layered lighting equipment According to claim 1
The led lamp of the lighting device is a wireless lighting control system further provided to control a multi-layered garden lamp having a vertical and horizontal arrangement shape to enhance a more convenient and aesthetic sense, and the total or individual or multi-layered structure A lighting device comprising a solar cell module substrate and a lighting device of the lamp in a multi-layered structure, characterized in that turning on/off the led lamp or controlling brightness and color According to claim 1
The first ventilation mechanism installed in the upper center of the first lighting casing includes the first lighting casing and the first lighting casing due to heat generation due to power generation of the solar cell module of the lighting device installed inside the first lighting casing and the second lighting casing. A solar cell module, characterized in that at least one ventilation mechanism is installed to discharge the internal air current to the outside in order to prevent freezing in winter due to condensation caused by convection caused by the temperature difference between the inside and outside of the lighting casing. Lighting device equipped with a multi-layered structure of lighting equipment of a substrate and lamp According to claim 1
A solar cell module, characterized in that the external power can be utilized as spare power by replacing the solar reflector of the second lighting device of the multi-layered structure in which the lighting device is arranged in vertical and horizontal arrangement shapes with an external power supply lighting device. Lighting device equipped with a multi-layered structure of lighting equipment of a substrate and lamp

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