KR20010086678A - High Intensity Daylighting and Artificial Hybrid Light Piping System - Google Patents

Abstract

PURPOSE: A lighting apparatus with high luminance for composing a natural light and an artificial light is provided to improve an illuminance of a room by using an artificial illumination with high luminance and a solar light together. CONSTITUTION: A high luminance artificial illumination(1) has a solar battery(7) and a specific power attached at one side of an external wall of a wall body(15) for driving a motor attached to a light collecting unit(3) and supplying a power so that the light collecting unit(3) is rotated according to a solar light and a power device(12) attached to the other side of the external wall for supplying electricity to an artificial optical source(5). The solar light is concentrated in the light collecting unit(3) and the concentrated solar light is conveyed to a rotation mirror(4), and the solar light is deflected in an internal portion of a transparent acryl tube(14). The light generated in the artificial optical source(5) is transmitted to an incident angle adjusting lens(8) to transmit the light to the rotation mirror(4), and the rotation mirror(4) reflects the light and deflects the light to the internal portion of the acryl tube(14). The light reflected in the rotation mirror(4) is transmitted to an incident angle adjusting lens(8-1). The light transmitted in the incident angle adjusting lens(8-1) is inversely reflected by a high reflective cap(13) fixed with a high reflective prism film(9) at an end side.

Description

High Intensity Daylighting and Artificial Hybrid Light Piping System

The present invention relates to a high-brightness daylight artificial light composite lighting device, and more particularly, it is possible to use a high intensity artificial light with high unit power luminosity using the power transmitted from a power plant in parallel with the sunlight of infinite natural energy in the room It relates to a device that allows to improve.

In general, in the corridor of the building, an acrylic tube was installed on the upper part of the corridor wall to brighten the illuminance of the corridor, and an artificial lighting device was installed therein to illuminate the corridor aisle.

Such a structure and manner can always be used only in the presence of electricity. In other words, the lighting system installed in the majority of the room is a high-intensity artificial lighting, HID (High Intensity Discharge) or Solfur (Sulfur) lighting system is mainly connected to the light pipe for light transmission, the concept of the remote light source to improve the indoor load and the city environment required Although the technology was improved, high-power, high-brightness and high-power consumption increased, resulting in high environmental power consumption.

The present invention has been made to solve the above problems, and it is possible to use a combination of artificial light source and the natural light having infinite energy solar light to minimize the power consumption to reduce the burden on the power user to the object Is there.

In order to achieve the above object, a solar cell and a separate power supply are attached to one side of the wall to drive the motor attached to the light collecting unit so that the light collecting unit can rotate along the sunlight, and the other side supplies electricity to the artificial light source. To install a high-brightness artificial light consisting of a power supply,

After condensing the sunlight from the light collecting unit and transferring to the rotating mirror, the rotating mirror refracts the sunlight into the acrylic tube inside the wall,

Passing the light generated by the artificial light source through the incident angle adjusting lens to the rotating mirror, and the rotating mirror reflects the light to refract the light into the acrylic tube;

The light reflected by the rotating mirror passes through the incident angle adjusting lens

The light passing through the lens is composed of a high reflection prism film attached to the inside of the acrylic tube and a light pipe module for light transmission in which light is reflected back by a high reflection cap fixed to the end, thereby providing artificial light source and sunlight. It is to provide that can be used in the same way.

1 is an overall configuration diagram of a composite lighting device of the present invention

<Explanation of symbols for the main parts of the drawings>

(1): high brightness artificial lighting (2): light pipe module for light transmission

(3): light collecting unit 4: rotating mirror

(5): artificial light source 7: solar cell

(8) (8-1): incident angle adjusting lens (9): high reflection prism film

10: illuminance sensor 11: controller

12: power source 13: high reflective cap

14: acrylic tube 15: wall

Referring to the configuration and operation of the present invention in detail based on the accompanying drawings as follows.

1 shows an overall configuration diagram of a composite lighting apparatus of the present invention.

One side of the wall 15 attaches a separate power source to the solar cell 7 which supplies power to the light collecting unit 3 so that the light collecting unit 3 can rotate along the sunlight by driving a motor attached to the light collecting unit 3 on one side of the outer wall. There is provided a high-brightness artificial light (1) consisting of a power source 12 device for supplying electricity to the artificial light source (including a ballast) (5),

After condensing the sunlight in the condenser 3, and transported to the rotating mirror (4), the rotating mirror (4) refracts the sunlight into the transparent acrylic tube (14) inside the wall,

Passing the light generated by the artificial light source 5 through the incident angle adjusting lens 8 to the rotating mirror 4, and the rotating mirror 4 reflects the light to refract the light into the acrylic tube 14;

The light reflected by the rotating mirror 4 passes through the incident angle adjusting lens 8-1

The light passing through the incident angle adjusting lens 8-1 is reflected by the high reflection prism film 9 attached to the inside of the acrylic tube 14 and the high reflection cap 13 fixed to the end. It consists of a light pipe module (2).

The operation of the present invention is as follows.

A solar cell that drives a motor (not shown) attached to a light collecting unit 3 that collects solar rays on one side of an outer wall of the building wall 15 so that the light collecting unit 3 can rotate along the sunlight. Attached (7) and on the other side is installed a high-brightness artificial light (1) consisting of a power supply 12 device for supplying electricity to the artificial light source (5).

The solar cell 7 collects sunlight emitted from the sun when the sun is present and transmits power to a motor so that the light collecting unit 3 can be driven.

The solar light is collected by the light collecting unit 3 and then transferred to the rotating mirror 4, and then the rotating mirror 4 refracts the sunlight into the acrylic tube 14 inside the wall 15.

The light generated by the artificial light source 5 passes through the incident angle adjusting lens 8 to the rotating mirror 4 capable of reflecting light, and the rotating mirror 4 reflects the light to the inside of the wall 15. The light is refracted into the installed acrylic tube 14.

The light (artificial light source and sunlight) reflected by the rotating mirror 4 passes again through the incident angle adjusting lens 8-1 installed at one end of the acrylic tube 14.

The light passing through the incident angle adjusting lens 8-1 is transmitted by the high reflecting prism film 9 attached to the acrylic tube 14 and the high reflecting cap 13 fixed to the end, and then reversed again. Will be reflected back.

Therefore, when there is infinite natural light, it is possible to reflect the sunlight into the room by using the condenser (3) to shine the room brightly with sunlight, and use an artificial light source (5) in the evening when there is no cloudy or natural sun. However, the same system that uses sunlight can be used to brighten the illumination and provide convenience.

The light pipe module 2 for light transmission composed of the acrylic tube 14, the high reflection cap 13, and the high reflection prism film 9 serves as a light distribution part for allowing light to flow naturally as water naturally flows inside the pipe. The high reflection prism film 9 inside the transparent acrylic tube 14 functions to totally reflect light.

Reference numeral 10 serves as a light sensor to detect the light intensity and the installation position is basically located on the operator's work surface, but may be further located in the longitudinal direction when more sensitive control is required.

In addition, reference numeral 11 is to control the artificial light source 5 as a controller.

(Variants, applications and legal interpretations)

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Therefore, the present invention can use the sun and the artificial light source which is natural light according to the weather or time as needed, which can save more economically when only the artificial light source is used, and also select and use the solar light and artificial light source as one system. It is possible to provide convenience to the user because it can.

Claims (1)

On one side of the outer wall of the wall 15, a solar cell 7 is attached to the solar cell 7 to supply power to the light collecting unit 3 so that the light collecting unit 3 can rotate along the sunlight by driving a motor attached to the light collecting unit 3, and on the other side, an artificial light source. Installing a high-brightness artificial light (1) consisting of a power supply (12) device for supplying electricity to (5), After condensing the sunlight in the condenser 3, and transported to the rotating mirror (4), the rotating mirror (4) refracts the sunlight into the transparent acrylic tube (14) inside the wall, Passing the light generated by the artificial light source 5 through the incident angle adjusting lens 8 to the rotating mirror 4, and the rotating mirror 4 reflects the light to refract the light into the acrylic tube 14; The light reflected by the rotating mirror 4 passes through the incident angle adjusting lens 8-1 The light passing through the incident angle adjusting lens 8-1 is reflected by the high reflection prism film 9 attached to the inside of the acrylic tube 14 and the high reflection cap 13 fixed to the end. High brightness daylight artificial light composite lighting device, characterized in that consisting of a light pipe module (2).