KR101258152B1 - A lighting device of fixing type using sun lights - Google Patents

Abstract

PURPOSE: A fixed type hybrid lighting device with an artificial light source module and a dark film including a reflection surface using sunlight is provided to properly transmit light to a lighting space by using the artificial light source module and the dark film. CONSTITUTION: A support frame(30) is mounted on the end of a light transmitting unit. A rotating roll(40) is rotatably installed in the support frame. A rotating belt(60) connects a driving device to the rotating roll. A dark film(70) opens or closes an opening part of the support frame. An artificial light source module(80) emits artificial light to a reflection surface of the dark film.

Description

A lighting device of fixing type using sun lights with a blackout reflecting surface and an artificial light source module

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fixed type solar lighting apparatus including a light acquisition unit for acquiring sunlight as natural light and a light transmission unit for transmitting sunlight light to a lighting space using a duct provided with a reflective sheet. An opening formed in a central portion of the support frame to be mounted at an end of the light transmission unit; A rotary roll rotatably mounted inside one side of the support frame; A drive device including a drive motor fixedly coupled to the inside of the other side of the support frame in a state facing the rotary roll; A rotating belt connecting the driving device and the rotating rolls to transfer the rotating force generated in the driving device to the rotating rolls; A black film having one end fixed to the rotary roll and the other end fixed to the rotary belt to open and close the opening of the support frame according to the rotational movement of the driving device, the lower surface having a reflective surface; Is installed at each lower portion of the rotary roll and the driving device in an inclined state at a predetermined angle, and using a plurality of artificial light sources provided in each of the rotating roll and the artificial light emitted to the reflecting surface of the light space and the black film below the light transmission unit Artificial light source module; The present invention relates to a fixed type hybrid solar lighting device having a blackout film having a reflective surface and an artificial light source module.

The photovoltaic lighting device refers to a device that acquires sunlight as natural light and uses the same as lighting, and basically includes a light acquisition unit that acquires sunlight and a light transmission unit that transfers the obtained sunlight to an illumination space. Such a solar lighting apparatus tracks the position of the sun according to whether the light acquirer actively acquires the sunlight in real time, or otherwise passively acquires only the incoming sunlight while the light acquirer is fixed in a specific direction on the celestial sphere. It is divided into a method and a fixed method.

Among them, the fixed method does not track the sun in real time, but merely acquires the sunlight that is incident on the light acquisition unit, and delivers the obtained sunlight to the illumination space as repeated reflections by the reflective sheet, in comparison with the tracking method. And there is a disadvantage in that the transmission efficiency is somewhat reduced. However, the fixed method is a simple installation of the entire device, the installation cost is low, the trend is widespread in recent years.

However, when the light acquiring unit acquires sunlight by using this fixing method in which the light acquiring unit is fixed in a specific direction (mainly southward) on the celestial sphere, the amount of sunlight that can be obtained varies depending on the position of the sun, so that the illumination intensity of the illumination space is suddenly changed with time. There is a problem that changes. That is, a lot of sunlight is acquired and transmitted to the illumination space at the time when the sun is intensive, but very little sunlight is transmitted to the illumination space during the morning and afternoon hours. This phenomenon is also caused by the change in the altitude angle of the sun, which is more severe in summer when the sun is high altitude than in winter when the sun is low altitude.

To this end, when the influx of solar light is strong, there is proposed a technique for blocking the sunlight transmitted to the illumination space by installing a dark film at the bottom of the light transmission unit, bar proposed in Figure 6 0951433 is one such technique. However, most of the technologies proposed to improve such a problem, including the Republic of Korea Patent No. 0951433, propose only a black film configuration to temporarily block the sunlight, if the sunlight is blocked by the black film separate artificial There is no suggestion of a configuration such as illuminating a lighting space using a light source.

Republic of Korea Patent No. 0951433, Republic of Korea Patent Publication No. 2010-0137070

The present invention has been proposed to solve the above problems, and an object of the present invention is to provide an appropriate amount of light to an illumination space by using a black film and an artificial light source when the amount of solar light flowing through the light transmitting unit is excessive, almost, or irregular. It is to provide a fixed type solar lighting device that can be delivered.

The present invention, in order to achieve the above object, the light acquisition unit 10 for acquiring sunlight as natural light, and a light transmission unit for transmitting the sunlight to the illumination space using a duct provided with a reflective sheet ( 20. A fixed type photovoltaic lighting device comprising: a support frame (30) formed at an end of an opening (32) in a central portion thereof and mounted at an end of the light transmitting portion (20); A rotary roll 40 rotatably mounted inside one side of the support frame 30; A drive device (50) including a drive motor (56) fixedly coupled to the inside of the other side of the support frame (30) in a state facing the rotary roll (40); A rotating belt 60 connecting the driving device 50 and the rotating roll 40 to each other in order to transmit the rotating force generated by the driving device 50 to the rotating roll 40; A lower surface is provided with a reflective surface 72, one end of which is fixed to the rotary roll 40, and the other end of which is fixed to the rotary belt 60, according to the rotational movement of the driving device 50. A black and white film for opening and closing the opening 32 of the; A fixing plate that is formed of a multi-stage strip structure bent at different angles and fixedly coupled to each lower portion of the rotary roll 40 and the driving device 50, and a plurality of artificial light sources 82 fixedly mounted to each strip of the fixing plate. An artificial light source module (80) configured to emit artificial light to an illumination space below the light transmitting unit (20) and a reflecting surface (72) of the black film (70); What is included is made into the technical feature.

The rotary roll 40 is made of a pair that is spaced apart from each other in a state facing each other and rotatably mounted inside one side of the support frame 30, each of the outer side edges of the annular groove 43 A rotating rod (42) formed with a rotating rod (46) sharing the same axis of rotation as each of the rotating disks (42) and provided between the rotating disks (42); The driving device 50 is a drive motor 56 is fixedly coupled to the other side of the support frame 30 in the state facing the rotary roll 40, the drive shaft 54 is provided at both ends; An annular groove (53) is formed at the outer side edge and is composed of a drive disc (52) mounted at each end of the drive shaft (54); The rotary belt 60 is preferably in close contact with the grooves 43 and 53 of the rotary disk 42 and the driving disk 52 to rotate.

Unevenness 62 is formed on one surface of the rotating belt 60, and unevenness corresponding to the unevenness 62 is formed in the grooves 43 and 53 of each of the rotating disc 42 and the driving disc 52. Can be.

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The strip of the fixing plate is an upper strip bent so that each mounted artificial light source 82 can exit toward the reflective surface 72 of the black film 70, and each mounted artificial light source 82 is It may consist of a downward strip bent to exit toward the illumination space.

According to the present invention, a dark film is installed to seal the lower portion of the opened light transmitting part, but a reflective surface is formed on the lower surface of the black film, and the light can be emitted to the lower part of the light transmitting part in the direction of the black film and the illumination space below. Equipped with an artificial light source module, when the amount of solar light flowing through the light transmission unit is excessive, little or irregular, the appropriate illumination and illumination required in the illumination space by appropriately combining the indirect light using the reflection surface of the black film and the direct light by direct irradiation It can easily provide a lighting environment.

In addition, the present invention allows the artificial light is separated into direct light and indirect light as a combination of a blackout and an artificial light source module at night when the solar light cannot be obtained, and then utilized as illumination.

1 is a schematic overall configuration diagram of a stationary solar lighting apparatus according to the present invention.
Figure 2 is a schematic diagram of the interior of the support frame in a fixed type solar lighting apparatus according to the present invention.
3 is a schematic configuration diagram of a driving device in a fixed type solar lighting device according to the present invention.
Figure 4a is a block diagram of an artificial light source module in a fixed type solar lighting apparatus according to the present invention.
4B is a light simulation result diagram of the artificial light source module of the FIG. 4A configuration.
Figure 5a is another configuration of the artificial light source module in the fixed type solar lighting device according to the present invention.
5B is a light simulation result diagram of the artificial light source module of the FIG. 5A configuration.
6 is a schematic configuration diagram of a conventional fixed type solar lighting device.

Preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings, in which embodiments of the present invention are not directly related to the technical features of the present invention, or in the art to which the present invention pertains. The detailed description of the matters apparent to those skilled in the art will be omitted.

1 is a schematic overall configuration diagram of a fixed type solar lighting apparatus according to the present invention, Figure 2 is a schematic configuration diagram of the inside of the support frame in a fixed type solar lighting apparatus according to the present invention, Figure 3 It is a schematic block diagram of a drive device in the fixed type solar lighting device according to the present invention.

As disclosed in the drawings, the present invention basically relates to a fixed type solar lighting apparatus, which is installed in a building and fixed in a specific direction on a celestial sphere, and obtained by the light acquisition unit 10. The light transmission unit 20 is provided to transmit the solar light to a space requiring illumination, and includes the rotating hole 40, the driving device 50, the black film 70, and the artificial light source module 80. It is characterized in that the support frame 30 is installed in the lower portion 20.

The light acquiring unit 10 is a part of acquiring solar light incident on the ground while circumferentially moving. However, a light acquiring device having a multi-prism prism lens structure is disclosed in the drawings. It can be changed and applied. The light transmitting unit 20 is provided with a reflective sheet 22 for easy transmission of light, and may be changed and applied to various structures such as a cylindrical structure unlike those disclosed in the drawing.

The support frame 30 is a portion mounted at the end of the light transmission unit 20 for easy mounting of various components, which will be described later, and an opening 32 is formed at a central portion thereof. The opening 32 is a portion that functions to facilitate the transfer of solar light moving through the light transmission unit 20 to the lower illumination space, preferably made similar to the cross-sectional structure of the light transmission unit 20, at least It is more preferable that the same as the lower cross-sectional area of the light transmission unit 20. The support frame 30 may be made of a metal material.

The rotary roll 40 is a part for opening and closing action of the black film 70, which will be described later, is rotatably mounted inside one side of the support frame 30, and the driving device 50 of the black film 70 As the slide drive source for the opening and closing action is mounted inside the other side of the support frame 30 to face the rotary roll 40. The operation of the rotary roll 40 and the driving device 50 causes the black film 70 to reciprocate and to open and close the opening 32 of the support frame 30.

On the other hand, in the present invention, in order to appropriately control the slide motion of the black film 70, the rotary roll 40 is composed of a rotary disk 42 and the rotary rod 46, the drive device 50 is driven motor 56 ), A drive shaft 54 and a drive disc 52 are proposed.

The rotating disc 42 is made of a pair as shown in the figure, each of which is preferably rotatably mounted inside one side of the support frame 30 spaced apart from each other in a state facing each other. Although not disclosed in the drawings, the driving pin protrudes from an inner surface of one side of the support frame, and the driving pin penetrates through the central shaft portion of the rotation disc, so that the rotation disc may be rotatable inside the support frame. There will be. An outer groove 43 is formed at an outer side edge of each of the rotating discs 42.

As represented by some incisions in the figure, the rotary rod 46 is a means for releasing and winding the black film 70 having a predetermined length by a predetermined length, and preferably made of a rod shape. The rotary rods 46 preferably share the same axis of rotation as each of the rotary disks between the rotary disks 42. Although the drawings assume that the rotating rod is configured separately from the rotating disc and connected to the central axis, the present invention does not exclude the case where the rotating rod is made integral with the rotating disc.

The drive motor 56 is fixedly coupled to the inside of the other side of the support frame 30 in a state facing the rotary roll 40 as shown in the figure, the drive shaft 54 is provided at both ends. That is, the driving force of the drive motor is transmitted through both sides, and may be configured to distribute power to both sides by using a single drive motor, or may be configured to transmit power to each by using a dual drive motor. have.

The drive disc 52 is fixedly coupled to the end of each drive shaft 54, and the driving force generated by the drive motor 56 is transmitted to each drive disc 52 via the drive shaft 54. The outer side edge of each of the drive disk 52 is formed with an annular groove 53 similar to the rotating disk 42.

The rotation belt 60 is a means for transmitting the rotational force generated in the drive device 50 to the rotary roll 40, the drive device 50 and the rotary roll 40 are connected to each other. When each of the driving device 50 and the rotating hole 40 is provided with a pair of driving disc 52 and the rotating disc 42, the groove 53 of each driving disc and the groove of the rotating disc as shown in the drawing. It is preferable that it consists of a pair in close contact with (43).

On the other hand, one side of the rotating belt 60 may be further formed irregularities (62). In this case, although not shown in the drawing, the grooves 43 and 53 of each of the driving disc 52 and the rotating disc 42 are preferably formed with an uneven portion having a shape corresponding to the unevenness 62. If the unevenness is formed in the grooves of the rotating belt and the driving disc and the rotating disc, the rotating belt can maintain a closer contact with the grooves of the driving disc and the rotating disc, so that the driving force of the driving motor can more accurately rotate the rotating belt. Converted to motion.

The black film 70 is a means for opening and closing the opening 32 of the support frame 30, one end is fixedly mounted to the rotary roll 40 and the other end is connected to the rotary belt 60 to the rotating belt 60 It is fixedly mounted. In addition, the lower surface of the black film 70 according to the present invention, specifically, the surface of the black film facing the illumination space is characterized in that the reflective surface 72 is provided. The reflective surface 72 reflects the artificial light emitted from the artificial light source module 80, which will be described later, and transmits the reflected light to the illumination space. Reflective surface 72 can be anyly selected from those well known in the art, such as reflective materials, reflective films, and the like.

The artificial light source module 80 includes a plurality of artificial light sources 82 and is installed at each lower portion of the rotary roll 40 and the driving device 50 in an inclined state at an angle, and enters the light acquisition unit 10. It is a means to compensate for the insufficient amount of light when the amount of sunlight to be made is absolutely insufficient or the amount of incident sunlight is changed irregularly with time due to the effect of clouds or the like and thus the illuminance of the illumination space does not meet the necessary standard. In addition, the artificial light source module may be used even when the amount of solar light transmitted through the light transmitting unit is excessively large. This is because there is a glare problem in which the sunlight incident through the fixed method is concentrated to a specific part of the illumination space, in which case an artificial light source can be used to realize a certain level of illuminance.

In particular, the configuration of the artificial light source module 80 according to the present invention is directly connected to the reflective surface 72 of the black film, the direct light providing means that is directly emitted to the lighting space and utilized as illumination, and the light is emitted in the direction of the black film (reflection surface ( Its main feature is that it consists of a combination of indirect light providing means which are reflected by 72 and then transmitted to the illumination space. That is, in irradiating an artificial light source to the illumination space, it is divided into a portion directly irradiated into the illumination space and a portion irradiated indirectly through reflection.

To this end, the present invention in the configuration of the artificial light source module 80, consisting of a multi-stage strip structure bent at different angles fixed plate which is fixed to each lower portion of the rotary roll 40 and the drive device 50, The case which consists of a some artificial light source fixedly mounted to each strip of the said fixed plate is proposed. The reason why the fixing plate has a strip structure is to easily mount a plurality of artificial light sources, and the reason for bending the multi-stage light source is to easily distinguish the emission direction of the artificial light sources mounted on each strip.

In bending the fixing plate in multiple stages, the present invention proposes a case consisting of an upper strip and a lower strip structure. The upper strip is a portion configured to allow each mounted artificial light source to exit toward the reflective surface 72 of the black film 70, and the lower strip allows each mounted artificial light source to exit toward the lower illumination space. It is composed part. That is, the upper strip is a structure for irradiating indirect light, and the lower strip is a structure for irradiating direct light.

FIG. 4A illustrates the upper and lower strips 83 and 81 being formed by bending the fixing plates mounted at the lower portions of the rotary roll 40 and the driving device 50 in two stages in constructing the artificial light source module 80. ), And a case where a plurality of artificial light sources 82 are mounted on each strip, and FIG. 5A shows each rotary roll 40 and the driving device 50 at the lower part of the artificial light source module 80. The fixing plate to be mounted is bent in three stages, wherein the upper strip 84 is composed of a single strip and the lower strips 85 and 86 are composed of two stage strips.

The light simulation results carried out using the respective configurations of FIGS. 4A and 5A are shown in FIGS. 4B and 5B, respectively. When the artificial light source module 80 is used, the black film 70 keeps the opening 32 of the support frame 30 completely sealed.

4b shows that a substantial portion of the artificial light emitted from the artificial light sources mounted on the upper strip 83 is reflected by the reflecting surface 72 of the black film 70 and then broadly transmitted to the lower illumination space. 5b, it can be seen that the main average illuminance of the illumination space is due to the direct light transmitted directly from the artificial light sources mounted on the lower strips 85 and 86 to the illumination space.

In general, direct light has the advantage of increasing the average illuminance of the illumination space, but has the disadvantage of glare due to the concentration of the light source, indirect light has a lesser contribution to the average illuminance than direct light, but gives the overall light effect There is this. Therefore, it will be desirable to determine how to configure the upper strip and the lower strip of the artificial light source module after determining what kind of illumination to provide to the illumination space.

Although not shown in the drawings, the present invention is not only a case where the artificial light source module is mounted on each lower portion of the rotary roll 40 and the driving device 50, but also when the artificial light source module is mounted between the rotary roll and the driving device. Does not exclude That is, when the support frame 30 has a rectangular structure, the artificial light source module is mounted on all four surfaces of the lower part. If the artificial light source module is added in this way, it is possible to provide a higher illumination environment in the lighting space.

In addition, the present invention may be configured to appropriately adjust the degree of brightness of the artificial light source module by grasping the degree of change in the amount of sunlight transmitted to the illumination space through the light transmission unit. The degree of change in the amount of sunlight can be grasped using an illumination sensor, and the illumination sensor may be provided in plural numbers and mounted on a lower portion of a light transmitting unit or an appropriate position of an illumination space.

In addition, the present invention is an artificial light emitted by the artificial light source module by combining the artificial light source module with a black film in the case of a cloudy day or rainy day with almost no direct light excluding scattered light, and at night when there is no sunlight It is also expected that the light can be separated into direct light and indirect light and provided to the illumination space. That is, even if there is no separate lighting means can provide a high-quality lighting combined with direct lighting and indirect lighting.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be apparent that the present invention can be practiced with added features.

10: light acquisition unit 20: light transmission unit
30: support frame 40: rotary roll
50: drive device 60: rotating belt
70: blackout 80: artificial light source module

Claims (5)

Fixed light solar lighting apparatus comprising a light acquisition unit 10 for acquiring sunlight as natural light, and a light transmission unit 20 for transmitting the sunlight light to the lighting space using a duct provided with a reflective sheet. In
An opening frame 32 formed at a central portion thereof, the support frame 30 mounted at an end of the light transmission unit 20;
A rotary roll 40 rotatably mounted inside one side of the support frame 30;
A drive device (50) including a drive motor (56) fixedly coupled to the inside of the other side of the support frame (30) in a state facing the rotary roll (40);
A rotating belt 60 connecting the driving device 50 and the rotating roll 40 to each other in order to transmit the rotating force generated by the driving device 50 to the rotating roll 40;
A lower surface is provided with a reflective surface 72, one end of which is fixed to the rotary roll 40, and the other end of which is fixed to the rotary belt 60, according to the rotational movement of the driving device 50. A black and white film for opening and closing the opening 32 of the;
A fixing plate that is formed of a multi-stage strip structure bent at different angles and fixedly coupled to each lower portion of the rotary roll 40 and the driving device 50, and a plurality of artificial light sources 82 fixedly mounted to each strip of the fixing plate. An artificial light source module (80) configured to emit artificial light to an illumination space below the light transmitting unit (20) and a reflecting surface (72) of the black film (70);
A fixed type hybrid solar lighting device having a blackout film having an reflective surface and an artificial light source module, comprising a reflection surface. The method of claim 1,
The rotary roll 40 is made of a pair that is spaced apart from each other in a state facing each other and rotatably mounted inside one side of the support frame 30, each of the outer side edges of the annular groove 43 A rotating rod (42) formed with a rotating rod (46) sharing the same axis of rotation as each of the rotating disks (42) and provided between the rotating disks (42); The driving device 50 is a drive motor 56 is fixedly coupled to the other side of the support frame 30 in the state facing the rotary roll 40, the drive shaft 54 is provided at both ends; An annular groove (53) is formed at the outer side edge and is composed of a drive disc (52) mounted at each end of the drive shaft (54); The rotating belt 60 is fixed to combine the black light source and the artificial light source module having a reflective surface, characterized in that the rotational motion in close contact with each groove 43, 53 of the rotary disk 42 and the drive disk 52 Hybrid solar lighting device. The method of claim 2,
Unevenness 62 is formed on one surface of the rotating belt 60, and unevenness corresponding to the unevenness 62 is formed in the grooves 43 and 53 of each of the rotating disc 42 and the driving disc 52. A fixed type hybrid solar lighting device having a blackout film having a reflective surface and an artificial light source module, characterized in that the combination. delete The method of claim 1,
The strip of the fixing plate is an upper strip bent so that each mounted artificial light source 82 can exit toward the reflective surface 72 of the black film 70, and each mounted artificial light source 82 is A fixed type hybrid solar lighting device having a blackout film having a reflecting surface and an artificial light source module, characterized in that the lower strip is bent to exit toward the lighting space.

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