KR20130117539A - Venetian lightshelf manually operating - Google Patents

Abstract

PURPOSE: A passive venetian type light shelf is provided to increase the luminous intensity of an indoor space by adjusting the gap and angle of a slate attached with a reflective surface and adjusting lighting intensity. CONSTITUTION: A passive venetian type light shelf (100) comprises a slate (120), a reflective part, a first handle (130), and a second handle (140). The first handle adjusts the angle of the slate with the operation of a user. The second handle changes the distance between the slates by overlapping or spreading the slates about each other. The top of the slate is attached with the reflective part including an aluminum plate.

Description

Venetian Lightshelf Manually Operating

The present invention relates to a passive Venetian type light board, and more particularly, to a passive Venetian type light board capable of improving the illuminance of a room by adjusting the degree of light in the room by adjusting the angle of the light board.

A light board is a device that deeply absorbs natural light emitted through a window.

Homes and offices are equipped with windows for light and ventilation. In addition, window blinds are installed to control the light and protect privacy.

Blinds generally consist of a set of narrow and long rectangular slats, and are configured to block the sun's rays by adjusting the angle of the slats according to the user's intention.

The blinds may perform a blocking function to prevent outside sunlight from entering the interior, but when the amount of sunshine is reduced due to clouds, indoor lighting is lowered, and thus a need for operating a lighting device is generated.

In addition, even in the same indoor space, the portion away from the window has a low illuminance, it is necessary to operate the lighting fixtures.

In addition, to solve this need has been disclosed a light shelf that can automatically adjust the angle of the slate according to the altitude of the sun.

There are various kinds of light shelves. Here, the light ray of the Venetian type, which is one type of light ray, forms a reflective surface on the surface of the slate which is a component of the light ray, and introduces natural light into the room.

Here, the angle of the slate is changed to correspond to the altitude of the sun in order to facilitate the inflow of natural light from the outside.

At this time, the device to track the altitude of the sun and adjust the angle of the slate accordingly is expensive, there is a problem in that the configuration of the blind is complicated and frequent maintenance.

Prior art for the present invention can be exemplified in Patent No. 0806571.

An object of the present invention is to provide a passive Venetian type light board capable of improving illumination in a room by adjusting the degree of light by adjusting the distance and angle of the slate with a reflective surface. do.

In addition, the present invention provides a passive Venetian type light board capable of uniformly adjusting the illuminance of the room by reflecting the light introduced through the window to a predetermined position in the room by adjusting the interval and angle of the slate with the reflective surface. It aims to do it.

In addition, an object of the present invention is to provide a passive Venetian type light board that can be implemented at a lower cost by allowing the user to manually adjust the angle of the light plate.

According to a first aspect of the present invention for achieving the above object, as a length corresponding to the width of the window in which the outdoor light is introduced, it is positioned horizontally to enable the cover of the front of the window, the angle is adjustable and vertically A plurality of slate disposed; A reflector attached to an upper surface of the slate; A first handle capable of adjusting the angle of the slate by a user's operation; And a second handle configured to change the separation interval of the slate by a user's operation so that the slate overlaps or unfolds. It provides a passive Venetian type light disk including a.

The reflector may include an aluminum plate.

The reflector may include aluminum tape.

According to a second aspect of the present invention for achieving the above object, as a length corresponding to the width of the window in which the light from the outside, the horizontally positioned to enable the cover of the upper portion of the window, the angle is adjustable and vertically A slate disposed in plural and having a reflective surface on the surface; A first handle capable of adjusting the angle of the slate by a user's operation; And a second handle configured to change the separation interval of the slate by a user's operation so that the slate overlaps or unfolds. It provides a passive Venetian type light disk including a.

The slate may comprise aluminum.

According to the present invention as described above, the illumination degree of the room can be improved by adjusting the degree of light by adjusting the interval and angle of the slate with the reflection surface.

In addition, by adjusting the interval and angle of the slate attached to the reflective surface it is possible to reflect the light flowing through the window to a predetermined position of the room spaced apart from the window to make the illumination of the room as a whole uniform.

1 is a perspective view showing the configuration of a passive Venetian type light board according to an embodiment of the present invention.
2 is an exploded perspective view showing an example of the configuration of the slate shown in FIG.
3 and 4 are views showing a state of use of the passive Venetian type light board according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing the configuration of a passive Venetian type light board according to an embodiment of the present invention.

Referring to FIG. 1, a passive Venetian type light panel 100 according to an embodiment of the present invention includes a slate 120, a reflector 124, and first and second handles 130 and 140.

The slate 120 covers the upper part of the front of the window so that the light flowing through the upper part of the window is reflected to a predetermined position in the room, and the light flowing through the lower part of the window can be directly introduced into the room.

Slate 120 is formed in the form of a rectangular plate having a predetermined length and width.

The slate 120 is arranged in a plurality of vertically spaced apart at predetermined intervals according to the user's needs. In the present embodiment, the number of slates 120 is set to six, but may be variously set without being limited thereto.

Here, the slate 120 is preferably connected to the bottom of the platform (flatfoam) 110 disposed on the upper side of the window.

At this time, the length of the slate 120 preferably corresponds to the horizontal direction, that is, the width of the window in which the light panel 100 according to the present invention is disposed.

In addition, the width of the slate 120 may be set in various ways according to the needs of the user. However, the width of the slate 120 is set so as to correspond to the spacing interval of the slate 120, it is preferable that both sides are in contact with each other so that the slate 120 is vertically adjusted to block the light. .

In this embodiment, the width and length of the slate 120 were set to 10 cm and 160 cm, respectively.

The surface of the slate 120 may be formed in a flat shape or a curved shape having a predetermined curvature as a whole according to the needs of the user.

The reflector 124 may be disposed on the surface of the slate 120.

The reflector 124 may reflect external light (for example, sunlight) emitted through the window into the room, thereby improving light efficiency.

2 is an exploded perspective view showing an example of the configuration of the slate shown in FIG.

Referring to FIG. 2, the reflector 124 may be disposed on the upper surface of the slate 120.

Here, the reflector 124 may be formed by adhering an aluminum tape having a predetermined reflectance to the upper surface of the slate 120.

In addition, the reflector 124 may be formed by attaching an aluminum plate having a reflective surface to the upper surface of the slate 120.

In addition to the surface of the slate 120 can be used as a reflecting portion by attaching a variety of materials having a reflective surface capable of reflecting sunlight.

Here, in order to reduce the process of attaching the reflector 124 on the slate 120, the slate 120 itself may be manufactured from an aluminum plate having a reflective surface having a predetermined reflectance. In this case, the slate 120 may be made of a material other than an aluminum plate as long as it has a reflective surface.

The first and second handles 130 and 140 are used to improve light efficiency by adjusting the angle and spacing of the slate 120.

The first handle 130 is manipulated by the user and adjusts the angle of the slate 120.

The first handle 130 is formed in a rod shape having a predetermined length and diameter.

Therefore, when the user rotates the first handle 130, the manipulation force is transmitted to the slate 120 through the first wire 132 which will be described later to adjust the angle of the slate 120.

The second handle 140 is manipulated by the user and adjusts the distance between the slates 120.

The second handle 140 is made of a rod shape having a predetermined length and diameter or a wire having a predetermined length.

Therefore, when the user rotates the second handle 140, the manipulation force is transmitted to the slate 120 through the second wire 142 which will be described later to adjust the spacing between the slate 120.

First and second wires 132 and 142 are disposed to adjust the angle and spacing of the slate 120.

The first and second wires 132 and 142 are disposed on the plurality of slates 120 at regular intervals to connect the slates 120 to each other.

The first wire 132 faces the same direction so that the plurality of slates 120 can be set at the same angle.

The first wire 132 is composed of a pair of wires respectively disposed at both ends of the end of the slate 120.

The pair of first wires 132 move in opposite directions when the angle is adjusted by the first handle 130, and the angle is adjusted while pushing or pulling both sides of the slate 120.

The second wire 142 receives the operating force of the second handle 140 to adjust the spacing of the plurality of slates 120.

Paths and detailed configurations in which the operating force of the first and second handles 130 and 140 are transmitted to the first and second wires 142 are well known techniques, and thus detailed descriptions thereof will be omitted.

Hereinafter, the operation of the present invention will be described.

3 and 4 are views showing a state of use of the passive Venetian type light board according to the present invention.

First, the passive Venetian type light panel 100 according to the present invention may be disposed inside or outside the building window. Here, the arrangement position of the light beam 100 is set according to the needs of the user.

When the outside sunlight is irradiated to the room and the illuminance of the entire room is uniform, the user adjusts the second handle 140 so that the slates 120 are all overlapped.

According to the angle of the sun, when the irradiation state of sunlight is not uniform, the user adjusts the second handle 140 so that the slate 120 is all spaced apart as shown in FIG.

Thereafter, the user adjusts the first handle 130 according to the angle of the sun.

That is, the user adjusts the angle of the slate 120 by adjusting the first handle 130 according to the altitude of the sun.

 As shown in FIG. 4, when the sun is located at the A position, the sunlight introduced through the front lower portion of the window 2 is irradiated to the position of A1. When the light panel 100 is not used, the sunlight introduced through the front upper portion of the window 2 may be irradiated to a position of A2 close to the position of A1.

At this time, by adjusting the angle of the user's slate 120, sunlight can be reflected by the reflecting portion of the surface of the slate 120 and then irradiated to the ceiling side of the building 1, and then diffused in the A3 direction, so that the window ( In part 2, sunlight can be supplied to the part with distance, which can improve indoor illumination and improve illuminance uniformity.

In addition, when the altitude of the sun decreases over time as it is located at B, the sunlight flowing through the front lower portion of the window 2 is irradiated to the position of B1, and the light reflected by the slate 120 is directed to the B2 direction. Irradiated with sunlight, sunlight may also be supplied to the distanced portion of the window 2 to improve the illuminance of the room.

According to the present invention, the length of the slate is formed to correspond to the width of the window, but after arranging a plurality of light slabs including slates smaller than the width of the window, if the angle of the light slabs is individually adjusted as necessary, The range of adjustment of the degree of light can be further expanded.

The present invention as described above, by adjusting the degree of light by adjusting the interval and angle of the slate can improve the illuminance of the room, and also by reflecting the light introduced through the window to a predetermined position in the room spaced apart from the window The illuminance of can be made uniform throughout.

While the present invention has been described with reference to exemplary embodiments, 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. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Passive Venetian type light board
120: slate
124: reflector
130: first handle
140: second handle

Claims (5)

A slate having a length corresponding to a width of a window into which outdoor light is introduced, horizontally positioned to enable a cover of an upper portion of the window, and having a plurality of vertically adjustable slates;
A reflector attached to an upper surface of the slate;
A first handle capable of adjusting the angle of the slate by a user's operation; And
A second handle configured to change the separation interval of the slate by a user's operation so that the slate overlaps or unfolds; Passive Venetian type light board comprising a. The method of claim 1,
The reflective Venetian type light board including the aluminum plate. The method of claim 1,
The reflective part is a passive Venetian type light board comprising aluminum tape. A slate having a length corresponding to a width of a window into which outdoor light is introduced, horizontally positioned to enable a cover of the upper portion of the window to be adjustable, and having a plurality of vertically disposed and having a reflective surface on the surface;
A first handle capable of adjusting the angle of the slate by a user's operation; And
A second handle configured to change the separation interval of the slate by a user's operation so that the slate overlaps or unfolds; Passive Venetian type light board comprising a. 5. The method of claim 4,
The slat is a passive Venetian type light board comprising aluminum.

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