KR20120029740A - Apparatus for lighting fittings - Google Patents

Abstract

PURPOSE: A window having a lighting fitting is provided to enable indirect illumination through a reflector or a diffusion cover by installing lighting fittings in the window. CONSTITUTION: A window having a lighting fitting comprises a window frame(100) and a lighting fitting(200). The window frame is coupled to a permeable body(10). The lighting fitting comprises a luminous body and a blind. The luminous body has a light emitting source and a diffusion cover. The blind is formed in the top of the luminous body and reflects light emitted from the luminous body for indirect lighting.

Description

Lighting windows {apparatus for lighting fittings}

The present invention relates to a lighting window, and to a lighting window to improve the lighting environment of the room by installing a lighting fixture in the window frame to make indirect lighting into the room.

Consumers who purchase buildings for use as apartments, officetels, condominiums, and villas or offices have reached an astounding level of professional and professional interior decorators.

Even some consumers are in the age of ordering interiors that are designed to their tastes or moods, so builders and interior decorators can find the architecture and interiors to meet the needs of these high-quality consumers. We invest a lot in development and investment.

In Korea, it is known that when a buyer purchases a building, the selection decision process checks the internal structure and convenience facilities of the building, and in particular, decides the purchase according to the visual interior. Therefore, among the interior decoration products, the lighting environment that makes the interior decoration stand out more in the officetels, such as high-end apartments, is more highlighted.

Accordingly, architectural firms install indirect lighting in the indoor (living room) to create an atmosphere indoor mood, allowing users to feel comfortable resting space.

By the way, most of the lighting fixtures installed in the interior of the conventional building is installed on the ceiling or wall. In the case of a lamp installed on a ceiling or a wall, there is a problem of being limited to a simple indirect lighting method in which the illumination is reflected from the ceiling or the floor according to the installation position of the lamp. That is, for the indirect lighting, conventional lighting fixtures installed on the ceiling or wall has a problem that can not be configured indirectly into the room in various ways. In addition, there is a problem in that the lighting fixtures need to be replaced or removed after forcibly removing the lighting fixtures fixedly installed on the ceiling or the wall, and there is a problem in which the scratches are left on the removed ceiling or wall.

The technical problem of the present invention is to install the lighting in the windows and to perform indirect lighting through the reflector or diffuser cover. In addition, the technical problem of the present invention is to provide various structures for installing the light emitting body to the window frame. In addition, the technical problem of the present invention is to provide various structures of the reflector for performing indirect illumination. Another object of the present invention is to provide a means for controlling indirect lighting. In addition, another technical problem of the present invention is to implement a green environment by providing indirect lighting to the windows using solar energy.

An embodiment of the present invention includes a window frame and a light emitter positioned in an area adjacent to the side wall of the window frame to emit light indirectly. The area adjacent to the side wall includes at least one of a top surface of the transmission body adjacent to the side wall, an inner side wall of the window frame, and an outer side wall of the window frame. It is characterized in that the indirect divergence is made by reflecting the light on the upper part of the light emitter or having a transflective diffusion cover on the upper part of the light emitter.

An embodiment of the present invention comprises a window frame, a light emitting body having one side wall coupled to an inner wall of the window frame, the light emitting surface being horizontal to the transmission body, and emitting light toward the front of the transmission body, and a plurality of blind wings. And a blind positioned so that the inner side of the blind faces the light emitting surface.

Embodiment of the present invention, a window frame having a lower support surface formed in a curved surface in contact with the light emitting surface of the light emitting body and a rear support plate extended downward from one end of the lower curved surface, and a hinge axis formed along the lower end of the rear support plate And a light emitting body that slides along the lower curved surface of the window frame frame about the hinge axis and protrudes forward of the transmission body.

An embodiment of the present invention includes a window frame having an accommodating space in which a light emitting body is accommodated and having an extruded inclined plate having an extruded shape located under the light emitting body, and positioned in the accommodating space and having a light emitting surface facing downward. Light emitter.

An embodiment of the present invention includes a window frame having a double hinge insertion space formed at a lower surface thereof, and a light emitting body having a first hinge axis at one side of the light emitting surface and a second hinge axis at the other side of the window frame. The opposite end side of the lower surface transmissive body and the first hinge axis of the light emitting body are connected to each other so that the light emitting surface faces the transmissive surface.

According to an embodiment of the present invention, by applying the indirect lighting to the living room or window installation environment, it is possible to implement the lighting environment suitable for the indoor environment beyond the function of the window. In addition, by additionally providing an indirect lighting function beyond the simple function in the existing windows, there is an effect that can increase the added value different from the existing products. In addition, by implementing the indirect lighting in the windows using solar energy, there is an effect that can save energy and build a green environment.

1 is a view showing a variety of appearance the lighting fixture is installed in the window according to an embodiment of the present invention.
2 is a view showing a window frame consisting of a window frame frame and a window frame according to an embodiment of the present invention.
3 is a view for explaining an example of the various positions in which the lighting fixture is installed in the window frame according to an embodiment of the present invention.
4 is a view showing a window blind lighting fixture is installed in the window according to an embodiment of the present invention.
5 is a view showing a state in which the ceiling reflecting lighting fixtures are installed in the window according to an embodiment of the present invention.
6 is a view showing a state in which the inclined reflective lighting fixture is installed in the window according to an embodiment of the present invention.
Figure 7 is a view showing a state that the lighting fixture of the extrusion inclined plate method according to an embodiment of the present invention is installed in the window.
8 is a view showing a state in which the light fixture of the transmissive reflecting method is installed in the window according to an embodiment of the present invention.
9 is a view showing a state in which the luminaire of the angle adjustment method is installed in the window according to an embodiment of the present invention.
10 is a diagram illustrating an operation unit and a remote controller for a user interface according to an embodiment of the present invention.
11 is a view showing a solar cell attached to a transmission body according to an embodiment of the present invention.
12 is a view showing a state in which the lighting fixture according to the rail system is installed in the window according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention in more detail. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention and to those skilled in the art to fully understand the scope of the invention. It is provided to inform you. Like numbers refer to like elements in the figures.

1 is a view showing a variety of appearance the lighting fixture is installed in the window frame according to an embodiment of the present invention.

Recently, the change of interior interior by the spread of family-centered leisure culture, the change of dialogue and cultural coexistence space between families in the space for relaxation, the change of various interior spaces reflecting individual thoughts and individuality, the individual center of mind The change of residential environment and diversification of interior materials and colors are being pursued.

Accordingly, the embodiment of the present invention is to install the lighting fixtures on the window frame to achieve the effect of directing a variety of indirect lighting.

Lighting fixtures installed in the window frame according to an embodiment of the present invention, has a variety of locations and different distribution areas to play a functional role as mood lighting.

For example, a lighting fixture provided in a window frame performs a role as indirect lighting which gives a subtle mood by making the lower side obliquely illuminate. That is, as shown in FIG. 1, the lighting device 200 installed in the window frame 100 around the transparent body 10 such as a glass window serves as indirect lighting.

In the following description, the transmissive body 10 refers to an external shielding plate provided in a window and door as a material such as a glass window, and does not necessarily mean only a substance that is transmitted through the transmissive body. That is, in the embodiment of the present invention, the material of the permeable body is a concept including not only the permeable material material but also all the external blocking plates that can be installed in the window frame, such as the transflective material material and the non-permeable material material. .

The position of the lighting device 100 installed in the window frame 200 may be installed at various positions of the window frame 100. For example, as shown in FIG. 1 (a), only the upper portion of the window frame 100 is provided. However, as shown in FIG. 1 (b), it may be installed together at the bottom to illuminate or may be installed on all four sides of the window frame as shown in FIG. 1 (c). As described above, the lighting fixture 200 is installed in the window frame 100, the structure is installed may be made in a variety of ways, the installation structure will be described later.

2 is a view showing a window frame consisting of a window frame frame and a window frame according to an embodiment of the present invention.

The window frame 100 used to describe the present invention in detail is a concept including a window frame 101 and a window frame frame 102.

The term window frame 101 refers to a frame composed of a plurality of vertical and horizontal unit window frames to support each edge portion of the transmission body. The window frame 100a is opened or closed outside the window frame 100b as various opening and closing methods such as a tilting, turning, or sliding method.

The term window frame frame 102 refers to a frame supporting each edge of the insect repellent member and a frame fixed to the slab of the wall as a frame-shaped frame coupled to the inner circumferential surface of the window opening formed in the wall. The window frame frame 101 is attached to the window frame frame 102 to open and close the window frame frame 101.

The window frame 100 including the window frame 101 and the window frame frame 102 is formed of an aluminum frame and a poly vinyl chloride (PVC) frame. In addition, various materials may be applied to the frame, for example, a wooden frame made of wood, or an ABS frame made of ABS (acrylonitrile butadiene styrene) resin, which is a new eco-friendly material, and other materials such as aluminum. Can be.

Hereinafter, a device in which a luminaire such as an LED is installed integrally (or separately) on a window frame is hereinafter referred to as an illumination window.

4 to 9, the window frame refers to a window frame unless otherwise noted. However, the present invention is not limited thereto, and it will be apparent that indirect lighting may be implemented by installing lighting fixtures in the window frame as well as the window frame.

3 is a view illustrating an example of various positions in which the lighting fixture is installed in the window frame according to an embodiment of the present invention.

Lighting window according to an embodiment of the present invention, the window frame 100 and the light emitting body 210 of the LED module which is located in the area adjacent to the side wall of the window frame and indirectly emits light.

The light emitter 210 is provided in an area adjacent to the side wall of the window frame 100, as shown in FIG. 3 (a). The light emitter is disposed on the inner side wall 100c in contact with the transmissive body 10 (for example, a glass window). 210 is provided, or as shown in Fig. 3 (b), the light emitting body 210 is provided on the outer side wall (100d) not in contact with the transmissive body 10, or on the upper surface (10a) of the transmissive body 10 It means that the direct light emitter 210 is provided.

In addition, the light emitter 210 may implement indirect illumination by indirectly radiating light. Such indirect divergence is performed by indirect divergence by providing a diffusion cover 210b of a translucent material on the upper surface of the light emitting source 210a of the emitter. can do.

That is, the light emitter 210 may be implemented as the light source 210a of the LED module itself, and in some cases, the light emitter 210 includes a diffusion cover 210b on the top of the light source 210a of the LED module. The diffusion cover 210b is made of a translucent material such as PC (PolyCarbonate), PMMA (Ploy Methyl Meta Acrylate), and diffuses the light emitted from the light emitting source 210a of the LED module as a light source so as to act as a soft indirect lighting. do.

In addition to the diffusion cover 210b, another additional method of indirect lighting may be provided with a separate reflector to achieve indirect lighting. For example, the blind 220 to be described with reference to FIG. 4, the ceiling surface (not shown) to be described with reference to FIG. 5, the extruded inclined plate 160 to be described with reference to FIG. 7, and the translucent surface 10 sanded to a translucent state to be described with reference to FIG. 8. ) Serves as a reflector. Such a reflector structure will be described later together with the respective drawings.

The light emitted from the light emitting source 210a is reflected by the diffusion cover 210b or the reflector, thereby making indirect illumination.

In addition, the luminaire and the window frame may be made in one piece to be manufactured in the same frame, or the luminaire may be coupled to the window frame through a separate fastener (not shown).

According to the light emitting structure and the position of the light emitting body which illuminates the light of the light emitting body described in FIG. It can be implemented in various ways, such as extrusion frame diffusion method (Fig. 7), transmissive reflection method (Fig. 8), angle adjustment method (Fig. 9). Hereinafter, various installation structures of the lighting fixture will be described in detail with reference to FIGS. 4 to 9.

Figure 4 is a perspective view showing a window blind lighting fixture is installed in the window according to an embodiment of the present invention, Figure 4a is a view showing a state indirectly illuminated in the living room by the blind lighting fixture. Figure 4b is a view showing the blinds of the luminaire is closed, Figure 4c is a view showing the blinds of the luminaire reflecting the open illumination at an angle, Figure 4d is a blind of the luminaire completely The figure shows the open state.

As shown in FIG. 4A, a window that illuminates a window blind method (hereinafter, a window blind method lighting window) is reflected by a blind, which serves as a reflector, by the light emitted from the luminaire, and illuminates the living room, resulting in an indirect lighting role. Do it.

4B to 4D, the window blind lighting window includes a window frame 110 to which the transmission body 10 is coupled, and a luminaire 210 to provide indirect lighting. The luminaire 200 includes a light emitter 210 that emits illumination light, such as an LED module, and a blind 220 that serves as a reflector to reflect the light of the light emitter 210 to indirect lighting. For reference, the coupling structure between the transmission body 10 and the window frame 100 may be applied to various coupling structures that are generally used, and thus detailed coupling structure drawings thereof are omitted.

The window frame 100 includes a horizontal unit frame 100a and a vertical unit frame 100b.

The light emitter 210 is fixed to the inner wall 110 of the window frame 100, one end of which is a transmissive support, and is provided on the YZ surface so that the light emitting surface (light emitting surface) is parallel to the transmissive body, thereby transmitting Light is emitted toward the front of the sieve 10. The inner side wall 110 refers to the rear support plate on the YZ surface extending vertically downward from the side of the transmission body in the body of the horizontal unit frame (100a).

The light emitter 210 may be implemented as the light emitting source 210a of the LED module itself, and in some cases, the light emitter 210 includes a diffusion cover 210b on the top of the light emitting source 210a of the LED module. The diffusion cover 210b is made of a semi-transparent material such as PC (PolyCarbonate), PMMA (Ploy Methyl Meta Acrylate), and diffuses the light emitted from the light emitting source 210a of the LED module to serve as a soft indirect lighting. do.

The light emitter 210 includes a light blocking plate 230 along the lower sidewall of the light emitter 210 on the XY surface so that light of the light emitting source 210a of the LED module does not scatter outside the light emitting surface. The light blocking plate 230 serves to concentrate the light emitted from the light emitter 210 in the X-axis, which is a direction perpendicular to the plane of the transmissive body 10, rather than the Z-axis.

On the other hand, the lighting device 200 is provided with a blind 220 made of a plurality of blind wing plates (220a, 220b) on the upper portion of the light emitter 210, the control angle of the plurality of blind wing plates (220a, 220b) Accordingly, light emitted from the light emitter 210 may be emitted in a forward or downward direction.

FIG. 4B is a view illustrating the blind wing plates 220a and 220b being closed. When the blind wing plates 220a and 220b are closed, the light of the light emitter 210 is blind wing plates 220a and 220b. A slight flow through the gap can lead to a subtle atmosphere.

On the other hand, as shown in FIG. 4C, when the blind wing plates 220a and 220b are partially opened at an angle of 45 °, the light emitted from the light emitter 210 is formed on the inner surfaces of the blind wing plates 220a and 220b. Reflected by the light emitting in the room downward direction. Therefore, the user in the room can receive the indirect illumination reflected by the blind wing plates (220a, 220b) can feel the mood lighting.

In addition, as shown in FIG. 4D, when the blind wing plate is completely opened at an angle of 90 °, the light emitted from the light emitter 210 is not affected by the blind wing plates 220a and 220b and is transmitted along the X axis. The light will shine forward.

Meanwhile, the blind 220 having a plurality of blind wing plates 220a and 220b may have a structure in which each of the blind wing plates 220a and 220b is supported by each other by a connection string like a general blind. In addition, each blind wing plate (220a, 220b), the rotation angle is adjusted through the hinge rotation by a drive unit (not shown) installed in the vertical unit frame (100b). If the drive unit is not driven, the blind wing plate may be adjusted by the degree of pulling of the person using the blind adjustment angle adjusting strap as in the general blind. In addition, the plurality of blind vanes 220a and 200b may implement different angles of opening and closing, respectively, to set different angles and amounts of light reflected between the blind vanes.

By adjusting the inclination angle of the blind wing plates (220a, 220b) as described above, it is possible to adjust the dimming control (dimming control) for the step-by-step brightness of the light brightness. For example, when the user controls the driving unit (not shown) through a separate remote control, and adjusts the inclination angle of the blind blades (220a, 220b) step by step, as a result dimming control of the indirect illumination (step) Can be.

FIG. 5 is a perspective view showing a ceiling reflecting lighting fixture installed in a window according to an embodiment of the present invention. FIG. 5A is a perspective view showing a living room indirect reflection by a ceiling reflecting lighting fixture. 5B is a view illustrating a state in which the ceiling reflecting window frame is closed, and FIG. 5C is a view illustrating the state in which the ceiling reflecting window frame is open.

The window frame, which is tilted open in an upper opening type, basically includes a window frame frame 102 fixed to the slab, and a window frame frame 101 that is tilted open and closed while being supported by the window frame frame 102. have.

Therefore, the ceiling reflecting luminaire is a method of applying to the window frame 101, which operates in an upper opening function, that is, a tilting function, in which the upper end of the window frame frame 10 is tilted by 10 ° to 15 °. By placing the light emitting body on the upper side of the window frame 101, the window frame 101 is tilted as shown in Figure 5a so that the top is inclined at a predetermined angle. When the light of the light emitting body 210 on the upper side of the window frame 101 is inclined toward the ceiling surface (not shown), the light reflected from the ceiling surface is reflected into the living room. Thus, in the embodiment of Figure 5, the ceiling surface serves as a reflector.

Since the luminaire 210 of the ceiling reflection type includes the light emitting body 210 on the upper side of the window frame 101, the light emitting body 210 is the window frame in a state where the window frame 101 is closed without being tilted as shown in FIG. 5B. Located between the frame 101 and the window frame frame 102, light does not leak out. On the other hand, when the window frame 101 is tilted open as shown in FIG. 5C, the light of the light emitter 210 is directed toward the ceiling surface (not shown) along the inclined inclination angle.

On the other hand, by placing a sensor (not shown) on the lower surface of the upper frame frame 102, it can be implemented to automatically turn on / off the light emitting unit 210. For example, when the window frame 101 is in contact with the window frame 102 without being tilted, that is, as shown in FIG. 5B, when the window frame frame 101 is closed, a detection sensor (not shown) detects this and emits light 210. Automatically turns off to prevent waste of power. On the other hand, when the window frame frame 101 is tilted to leave the window frame frame 102 as shown in FIG. 5C, a detection sensor (not shown) detects this and automatically turns on the light emitter 210 to provide a ceiling reflection method. Indirect lighting is achieved.

On the other hand, the light emitting body of the ceiling reflecting luminaire is also implemented as a light emitting source 210a such as an LED module, and in some cases is provided with a diffusion cover 210b placed on the upper side of the light emitting source 210a. The diffusion cover 210b is made of a semi-transparent material such as PC (PolyCarbonate), PMMA (Ploy Methyl Meta Acrylate), and diffuses and transmits light emitted from the light emitting source 210a of the LED module to serve as a soft indirect lighting. Do it.

6 is a perspective view showing a state in which the inclined reflective lighting fixture is installed in the window according to an embodiment of the present invention, Figure 6a is a view showing a state in which the inclined reflective lighting fixture is closed, Figure 6b Is a figure showing the state that the inclined reflection type luminaire protrudes.

As another example of replacing the ceiling reflecting luminaire of FIG. 5 described above, the inclined reflecting luminaire of FIG. 6 may include any one of the window frame or the window frame without tilting the window frame from the window frame. The window frame 100 has a structure in which the hinge rotatable light emitting body 210 is disposed.

The lighting device of the inclined reflection method is located on the inner surface of the window frame 100, and has an aiming structure in which the lighting device 210 is slid and rotated through the hinge driving to adjust the angle of the light emitting surface. The light emitting body 210 which is rotated and hinged by the window frame 100 is tilted to illuminate the ceiling surface (not shown) as shown in FIG. 6B, and the light that is inclined to the ceiling surface is reflected to the living room. do. Therefore, the ceiling reflecting effect as shown in FIG. 5, but unlike the window frame is not tilted (tilting) open.

The window frame 100 has an inner surface formed of a curved surface (lower curved surface 105), and the lower curved surface 105 is a part which contacts the light emitting surface of the light emitting body 210. The window frame 100 has a rear support plate 110 on the YZ surface extending downward from one end (permeate side end) of the lower curved surface 105. A hinge shaft 111 is formed along the lower end of the rear support plate 110 in the Y-axis direction.

The light emitting surface of the light emitting body 210 placed on the lower curved surface 105 of the window frame 100 is slid and rotated along the lower curved surface about the hinge axis 111 placed in the Y-axis direction, as shown in FIG. 6 (c). As one protrudes inclined toward the front of the transmission body.

The upper surface of the light emitter 210 forms a protruding curved surface for sliding rotation, and the lower curved surface 105 of the window frame 100 that contacts the upper surface of the light emitting body 210 formed as a curved surface forms a sound curved surface. The protruding curved surface of the light emitting body 210 is slidably rotated along the lower curved surface 105 having the sound shape of the window frame 100 to open and close.

On the other hand, it is possible to adjust the amount of illumination through the angle of the protruding angle of the light emitter 210, that is, through the Aiming (aimming) control method. Protruding angle adjustment may be made through the control of a driving unit (not shown) on the window frame side wall.

On the other hand, by placing a sensor on the window frame 100, it is possible to save power. For example, as shown in FIG. 6A, when the light emitter 210 enters the lower portion of the window frame 100, the detection sensor senses this and turns off the light emitter 210. On the other hand, when the light emitter protrudes out of the window frame 100, as shown in FIG. 6B, the light emitter is turned on to emit light.

On the other hand, the light emitting body of the ceiling reflecting lighting fixture is also implemented as a light emitting source 210a, such as an LED module, and in some cases is provided with a diffusion cover 210b placed on the light emitting source. The diffusion cover 210b is also made of a translucent material such as PC (PolyCarbonate), PMMA (Ploy Methyl Meta Acrylate), and diffuses and transmits light emitted from the light emitting source 210a of the LED module to serve as a soft indirect lighting. Do it.

Figure 7 is a view showing a state in which the extruded inclined plate type lighting fixture is installed in the window, according to an embodiment of the present invention, Figure 7a is a figure showing a state indirectly illuminated by the extrusion inclined plate type lighting fixtures FIG. 7B is a view showing a cross-sectional view of the extruded inclined plate installed in the window frame.

Extrusion frame diffusion lighting apparatus, the window frame 100 having an accommodation inclined space 165 therein the light emitting body 210 is received and the extrusion inclined plate 160 to diffuse the divergent light of the light emitting body 210, Located in the hydraulic pressure space and includes a light emitting body 210 to face the light emitting surface downward. The extruded inclined plate 160 is positioned below the light emitter 210 and has an extrusion pattern for diffusing the emitted light of the light emitter, and may be integrally formed or separated into the window frame 100.

The window frame 100 includes a body body having a storage space 165 in a lower space, a rear support plate 110 extending downward from an end of one vertical side (permeable body) of the storage space 165, and a storage space 165. Extruded inclined plate 160 is inclined to the vertical end of the rear support plate 110 from the other end (the opposite side of the penetrating body) of the.

The extruded inclined plate 160 is implemented in an inclined form, the light emitted from the light emitting body 210 in the interior of the storage space 165 of the window frame 100 to the outside through the extruded inclined plate 160 of the extruded form. Emanates. The extruded inclined plate 160 has a curved extrusion shape to reduce glare and to produce a soft lighting. The pattern of the extruded inclined plate 160 may be a variety of patterns, such as stripes, wavy, curved, etc., it can produce a variety of soft indirect lighting. In addition, by implementing a sliding detachable separated from the window frame 100 so that only the extruded inclined plate 160 is separated, it is possible to position the extruded inclined plate 160 of various patterns by the user's selection under the light emitting body.

Extruded inclined plate 160 is integrated with the window frame 100 may be implemented in the same material as the window frame 100. When implemented with the same material as the window frame 100, the thickness of the extruded inclined plate 160 is made thin so that the light semi-transparent to have an indirect lighting effect.

On the other hand, the light emitter 210 is implemented as a light emitting source 210a, such as an LED module, is located inside the window frame 100 is not directly exposed to the outside, there is no direct light emission. In some cases, a diffusion cover 210b is provided on the light emitting source 210a. The diffusion cover 210b is positioned as a plane parallel to the light emitting source 210a at a vertical end opposite to the transmission body (the end far from the transmission body) of the storage space 165, and the extrusion inclined plate 165 is a diffusion cover. It is inclined from the Y-axis horizontal end 210b ends to the Z-axis vertical end of the rear support plate 110.

The diffusion cover 210b is implemented by a translucent material such as PC (PolyCarbonate), PMMA (Ploy Methyl Meta Acrylate), and diffuses the light emitted from the LED module light emitting source so as to serve as a soft indirect lighting. The diffusion cover 210b is formed only on a part of the light emitting source 210a, not a part of the light emitting source 210a so that the extruded inclined plate 160 having the extrusion pattern is inclined in the remaining lower region of the light emitting source.

8 is a view showing a state in which the light reflector of the transmissive reflecting method is installed in the window according to an embodiment of the present invention, Figure 8a is a light reflector of the transmissive reflecting method is spaced apart from the window frame frame in the direction of the transmissive Figure 8b is a picture showing a state, Figure 8b is a view showing a state in which the transmission reflector luminaire emits light downward in contact with the window frame frame.

The transmissive reflection window is provided with a window frame 100 having a double hinge insertion space (not shown), a first hinge axis 217a formed on one side of the light emitting surface along the Y axis, and a light emitting surface. The light emitter 210 includes a second hinge axis 217b formed along the Y axis on the other side. Opposite end of the lower surface of the window frame 100 (an end far from the transmitting body) and the first hinge axis 217a of the light emitting body are connected so that the light emitting surface of the light emitting body 210 faces the surface of the transmitting body 10. Do it.

The light emitter 210 has a structure that double-drives the drive around the first hinge shaft 217a located at the opposite end of the transmissive body of the window frame 100, and rolls and slides inward. That is, the first hinge shaft 217a moves inside the lower surface of the window frame along the double hinge insertion space (not shown) provided on the lower surface of the window frame 100, thereby as shown in FIG. 8B. The axis 217a is located on the side of the double hinge insertion space near the permeable body, and the second hinge axis 217b is located far from the permeation body in the double hinge insertion space.

On the other hand, as shown in Figure 8a, the first hinge axis 217a of the light emitting body 210 is located at the opposite end of the lower surface of the window frame (end far from the transparent body) so that the light emitting surface of the light emitting body 210 When placed toward the transmissive body 10, the light emitted from the light emitting surface is directed toward the transmissive body, and the light reflected from the transmissive body 10 is illuminated to the indoor living room to indirectly illuminate. At this time, the corresponding portion of the surface of the light emitting body 210 to which the divergent light hits is sanded to make it translucent so that the surface of the light transmitting body serves as a mood indirect lighting as a reflector.

On the other hand, as shown in FIG. 8B, when the light emitter 210 slides into the lower surface of the window frame frame 100 in a double hinge manner, the light emitting surface of the light emitter 210 faces the lower Z-axis. Due to this, the light emitting surface of the light emitting body 210 is directed downward, thereby acting as an indirect illumination by illuminating the entire surface of the transparent body 10 as a whole.

On the other hand, the light emitting body 210 of the light reflector of the transmissive reflecting method is also implemented as a light emitting source 210a such as an LED module, and in some cases a diffusion cover 210b is provided on the light emitting source. The diffusion cover 210b is also implemented with a semi-transparent material such as PC (PolyCarbonate), PMMA (Ploy Methyl Meta Acrylate), and diffuses the light emitted from the LED module light emitting source to serve as a soft indirect lighting.

9 is a view showing a state in which the angle adjustment lighting fixture is installed in the window according to an embodiment of the present invention, Figure 9a is a state in which the angle adjustment lighting fixture is closed to emit the illumination light to the bottom 9B is a view showing a state in which the lighting device of the angle control system is rotated to emit the illumination light in the inclined direction. That is, in Figure 9 the luminaire enables the angle adjustment in a hinge method or a rail method.

Window frame 100 has a light emitting body 210 of the angle adjustment (Aimming) method in the lower side of the Z-axis, the light of the light emitting body 210 is 45 ° by the rotation by the angle control of the light emitting body 210 It has a structure that illuminates the interior of the living room at a certain angle.

To this end, the luminaire of the angle control method includes a light emitting body 210 and a window frame 100 having an accommodation space for rotating and rotating the light emitting body 210 on the lower surface thereof.

The window frame 100 includes a body body, a rear support plate 110 extending downward from the Z-axis at the vertical end of the body side of the body, and a front support plate 111 extending downward from the Z-axis at the vertical end opposite the body of the body. The light emitter 210 has a structure in which a diffusion cover 210b, which is a light emitting surface, is faced downward and the Z-axis vertical end of the front support plate 111 and one side of the light emitter 210 are hinged.

On the other hand, one side of the light emitting body 210 is provided with an angle adjustment rotating shaft located on the Y axis at the vertical end of the front support plate 111. The light emitter 210 rotates by a predetermined angle along the angle adjusting pivot 218. The rotational force of the angle adjusting pivot 218 is provided by a drive unit (not shown) installed in the window frame 100.

Therefore, the user can control and adjust the light source angle of the light emitter by aiming method using a remote control or direct control. That is, as shown in FIG. 9A, the light emitter 210 may be rotated into the window frame to direct the light emitter to the lower portion of the Z-axis. In this case, the light is transmitted to the front of the light transmissive body 10 by sanding the light transmissive body such as a glass window. You can lose.

In addition, as shown in FIG. 9B, the light emitter 210 may be rotated by adjusting the angle of adjustment of the angle adjusting pivot 218, so that the light emitting surface of the light emitter 210 may be inclined to the floor.

The lighting apparatus of the angle adjustment method may be assembled integrally with the window frame 100, such that maintenance and construction are advantageous.

In addition, the light emitter 210 may be implemented in a structure in which the hinge rotates placed in the storage space frame having a quadrant curved shape. That is, in addition to the hinge rotation of the light emitting body itself, the light emitting body is placed in a quadrangular storage space frame having a curved shape, as shown in FIG. It can have

On the other hand, the light emitting body 210 of the luminaire of the angle control method is also implemented as a light emitting source 210a, such as an LED module, and in some cases is provided with a diffusion cover 210b placed on the upper side of the light emitting source 210a. The diffusion cover 210b is also made of a translucent material such as PC (PolyCarbonate), PMMA (Ploy Methyl Meta Acrylate), and diffuses and transmits light emitted from the light emitting source 210a of the LED module to serve as a soft indirect lighting. Do it.

Meanwhile, in FIG. 4 to FIG. 9, the lighting device has a structure that is rotated by a driver (not shown), and a user interface (UI) for controlling the driver is required. As the user interface (UI) as shown in FIG. 10, the window frame 100 is provided with an operation unit 910, or a wireless controller remote control 900 is provided to operate the operation unit 900 or the remote control 910. For example, dimming or aiming control of the lighting fixture 200 may be performed. In addition, a timer setting unit may be provided in the operation unit 900 or the remote controller 910, which is a user interface, to control lighting on / off at a reservation time.

Window blind method (FIG. 4), ceiling reflection method (FIG. 5), inclined reflection method (FIG. 6), extrusion frame diffusion method (FIG. 7), transmission body reflection method (FIG. 8), angle according to an embodiment of the present invention The driving power of the luminaire of the control method (FIG. 9) may be supplied through a separate battery, and as shown in FIG. 11, the electric power may be supplied by the solar module provided on the surface of the transmission body 10. Can be supplied. The solar module collects solar energy through a plurality of solar cells 20 and provides driving power to the lighting device 200 and the driving unit (not shown) attached to the window frame as electrical energy.

The solar module includes a rechargeable battery (not shown) in addition to the solar cell 20, and converts solar energy into electrical energy and charges the rechargeable battery when the lighting device 200 is in an off mode, such as at night or on a cloudy day. Through the lighting fixture 200 can be driven.

Meanwhile, in the present invention, the light emitter may be implemented to be opened and closed in a rail manner. For example, in FIG. 8, the light emitter 210 is provided with a sawtooth-shaped rail instead of the hinge structure, so that the light emitter 210 can be irradiated freely according to the opening and closing step of the rail provided with the direction of the light source. 12 illustrates this case.

Although the invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the invention is not limited thereto, but is defined by the claims that follow. Accordingly, one of ordinary skill in the art may variously modify and modify the present invention without departing from the spirit of the following claims.

10: transparent body 20: solar cell
100: window frame 101: window frame
102: frame frame 200: lighting fixtures
210: light emitting body 210a: light emitting source
210b: Diffusion cover 220: Blinds
160: extruded slope plate

Claims (18)

Window frames;
Light emitter located in an area adjacent to the side wall of the window frame to emit light
And an area adjacent to the side wall corresponds to at least one of a top surface of the transmission body adjacent to the side wall, an inner side wall of the window frame, and an outer side wall of the window frame. The lighting window of claim 1, wherein a light reflector is provided on the light emitter to reflect light or a translucent diffusion cover is provided on the light emitter to make indirect divergence. Window frames;
A light emitter having one side wall coupled to an inner wall of the window frame and having a light emitting surface horizontal to the transmissive body to emit light toward the front of the transmissive body;
A blind consisting of a plurality of blind wings, the blinds are positioned with the inner side of the blind facing the light emitting surface
A lighting window comprising a. The lighting window of claim 3, wherein a light blocking plate is formed on a lower sidewall of the light emitter. The lighting window of claim 3, wherein the plurality of blind vanes move by a predetermined angle individually or as a whole. The lighting window of claim 5, wherein the plurality of blind vanes move at an angle by a driving unit or a blind adjusting strap formed inside the window frame. A window frame having a lower curved surface formed of a curved surface in contact with the light emitting surface of the light emitting body, and a rear support plate extending downward from one end of the lower curved surface;
A hinge shaft formed along a lower end of the rear support plate;
The light emitting body is slid around the hinge axis along the lower curved surface of the window frame frame, the light emitting body protrudes forward
A lighting window comprising a. A window frame having an accommodating space for accommodating the light emitting body, the extruded inclined plate having an extrusion shape and positioned below the light emitting body;
Light emitting body located in the receiving space, the light emitting surface facing downward
A lighting window comprising a. The method of claim 8, wherein the window frame,
A body body having the storage space in a lower space;
Rear support plate extending downward from the vertical end of the transmission body side of the storage space
And an extruded inclined plate disposed at an inverted vertical end of the receiving space, opposite to the vertical end of the rear support plate. A window frame having a double hinge insertion space formed on a lower surface thereof;
It includes a light emitting body having a first hinge axis on one side of the light emitting surface, a second hinge axis on the other side,
And a first hinge axis of the light emitting body is connected to the opposite end side of the lower surface transmissive body of the window frame so that the light emitting surface faces the transmissive surface. The method according to claim 10, wherein the first hinge axis is moved into the lower surface of the window frame along the double hinge insertion space of the window frame, so that the first hinge axis is located toward the transmission body in the double hinge insertion space The illumination window of which the second hinge axis is located opposite the transmission body in the double hinge insertion space. The illumination window according to claim 10 or 11, wherein the transparent body surface is partially opaque sanding treatment. illuminant;
And a window frame having an accommodating space for rotating the light emitting body and rotating the light emitting body, wherein the angle of the light emitting body is hinged or railed. The method according to any one of claims 1, 3, 7, 8, 10 and 13, wherein a sensor is placed on the window frame so that the sensor detects that the light emitting surface of the light emitter deviates from the inner surface of the window frame. Lighting window, characterized in that the on / off operation of the light emitting is made. The window frame according to any one of claims 1,3,7,8,10,13, wherein the window frame is any one or more frames of a window frame frame fixed to the slab or a window frame frame opened and closed while being supported by the window frame frame. Illuminated windows and doors featured. The lighting window of claim 15, wherein the window frame is opened or closed by a tilting, turning, or sliding method. The lighting window of any one of claims 1, 3, 7, 8, 10, and 13, further comprising a solar module that provides electric power to the light emitter. The method according to claim 17, wherein the solar module,
A plurality of solar cells attached to the transmission body for converting solar energy into electrical energy;
Rechargeable battery for charging the converted electrical energy
A lighting window comprising a.

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