JP3173183U - Lighting around - Google Patents

Abstract

Provided is an illuminated peripheral edge that has a simple structure and can be easily attached to a wall surface.
A plate-like main body part 10 is attached around a wall surface near the ceiling and used with a back surface facing the wall surface near the ceiling, and is attached to a mounting surface 20 of the main body part 10. The main body 10 is formed with a crossing surface 22 so as to cross the surface of the main body 10 and extend in the thickness direction of the main body 10. The upper surface portion 21 and / or the intersecting surface 22 is located above the intersecting surface 22 on the surface of the portion 10.
[Selection] Figure 1

Description

  The present invention relates to surrounding edges. More specifically, the present invention relates to a peripheral edge having an illumination function.

  2. Description of the Related Art Conventionally, a direct lighting fixture that illuminates a room with direct light emitted from a light source such as a downlight has been adopted. This direct luminaire is a luminaire that makes the light in the indoor space brighter to the outdoors by direct light.

  Due to changes in lifestyle in recent years, there is a need for a comfortable space where people can feel relaxed indoors. Indirect lighting is adopted as a method for creating such a space. Indirect lighting does not illuminate the interior space with direct light, but radiates light emitted from the light source to the ceiling or wall surface, and is reflected by the reflected light (hereinafter referred to as indirect illumination light). It illuminates the interior space. A room or the like that employs this indirect illumination can have a calmer atmosphere than the case where direct illumination that illuminates the interior with direct light emitted from a light source is employed. For this reason, the room provided with the indirect lighting apparatus which has an indirect lighting function can form the calm comfortable space with respect to the person who entered the room.

As an indirect lighting fixture, for example, an indirect lighting fixture including a protruding portion protruding from a wall surface in the vicinity of the ceiling surface and a lighting device disposed between the protruding portion and the ceiling surface has been proposed (for example, Patent Document 1). In the indirect lighting fixture of patent document 1, the thing of the overhang | projection part (for example, about 200-300 mm in depth) which protruded ahead from this wall surface on the wall surface near a ceiling surface (for example, the downward direction of about 200-300 mm from a ceiling surface) is used. The lighting device is disposed between the projecting portion and the ceiling surface. Then, the light emitted downward from the light emitted from the light source of the illuminating device can be shielded by the overhanging portion, so that the indoor space can be illuminated with the indirect illumination light.
In addition, as an indirect lighting fixture, for example, an indirect lighting fixture including a housing portion in which a lighting fixture can be disposed in a wall surface and a lighting fixture disposed in the housing portion has been proposed (for example, Patent Document 2). ). In the indirect lighting fixture of Patent Document 2, a housing portion having an approximately L-shaped cross section having an opening in the wall surface near the ceiling surface is provided inside the wall, and the lighting fixture is disposed on the inner bottom of the housing portion. Has been. Then, since the lighting fixture is disposed in the housing portion, the light emitted from the light source of the lighting fixture is reflected directly on the inner wall surface in the vicinity of the opening portion in the housing portion without directly radiating the light into the room. Through the room. For this reason, indoor space can be illuminated with indirect illumination light.

  However, in the indirect lighting fixture provided with the overhanging portion on the wall surface described above, the overhanging portion is formed on the wall surface approximately 200 to 300 mm below the ceiling surface, and the overhanging portion protrudes from the wall surface by about 200 to 300 mm. In the vicinity of the wall, it gives the impression that the ceiling is lower than the center of the room. Then, when such an indirect lighting device is installed in a room such as a corridor where the distance between the opposing wall surfaces is short, it gives an impression that the entire ceiling is low, which causes a feeling of pressure on people. There is. Moreover, since it is necessary to form an overhang | projection part so that it may protrude from a wall surface, the problem that the structure of a wall surface becomes complicated arises. Furthermore, since the wall structure must be reinforced in order to hold the overhanging portion, there arises a problem that the number of work steps for installing such an indirect lighting device increases.

  On the other hand, if it has a structure having a housing part for housing the lighting device inside the wall, the overhanging part does not need to be formed, but the device and wall surface structure becomes complicated, and the indirect lighting apparatus is installed The problem that work man-hours increase arises.

  Under such circumstances, the man-hours for arranging the indirect lighting apparatus can be performed in a short time without complicating the structure of the indirect lighting apparatus and the wall surface. What doesn't feel a sense of pressure is desired.

JP 2011-90992 A JP 2009-152145 A

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a lighting-equipped peripheral edge that can be used as indirect illumination, has a simple structure, and can be easily attached to a wall surface.

The lighting-equipped peripheral edge of the first device is a peripheral edge that is used by being attached to a wall near the ceiling, and is attached to a plate-like main body attached with the back surface facing the wall near the ceiling, and the attachment of the main body An illumination part attached to the surface, and the body part intersects the surface of the illumination part and extends in the thickness direction of the body part. The surface is an upper surface portion located above the intersecting surface and / or the intersecting surface on the surface of the main body.
According to a second aspect of the present invention, there is provided a lighting-equipped peripheral edge. In the first aspect, the illuminating unit includes a plurality of LED light source units arranged along the axial direction of the main body, and the crossing surface is the main body. It is the surface extended along the axial direction of the part.
The lighting peripheral edge of the third device is the first or second device, wherein the lighting unit is a band-shaped member, and the plurality of LED light source units arranged along the longitudinal direction of the lighting unit are arranged. It is characterized by having.
According to a fourth aspect of the present invention, in the first, second or third aspect, the intersecting surface is formed so as to be inclined downward.
The surrounding edge with illumination of the fifth device is characterized in that, in the fourth device, the intersecting surface is formed so that an angle formed with respect to a horizontal plane is 0 degree to 45 degree.

According to the first invention, since the cross section is formed in the main body portion, when the illuminating portion is attached to the upper surface portion, the direct light emitted from the illuminating portion toward the lower portion in the vicinity of the main body portion is crossed. Can be shielded from light. Further, when the illumination unit is attached to the intersection surface, the direct light emitted from the illumination unit is emitted only above the intersection surface, so that the direct light traveling downward from the intersection surface can be reliably shielded. Then, in the state where the peripheral edge with illumination is attached to the wall surface in the vicinity of the ceiling, it is possible to block the direct light directed downward in the vicinity of the main body, and to emit the light directly toward the ceiling surface or the like. Then, the direct light radiated toward the ceiling surface or the like is reflected by the ceiling surface or the like to become reflected light and radiated downward from the ceiling surface. That is, it becomes indirect illumination light and can illuminate a space such as a room. Therefore, it is possible to illuminate the room with indirect illumination light simply by attaching a lighting-equipped peripheral edge to the wall near the ceiling. In addition, it is not necessary to form a special overhanging structure for illuminating the room with indirect illumination light on the ceiling or wall, and no special accommodation space for accommodating the illumination unit inside the wall is required. For this reason, the man-hour of the installation work of the surrounding edge with illumination can be reduced, and it can attach to the wall surface of the existing ceiling vicinity. Furthermore, since no special overhang structure is required on the ceiling or wall, the ceiling height can be maintained at almost the same height up to the vicinity of the wall surface, creating an indoor space that does not create a feeling of pressure on people. can do.
According to the second invention, a plurality of LED light source portions can be easily attached to the attachment surface, and light can be emitted directly upward in a wide range along the axial direction of the main body portion. Then, in a state where the peripheral edge with illumination is attached to the wall surface near the ceiling, a wide range of rooms along the longitudinal direction of the main body can be illuminated with indirect illumination light. In addition, since the intersecting surface is formed so as to be a surface extending along the axial direction, when the illuminating unit is attached to the upper surface portion, direct light radiated downward in the vicinity of the main body portion is intersected. Thus, light can be reliably shielded.
According to the third aspect of the invention, since the strip-shaped illumination unit is provided with the plurality of LED light source units, the plurality of LED light source units can be attached to the main body unit at a time only by attaching the illumination unit to the attachment surface. . Then, since it is not necessary to attach only the LED light source part to the main body part separately, it is possible to reduce the number of work steps for providing an illumination function to the main body part.
According to the fourth aspect of the invention, since the intersection surface is inclined downward, that is, the intersection surface is inclined toward the front surface in a state where the main body is attached to the wall surface, when the illumination portion is attached to the intersection surface, the intersection surface is a horizontal plane. As compared with the case where the light source is formed so as to be substantially parallel to the light, light can be directly emitted to a ceiling surface or the like that is further away from the main body. Then, the illuminance of the indirect illumination light can be adjusted according to the usage in the room, and a wider range of indoor space can be illuminated with the indirect illumination light.
According to the fifth aspect of the invention, since the angle formed with respect to the horizontal plane is 0 to 45 degrees, the interior is surely illuminated by indirect lighting while adjusting the illuminance according to the indoor use. In addition, a wider range of indoor space can be illuminated with indirect illumination light.

(A) is a schematic perspective view of the illuminated peripheral edge 1 of this embodiment and its main part schematic enlarged view, (B) is a schematic sectional view of the illuminated peripheral edge 1 of this embodiment and its main part schematic enlarged view. FIG. (A) is a schematic explanatory drawing when the illuminated peripheral edge 1 of the present embodiment is used in a state where the illuminated peripheral edge 1 of the present embodiment is attached to the wall surface WS in the vicinity of the ceiling C. It is a principal part schematic enlarged view when the surrounding edge 1 with illumination of this embodiment is used in the state which attached the surrounding edge 1 with illumination of this embodiment to the wall surface WS of the ceiling C vicinity. (A) is the schematic which looked at the surrounding edge 1 with illumination of this embodiment from the front, (B) is the schematic diagram which looked at the main-body part 10 in the surrounding edge 1 with illumination from the front, (C) These are the schematics which looked at the illumination part 11 single-piece | unit in the surrounding edge 1 with illumination from the front. (A) is schematic sectional drawing of the surrounding edge 1 with illumination at the time of attaching the illumination part 11 to the intersection surface 22, (B) is the illumination surrounding formed so that the intersection surface 22 might incline downward with respect to a horizontal surface. It is a schematic sectional drawing of the edge 1, (C) is a schematic sectional drawing of the surrounding edge 1 with illumination of other embodiment formed so that the crossing surface 22 might incline downward with respect to a horizontal surface. (A) And (B) is a schematic sectional drawing of the surrounding edge 1 with illumination of other embodiment which formed the attachment surface 20 so that the cross section might become the circular arc shape, and (C) is upper direction. It is a schematic sectional drawing of the surrounding edge 1 with illumination of other embodiment which formed two attachment surfaces 20 so that the cross section of the surface part 21 might become circular arc shape.

Next, an embodiment of the present invention will be described with reference to the drawings.
The lighting-equipped peripheral edge of the present invention is a peripheral edge that is used by being attached to a wall surface near the ceiling, and is used to form a special overhang structure on the ceiling or to accommodate a lighting device inside the wall. The present invention is characterized in that the interior can be illuminated with indirect illumination light without forming a housing space.

  Hereinafter, in a building or the like, a case where it is attached to a wall surface near a ceiling in a hallway or in a room will be described, but the place where the lighting peripheral edge of the present invention is attached is not limited to the hallway or the room. For example, if there are a ceiling and a wall surface, such as a wall surface provided on an entrance porch or the outer wall of a building, it can be attached.

Next, the illuminated peripheral edge 1 of the present embodiment will be described.
First, before explaining the structure of the illuminated peripheral edge 1 of the present embodiment, a situation in which the illuminated peripheral edge 1 of the present embodiment is attached to a room and used will be described with reference to FIG.

As shown in FIG. 2, the illuminated peripheral edge 1 of the present invention is used by being attached to a wall surface WS in the vicinity of the ceiling C, and direct light radiated from the illuminated peripheral edge 1 is used as an indoor ceiling surface CS or The room can be reflected on the wall surface WS and the like to illuminate the room with this reflected light, that is, indirect illumination light. In other words, the indoor space can be illuminated with indirect illumination light simply by attaching the lighting-equipped peripheral edge 1 of the present invention to the wall surface WS near the ceiling C. In addition, illuminating an indoor space using this indirect illumination light is called indirect illumination, and a lighting fixture using this indirect lighting is called an indirect lighting fixture.
Moreover, the indirect illumination can be realized simply by attaching the lighting-equipped peripheral edge 1 of the present invention to the wall surface WS in the vicinity of the ceiling C. That is, since it is not necessary to provide a special overhanging structure on the ceiling C or the wall W in order to create indirect illumination light, the ceiling surface CS can be cleaned up to the vicinity of the boundary between the ceiling surface CS and the wall surface WS. Therefore, since the ceiling C of the room can maintain almost the same ceiling height from the center to the wall surface WS, it is possible to form an indoor space that does not feel a sense of pressure, and indirect illumination light. The interior of the room can be made to have a calmer atmosphere as compared with the case where the direct illumination that illuminates the interior with the direct light emitted from the light source is employed. For this reason, the room provided with the lighting periphery 1 of the present invention having an indirect illumination function can form a calm and comfortable space for the person who enters the room.

Next, the illuminated peripheral edge 1 of the present embodiment will be described.
As shown in FIG. 1, the surrounding edge 1 with illumination of the present embodiment includes a main body portion 10 and an illumination portion 11.

(Description of main body 10)
The main-body part 10 is a plate-shaped elongate member, and is a magnitude | size comparable as the surrounding edge currently used for the general building. The size of the main body 10 is not particularly limited as long as it is equivalent to a general peripheral edge. For example, a material having a thickness of about 10 to 25 mm and a height of about 40 to 80 mm can be used.

  The main body 10 has a notch formed on the upper surface. Specifically, the main body 10 is formed by intersecting the upper surface (the upper surface when the main body 10 is attached to the wall surface WS) and the surface (the front surface when the main body 10 is attached to the wall surface WS). It has a structure that includes a cut corner and is cut by a surface connecting both surfaces. And the attachment surface 20 for attaching the illumination part 11 is formed in the part which the main-body part 10 was cut off. The details of the mounting surface 20 will be described later.

  For example, as shown in FIG. 1, the main body 10 can be formed so that the surface formed by the notch has a substantially L-shaped cross section, but the mounting surface 20 formed by the notch is There is no particular limitation as long as the illumination unit 11 can be attached and the surface formed from the front surface side edge to the upper surface side edge of the attachment surface 20 does not face downward with respect to the horizontal direction. .

(Description of mounting surface 20)
As shown in FIG. 1, the attachment surface 20 includes a surface (hereinafter referred to as an upper surface portion 21) formed substantially parallel to the back surface (surface facing the wall surface WS) of the main body portion 10, and the upper surface portion 21. Is formed from a surface (hereinafter, referred to as an intersecting surface 22) that is positioned below and substantially orthogonal to the upper surface portion 21. In other words, the intersecting surface 22 is formed so that the surface intersects the surface of the upper surface portion 21. The intersection surface 22 has a distance from the front end on the surface side to the base end intersecting the upper surface portion 21 in the thickness direction of the main body 10, that is, the length L of the depth. When it attaches to, it is formed so that it may become equal to or more than the width | variety of the illumination part 11. FIG.

As shown in FIG. 1, the intersecting surface 22 is formed so as to form an upper surface of a protruding portion that is a portion protruding forward from the upper surface portion 21 in the main body portion 10.
Moreover, the shape below this upper surface is not specifically limited if the shape of this overhang | projection part is the shape formed so that the upper surface may become the intersection surface 22 mentioned above.

(Description of illumination unit 11)
The illumination unit 11 includes a light source for emitting light, and is not particularly limited as long as the illumination unit 11 has a size that can be attached to the attachment surface 20 of the main body unit 10 described above.
For example, as shown in FIG. 1, if the light source is formed of the LED light source unit 12, the illumination unit 11 can be made thin and small, which is preferable. In this case, since the illumination part 11 can be made thin, the thickness of the main-body part 10 can also be made into the thickness of the level equivalent to a general surrounding edge.
In addition, as shown in FIG. 1, this illumination part 11 becomes a structure which can be attached to the attachment surface 20 mentioned above.

As described above, in the lighting-equipped peripheral edge 1 of the present embodiment, since the intersecting surface 22 is formed in the main body portion 10, when the lighting portion 11 is attached to the upper surface portion 21, the vicinity of the main body portion 10 from the lighting portion 11. The direct light radiated downward can be shielded by the intersection plane 22. Specifically, as shown in FIG. 2B, the direct light radiated downward from the horizontal plane HA including the center of the illuminating unit 11 includes the horizontal plane HA including the center of the illuminating unit 11 and the illuminating unit. 11 is emitted toward the front of the main body 10 within an angle α formed by a line (hereinafter referred to as a light shielding line SL) passing through the center of 11 and the tip of the intersecting surface 22. That is, of the direct light radiated from the illumination unit 11, the light radiated outward from the oblique light SL can be shielded by the intersection plane 22.
Then, in a state in which the lighting-equipped peripheral edge 1 of the present embodiment is attached to the wall surface WS in the vicinity of the ceiling C, all or part of the direct light directed downward in the vicinity of the main body portion 10 can be shielded by the intersection surface 22. And other direct light radiated | emitted from the illumination part 11 can be radiated | emitted toward the wall surface WS etc. which oppose the wall surface WS to which the ceiling surface CS and the main-body part 10 were attached. Then, the direct light radiated toward the ceiling surface CS or the like is reflected by the ceiling surface CS or the like to become reflected light and is radiated downward from the ceiling surface CS. For this reason, the room in which the surrounding edge 1 with illumination of the present embodiment is attached to the wall surface WS in the vicinity of the ceiling C is illuminated by the indirect illumination light.

  Therefore, it is possible to illuminate the room with indirect illumination light simply by attaching the lighting-equipped peripheral edge 1 of the present embodiment to the wall surface WS in the vicinity of the ceiling C.

  In addition, as shown in FIG. 2 (A), there is no need to form a special overhang structure for illuminating the room with indirect illumination light on the ceiling or wall, and a special for accommodating the illumination part inside the wall. Space is also unnecessary. For this reason, the man-hour of the installation work of the surrounding edge 1 with illumination of this embodiment can be reduced, and it can attach to the wall surface of the existing ceiling vicinity. Furthermore, since no special overhanging structure is required on the ceiling or wall, the height of the ceiling C can be maintained at substantially the same level up to the vicinity of the wall surface WS, so that an indoor space that does not cause a feeling of pressure to a person is provided. Can be formed.

  Moreover, if the depth length L of the intersection surface 22 is formed to be equal to or greater than the width of the illumination unit 11, the illumination unit 11 can be attached to the intersection surface 22. Then, the direct light radiated from the illuminating unit 11 can be radiated upward from the intersecting surface 22, and thus the direct light traveling downward from the intersecting surface 22 can be reliably shielded. Then, it is possible to reliably shield direct light traveling downward near the main body 10. That is, it is possible to reliably illuminate the indoor space with indirect illumination light.

  Hereinafter, the structure of each part will be described more specifically.

(Detailed description of the mounting surface 20)
The mounting surface 20 is formed by the upper surface portion 21 and the intersecting surface 22 as described above. The intersecting surface 22 is formed to be a surface extending along the axial direction of the main body 10.
Specifically, as shown in FIG. 1, the body portion 10 is formed with a substantially L-shaped cutout so as to continuously connect both ends of the body portion 10. An upper surface portion 21 and an intersecting surface 22 that are continuous with the surface are formed. The upper surface portion 21 is formed to be a surface substantially parallel to the back surface of the main body portion 10, and an intersecting surface 22 is formed so as to be substantially orthogonal to the upper surface portion 21. That is, the crossing surface 22 always exists in front of the illuminating unit 11 regardless of the position of the illuminating unit 11 attached to the upper surface portion 21. Then, of the direct light radiated from the illuminating unit 11, the light radiated outward from the light shielding line SL can be reliably shielded by the crossing surface 22. Then, in a state where the lighting-equipped peripheral edge 1 of the present embodiment is attached to the wall surface WS in the vicinity of the ceiling C, the room can be illuminated with a wide range of indirect illumination light along the longitudinal direction of the main body 10.

  Moreover, if the thickness of the main body 10 is changed, the length L of the depth of the crossing surface 22 can be adjusted. That is, the angle α formed by the horizontal plane HA passing through the center of the illumination unit 11 and the oblique light SL can be adjusted. Then, the amount of light that can be shielded by the intersecting surface 22 can be adjusted, so that the illuminance of the indirect illumination light can be adjusted.

(Detailed description of the illumination unit 11)
As shown in FIG. 1 and FIG. 3 (C), the illumination unit 11 is a band-shaped member, and a plurality of LED light source units 12 are disposed along the longitudinal axis AL2. It is. The illuminating unit 11 is composed of an optical band-shaped member that is translucent and covered with a flexible covering unit 13.

(Description of LED light source unit 12)
The plurality of LED light source units 12 are arranged in a line at a desired interval along the axis AL2 in the longitudinal direction of the illumination unit 11 described above.
Specifically, as shown in FIG. 3C, the plurality of LED light source units 12 are arranged in a front view along the longitudinal axis AL <b> 2 of each LED light source unit 12 on a strip-shaped member. , Approximately 20 mm to 25 mm spaced apart and arranged in a row. That is, the plurality of LED light source units 12 are formed such that the axis in the arrangement direction thereof coincides with the axis AL2 in the longitudinal direction of the illumination unit 11.
In this case, since the overlap of light emitted from the individual LED light source units 12 is reduced, light can be emitted more efficiently toward the front of the main body unit 10 with a small number of LED light source units 12.

Each LED light source unit 12 is formed of a base 12b and a light emitter 12e arranged so as to be connected to the base 12b.
For example, as shown in FIG. 1, the base 12b is a substantially square of about 3 to 6 mm square, and the light emitter 12e is a substantially circular having a diameter of about 2 to 4 mm. The base 12b and the light emitter 12e can be formed so as to be about 2 to 4 mm. If the base 12b and the light emitter 12e are sized to be accommodated in the optical band-shaped member described above, the shape and size are There is no particular limitation.
In this LED light source unit 12, adjacent LED light source units 12 are electrically connected to each other by a thin conductive wire or the like.
Moreover, although the angle (what is called a light distribution angle) of the light radiated | emitted from the light-emitting body 12e of the LED light source part 12 is 5-135 degree | times, the angle is not specifically limited.

(Description of the covering portion 13)
As illustrated in FIG. 1B, the LED light source unit 12 described above is covered with a covering unit 13. The covering portion 13 is made of a resin having translucency and flexibility.
Since the covering portion 13 has translucency, the light emitted from the LED light source portion 12 in the covering portion 13 can be emitted outside the covering portion 13.
Moreover, since the coating | coated part 13 has covered the LED light source part 12 completely, it can prevent that dust and dust adhere to the LED light source part 12. FIG.
In addition, since the covering portion 13 has flexibility, when a certain amount of impact or the like is applied to the surface of the covering portion 13, the applied force is not directly transmitted to the internal LED light source portion 12. For this reason, the covering part 13 can prevent the LED light source part 12 in the covering part 13 from being damaged even when a certain degree of impact is applied.

  In particular, as shown in FIG. 1B, it is preferable that the covering portion 13 is formed in a strip shape and a plurality of LED light source portions 12 are disposed therein.

For example, as shown in FIG. 1B, the covering portion 13 is formed to have a rectangular cross section, and a plurality of LED light source portions 12 arranged in a substantially single row are disposed therein. Yes.
In this case, a plurality of LED light source portions 12 are disposed inside the belt-shaped covering portion 13, and the base portion including the base 12 b of the adjacent LED light source portions 12 and a conductive wire that electrically connects them is also covered. Covered by the portion 13. Then, when attaching the illumination part 11 to the attachment surface 20, it can prevent working mistakes, such as a disconnection between adjacent LED light source parts 12, etc., and can raise work efficiency.

  In addition, since the plurality of LED light source units 12 are provided in the strip-shaped illumination unit 11, the plurality of LED light source units 12 can be attached to the main body unit 10 at a time only by attaching the illumination unit 11 to the attachment surface 20. it can. Then, since it is not necessary to separately attach only the LED light source part 12 to the attachment surface 20 of the main body part 10, the work man-hour which provides an illumination function with respect to the main body part 10 can be reduced.

  Furthermore, when attaching the illumination part 11 to the attachment surface 20 of the main body part 10, the illumination part 11 can be attached so as to be parallel to the longitudinal axis of the main body part 10. It can be mounted neatly and reliably along the direction axis.

  For example, as shown in FIG. 3, when the illumination unit 11 is attached to the upper surface portion 21 of the main body unit 10, the longitudinal axis AL <b> 2 of the illumination unit 11 is parallel to the longitudinal axis AL <b> 1 of the upper surface portion 21. Install as follows. Then, in a state where the illumination unit 11 is attached to the upper surface portion 21, the plurality of LED light source units 12 are arranged so that the axis in the arrangement direction is positioned on the axis AL2 in the longitudinal direction of the illumination unit 11, respectively. The relative positional relationship between the LED light source unit 12 and the crossing surface 22 is substantially the same. For this reason, as shown in FIG. 2A, in a state where the main body 10 such as a corridor or a room is attached to the wall surface WS in the vicinity of the ceiling C, the indirect illumination light is uniform and clean along the axial direction of the main body 10. It can illuminate indoor spaces such as corridors and rooms.

  In the mounting example of the illumination unit 11 described above, the case where the illumination unit 11 is mounted on the upper surface unit 21 has been described. However, as illustrated in FIG.

  As shown in FIG. 4A, the crossing surface 22 is formed so that the length L of the depth thereof is substantially the same as the width of the lighting unit 11. Can be attached. In this case, since the intersecting surface 22 is formed to be a surface extending along the axial direction, the illumination unit 11 can be easily attached. Moreover, if the illumination part 11 is provided with the some LED light source part 12, since direct light can be radiated | emitted toward the upper direction of the wide range along the axial direction of the main-body part 10, by more reliable indirect illumination The interior space can be illuminated.

  Further, the intersection surface 22 may be formed so as to be inclined downward with respect to the horizontal plane HB. That is, in a state where the main body portion 10 is attached to the wall surface WS, the intersecting surface 22 may be formed so as to incline downward from the base end toward the front surface side (front side) of the main body portion 10. In other words, the intersecting surface 22 may be formed so that the angle β formed by the intersecting surface 22 and the horizontal surface HB becomes a desired value. In this case, light can be directly emitted to the ceiling surface CS further away from the main body 10 as compared with the case where the intersecting surface 22 is formed so as to be substantially parallel to the horizontal surface HB. Then, since the direct light radiated | emitted from the illumination part 11 attached to the crossing surface 22 is radiated | emitted upwards rather than this crossing surface 22, according to the angle (beta) to make, the ceiling surface CS separated from the main-body part 10 is made. Can be radiated. For this reason, the illuminance of the indirect illumination light can be adjusted according to the usage in the room, and a wider range of indoor space can be illuminated with the indirect illumination light.

  Specifically, as shown in FIG. 4B, if the intersection plane 22 is formed so that the angle β formed is 0 ° to 45 °, the illuminance is adjusted according to the indoor use. Thus, it is possible to reliably illuminate the room with the indirect illumination light, and it is possible to illuminate a wider range of the indoor space with the indirect illumination light.

  Moreover, you may employ | adopt what formed the attachment surface 20 as shown in FIG.4 (C). In this case, if the illumination part 11 is attached to the attachment surface 20, the same effect as the case of FIG. 4 (B) can be produced. Moreover, the mounting surface 20 can be formed simply by dropping (removing) the corner formed by the upper surface and the surface of the main body 10, so that the main body 10 can be easily manufactured.

  As described above, the main body 10 has been described with respect to the case where the mounting surface 20 is formed by cutting out the surface connecting the upper surface and the surface of the main body 10. However, as shown in FIG. The mounting surface 20 may be formed so as to be bent. That is, you may form the attachment surface 20 so that it may become a shape dented from the surface of the main-body part 10 toward the back surface.

For example, you may form like main-body part 10A, 10B, 10C as shown in FIG. The main body portions 10A, 10B, and 10C are formed so that the mounting surface 20 has a surface formed by scooping out the surface, that is, a cross-sectional arc shape.
Specifically, the upper surface portion 21 is formed such that the surface is curved from the upper surface of the main body portions 10A, 10B, and 10C toward the lower inside of the main body portions 10A, 10B, and 10C. And the substantially horizontal crossing surface 22 is formed along the thickness direction of main-body part 10A, 10B, 10C so that this upper surface part 21 may be crossed. Then, as shown in FIG. 5, when the illumination unit 11 is attached to the crossing surface 22, all or a part of the direct light emitted upward is emitted toward the upper surface portion 21. The direct light emitted toward the upper surface portion 21 is reflected by the upper surface portion 21. And the reflected light reflected by the upper surface part 21 becomes indirect illumination light, and is radiated | emitted toward the front of main body part 10A, 10B, 10C. That is, since the upper surface portion 21 can be used as a reflecting surface, if the radius of curvature of the cross section of the upper surface portion 21 is adjusted, the angle of indirect illumination light or the indirect illumination from the main body portions 10A, 10B, and 10C to the front. The range in which light is emitted can be adjusted.

  Therefore, if the main body portions 10A, 10B, and 10C are used as described above, only the direct light reflected on the ceiling surface CS near the upper portions of the main body portions 10A, 10B, and 10C is obtained simply by attaching the illumination unit 11 to the intersection surface 22. In addition, direct light emitted forward from the main body portions 10A, 10B, and 10C can also be used as indirect illumination light. In addition, by adjusting the curvature radius of the cross section of the upper surface portion 21, the angle and range of the indirect illumination light radiated forward from the main body portions 10A, 10B, and 10C can be controlled.

As shown in FIG. 5B, it is preferable that the intersecting surface 22 is provided with a protruding portion P that protrudes upward from the intersecting surface 22 on the upper surface of the tip end portion. In this case, even if a person looks at the main body 10 attached to the wall surface WS, the illumination part 11 is hidden by the protruding part P, so the illumination part 11 cannot be seen. For this reason, the surrounding edge 1 with illumination of this embodiment has a clean appearance. And since the illumination part 11 is attached between the base part of the protrusion part P and the upper surface part 21, the illumination part 11 becomes difficult to remove | deviate.
The height of the protrusion P is not particularly limited, but is preferably equal to or greater than the thickness of the illumination unit 11. In particular, when the height of the projecting portion P is higher than the thickness of the illuminating portion 11, the illuminating portion 11 can be reliably hidden behind the projecting portion P when the main body portion 10 is viewed from the front. For example, when the thickness of the illumination part 11 is 2-4 mm, 3-5 mm is preferable and, as for the height of the protrusion part P, 4-5 mm is more preferable.

(Explanation of dimming function and color tone function)
In addition, the lighting unit 11 is electrically connected to a control means for supplying power to the LED light source unit 12 of the lighting unit 11 and controlling the operation of the LED light source unit 12 by a conductive wire or the like. preferable.
The control means includes a power supply unit and a conductive wire electrically connected between the power supply unit and the LED light source unit 12 provided in the illumination unit 11. The power source unit incorporates a power source that converts power supplied from a commercial power source into DC power and supplies it to the LED light source unit 12 and an operation control circuit that controls the operation of the LED light source unit 12 by controlling the operation of the power source. ing. The power supply and operation control circuit provided in the power supply unit are not particularly limited, and those used for general LED light sources can be adopted. The conducting wire is not particularly limited as long as it is a general conducting wire that can be electrically connected between the power source unit and the LED light source unit 12.

  If the control means as described above is connected to the illuminating unit 11, the LED light source unit 12 can be controlled. Therefore, a dimming function or the like can be imparted to the illuminated peripheral edge 1 of the present invention. For example, since the amount of light emitted from the LED light source unit 12 can be adjusted by the control means, the light emitted from the illuminated peripheral edge 1 of the present invention can have a desired brightness.

  Moreover, ON / OFF of the LED light source part 12 can also be adjusted with a control means.

Furthermore, if the light emitter 12e provided in the LED light source unit 12 can emit light of different wavelengths, the color tone of the light emitted from the LED light source unit 12 can be adjusted by the control means. Therefore, the light radiated | emitted from the surrounding edge 1 with illumination of this invention can be made into a desired color tone.

  The lighting-equipped peripheral edge of the present invention is suitable for a peripheral edge that is used by being attached to a wall surface near the ceiling that can illuminate the room with indirect lighting.

DESCRIPTION OF SYMBOLS 1 Surrounding edge with illumination 10 Main-body part 11 Illumination part 12 LED light source part 12b Base 12e Light-emitting body 20 Mounting surface 21 Upper surface part 22 Crossing surface

Claims (5)

It is a surrounding edge that is attached to the wall near the ceiling and used.
It consists of a plate-like main body part that is attached with the back surface facing the wall surface near the ceiling, and an illumination part that is attached to the attachment surface of the main body part,
In the main body,
An intersecting surface is formed so as to intersect the surface and extend in the thickness direction of the main body,
The mounting surface is
An illuminated peripheral edge, which is an upper surface portion located above the intersecting surface and / or the intersecting surface on the surface of the main body portion. The illumination unit is
It comprises a plurality of LED light source parts arranged along the axial direction of the main body part,
The intersection plane is
The illuminated peripheral edge according to claim 1, wherein the peripheral edge is a surface extending along the axial direction of the main body. The illumination unit is
3. The illuminated peripheral edge according to claim 1, wherein the plurality of LED light source parts are members formed in a strip shape and disposed along a longitudinal direction thereof. The intersection plane is
4. The illuminated peripheral edge according to claim 1, 2 or 3, wherein the peripheral edge is formed so as to incline downward. The intersection plane is
5. The illuminated peripheral edge according to claim 4, wherein the angle formed with respect to the horizontal plane is 0 to 45 degrees.

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