JP6510321B2 - Shape with reflective LED - Google Patents

Description

  The present invention relates to a section provided with a reflection type LED for reflecting and emitting light emitted from an LED plate (described later) as light emitting means.

The applicant has developed a luminaire constructed by attaching an LED plate to a case of aluminum extruded material, and has been researching and developing an example of application of the luminaire to a construction material.
For example, in Patent Document 1, an LED plate is disposed on a profile body, a coating material is filled from above the LED plate to form a luminaire, and the luminaire is incorporated as an inner case into an outer case. Is proposed.
Such building materials are attached to the building's side, blindness, baseboard, lower frame, etc., and can be attached indoors to the baseboard of wall surface, etc. As a matter of course, it gives security and security to passers-by, etc., and aims to light up the building (paragraph 0041 of the same document).

  These building materials correspond to the direct lighting type in the field of lighting technology, and the materials such as the outer case constituting the building materials cover the upper side of the lighting fixtures and control the light emitted from the LED plate It was not an important element.

JP, 2013-105611, A

Therefore, in order to improve the relationship between the profile and the illumination light of the LED plate, the applicant focused on the optical element of the profile and developed the application example of the LED plate to solve the following problems. The present invention has been achieved.
That is, specifically, the present invention firstly positions the profile as an attachment means of the LED plate and as an optical means,
Second, the lighting equipment is not a direct illumination type light source but an indirect illumination type light source.
Thirdly, for the light emitted from the lighting equipment, the light is reflected by the reflecting surface of the section to produce a soft light.
Fourth, it is possible to control the light intensity, direction, etc. of the light by reflecting the light emitted from the lighting equipment to the profile.
Fifth, to promote collaboration between lighting fixtures and building materials so that they can be incorporated into building openings, for example, building materials that make up show windows, or incorporated into curtain walls or blindness etc.
Sixth, when incorporating a luminaire into an opening of a building, the systematization thereof is attempted, and it is an object to be able to provide an opening of a building capable of directing light with a great variety.
Seventh, in relation to the third and fourth problems, in order to add variations to the illumination light of the luminaire, to generate light of a property not seen conventionally.
Eighth, the following problem is to be solved in attaching a diffusion plate as a means for adding variations to the illumination light of a lighting fixture.
That is, although the conventional diffusion plate was intended to reduce the directivity and the high luminance as the light emission characteristic of the light emitting diode (LED chip), the irradiation light of the luminaire and the irradiance of the luminaire reflected by the shape material By passing the light through the diffusion plate, it is possible to improve the ease of the maintenance management, etc., in enhancing the performance of the light, and in promoting the collaboration between the lighting fixture and the building material.

  In order to solve the above-mentioned problems, the present invention comprises a luminaire provided with an LED plate as a light emitting means, a reflection surface for attaching the luminaire, and reflecting light emitted from the luminaire, and the reflection surface A profile comprising a profile generating light emitted by the light source and a reflective LED comprising a diffuser attached to the profile, the diffuser being reflected by the first surface of the reflective surface A reflective type light emitting diode that is located at a position through which the transmitted light passes and is reflected and emitted by the second surface of the reflecting surface (claim 1) The invention described in).

In the above-mentioned invention, when the section provided with the reflection type LED is incorporated into a building material, the light emission direction of the lighting apparatus is incorporated in the expected direction of the building material (the invention according to claim 2 ).

In the above invention, the luminaire is disposed in an internal lighting system disposed inside a building material or an external lighting system disposed outside a building material (the invention according to claim 3 ).

According to the present invention, first, the profile can be used as a mounting means for the LED plate and the profile can be used as an optical means.
Secondly, because of the shape provided with the reflection type LED, the LED plate as a light source becomes difficult to see, and the lighting fixture can be made into an indirect lighting type.
Thirdly, since the illumination light of the lighting fixture is reflected by the reflecting surface formed by the profile, it is possible to produce soft light.
Fourthly, the reflective member has a housing frame at one end for housing the luminaire, and the reflective surface is configured to be able to totally reflect the irradiance of the luminaire. Control the direction, etc.
Fifth, by passing the illumination light of the lighting fixture reflected by the shape through the diffusion plate, it is possible to add variation to the light effect and achieve diversification.
Sixth, when incorporating a section with a reflective LED, by incorporating the luminaire so as to match the expected direction of the building, the reflecting surface is exposed in both the inside and the outside of the building, and the show window is When incorporated in the construction materials to be configured, incorporated in curtain walls or blindness, etc., it is possible to provide an opening of a building capable of producing a variety of light.
Seventh, by attaching a diffusion plate, the collaboration between the light fixture and the building material can be changed, and the ease of maintenance management of the light fixture and the building material can be improved.

A perspective view of a section provided with a reflective LED according to the present invention, Cross section of isomorph, Cross-sectional view of the internally mounted isometric material, Cross section of isomorph mounted on the outside light, Cross section of the cross section for incorporating isomorphous material, A cross section of another example of a square for incorporating isomorphs, Cross-sectional view of the erection of the isometric material, Cross section of a vertical frame for incorporating isomorphous material, Longitudinal section of upper frame for incorporating isomorphous material, A blind vertical section for incorporating isomorphous material, Longitudinal section of lower frame for incorporating isomorphous material, Longitudinal section of the base wood for incorporating isomorphous material, Cross section of the side with the fuss wood attached, A cross-sectional view of a section used to incorporate the section in the cross-section shown in FIG. 5; A cross-sectional view of a profile and a girder used to incorporate the profile in the gully shown in FIG. 5; A front view of a building configured according to a system incorporating the profile into the opening of the building; A front view of a building configured according to a system incorporating the profile into the opening of the building; A front view of a building configured according to a system incorporating the profile into the opening of the building; A-A section arrow sectional view shown to FIG. 14A, FIG. 14A is a cross-sectional view taken along line B-B in FIG. The CC section arrow sectional drawing shown to FIG. 14A, The example of composition of a drawing of a hand lumber shown in the CC section arrow sectional view in the same CC part, FIG. 14B is a cross-sectional view taken along the line DD in FIG. The EE cross section arrow sectional drawing shown to FIG. 14B, F-F section arrow sectional drawing shown to FIG. 14C, GG section arrow directional cross-sectional view shown to FIG. 14C, HH section arrow sectional view shown to FIG. 14C, A front view of a building configured according to a system incorporating the profile into the opening of the building; 23, an I-I section arrow sectional view shown in FIG. A front view of a building configured according to a system incorporating the profile into the opening of the building; The JJ section arrow sectional view shown in FIG. 25, K-K section arrow sectional view shown in FIG. Wiring path diagram in the case of incorporating the above-mentioned section into an opening of a building, Wiring path diagram in the case of incorporating the above-mentioned section into an opening of a building, Wiring path diagram in the case of incorporating the above-mentioned section into an opening of a building, A front view of a building configured according to a system incorporating the profile into the opening of the building; 29 is a cross-sectional view of the main part shown in FIG. A cross-sectional view of the main part of the opening of the building configured according to the system for incorporating the profile into the opening of the building; Cross-sectional view of a section provided with an internal-reflection type LED according to another example Cross section of the profile with the same external light type reflective LED, 32 is a cross-sectional view of the internal lighting type of the same shape of FIG. 33 is a cross-sectional view of the external illumination type isomorphic material of FIG. Cross-sectional view of a section provided with an internal-reflection type LED according to another example Cross section of the profile with the same external light type reflective LED, 36 is a cross-sectional view of the internal lighting type isomorphic material of FIG. 36 incorporated in a vertical frame; FIG. 38 is a cross-sectional view of the external illumination type isomorphic material of FIG. 37 being incorporated into a vertical frame.

<Shape with reflective LED (hereinafter, simply referred to as reflective shape)>
An embodiment of a reflective member according to the present invention is described with reference to the drawings.
As shown in FIG. 1, the reflecting member 1 is provided with a lighting fixture 2 and a reflecting surface 30 for reflecting the lighting light while attaching the lighting fixture 2, and emitting light from the reflecting surface 30. It consists of profile 3.

  The said lighting fixture 2 is the coating material with which the main body 21 of the aluminum section which arrange | positions the LED plate 20 as shown to FIG. 2A, the wire 22 which presses the LED plate 20 against the main body 21, and the edge part of the main body 21. It is formed of twenty-three.

  The LED plate 20 is composed of a module in which LED chips are directly disposed on a substrate on which an electrode pattern is drawn. Specifically, the LED plate 20 includes, for example, a substrate on which a wiring pattern and an anchor portion are formed, and an LED chip to which an electrode is connected via auxiliary plating and gold plating applied on the wiring pattern. Here, the LED chips may be of a single emission color, or of a multi-type in which chips emitting red, green and blue are arranged. A lens-like (convex) coating layer is formed around the LED chip.

  The luminaire 2 configured as described above is configured of 12 chips, 16 chips, 20 chips or the like in units of an arbitrary number of chips as needed, and each luminaire 2 is connected to a base connection portion (not shown). ) Can be connected in a long shape.

  The profile 3 is formed into a long shape as shown in FIG. 1, and as shown in FIG. 2A of its cross section, the irradiation surface 24 of the lighting fixture 2 is opposed to the reflecting surface 30 of the curved surface. The mounting portion 32 for mounting the lighting apparatus 2 and the one end side locking portion 33 for mounting the profile 3 to building materials (described later) are provided on one end 31 of the curved surface. The other end side locking portion 35 is provided on the end side 34.

The reflection surface 30 reflects the irradiation light of the irradiation surface 24 over the entire range with respect to the irradiation surface 24 of the luminaire 2 positioned on one end side 31 of the profile 3 (in the present embodiment, total reflection It is formed on the assumption of
In the present embodiment, the reflecting surface 30 is formed substantially in parallel with the irradiation surface 24 and the inclined surface 300 that reflects the light irradiated from the irradiation surface 24 sequentially from the one end side 31, and is irradiated from the irradiation surface 24. And a curved surface 302 which is curved from the plane 301 to the other end 34.

  The mounting portion 32 includes a substantially U-shaped housing frame 320 for housing the lighting device 2 and a slide portion 321 for sliding the engagement fins 25 of the lighting device 2 inside the housing frame 320. There is.

  Since the housing frame 320 is configured to be able to face the irradiation surface 24 to the reflection surface 30, the LED plate 20 as a light source is difficult to see, and the lighting fixture 2 has an indirect illumination type. Can.

  The one end side locking portion 33 extends substantially perpendicularly to the irradiation surface 24 from the accommodation frame 320, and its end is bent in the direction substantially at the same position as the bottom surface of the plane 301. It is formed.

  The other end locking portion 35 is formed at the end of the curved surface 302 so as to extend substantially in parallel with the one end locking portion 33.

Although the said reflective section 1 is comprised by the internal lighting type which arrange | positions the lighting fixture 2 inside like FIG. 2B, it comprises it by the external lighting type which arrange | positions the lighting fixture 2 outside like FIG. 2C. It can also be done.
Note that both the internal illumination type and the external illumination type can be seen through the glass (not shown) from the appearance (the upper side of the paper in FIGS. 2B and 2C).

  The reflection section 1 configured as described above is also seen in the direction in which the lighting fixture 2 is expected (see FIG. 2B and FIG. 2C) or in the direction of finding via the building materials of the building (e.g. Attached to be placed.

It is as follows when the effect of the reflective section 1 is summarized.
(1) The profile 3 is an amyl profile, and the reflective surface 30 generates soft glossy light, which enables the rendering of the soft light, making the profile 3 an optical means. It can function as a metal mirror.
(2) The housing frame 320 of the profile 3 is configured such that the irradiation surface 24 faces the reflection surface 30, so that it is difficult to see the LED plate 20 as a light source. Can be an indirect illumination type.
(3) The light emitted from the lighting device 2 is reflected by the reflecting surface 30 of the reflecting member 1 over the entire range of the reflecting surface 30, and the light from the reflecting surface 30 behind the lighting device 2 as a light source It is controlled to emit in a direction (e.g., the upper side of the paper in FIG. 2A).
(4) In the case where the lighting fixture 2 is attached to a building building (for example, a side stand described later) and disposed in the expected direction, even if the reflection member 1 is placed outdoors, it can also be placed indoors Even if disposed, the reflecting surface 30 is visible from the outdoor side and the indoor side. That is, the reflecting surface 30 can be seen from both sides of the appearance and the interior appearance.
(5) Since the reflecting surface 30 can be viewed from both sides of the appearance and interior appearance and can be configured as an internal illumination type or an external illumination type, the reflection shape member 1 enables irradiation with a variety of changes. The effect of light rich in variations of the wall of the building can be achieved.

  Next, when using the above-mentioned reflective shape material 1 for building materials of a building, as construction materials to be prepared in advance, structural examples of a square, a vertical frame, a blind, an upper frame, a lower frame, a baseboard etc. are shown in FIG. A description will be given based on 10.

<Side 4A>
As shown in FIG. 3, the side plate 4A is composed of a pair of left side plate members 40 and right side plate members 41, and includes surface material accommodating groove portions 42, 42 each accommodating one end of a surface material such as a glass plate; The first support portion 46 and the second support post are provided by having connecting portions 43 and 44 for connecting the left and right standing members 40 and 41 and connecting the respective connecting portions 43 and 44 with each other by using a screw 45 or the like. A portion 47 is formed, and can be disassembled into a pair of left side standing members 40 and right side standing members 41.

  The wall surfaces of the left and right side standing members 40 and 41 on the side of the second support column 47 are formed in a concave shape, and the concave space becomes an LED incorporating space portion 48 for incorporating the reflecting member 1. There is.

  The LED mounting space portion 48 includes receiving pieces 480 and 480 for locking the one end side locking portion 33 of the reflecting member 1 and receiving grooves 481 and 481 for locking the other end side locking portion 35, Channel pieces 482, 482 forming the wiring path of the lighting fixture 2 and spaces 483, 483 which are positions to which the elastic members 13 (described later) are attached by being formed outside the channel pieces 482, 482 ing. Therefore, by incorporating the reflecting member 1 in the LED incorporating space portion 48, the lighting fixture 2 is expected in the expected direction with respect to an opening (hereinafter, also simply referred to as an opening) of a building configured by the square 4A or the like. Be placed.

<Hiroshi 4B>
As shown in FIG. 4, the side 4B is a disassembling side similar to the side 4A, and the LED built-in space portion 48 is formed on the side of the second support portion 47 of the side 4A, and A hollow portion 49 is formed on the tip side. The other configuration is substantially the same as the method 4A, and in the following, the method 4B will be described as a representative of the method 4B.

<Hiroshi 4C>
As shown in FIG. 5, the side plate 4C is a disassembled side plate similar to the side plate 4A, and the LED-embedded space portion 48 is not formed in the second support column 47c. Is formed. The other configuration is substantially the same as that of the side 4A.

<Vertical frame 5>
The vertical frame 5 constitutes the left and right frames of the opening, and as shown in FIG. 6, the surface member accommodation groove portion 50 for accommodating one end of a surface member such as a glass plate, and the reflecting member 1 are incorporated. The LED built-in space portion 51 is provided.

The LED built-in space portion 51 is configured substantially the same as the LED built-in space portion 48, so the same name is given to each of them, and the detailed description will be omitted.
Also in the LED built-in space portion 51, the lighting fixture 2 is arranged in the expected direction with respect to the opening.

<Upper frame 6>
As shown in FIG. 7, the upper frame 6 uses the structure of the warp frame 5 as the upper frame, and includes a surface material accommodation groove 60 for accommodating one end of a surface material such as a glass plate, and the reflection type. An LED incorporating space portion 61 for incorporating the material 1 is provided.

Since the LED built-in space portion 61 is configured substantially the same as the LED built-in space portion 48, the same name is given to each of them, and the detailed description will be omitted.
Also in the LED built-in space portion 61, the lighting fixture 2 is arranged in the expected direction with respect to the opening.

<No eyes 7>
The blind 7 constitutes a horizontal bar used for the opening, and as shown in FIG. 8, it can be removed from the main body 70 and the main body 70, and can be assembled, disassembled, etc. In this case, it consists of the ledge 71 which is separated, and is provided with the face material accommodation groove portions 72, 72 and the LED incorporating space portion 73 for incorporating the reflecting member 1 therein.
Although the wiring passage of the lighting fixture 2 is not required for the blind 7, the same one as the passage piece 482 or the like may be formed.

The LED built-in space portion 73 includes a receiving piece 74 for locking the one end side locking portion 33 of the reflecting member 1, a receiving groove 75 for locking the other end side locking portion 35, and a space 76. ing.
Therefore, also in this LED built-in space part 73, the said lighting fixture 2 will be arrange | positioned in an expected direction with respect to the said opening.

  Although the LED built-in space portion 73 is formed only in the downward direction because the appearance width W of the blind 7 is narrow, the LED built-in space 73 is made wider by making the look-up width W wider. The portion 73 may be formed.

Lower frame 8
The lower frame 8 constitutes a horizontal frame used at the lower part of the opening, and as shown in FIG. 9, the main body 80 and the main body 80 can be detached from the main body 80. It consists of a ledge 81 separated at the time of removal etc., and is provided with a face material accommodation groove 82 and an LED incorporating space 83 for incorporating the reflecting member 1.

  The LED-embedded space portion 83 is configured substantially the same as the LED-embedded space portion 73, and produces the same effect. The same name is assigned to each of them, and the detailed description is omitted.

<Base wood 9>
The baseboard 9 constitutes a cross member used at the bottom of the opening of the building, and as shown in FIG. 10, the main body 90 and the main body 90 can be detached from the main body 90, The assembly includes a ledge 91 separated at the time of disassembly and the like, and includes a face material accommodation groove 92 and an LED incorporating space 93 for incorporating the reflective member 1.

  The LED built-in space unit 93 is configured substantially the same as the LED built-in space unit 73, and produces the same effect.

Next, a configuration example of a profile to be attached to each building material as needed will be described.
<Fushigi material 10>
In the case where the reflective member 1 is not incorporated in each of the LED incorporating spaces 48, 51, 61, 73, 83, 93 of the building materials, each of the LED incorporating spaces 48, 51, 61 , 73, 83, 93, and as shown in FIG. 11, the one end side locking portion 100 to be locked to the respective receiving pieces 480, 52, 62, 74, 84, 94, and the respective receiving grooves 481, 53. , 63, 75, 85, 95, and the other end side locking portion 101 is provided.

<Dedicated auxiliary member 11>
The dedicated auxiliary member 11 is a medium when incorporating the reflecting member 1 into the square 4C when the square 4C is used as a building material, and as shown in FIG. The LED mounting space portion 110 includes a receiving piece 111 for locking the one end side locking portion 33 of the reflecting member 1 and the other end side locking portion 35. A receiving groove 112 to be locked and a space 113 are provided.

<Dedicated auxiliary member 12>
Similar to the dedicated auxiliary member 11, the dedicated auxiliary member 12 is a medium when the reflective member 1 is incorporated into the square 4C, and an LED for incorporating the reflective member 1 as shown in FIG. A mounting space portion 120 is provided, and the LED mounting space portion 120 has a receiving piece 121 for locking the one end side locking portion 33 of the reflecting member 1 and a receiving portion for locking the other end side locking portion 35. A groove 122, a passage piece 123 forming a wiring passage for the lighting fixture 2, and a space 124 formed on the outside of the passage piece 123 are provided.

The building materials as described above are respectively configured on the assumption that the reflective member 1 is incorporated into the indoor side of the opening of the building. It is also possible to give the function of waterproofing etc. to the said reflective shape material 1 and to incorporate in an outdoor side, and it is made to correspond to it and a construction material etc. are comprised.

  Next, a mechanism (system) for assembling a building opening by organically combining the building materials such as the above-mentioned reflective shape 1 and square 4A and the like and the materials such as the fusashi material 10 will be described.

In the system, an internally illuminated reflective profile 1 and an externally illuminated reflective profile 1 are provided.
A side board 4A, a vertical frame 5, an upper frame 6, a blind 7, a lower frame 8 and a baseboard 9, and other construction materials are provided.
In the building opening of a single window, a double window, a step window or a double window assembled using these building materials, the lighting fixture 2 of the reflective profile 1 is illuminated in the vertical direction, lateral direction or vertical direction and lateral direction Depending on the embodiment, it is a system incorporating the reflection profile 1. In this system, the wiring path of the reflective member 1 is selected according to the illumination mode.
In this system, construction is carried out by a predetermined sash method, curtain wall method or the like, and a building opening having the following structure is created. The same applies to the system described later.

LED built-in integrated system This LED built-in integrated system adds a building opening, and becomes a vertical irradiation type, a horizontal irradiation type, a grit irradiation type, and other irradiation types according to the irradiation mode.
In the case of vertical illumination type vertical illumination type, when the building opening is, for example, a continuous window or a continuous stepped window as shown in FIG. 14A, the building 4A, vertical frame 5, upper frame 6, blind frame 7, lower frame By incorporating the reflective material 1 using the base material 8 or the base material 9 and other building materials, the irradiation aspect of the reflective material 1 indicated by "1" in the same figure is formed.
The following is an example of the structure based on FIGS. 15 to 17A.
That is, in a building opening made of a cross 4A, a vertical frame 5, an upper frame 6, a blind 7, a lower frame 8 or a base 9 and other building materials, the reflective profile 1 incorporates the LED of the cross 4A. Each of the space portion 48 and the LED-incorporated space portion 51 of the vertical frame 5 is configured to be incorporated.

When the reflecting member 1 is incorporated into each of the LED incorporating spaces 48, 51, the receiving portion 48 is used as a fulcrum with the other end side locking portion 35 of the reflecting member 1 inserted into the receiving grooves 481, 53 as a fulcrum. After locking the one end side locking portion 33 of the reflection section 1 to the pieces 480 and 52, an elastic material 13 such as a bead (rubber bead) or rubber packing is pushed in.
The structure in which the reflecting member 1 is incorporated into the square 4A enables the reflecting member 1 to be removed from the square 4A. It can be easily replaced. In the replacement of the luminaire 2, the luminaire 2 as the inner case is slid away from the profile 3 as the outer case and removed, and the new luminaire 2 is mounted by sliding on the profile 3.

The symbol “14” in FIG. 16 indicates a wire 4A below the blind 7A as another building material, a wire connected to each lighting fixture 2 incorporated in the warp frame 5 (the lower part described later (Common to the LED wiring 17), the wiring 14 can be arranged and arranged by the compact space of the passage pieces 482 and 54.
In FIG. 17A, reference numeral "15" is a connector which is a relay point of the wires 14 and the like, and these connectors 15 are formed by cutting out the fixed legs (hatched portions) of the hook members 10A (described later). It is disposed in the space of the LED built-in space portion 48, 51, and is connected to the power supply through the upper LED wiring 16 and the lower LED wiring 17.
In addition, as shown in FIG. 17B, those indicated by reference numeral “10A” in FIG. 17A are places where the upper frame 6A, the blind 7A or the lower frame 8A corresponds to the side 4A or the left and right upright frames 5 and 5 It is a fussig material which is provided and which blocks the LED built-in space portion 48, 51 at the portion.
What is shown to the code | symbol "19" of FIG. 17A is an auxiliary metal fitting for preventing the intrusion of rain water etc. to the LED built-in space part 48, 51 from the surface material accommodation groove part 72A of said blind 7A or lower frame 8A. It is provided at both ends of the blind 7A or the lower frame 8A. This acts as a pad for a watertight material (mat sealer) provided at the joint between the side 4A and the left and right upright frames 5, 5 and a part of the watertight material is rolled up from which the LED assembly Rainwater and the like are prevented from entering the hollow spaces 48 and 51.
17A and 17B are sealing portions provided at the connecting portions between the horizontal members such as the horizontal frame 4A and the horizontal frames 5 and 5 and the lower frames 8A etc. The sealing portion S prevents the entry of rainwater or the like into the LED built-in space portions 48, 51.

In the case of the horizontal illumination type horizontal illumination type, the building opening is, for example, a continuous window or a continuous window as shown in FIG. 14B, the building 4A, vertical frame 5, upper frame 6, blind frame 7, lower frame 8 or By incorporating the reflective member 1 using the base wood 9, the fusagi material 10, and other building materials, the irradiation aspect of the reflective member 1 indicated by "1" in the same figure is formed.
Those structural examples are shown as follows based on FIGS. 18 to 19.
That is, in a building opening made of a cross 4A, a vertical frame 5, an upper frame 6, a blind 7, a lower frame 8 or a base 9 and other building materials, the reflective profile 1 incorporates the LED of the upper frame 6. Each of the space members 61 and the lower frame 8 is incorporated in the LED incorporating space portion 83, and the blank material 10 is incorporated in each of the LED incorporating space portions 48 and 51 of the crosspiece 4A and the vertical frames 5 and 5. .

In the case where the brush material 10 is to be incorporated into each LED incorporating space portion 48, 51, the receiving piece 480, with the other end side locking portion 101 of the finger material 10 which has entered the receiving grooves 481, 53 as a fulcrum. After locking the one end side locking portion 100 of the finger 10 to 52, the elastic material 13 is pushed in.
The other configuration is the same as that of the vertical irradiation type, and the detailed description is omitted.

Grit irradiation type Grit irradiation type, when the building opening is, for example, a continuous window or a continuous window as shown in FIG. 14C, the square 4A, the vertical frame 5, the upper frame 6, the blind 7, the lower frame 8 or By incorporating the reflecting member 1 using the baseboard 9 and other building materials, the irradiation aspect of the reflecting member 1 shown by "1" in the same figure is formed.
That is, as shown in FIG. 20 to FIG. 22, in the building opening made of a side 4A, a vertical frame 5, an upper frame 6, a blind 7, a lower frame 8 or a baseboard 9 and other building materials, the reflection profile 1 are respectively incorporated into the LED incorporating space portion 48 of the cross section 4A and the LED incorporating space portion 51 of the vertical frame 5, and the reflecting member 1 is integrated with the LED incorporating space portion 61 of the upper frame 6 and the lower portion. They are respectively incorporated into the LED incorporation spaces 83 of the frame 8.
The other configuration is the same as that of the vertical irradiation type and the horizontal irradiation type, and the detailed description will be omitted.

  As the irradiation type other than the vertical irradiation type, the horizontal irradiation type, and the grit irradiation type, an L-shaped or inverted L-shaped irradiation aspect is assumed in the building opening.

Next, an example of a system different from the above-described system will be described based on FIGS.
In the system, an internally illuminated reflective profile 1 or an externally illuminated reflective profile 1 is provided.
A side board 4A, a vertical frame 5, an upper frame 6, a blind 7, a lower frame 8 and a baseboard 9, and other construction materials are provided.
In the building opening of a single window, a double window, a step window, or a double window assembled with the double 4C, the lighting fixture 2 of the reflection profile 1 is illuminated in the vertical direction, lateral direction or vertical direction and lateral direction. A system incorporating the reflection profile 1 by combining any one of left and right standing members 40 and 41 of the side 4C and either one of left and right side standing members 40 and 41 of the side 4A according to an embodiment It has become.

Existing frame applied type 1
In the existing frame application type 1, in the case where the building opening is configured by the existing side 4C, upper and lower frames 6A, 8A, etc., these configurations and the side 4A, upper and lower frames 6, 8, blind 7 And in combination, to constitute an opening, and is constituted by the following two types.
In addition, since these types do not have the LED built-in space part which does not incorporate the reflective section 1, the said cushioning material 10 becomes unnecessary.

<One unit type>
In the one-unit type, one unit including the left and right side members 40 and 41 and the upper and lower frames 6A and 8A of the side 4C is removed, and instead, the left and right side members 40 and 41 and the upper and lower frames of the side 4A are The building opening is composed of 6, 8 and corresponds to the grit irradiation type (see FIG. 23).
That is, as shown in FIG. 24, in the building opening configured by the cross 4C and the upper and lower frames 6A and 8A, the left and right cross members 40 and 41 of the cross 4A are configured to be one pair. One of the two is fixed to one of the left and right standing members 40 and 41 of the side 4C, and the reflecting member 1 is formed by each LED set of the left and right side members 40 and 41 of the side 4A. It is incorporated in the loading space portion 48, the LED loading space portion 61 of the upper frame 6, and the LED loading space portion 83 of the lower frame 8.

<Single-sided irradiation type>
In the case of the single-sided irradiation type, when an opening is constituted by the above-mentioned 4C and upper and lower frames 6A, 8A, etc., either one of the left-right standing members 40 and 41 of the above-mentioned 4C is left. The left and right standing members 40 and 41 are removed, and any one of the left and right standing members 40 and 41 of the side 4A is attached to constitute a building opening (see FIG. 25).
That is, in the configuration example of FIG. 26, the reflecting member 1 is incorporated in the LED incorporating space portion 48 of the left standing member 40 of the square 4A.
Moreover, in the structural example of FIG. 27, the said reflective shape material 1 is integrated in each LED built-in space part 48 of the right side erect member 41 of said square 4A.

Wiring route In each system described above, the wiring for connecting the lighting devices 2 is a vertical irradiation type, a horizontal irradiation type, along a route formed by the arrangement of the lighting devices 2 and the passage pieces 482 and the like, The following wiring paths are formed for each type of grit irradiation type.
In the vertical illumination type of FIG. 28A, along the arrangement of each lighting fixture 2, the upper end thereof is directed to the power supply, and in the case of the step window, the lower LED wiring is arranged symmetrically about the wiring toward the power supply using the passage piece 482 Be done.
In the lateral illumination type of FIG. 28B, the wiring toward the power supply is formed on either the left or the right using the passage piece 482.
In the grit irradiation type shown in FIG. 28C, the wires directed to the power supply are disposed symmetrically in the left-right direction by using the passage piece 482.
Therefore, the wiring can be easily grasped by such a wiring path.

Next, a system example different from the above-described systems will be described.
In the system, an internally illuminated reflective profile 1 or an externally illuminated reflective profile 1 is provided.
A dedicated auxiliary member provided with an LED built-in space for incorporating these reflective members 1 is prepared.
Depending on the way in which the luminaire 2 of the reflection profile 1 is illuminated in the vertical direction, in the lateral direction or in the vertical direction and in the lateral direction, in the building opening of the existing single window, double window, terrace window or double window It is a system which incorporates the said reflective section 1 in an auxiliary member.
As a result, the following existing frame application type 2 and 3 building openings are completed.

Existing frame applied type 2
In the existing frame applied type 2, when the building opening is configured by the existing side 4 C as shown in FIG. 29, the reflective auxiliary member 11 is used for these configurations to retrofit the reflective profile 1. is there.

That is, as shown in FIG. 30, the dedicated auxiliary member 11 is fixed to the square 4C, and the reflecting member 1 is incorporated in the LED incorporating space portion 110.
Although the dedicated auxiliary member 11 is fixed to the finding surface of the cross 4C, the reflection profile 1 is incorporated in the expected direction of the building material of the building (the cross 4C and the dedicated auxiliary member 11 are integrated) .

Existing frame applied type 3
In the existing frame applied type 3, when the building opening is configured by the side walls 4 C as shown in FIG. 31, the reflecting auxiliary material 12 is retrofitted to the side walls 4 C using the dedicated auxiliary member 12. is there.

  When each of the above systems incorporates the reflection profile 1 into the opening of the building, the systematization of the incorporation can provide the opening of the building capable of producing a variety of light.

Next, with reference to FIG. 32 to FIG. 39, an embodiment of another example of the reflective member 1A and the reflective member 1B, which is configured by attaching the diffusion plate 15 to the reflective member 1, will be described.
In these configuration examples, the same configuration as that of the reflective shape member 1 is illustrated in substantially the same manner in the respective drawings, and the same reference numerals will be given as necessary, and the detailed description will be omitted.

As shown in FIG. 32, the diffusion plate 15 attached to the reflection section 1A passes the light reflected from the lighting fixture 2 by the light reflected by the first surface (first surface) 303 of the reflection surface 30. And, the light passing through is reflected by the second surface (second surface) 304 of the reflecting surface 30 and is disposed at a position where it is emitted.
That is, the end of the diffusion plate 15 in the longitudinal direction is attached to the attachment recess 322 formed on the outer side of the slide portion 321 of the reflecting member 1A, and the other end is in the plane of the reflecting surface 30. It is located in the attachment groove part 323 formed on the boundary line which divides | segments 301 into substantially half.

The diffusion plate 15 is formed in a long shape along the cross section 3 and, as described above, the respective end edges in the longitudinal direction are arranged by being slid in the mounting recess 322 and the mounting groove 323.
The diffusion plate 15 may be any one as long as the incident luminous flux is diffused and emitted, and for example, a trade name "Carboglass DEFR" (Carboglass \ CARBOGLASS is a registered trademark according to the ownership of Asahi Glass Co., Ltd.) is used.

  The mounting recess 322 has an opening facing the reflecting surface 30, and may be formed continuously along the longitudinal direction of the profile 3 or separately formed at predetermined intervals. It is also good.

The mounting groove portion 323 is formed at a position where the diffusion plate 15 can be disposed substantially at right angles to the flat surface 301, and is continuously formed along the longitudinal direction of the cross section 3.
The proportion of the first surface 303 and the second surface 304 with respect to the reflective surface 30 in the case of disposing the diffusion plate 15 is not limited to the above configuration, and it is possible to arbitrarily divide within the region of the reflective surface 30. Can.
The profile 3 is formed thick and reinforced from the plane 301 to a part of the curved surface 302 across the left and right of the mounting groove 323.

  In the reflection section 1A configured as described above, the light emitted from the lighting fixture 2 is the inside of the inclined surface 300 of the first surface 303 and the diffusion plate 15 (upper side of the sheet in FIG. 32) The light is reflected by the flat surface 301, passes through the diffusion plate 15, and is diffused. The light to be diffused is reflected by the flat surface 301 outside the diffusion plate 15 of the second surface 304 (the lower side of the sheet in FIG. 32) or reflected by the curved surface 302 and emitted, or the second It is emitted as it is without being reflected by the surface 304.

  Although the reflection profile 1A shown in FIG. 32 is of the internal illumination type, it may be of the external illumination type of the reflection profile 1A as shown in FIG.

In addition to the effects (1) to (5) exhibited by the reflective shape member 1, the reflective shape member 1A provides the following effects.
(6) The light reflected by the first surface 303 of the reflective surface 30 is diffused by the diffusion plate 15 and then emitted as it is or reflected by the second surface 304 and emitted. A light of a kind of soft gloss different from that of the reflective section 1 is generated.
Therefore, as described later, by incorporating the reflection profile 1A into a building building material, it is possible to perform irradiation with much more variation, and it is possible to achieve an effect of light rich in variations of the wall surface of the building.
(7) The light diffusion plate 15 makes the LED plate 20 as a light source more difficult to see, and the lighting fixture 2 can be an indirect lighting type.

When using the above-mentioned reflective section 1A for building materials of a building, as construction materials prepared in advance, it is a square, a vertical frame, blindness, an upper frame, a lower frame, a baseboard, and a bow tree illustrated in FIG. We will use the configuration examples of materials and dedicated auxiliary members.
For example, a configuration example in the case of attaching the reflection profile 1A to the LED built-in space portion 51 of the warp frame 5 is illustrated in FIGS. 34 and 35, respectively.
That is, in the case where the internal-illumination-type reflection profile 1A is incorporated into the LED-embedding space portion 51, the other-end-side engaging portion of the reflection profile 1A inserted into the receiving groove 53 as shown in FIG. The elastic member 13 is pushed in after the one end-side locking portion 33 of the reflection section 1A is locked to the receiving piece 52 with the point 35 as a fulcrum.
On the other hand, when incorporating the external-illumination-type reflection profile 1A into the LED-embedding space 51, as shown in FIG. 35, one end side locking portion 33 of the reflection profile 1A inserted into the receiving groove 53. The elastic member 13 is pushed in after the other end side locking portion 35 of the reflection section 1A is locked to the receiving piece 52 with the fulcrum as a fulcrum.
Therefore, as in the case of the built-in structure of the reflecting member 1, for example, the lighting fixture 2 can be easily replaced as maintenance of the reflecting member 1A, and the reflecting member 1 and the reflecting member 1A It is easy to replace the In addition, replacement | exchange of the said lighting fixture 2 is performed similarly to the said reflection section 1. FIG.

  Next, with reference to FIG. 36, an embodiment of another reflecting member 1B constructed by attaching a diffusion plate 15 to the reflecting member 1 will be described.

The diffusion plate 15 of the reflection section 1B shown in FIG. 36 is disposed at a position where the light reflected by the reflection surface 30 passes and is emitted as it is.
That is, the diffusion plate 15 has the other end in the longitudinal direction in the mounting recess 324 in which the longitudinal edge is formed on the outer side of the slide portion 321 (the lower side in FIG. 36). It is arrange | positioned at the mounting recessed part 325 formed in the inner side (upper side in FIG. 36) of the other end side latching | locking part 35 of the end side 34, respectively.

  The opening of the mounting recess 324 is opposed to the other end 34, while the opening of the mounting recess 325 is opposed to the opening of the mounting recess 324, respectively, along the longitudinal direction of the section 3 It may be molded continuously, or may be molded at predetermined intervals separately.

  Therefore, the diffusion plate 15 is disposed so as to close the reflecting surface 30, and is disposed slidably in the mounting recesses 324 and 325.

  In the reflection section 1B configured as described above, the irradiation light of the lighting fixture 2 is reflected by the reflection surface 30, and all diffuses through the diffusion plate 15.

  Although the reflection profile 1B shown in FIG. 36 is of the internal illumination type, it may be the reflection profile 1B of the external illumination type as shown in FIG.

In addition to the effects (1) to (5) exhibited by the reflective shape 1 and the effects (7) exhibited by the reflective shape 1A, the reflective shape 1B exhibits the following effects.
(8) The light diffused from the diffusion plate 15 is light reflected by the reflection surface 30, and therefore, is light softer than the light generated by the reflection member 1A.
Therefore, as described later, by incorporating the reflection profile 1B into the building construction material, it is possible to perform irradiation with much more variation, and it is possible to aim for light that is rich in variations of the wall surface of the building.

  The building materials to be prepared in the case of using the above-mentioned reflective shape material 1B for building materials of a building are the same as the above-mentioned reflective shape material 1 and the above-mentioned reflective shape material 1A. If a configuration example in the case of attaching the above-mentioned reflective shape material 1B is shown to it, it is as shown in FIG.38 and FIG.39, and the same effect is produced.

  Fig. 14A to Fig. 31 are organic combinations of the above-mentioned reflecting section 1A and / or the above-mentioned reflecting section 1B, and building materials such as square 4A shown in Figs. The building opening may be assembled as shown in FIG.

For example, in the case of the grid irradiation type shown in FIG. 14C, the reflecting member 1A is incorporated into the LED incorporating space portion 48 of the square 4A and the LED incorporating space portion 51 of the vertical frame 5 respectively, The profile 1 </ b> A is incorporated into the LED incorporating space portion 61 of the upper frame 6 and the LED incorporating space portion 83 of the lower frame 8 respectively.
In such a system, light of softer gloss is generated by the reflective profile 1A as compared to the case where the reflective profile 1 is used in a grid illumination type, so that a variety of illumination is possible, which is a building. It is possible to produce light that is rich in variations of wall surfaces.

Further, the reflecting member 1A is incorporated into the LED incorporating space part 48 of the cross section 4A, the LED incorporating space part 51 of the vertical frame 5 and the LED incorporating space part 61 of the upper frame 6, and The reflective member 1 B may be incorporated into the LED incorporating space portion 83 of the lower frame 8.
In such a system, in addition to the above-described functions and effects, it is possible to prevent dust and the like from entering the inside (the reflecting surface 30) by the reflective shape member 1B incorporated in the LED incorporating space portion 83 of the lower frame 8. . Therefore, the ease of maintenance management of the lighting fixture 2 and a building material can be improved by attaching the said diffusion plate 15. FIG.

Further, the reflecting member 1B is incorporated into the LED incorporating space portion 48 of the cross section 4A and the LED incorporating space portion 51 of the vertical frame 5 respectively, and the reflective member 1B is assembled with the LED assembly of the upper frame 6. Alternatively, they may be incorporated into the LED incorporating space part 83 of the loading space part 61 and the lower frame 8 respectively.
In such a system, since light with a softer gloss is generated from the above-mentioned reflective member 1A, it is possible to achieve irradiation with a great deal of variation, and it is possible to achieve an effect of light with a great deal of variation on the wall of a building. Moreover, the ease of maintenance management of the lighting fixture 2 and a building material can be improved.

  The reflective member 1, the reflective member 1A, and the reflective member 1B can be arbitrarily combined and mixed and used in accordance with the installation environment of the building opening in which each of the above-described systems are assembled.

The present invention is not limited to the embodiments described above, and many modifications are possible within the technical idea of the present invention by those skilled in the art.
For example, the reflection profile 1, the reflection profile 1A or the reflection profile 1B is attached via the building materials (squares, blind, etc.) of the building so that the luminaire 2 is disposed in the finding direction, The surface 30 may be viewed from the front.

1 1A 1B reflective section

DESCRIPTION OF SYMBOLS 2 Lighting fixtures 20 LED plate 21 Main body of aluminum profile 22 Wire material 23 Coating material 24 Irradiated surface 25, 25 Filled engagement

3 Shape member 30 Reflective surface 31 One end side 32 Mounting part 33 One end side locking part 34 Other end side 35 Other end side locking part 300 Sloped surface 301 Flat 302 Curved surface 303 1st surface 304 2nd surface

320 Housing frame 321 Slide portion 322 324 325 Mounting recess 323 Mounting groove portion

4A 4B 4C Building 40 Left side standing member 41 Right side standing member 42, 42 Face material accommodation groove 43, 44 Joint 45 Screw 46 First support 47 Second support 48 LED mounting space 480, 480 Receiving piece 481, 481 Receiving groove 482, 482 Passage piece 483, 483 Space 49 Hollow part

5 Vertical Frames 50 Surface Material Storage Grooves 51 LED Mounting Spaces 52 Receiving Pieces 53 Receiving Grooves 54 Passage Pieces 55 Space

6 upper frame 60 face material housing groove 61 LED mounting space 62 receiving piece 63 receiving groove 64 passage piece 65 space

7 No-Wear 70 Main Body 71 Wedge 72, 72 Surface Material Retaining Groove 73 LED Mounting Space 74 Retaining Piece 75 Receiving Groove 76 Space

DESCRIPTION OF SYMBOLS 8 Lower frame 80 main body 81 leading edge 82 surface material accommodation groove part 83 LED built-in space part 84 receiving piece 85 receiving groove 86 space

9 baseboard 90 main body 91 pressed edge 92 face material storage groove portion 93 LED built-in space portion 94 receiving piece 95 receiving groove 96 space

10 10A Fusing material 100 one end side locking portion 101 the other end side locking portion

11 Special auxiliary member 110 LED mounting space portion 111 receiving piece 112 receiving groove 113 space

12 dedicated auxiliary member 120 LED mounting space portion 121 receiving piece 123 passage piece 124 space

13 elastic material 14 wiring 15 diffusion plate

Claims (3)

A luminaire comprising an LED plate as light emitting means;
A mounting member provided with the lighting fixture, a reflecting surface for reflecting light emitted from the lighting fixture, and a member generating light emitted from the reflecting surface;
A profile comprising a reflective LED consisting of a diffuser attached to the profile,
The diffusion plate is characterized in that light reflected by the first surface of the reflection surface passes through, and the light transmitted through is reflected and emitted by the second surface of the reflection surface. A section with a reflective LED. When the section provided with the reflective LED of claim 1 is incorporated into a construction material, the reflection according to claim 1 is incorporated such that the light emission direction of the lighting apparatus is directed to the expected direction of the construction material. Shape with LED . The member provided with the reflective LED according to claim 2 , wherein the luminaire is disposed inside of a construction material, or is disposed outside of a construction material.

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