JP3180564U - LED line light source built-in building material - Google Patents

Abstract

An LED line that can be used as a new building material using an LED light source by incorporating an LED light source into a building material such as a baseboard and transmitting the building material itself to emit light from the inside to the outside. Provide building materials with built-in light sources.
An LED module 4 in which a plurality of LED light emitters 2 are attached to a long base with a narrow width in a line is fixed to a long heat sink 5 and both ends of the heat sink 5 are fixed. Is sandwiched by sandwiching portions 8a formed at both ends of the sandwiching pedestal to constitute an LED line light source in which a heat radiation space is formed in the lower part of the heat sink 5, and the LED line light source is formed inside a building material such as a baseboard or a surrounding edge. And the exterior of the building material is formed of a synthetic resin that exhibits translucency by adjusting the thickness, and the light emitted from the LED line light source transmits through the exterior of the building material and emits light outward, and at the time of extinguishing the light The building material was allowed to function as a normal building material.
[Selection] Figure 1

Description

  The present invention incorporates an LED line light source in the interior of a line-shaped building material such as a baseboard or a surrounding edge so that light is emitted outward from the interior of the building material and functions as a normal building material when turned off. It relates to building materials with built-in light sources.

  Conventionally, indirect lighting or the like used in a building interior or the like mainly uses lighting fixtures using incandescent lamps and fluorescent lamps. However, in any of incandescent lamps and fluorescent lamps, their components have a predetermined size and a space for heat dissipation to prevent heat generation is necessary. There was a drawback of becoming.

  By the way, in recent years, an LED light source in which a lighting fixture is miniaturized by using a surface-mounted LED module as a light source has been used. This LED light source can function as illumination or a sign with the dimensions and design of the building material as they are.

  As a conventional example of such an LED light source, the lighting fixture described in Patent Document 1 includes an LED line light source in which a plurality of LED modules are arranged in a line. Furthermore, since the light distribution angle of the surface-mounted LED module is narrower than that of a fluorescent lamp or the like, the lighting fixture of Patent Document 1 is wide by providing a light distribution adjustment lens on the front surface of each surface-mounted LED module. It has a configuration in which light is diffused at a light distribution angle.

JP 2011-77002 A

  By the way, LED light sources are known for their low-temperature heat generation, power saving, and long life. In recent years, LED light sources have been used in various fields for new lighting fixtures that replace incandescent and fluorescent lamps. Development is underway to expand.

  The present invention has been made to develop a new application of an LED light source based on the technical characteristics of the LED light source. That is, according to the present invention, in view of the fact that the LED light source is low-temperature heat generation, power saving, and long life, the LED light source is incorporated into a building material such as a baseboard and a surrounding edge, It aims at providing the LED line light source built-in building material which can be used as a new building material using an LED light source by transmitting from the inside of the building material and emitting light outward.

  In order to achieve the above object, the LED line light source built-in building material according to claim 1 of the present invention is an LED module in which a plurality of LED light emitters are attached in a line with a narrow long base. An LED line light source having a heat radiation space formed at the lower portion of the heat sink is configured by fixing the heat sink to a long heat sink and sandwiching both ends of the heat sink with sandwiching portions formed at both ends of the base. A resin cover formed of a synthetic resin that exhibits translucency by adjusting the thickness of the exterior of the LED line light source built-in building material in which the LED line light source is mounted inside a building material such as wood or a surrounding edge. From the LED line light source provided inside the building material by adjusting the thickness of the resin cover or adjusting the thickness of the translucent part formed on a part of the resin cover With obtaining illumination light Serra emits light outward through the exterior building materials, characterized in that so as to function building materials as an ordinary building material at the time of off.

  According to the LED line light source built-in building material of the present invention, since the LED light source is low-temperature heat generation, power saving, and has a long life, the LED light source is formed from a synthetic resin such as a skirting board or a surrounding edge. It can be used as a new building material that is incorporated into a building material, transmits the building material itself from the inside, emits light outward, and functions as a normal building material when turned off.

  In addition, according to the present invention, at least the resin cover is formed using a resin material having a predetermined thickness such as a vinyl chloride resin, so that necessary illuminance can be obtained by adjusting the thickness. It becomes possible. Further, the light emitted from the LED line light source is transmitted in a diffused state through the resin cover, and the LED line light can be diffused to the front thereof in a substantially uniform state over the entire transmission surface.

  Further, according to the present invention, the LED light arranged in a line at a predetermined pitch is not emitted in the form of visible spots, but is diffused to the uniform light over the entire transmission surface, and uneven shadows are difficult to make. The surroundings can be illuminated with no light.

  In addition, according to the LED line light source built-in building material according to the present invention, LED light is emitted from the interior of a ceiling edge, a wall decoration mall, and the like, in addition to the base material that has been conventionally a design material or a finish parting material. It can be configured as a building material. As a result, as described above, it is applicable to wall border lines, handrails, joinery frames, stair nosing and non-slip, as well as surrounding edges of baseboards, ceilings, etc. Since the LED light sources are arranged at a fine pitch, it can be used as a line-shaped building material illumination in which the overall length dimension can be freely changed according to the length of the building material. Further, not only in a line shape but also in an interconnected manner according to the space to be used, an L-shaped shape, a T-shaped shape, a cross shape, a B-shaped annular shape, or the like is possible.

  Furthermore, the LED line light source building material of the present invention can be used not only as an illumination but also as an induction sign lamp depending on the installation position. By combining it with a human sensor, night illumination, night guidance illumination, emergency It can also be used as lighting for equipment and energy-saving lighting.

  In addition, the installation locations of the LED line light source built-in building material of the present invention include residential rooms and corridors, water surroundings, hotel accommodation rooms and corridors, hospital or clinic hospital rooms and corridors, water surroundings, private rooms for elderly facilities, and so on. It can be installed in various places such as corridors, around water, ship rooms and corridors, and offices and laboratories. At the same time, it is effective for disaster prevention such as evacuation guidance such as evacuation passages and stairs.

(a) is the perspective view which shows the example which comprised the LED line light source used for this invention, and the sandwiching base was divided into the left and right bodies, and (b) incorporated the LED line light source into the baseboard. It is a perspective view which shows a building material, (c) is the perspective view which comprised the pinching base of the LED line light source used for this invention integrally in right and left, (d) is a pinching base that supports the full length of an LED line light source. It is a top view in the case, and (e) shows a top view when a piece-shaped sandwiching base with a gap supports the LED light source. It is sectional drawing which shows the example which utilized the LED line light source built-in building material used for this invention for a baseboard, (a) is what comprised the LED line light source in one row, (b) is two rows of LED line light sources. It is configured. It is a figure which shows the example which utilized the LED line light source built-in building material by this invention for a baseboard, (a) is sectional drawing which shows the state before attaching a resin cover, (b) is the state which attached the resin cover. It is a perspective view shown. It is a figure which shows the example which utilized the LED line light source built-in building material by this invention for the surrounding edge which has an arc-shaped cover, (a) is sectional drawing which shows the state before attaching a resin cover, (b) is resin It is a perspective view which shows the state which attached the cover. It is a figure which shows the example which utilized the LED line light source built-in building material by this invention for the surrounding edge which has a flat cover, (a) is sectional drawing which shows the state before attaching a resin cover, (b) is a resin cover. It is a perspective view which shows the state attached. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the example which utilized the LED line light source built building material by this invention for the molding | mall which has an arc-shaped cover, (a) is sectional drawing which shows the state before attaching a resin cover, (b) is a resin cover. It is a perspective view which shows the state which attached. It is a figure which shows the example which utilized the LED line light source built-in building material by this invention for a surrounding edge, (a) is sectional drawing which shows the state which removed the resin cover, (b) shows the state which attached the resin cover. It is sectional drawing. (A) is a perspective view which shows the example which utilized the LED line light source built-in building material by this invention for the illumination of a ceiling, (b) is sectional drawing which shows the state attached to the protruding corner etc. of a beam member. (a)-(c) is sectional drawing which shows the example applied to the handrail which attached the LED line light source built-in building material by this invention to the wall surface.

  As shown in FIGS. 1A, 1B, and 1C, the LED line light source built-in building material 1 according to the present invention has a plurality of LED light emitters (light emitting diodes 2) formed on a narrow and long LED base 3. The LED module 4 that is mounted in a line at intervals is fixed to the heat sink 5 that also serves as a long structure, and both ends of the heat sink 5 are sandwiched between the sandwiching portions 8a that are formed at both ends of the pedestal 8, The LED line light source 6 in which the heat radiation space 10a is formed in the lower part of the heat radiating plate 5 is configured by being sandwiched by 8a.

  Further, the LED line light source 6 is attached to the interior of the building material such as the baseboard 9 or the surrounding edge, and the exterior of the building material is formed of a synthetic resin (resin cover 11) that exhibits translucency by adjusting the thickness. The light emitted from the LED line light source 6 provided inside the building material by adjusting the thickness of the building material passes through the exterior of the building material (the light transmitting portion 12 of the resin cover 11) and emits light outward. Is made to function as a normal building material.

  That is, as shown in FIG. 1A, the LED line light source 6 used in the present invention is a line of light emitting diodes 2 as LED light emitters on a long and narrow LED base 3 with a small pitch at a predetermined interval. The LED module 4 is configured by being attached in a shape, and the LED module 4 is fixed to a long metal heat radiating plate 5 such as an aluminum plate in order to provide heat dissipation and strength.

  In addition, the LED line light source 6 is provided with a power supply stabilizer 7 (see FIGS. 8A and 8B), and a well-known component or the like is used as a configuration necessary for the LED light source.

  Further, as shown in FIG. 1 (a), both ends of the metal heat sink 5 of the LED line light source 6 are attached by being sandwiched between sandwiching portions 8a having a clearance at both ends of the sandwiching pedestal 8. . As shown in FIG. 1 (a), the sandwiching pedestal 8 is configured as a left-right separate type as shown in FIG. It is also possible. Further, as shown in FIG. 1 (d), the sandwiching pedestal 8 has a piece-like shape with an interval as shown in FIG. 1 (e), in addition to supporting the entire length of the heat radiating plate 5 of the LED light source 6. The LED line light source 6 may be supported by the sandwiching pedestal 8.

  Further, as shown in FIGS. 4A and 4B, the shape may be changed depending on the attachment part of the sandwiching base 8. In any case, as shown in FIGS. 1 (a), (b), (c), and further, FIGS. 4 (a), (b), etc., the sandwiching portions 8a, 8a provided at both ends of the sandwiching pedestal 8 are used for LED. The heat radiation plate 5 of the line light source 6 is sandwiched at both ends, and a heat radiation space 10a for heat radiation is provided at the lower portion of the heat radiation plate 5 so that the heat radiation from the metal heat radiation plate 5 is diffused into the heat radiation space 10a. ing.

  Moreover, said LED line light source 6 is unitized by comprising the elongate metal heat sink 5 which served as the elongate LED base | substrate 3 and a structure in predetermined length, such as 60 cm in length, and this is installed place Accordingly, a seamless LED line light source 6 can be configured by connecting to a linear shape, an L shape, a T shape, a cross shape, a circular shape of a square shape, or the like.

  Further, for example, the LED line light source 6 is attached to the interior of the building material such as the baseboard 9 or the surrounding edge shown in FIG. 1B, and the length of the building material is set to the above-mentioned base 3 and the metal heat sink 5. By setting the LED line light source 6 and the building material having a predetermined length corresponding to the length as the LED line light source built-in building material 1 as a unit, the building material 1 is linear, L according to the installation location. By connecting to a letter-shaped, T-shaped, cross-shaped, square-shaped ring, or the like, it is possible to construct a seamless building material, that is, a seamless LED line light source built-in building material 1.

  In the above configuration, the building material 1 incorporating the LED line light source shown in FIG. 1B is formed by forming the exterior of the baseboard 9 with synthetic resin as the construction material, and for the LED line light source 6 in the middle of the front surface of the baseboard 9. The storage chamber 10 is formed along the longitudinal direction of the baseboard 9. Further, a sandwiching pedestal 8 whose tip is bent in an L shape is fixed to the back surface of the storage chamber 10, and both ends of the heat sink 5 of the LED line light source 6 are attached to the sandwiching portions 8 a and 8 a on both sides of the sandwiching pedestal 8. Fix by pinching.

  On the other hand, a step 9a is formed above and below the front surface of the storage chamber 10, and a resin cover 11 made of a vinyl chloride resin having a predetermined thickness is fixed to the step 9a with an adhesive or the like. In such a configuration, by making the front surface of the resin cover 11 and the front surface of the baseboard 9 the same surface, the resin cover 11 becomes a building material having an exterior integrated with the baseboard 9.

  Further, the main body of the baseboard 9 is made of a vinyl chloride resin, and the material of the resin cover 11 is made of vinyl chloride resin as a synthetic resin that exhibits translucency by adjusting the thickness. It is also possible to use building materials. Furthermore, it is also possible to obtain a desired illumination color by coloring the baseboard 9 and the resin cover 11 in a predetermined color or in a wood grain.

  In any case, at least the resin cover 11 is formed using a vinyl chloride resin as a synthetic resin exhibiting translucency by adjusting the thickness, and the thickness is adjusted to a thickness equal to or less than a predetermined value. Light emitted from the light source 6 is transmitted through the resin cover 11 in a diffused state, and the LED line light can be diffused in a uniform state in front of the light. As a result, the LED light arranged in a line at a predetermined pitch is not emitted in the form of visible spots, but is diffused as uniform soft light, and the surroundings are illuminated with gentle light that is difficult to shadow. Is possible.

  In addition, since the thickness of the exterior of the synthetic resin building material or the resin cover 11 that can transmit the LED light in a diffused state as described above is greatly affected by the coloring state and the intensity of the LED line light, It is preferable to set by adjusting the light transmission in consideration of the light intensity required for the installation location of the LED line light source built-in building material 1.

  Also, in this example, vinyl chloride resin is used as a synthetic resin that exhibits translucency by adjusting the thickness, but it cannot be specified because of the relationship with the intensity of the light source, but it has some strength as a building material. A synthetic resin other than vinyl chloride resin can be used as long as it is a synthetic resin that can transmit light from a portable light source.

  2 (a) and 2 (b), the LED line light source built-in building material 1 covers the front portion of the baseboard 9 made of vinyl chloride resin with a resin cover 11, and a part of the resin cover 11 emits LED light. The light-transmitting portion 12 having a predetermined thickness that can be transmitted is configured. In such a configuration, as shown in FIG. 2 (a), the LED line light source 6 is configured in one line, and as shown in FIG. 2 (b), the LED line light source 6 is arranged in two lines. It is also possible to configure in a shape. In this case, each line of the two rows is composed of LED diodes of different emission colors, the light change is adjusted by emitting both of them, and the emission of different colors by emitting one of the lines. It is also possible to perform.

  The LED line light source built-in building material 1 according to the present invention can be used in various places as a building material in addition to being used for the baseboard 9 as shown in FIG. Therefore, an embodiment to which the LED line light source built-in building material 1 according to the present invention is applied will be described below with reference to the drawings.

  In this embodiment, the building material 1 incorporating the LED line light source according to the present invention is used for the baseboard 9. The structure is such that a resin cover 11 is detachably provided on the mounting base 16 shown in FIG. 3 (a), and a translucent portion 12 capable of transmitting light by adjusting the thickness is provided on a part of the front surface of the resin cover 11. Then, as shown in FIG. 3B, the resin cover 11 is detachably locked to the mounting base 16 by the claws 17a and 17b. With such a configuration, the sandwiching base 8 is fixed inside the mounting base 16 and the LED line light source 6 having a predetermined length is attached. The light from the LED line light source 6 is transmitted through the resin cover 11. Can be emitted.

  In this embodiment, the LED line light source built-in building material 1 according to the present invention is used for the surrounding edge 15 having the arc-shaped light transmitting portion 12. The structure is such that the resin cover 11 having the arc-shaped translucent portion 12 is detachably locked by the claws 17a and 17b on the mounting base 16 having an angle cross section shown in FIGS. 4 (a) and 4 (b). It is.

  Further, as shown in FIG. 4B, the sandwiching pedestal 8 is fixed to the inner wall surface of the mounting base 16 inside the resin cover 11, and the sandwiching portions 8 a and 8 a on both sides of the sandwiching pedestal 8 are fixed to the sandwiching pedestal 8. By sandwiching both ends of the heat dissipation plate 5 of the LED line light source 6, light from the LED line light source 6 can be emitted through the resin cover 11.

  In this embodiment, the LED line light source built-in building material 1 according to the present invention is used for a peripheral edge 15 having a planar resin cover 11. The configuration is such that the resin cover 11 having a planar shape is detachably locked to the mounting base 16 having an angled cross section shown in FIG. 5A with the claws 17a and 17b, and is shown in FIG. 5B. As described above, the flat portion on the front surface is formed as the light transmitting portion 12 having a predetermined thickness.

  In addition, by fixing the sandwiching pedestal 8 to the inner wall surface of the mounting base 16 and mounting the LED line light source 6 having a predetermined length, the light emitted from the LED line light source 6 is transmitted through the front surface of the resin cover 11. 12 can be transmitted to emit light.

  In this embodiment, the LED line light source built-in building material 1 according to the present invention is formed in a molding shape having a semicircular resin cover 11. The configuration is such that the resin cover 11 having a semicircular cross section is detachably locked to the concave mounting base 16 shown in FIGS. 6 (a) and 6 (b) by the claws 17a and 17b.

  Further, as shown in FIG. 6 (b), the sandwiching base 8 is fixed to the mounting base 16 inside the resin cover 11, and the LED line light source 6 having a predetermined length is attached to the sandwiching base 8. The light emitted from the LED line light source 6 can be transmitted through the translucent portion 12 of the semicircular arc-shaped resin cover 11 to emit light.

  In this embodiment, the LED line light source built-in building material 1 according to the present invention is used as a corner material for a corner having a curved resin cover 11. The configuration is such that the curved transparent member 12 is detachably locked by the claws 17a and 17b as the resin cover 11 on the mounting base 16 having an angle cross section shown in FIGS. 7 (a) and 7 (b). It is.

  Further, by installing the LED line light source 6 inside the resin cover 11, the light emitted from the LED line light source 6 can be transmitted through the light transmitting portion 12 of the resin cover 11 to emit light. Yes.

  In this embodiment, the LED line light source built-in building material 1 according to the present invention is used for lighting the ceiling 19, the beam-shaped portion, and the descending ceiling portion 20. That is, the LED line light source built-in building material 1 shown in FIG. 8A is attached with a protruding member 22 having a plurality of inclined steps 22a. In addition, the resin cover 11 is attached to the upper surface of the overhang member 22 and the power supply stabilizer 7 is housed in the overhang portion 22.

  Further, the LED line light source built-in building material 1 shown in FIG. 8B has a protruding member 22 attached to a protruding portion of a beam-shaped portion or a descending ceiling portion 20, and a resin is formed on the upper surface of the protruding portion 22. A cover 11 is attached. Further, a curved surface 22 b that smoothly curves is provided on the side portion, and the power supply stabilizer 7 is housed in the frame member 25 at the protruding corner of the beam member 20.

  The example which applied the LED line light source built-in building material 1 of the present Example shown to Fig.9 (a)-(c) to the handrail 21 attached to the wall surface 24 grade | etc., Is shown. That is, the building material shown in FIG. 9A is a handrail 21 in a form that is fixed to the wall surface 24 of the corridor with screws 26, and a storage chamber 10 for attaching the LED line light source 6 is provided below the handrail portion 21, The lower surface of the storage chamber 10 is fixed so as to be covered with the light transmitting portion 12 of the resin cover 11.

  Further, in the building material shown in FIG. 9B, a bar-shaped handrail 21a having a circular cross section is attached to the tip of a handrail support hardware 23 fixed to the wall surface 24 of the hallway, and the LED line light source 6 is attached to the lower portion of the handrail 21a. A storage chamber 10 is provided, and the lower surface of the storage chamber 10 is fixed so as to be covered with the light transmitting portion 12 of the resin cover 11.

  Furthermore, the building material shown in FIG. 9 (c) forms a storage chamber 10 in which the LED line light source 6 is attached to the side of the thin long press 21b fixed to the wall surface 24 of the hallway, and the side of the storage chamber 10 is formed. The resin cover 11 is fixed so as to be covered with the light transmitting portion 12.

  The LED line light source built-in building material of the present invention has an LED light source that is low-temperature heat generation, power-saving, and has a long life, and this LED light source is placed inside a building material such as a baseboard or a surrounding edge. It can be used as an LED line light source built-in building material that can be used as a new building material using an LED light source by incorporating the building material itself and transmitting light from the inside to the outside.

1 LED line light source built building material 2 LED emitter (light emitting diode)
3 LED base (base)
4 LED module 5 Heat sink 6 also serving as a structure LED line light source 7 Power stabilizer 8 Pinch base 8a Pinch part 9 Skirting board 9a Recessed step 10 Storage chamber 10a Heat radiation space 11 Resin cover 12 Translucent part 15 Around edge 16 Mounting bases 17a, 17b Claw 18 Corner material 19 Ceiling 20 Beam-shaped part and descending ceiling part 21a Handrail 21b Long press 22 Overhang member 22a Step 22b Curved surface 23 Handrail support metal 24 Wall 25 Frame member 26 Screw

Claims (1)

An LED module in which a plurality of LED light emitters are attached to a long base with a narrow width in a line is fixed to a long heat sink, and both ends of the heat sink are sandwiched and formed at both ends of the pedestal. In the LED line light source built-in building material in which the LED line light source in which the heat radiation space is formed at the lower part of the heat radiating plate is formed by sandwiching with the sandwiched portion, and the LED line light source is attached to the interior of the building material such as the baseboard or the surrounding edge
The exterior of the building material that incorporates the LED line light source is composed of a resin cover made of synthetic resin that exhibits translucency by adjusting the thickness, and the thickness of the translucent part formed on the resin cover thickness adjustment or part of the resin cover By adjusting the height, the light emitted from the LED line light source provided inside the building material is transmitted through the exterior of the building material to obtain illuminance that emits light outward, and the building material is made to function as a normal building material when turned off. LED line light source built building material characterized by