JP2004335235A - Beam illumination - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide beam illumination allowing a luminaire to be arranged at an any position, facilitating the arrangement in either of a new or existing house, and improving design quality of the interior with the luminaire installed. <P>SOLUTION: The luminaire is disposed in an area surrounded by a pair of side covers 110 installed on a ceiling 11 from one-side wall surface 12 to the other-side wall surface, and a center cover 120 or a spacer cover 320 disposed in lower edges of the side covers 110. A seating is fixed to the ceiling 11, and the luminaire and the side covers 110 are installed on the seating. An extraction hole for a power line is bored in the surrounded area. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a beam lighting, and more particularly to a beam lighting in which a lighting fixture is installed on an indoor ceiling and is surrounded by a beam-shaped cover.
[0002]
[Prior art]
BACKGROUND ART In conventional beam lighting, there is a type in which a lighting device is incorporated in a horizontal beam (formed by a shape member (channel material)) having a U-shaped groove that forms a ceiling frame structure in a suspended ceiling structure. (For example, refer to Patent Document 1).
[0003]
[Patent Document 1]
JP-A-5-182508 (page 3-5, FIG. 3)
[0004]
[Problems to be solved by the invention]
However, the conventional beam lighting has a problem as described below because the lighting fixture is incorporated in the cross beam constituting the ceiling frame structure.
{Circle around (1)} Since the arrangement position of the lighting equipment is limited to the position of the cross beam, the lighting equipment cannot be arranged at a free position.
{Circle around (2)} Since the compact fluorescent lamp is housed in the groove of the cross beam, the compact fluorescent lamp may not be able to be installed depending on the shape of the cross beam, and the houses where the beam illumination can be installed are limited.
{Circle around (3)} Since the incandescent lamp cannot be accommodated inside the groove, it protrudes from the ceiling surface.
{Circle over (4)} Since the lighting fixtures are installed on the upper surface of the cross beams, work behind the ceiling occurs, and particularly, work for installing the existing indoors becomes difficult.
(5) In addition, since the power supply line to the lighting equipment is laid behind the ceiling, the power supply line becomes long, and the work behind the ceiling occurs. In particular, the work for installation in an existing house becomes difficult. ing.
[0005]
The present invention has been made in order to solve the above-described problems, and it is possible to arrange a lighting fixture at a free position on a ceiling or a wall surface, and the arrangement can be applied to both new and existing houses. It is another object of the present invention to provide a beam lighting in which the design of the installed indoor is improved.
[0006]
[Means for Solving the Problems]
Beam lighting according to the present invention (installed on the ceiling)
Lighting equipment installed on the indoor ceiling,
A pair of side covers installed on the ceiling from one wall surface to the other wall surface so as to sandwich the lighting device,
A center cover disposed at a lower edge of the side cover.
In addition, the beam lighting (installed on a wall surface) according to the present invention includes:
Lighting equipment installed on the indoor wall,
A pair of side covers installed on the wall surface from the floor surface to the ceiling surface so as to sandwich the lighting device,
And a center cover disposed on a side edge of the side cover.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a perspective view showing Embodiments 1 to 3 of beam illumination according to the present invention. In FIG. 1, a first beam illumination 100, a second beam illumination 200, and a third beam illumination 300 are provided on a ceiling 11 of a room 10 from one wall surface 12 (for example, the east wall surface) of the other, not shown. It is installed over the wall surface (for example, the west wall surface).
[0008]
The first beam lighting 100 has a pair of side covers 110 extending from one wall surface 12 to the other wall surface (not shown), a center cover 120 and a spacer cover 320 arranged at the lower edge of the side cover 110, and A plurality of unillustrated fluorescent lamp devices 150 are housed therein (described in detail below).
[0009]
The second beam illumination 200 includes a pair of side covers 110 extending from one wall surface 12 to the other wall surface (not shown), and a spacer cover 320 disposed at a lower edge of the side cover 110. The incandescent lamp device 250 is housed, and the incandescent lamp itself is directly viewed from a gap between one spacer cover 320 and the other spacer cover 320. (Detailed below).
[0010]
The third beam lighting 300 includes a pair of side covers 110 extending from one wall surface 12 to the other wall surface (not shown), a center cover 120 and a spacer cover 320 arranged at a lower edge of the side cover 110, A fluorescent lamp device 150 and an incandescent lamp device 250 (not shown) are accommodated therein, and the incandescent lamp itself is directly viewed from a gap between the center cover 120 and the spacer cover 320. (Detailed below).
[0011]
The side cover 110 has a plate shape in which both end portions abut one wall surface 12 and the other wall surface (not shown) or face each other at a predetermined interval, and a single plate material or a plurality of plate materials are gathered. It was formed. Further, in the first beam illumination 100, the second beam illumination 200, and the third beam illumination 300, the side cover 110, the center cover 120, and the spacer cover 320 are the same for ease of explanation, but the present invention is not limited thereto. Is not limited to this, and may be different from each other.
[0012]
Therefore, since the main bodies of the fluorescent lamp device 150 and the incandescent lamp device 250 installed on the ceiling 11 are surrounded by the side cover 110 and the center cover 120 or the spacer cover 320, they are not exposed indoors. If a predetermined aesthetic treatment is applied to the side cover 110 and the center cover 120, the design of the room is further improved. Hereinafter, each will be described.
[0013]
[Embodiment 1]
2 and 3 show the first beam illumination according to the first embodiment of the beam illumination according to the present invention. FIG. 2 is a sectional view, and FIG. 3 is a perspective view of each part for explaining an assembling state.
(Fluorescent device)
The first beam illumination 100 includes a guide rail 101 fixed linearly to the ceiling 11, a fluorescent lamp base 130 guided by the guide rail 101 and installed on the ceiling 11, and a fluorescent lamp installed on the fluorescent lamp base 130. A web is sandwiched between the lamp device 150, the fluorescent lamp base 130 and the fluorescent lamp device 150, and a side cover supporting plate 140 having a U-shaped cross section in which a flange hangs down, and a V spring 160 (V spring fixing device) for raising the center cover 120 154).
The fluorescent lamp device 150 includes a fluorescent lamp main body 151, a lamp socket 152 and a reflector 153 provided on the fluorescent lamp body 151, a V-spring fixture 154 provided on the reflector 153, and a fluorescent lamp 155. ing.
[0014]
(Side cover)
The side cover 110 has a plate-like shape arranged from one wall surface to the other wall surface, and is provided with a design by performing a predetermined aesthetic treatment. Then, the upper end locking portions 111 of the pair of side covers 110 are locked to the upper end portion 131 of the fluorescent lamp pedestal 130, and the inner side surface of the side cover 110 is bonded to the side cover support plate 140. By the bonding, the strength of the side cover 110 itself can be increased, and thermal deformation due to heat generation of the fluorescent lamp device 150 can be prevented.
Note that the material of the side cover 110 is not limited, and any material may be used. Further, a plurality of materials may be collected and formed.
[0015]
(Center cover)
The center cover 120 is fixed to a V-spring mounting bracket 161 and is pulled up by a V-spring 160 that has penetrated the V-spring mounting bracket 161. Therefore, the lower end portions 112 of the side covers 110 enter the grooves 121 at both edges of the center cover 120.
The material of the center cover 120 is not limited, and any material may be used. Further, a design, a fogging treatment, or a predetermined unevenness, coloring, or the like may be applied to enhance the design. Further, a plurality of materials may be collected and formed.
[0016]
(Spacer pedestal)
The spacer pedestal 330 is mounted on the ceiling 11 by being guided by the guide rail 101 at a predetermined distance from the end surface of the fluorescent lamp pedestal 130 or in contact with the end surface of the fluorescent lamp pedestal 130. A side cover support plate 340 having a U-shaped cross section is installed on the spacer pedestal 330, a V spring fixture 354 is installed on the side cover support plate 340, and a V spring 360 is fixed to the V spring fixture 354. I have.
[0017]
(Spacer cover)
A V-spring mounting bracket 361 is fixed to the spacer cover 320, and is pulled up by a V-spring 360 that has penetrated the V-spring mounting bracket 361. Therefore, the lower end 112 of the side cover 110 enters the grooves 321 at both edges of the spacer cover 320.
That is, the spacer cover 320 is in contact with the side cover 110 similarly to the center cover 320.
The side cover support plate 340 may be provided on the long fluorescent lamp base 130 and the spacer cover 320 may be disposed directly below the fluorescent lamp base 130, or the spacer cover may be longer than the spacer base 330. 320 may extend to just below the adjacent fluorescent light pedestal 130.
[0018]
(Fluorescent light pedestal)
The fluorescent lamp pedestal 130 may be installed in such a manner that the length of the fluorescent lamp pedestal 130 is substantially the same as the length of the fluorescent lamp main body 151, and that the fluorescent lamp pedestal 130 is installed in a long position. A short fluorescent lamp body 151 is installed at a position near the end face or a center position), a plurality of fluorescent lamp bodies 151 are installed on a long fluorescent lamp base 130, or two short fluorescent lamp bodies 151 are installed. In some cases, a long fluorescent lamp body 151 is installed across the fluorescent lamp pedestal 130.
Therefore, the fluorescent lamp pedestal 130 having a length suitable for construction can be appropriately selected, so that the fluorescent lamp pedestal 130 can be easily carried into the room and the installation work can be easily and quickly performed. When the fluorescent lamp device 150 is installed on the ceiling 11 at a predetermined interval, if the spacer pedestal 330 is arranged between the fluorescent lamp pedestals 130, the fluorescent lamp pedestal 130 can be easily installed. It becomes easy to install the spacer cover 320 in the gap between the covers 120.
Further, the spacer cover 320 may be arranged directly below the fluorescent lamp base 130 so that the space between the center covers 120 may be covered by the spacer cover 320.
[0019]
Further, the material of the fluorescent lamp base 130 is not limited. For example, when formed from a solid body such as wood or resin, screwing and drilling can be easily performed at any position, so that it can be easily installed on the ceiling 11 regardless of the arrangement of the ceiling beams. The installation position of the fluorescent lamp body 151 can be freely selected.
When the fluorescent lamp base 130 is formed by bending a metal plate, a space for ventilation and wiring is secured. At this time, if the hole for installing the ceiling beam and the hole for installing the fluorescent lamp body 151 are elongated holes or grooves, the degree of freedom of the installation position is increased.
[0020]
(First beam lighting)
Therefore, in the first beam lighting 100, the fluorescent lamp device 150 is arranged in a desired form, and the fluorescent lamp device 150 is not exposed indoors.
In addition, since the side cover 110 is arranged from one wall surface to the other wall surface, the fluorescent lamp device 150 may not be locally projected at a position away from the ceiling wall surface, and the aesthetic appearance may be hindered. Absent. Further, if the side cover 110 and the center cover 120 are subjected to aesthetic treatment, the design is further improved.
Note that the present invention does not limit the number and length of the fluorescent lamp devices 150 arranged in a line, and any length or number may be used. When a plurality of fluorescent lamp devices 150 are arranged, their lengths and mutual intervals are not limited to the same ones. For example, a difference between a range near the wall surface and a range near the center of the room is different. Is also good.
Further, when the fluorescent lamp body 151 can be directly installed on the ceiling, the fluorescent lamp base 130 may be removed, and the side cover 110 may be locked to the fluorescent lamp body 151.
[0021]
[Embodiment 2]
4 and 5 show a second beam illumination according to the second embodiment of the beam illumination according to the present invention. FIG. 4 is a sectional view, and FIG. 5 is a perspective view of each component for explaining an assembling state. The same parts as in the first embodiment (FIGS. 2 and 3) are denoted by the same reference numerals, and a part of the description is omitted.
(Incandescent lamp device)
The second beam illumination 200 includes a guide rail 101 linearly fixed to the ceiling 11, an incandescent light base 230 guided by the guide rail 101 and installed on the ceiling 11, and a socket installed on the incandescent light base 230. It has a mounting bracket 240 and an incandescent lamp device 250 mounted on the socket mounting bracket 240.
The incandescent lamp device 250 has a socket 251, a reflection box 253, a reflection box cover 252, and an incandescent lamp 255. A terminal block support 270 is installed on the incandescent lamp base 230, and a terminal block 271 is fixed to the terminal block support 270.
The upper end locking portions 111 of the pair of side covers 110 are locked to the upper end portion 231 of the incandescent lamp base 230.
[0022]
(Incandescent light base)
The incandescent lamp pedestal 230 is formed by bending a metal plate and has excellent thermal conductivity, so that it is used to dissipate heat from the incandescent lamp 255. The incandescent light base 230 is provided with holes for various attachments and holes for ventilation and weight reduction. In addition, the radius of curvature of the bent corner or corner of the groove-shaped portion or the like guided by the guide rail 11 is formed within a predetermined range, thereby guaranteeing contact with the mating member to be contacted.
[0023]
(Spacer pedestal)
The spacer pedestal 330 is guided by the guide rail 101 so as to sandwich the incandescent lamp pedestal 230 (abutting on the end face or at a predetermined interval from the end face), and is installed on the ceiling 11. Note that the spacer pedestal 330 is the same as that of the first embodiment (FIGS. 2 and 3), and a description thereof will be omitted. Note that a side cover support plate 340 is provided on the spacer pedestal 330, and the outer surface of the flange of the side cover support plate 340 and the inner surface of the side cover 110 are bonded to each other. Then, the spacer cover 320 is pulled up by the V spring 360, and the lower end 112 of the side cover 110 enters the grooves 321 at both edges of the spacer cover 320.
[0024]
(Second beam lighting)
Therefore, the spacer pedestals 330 are arranged on both sides of the incandescent lamp pedestal 230, the side surfaces of the incandescent lamp device 250 are covered by the pair of side covers 110, and a wide area between the lower end edges of the pair of side covers 110 is covered by the spacer cover. Since it is covered by 320, the incandescent lamp device 250 is not exposed. That is, since the lower surface of the incandescent lamp 255 is only viewed directly from below, the design is improved.
In particular, since the side cover 110 is disposed from one wall surface to the other wall surface, the incandescent lamp device 250 does not jump out at a position distant from the ceiling wall surface, so that the appearance is not hindered. Further, if the side cover 110 and the spacer cover 320 are subjected to aesthetic treatment, the design is further improved.
[0025]
When the incandescent lamp device 250 is installed on the ceiling 11 at a desired interval, if the spacer pedestal 330 having a length corresponding to the interval is arranged between the incandescent lamp pedestals 230, the incandescent lamp pedestal 230 can be installed. Become easy.
When the incandescent lamp pedestal 230 does not coincide with the position of the ceiling beam, the spacer pedestals 330 on both sides may be fixed to the ceiling beam, and the incandescent lamp pedestal 230 may be installed across the spacer pedestal 330.
Further, the present invention does not limit the number of incandescent lamp devices 250 arranged in a line, and any number may be used. The interval between the plurality of incandescent lamp devices 250 (corresponding to the length of the spacer pedestal 330) is not limited to the same one. For example, the interval differs between a range near the wall surface and a range near the center of the room. Is also good. That is, the incandescent lamp device 250 can be freely arranged without deteriorating the aesthetic appearance.
[0026]
[Embodiment 3]
FIG. 6 is a perspective view of each component for explaining the assembling state of the third beam illumination in the third embodiment of the beam illumination according to the present invention.
In the third beam lighting 300, the fluorescent lamp device 150 according to the first embodiment and the incandescent lamp device 250 according to the second embodiment are arranged along the guide rail 101 fixed linearly to the ceiling 11. Things. The same parts as those in the first embodiment (FIGS. 2 and 3) and the second embodiment (FIGS. 4 and 5) are denoted by the same reference numerals, and a part of the description is omitted.
Therefore, the side surface is covered by the pair of side covers 110, the wide area of the lower surface is covered by the center cover 120 and the spacer cover 320, and the lower surface of the incandescent lamp 255 of the incandescent lamp device 250 is only viewed directly from below. The performance is improved.
[0027]
In particular, since the side cover 110 is disposed from one wall surface to the other wall surface, the fluorescent lamp device 150 and the incandescent lamp device 250 do not protrude at the ceiling away from the wall surface, which hinders the appearance. There is no. Further, if aesthetic treatment is applied to the side cover 110, the center cover 120, or the spacer cover 320, the design is improved. In addition, the turning on / off of the fluorescent lamp device 150 and the incandescent lamp device 250 can be easily switched by the changeover switch installed on the wall surface, so that the functionality is also improved.
In the drawing, the fluorescent lamp pedestal 150 and the spacer pedestal 330 are arranged so as to sandwich the incandescent lamp pedestal 130, but the present invention is not limited to this, and the fluorescent lamp pedestal 150 is arranged continuously. Alternatively, the incandescent light pedestal 130 or the fluorescent light pedestal 150 may be disposed so as to be sandwiched by the spacer pedestal 330, or the arrangement of the spacer pedestal 330 may be omitted.
Further, the number and arrangement interval of the fluorescent lamp devices 150 and the incandescent lamp devices 250 arranged in a row are not limited. That is, the fluorescent lamp device 150 and the incandescent lamp device 250 can be freely arranged without deteriorating the aesthetic appearance.
[0028]
[Embodiment 4]
FIG. 7 is a sectional view showing a part of the fourth beam illumination in the fourth embodiment of the beam illumination according to the present invention. The same parts as those in the second embodiment (FIGS. 4 and 5) are denoted by the same reference numerals, and a part of the description is omitted.
The beam lighting 400 is obtained by forming the incandescent light pedestal 230 of the second beam lighting 200 by bending a plate material, and has a heat radiation hole through which air flows in the upper portion. That is, a heat radiation hole 232 for circulating air is formed in the upper surface 231 of the incandescent light base 230.
Therefore, the air heated by the incandescent lamp device 250 rises through the heat radiation holes 232 and once collides with the ceiling 11 and then flows parallel to the ceiling 11 (indicated by the arrow in the drawing). It is possible to prevent heat from being trapped inside the inside 110. Therefore, the distance and width between the side covers 110 (same as the distance from the ceiling) can be reduced.
[0029]
[Embodiment 5]
FIG. 8 is a sectional view showing a part of the fifth beam illumination in the fifth embodiment of the beam illumination according to the present invention. The same parts as in the first embodiment (FIGS. 2 and 3) are denoted by the same reference numerals, and a part of the description is omitted.
The beam lighting 500 is provided with a slope on the upper surface of the fluorescent lamp pedestal 130 of the first beam lighting 100, on which a side cover is locked. That is, a slope 132 inclined toward the inside is provided on the upper surface of the fluorescent lamp pedestal 130, and a similar slope 113 is provided on the upper locking portion of the side cover 110.
Therefore, the upper portion of the side cover 110 does not fall off because the slope 113 is placed on the slope 132 of the fluorescent lamp pedestal 130, while the lower end 112 of the side cover 110 fits into the grooves 121 on both edges of the center cover 120. Since it does not penetrate and spread, it is possible to omit the bonding between the side inner surface of the side cover 110 and the side cover support plate 140. That is, by omitting the installation of the side cover support plate 140, the installation work can be speeded up, and the manufacturing cost can be reduced by reducing the number of parts.
[0030]
Embodiment 6
FIG. 9 is a schematic view showing the arrangement of power supply lines for beam illumination according to the sixth embodiment of the beam illumination according to the present invention. FIG. 9A shows the beam illumination 100 according to the first embodiment (FIGS. 2 and 3). (B) shows the beam illumination 200 shown in the second embodiment (FIGS. 4 and 5), and (c) shows the beam illumination 300 shown in the third embodiment (FIG. 6). The same parts as those in the first to third embodiments are denoted by the same reference numerals, and a part of the description will be omitted.
[0031]
In FIG. 9A, a switch 15 is installed on one wall 12, and a power supply line 16 connected to the switch 15 passes through a drawer hole 17 provided at a position near the ceiling through the inside of the one wall 12. It has been drawn indoors. The drawer hole 17 is formed in a range surrounded by a pair of side covers 110 (not shown), the ceiling 11 and the spacer cover 320.
In addition, the power supply line 16 drawn indoors passes through the inside of the side cover support plate 340 having a U-shaped cross section along the lower surface of the spacer pedestal 330, and further passes through the fluorescent lamp body 151 (shown by oblique lines). Via the hole 156, they are sequentially laid toward the other wall surface (not shown).
Therefore, the power supply line 16 is not exposed indoors. In addition, since it is not necessary to route the power supply line 16 behind the ceiling, the power supply line 16 has a minimum length, and since the work behind the ceiling is eliminated, the laying work is facilitated. Can be reduced in manufacturing cost.
[0032]
In FIG. 9B, the power supply line 16 drawn indoor similarly to FIG. 9A passes through the inside of the side cover support plate 340 having a U-shaped cross section along the lower surface of the spacer pedestal 330. Further, they are sequentially laid toward the other wall surface (not shown) via the inside of the incandescent light base 230 formed by bending a plate material. Also, it is appropriately connected to a terminal block 271 (not shown) or the like in the middle.
Therefore, similarly to the beam lighting 100, the manufacturing cost of the beam lighting 200 can be reduced.
[0033]
In FIG. 9C, the power supply line 16 drawn indoor similarly to FIG. 9A proceeds along the lower surface of the spacer pedestal 330, and the through-hole of the fluorescent lamp body 151 (shown by oblique lines). 156, through the inside of the side cover support plate 340 having a U-shaped cross section along the lower surface of the spacer pedestal 330, and further through the inside of the incandescent light pedestal 230 formed by bending a plate material. Are sequentially laid toward the other wall surface (not shown). Also, it is appropriately connected to a terminal block 271 (not shown) or the like in the middle.
Therefore, similarly to the beam lighting 100, the manufacturing cost of the beam lighting 300 can be reduced.
[0034]
Embodiment 7
In the first to sixth embodiments, the first to third beam illuminations are installed on the ceiling 11 of the indoor 10. However, the present invention is not limited to this, and the wall surface 12 (the same as other wall surfaces) (Not shown).
At this time, the side cover 110 is installed from the floor surface to the ceiling. The guide rail 11, the fluorescent lamp pedestal 130, the illuminating light pedestal 230, and the spacer pedestal 330 are all installed on the wall surface 12. The lead-out hole 17 of the power supply line 16 is formed in the wall surface 12 within a range sandwiched by the side covers 110.
Therefore, the “beam lighting” corresponds to “column lighting” installed from the floor surface to the ceiling.
[0035]
【The invention's effect】
As described above, according to the present invention, it is surrounded by the pair of side covers installed on the ceiling from one wall surface to the other wall surface and the center cover or the spacer cover arranged at the lower edge of the side cover. Since the lighting equipment is disposed inside the lighting equipment, the lighting equipment does not jump out to the ceiling, so that the appearance is not hindered.
Further, by providing the pedestal on the ceiling, the lighting fixture and the side cover can be easily installed at desired positions on the pedestal.
Further, the power supply line is not exposed indoors, has a minimum length, and can be easily laid.
[Brief description of the drawings]
FIG. 1 is a perspective view showing Embodiments 1 to 3 of beam illumination according to the present invention.
FIG. 2 is a sectional view showing a first beam illumination.
FIG. 3 is a perspective view of each component for explaining an assembling state of a first beam illumination.
FIG. 4 is a sectional view showing a second beam illumination.
FIG. 5 is a perspective view of each component for explaining an assembling state of a second beam illumination.
FIG. 6 is a perspective view of each component for explaining an assembling state of a third beam illumination.
FIG. 7 is a sectional view showing a part of a fourth beam illumination.
FIG. 8 is a sectional view showing a part of a fifth beam illumination.
FIG. 9 is a schematic diagram showing an arrangement of power supply lines of first to third beam illuminations.
[Explanation of symbols]
10 room, 11 ceiling, 12 one wall, 15 switch, 16 power line, 17 drawer hole, 100 first beam lighting, 110 side cover, 120 center cover, 130 base such as fluorescent, 140 side cover support plate, 150 fluorescent Lighting device, 160 V spring, 200 second beam illumination, 230 incandescent light pedestal, 250 incandescent light device, 300 third beam illumination, 320 spacer cover, 330 spacer pedestal.

Claims (16)

Lighting equipment installed on the indoor ceiling,
A pair of side covers installed on the ceiling from one wall surface to the other wall surface so as to sandwich the lighting device,
And a center cover disposed on a lower edge of the side cover. The beam lighting according to claim 1, wherein the lighting fixture is installed on a pedestal fixed to the ceiling, and the side cover is installed on the pedestal. The beam illumination according to claim 2, wherein there are a plurality of the pedestals, and a spacer fixed to the ceiling is arranged between the pedestals. The beam illumination according to claim 2, wherein a linear groove is formed in an upper portion of the pedestal, and the groove is guided by a guide rail fixed to the ceiling. 2. A draw-out hole for drawing out a power supply line connected to the lighting fixture from the wall surface into a room is formed in a range surrounded by the pair of side covers and a center cover. 5. The beam illumination according to any one of claims 1 to 4. The beam lighting according to any one of claims 2 to 5, wherein a side cover support plate for bonding and fixing the side cover is installed on the pedestal. Lighting equipment installed on the indoor wall,
A pair of side covers installed on the wall surface from the floor surface to the ceiling surface so as to sandwich the lighting device,
And a center cover disposed at a side edge of the side cover. The beam lighting according to claim 7, wherein the lighting fixture is installed on a pedestal fixed to the wall surface, and the side cover is installed on the pedestal. The beam illumination according to claim 8, wherein the pedestal is plural, and a spacer fixed to the wall surface is arranged between the pedestals. The beam illumination according to claim 8, wherein a linear groove is formed on a side surface of the pedestal, and the groove is guided by a guide rail fixed to the wall surface. 8. A draw-out hole for drawing out a power supply line connected to the lighting fixture from the wall surface into a room is formed in a range surrounded by the pair of side covers and a center cover. 11. Beam illumination according to any one of claims 10 to 10. The beam illumination according to any one of claims 7 to 11, wherein a side cover support plate for bonding and fixing the side cover is installed on the pedestal. The beam lighting according to any one of claims 1 to 12, wherein the lighting fixture is configured by one or both of an incandescent lamp device and a fluorescent lamp device. The beam illumination according to claim 13, wherein the center cover is open in a range where the incandescent lamp is arranged. The beam lighting according to claim 13 or 14, wherein the pedestal on which the incandescent lamp is installed is formed by bending a plate material, and a radiating hole for circulating air is formed in an upper portion thereof. . 2. The upper surface of the fluorescent lamp pedestal is provided with a slope on which an upper locking portion of the side cover is locked, and the upper locking portion of the side cover has a slope locking on the slope. 7. The beam illumination according to any one of claims 6 to 6.

Images