JP2017084481A - Luminaire - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce an influence of the heat of a light source unit with respect to an emergency power source which an emergency unit includes.SOLUTION: A luminaire 1 includes a luminaire body 10, a light source unit 20 and an emergency unit 30. The luminaire body 10 has a recess 11 extending in the longer direction. The light source unit 20 has a light source, lights the light source by the power of an external power source, and is accommodated in the recess 11. The emergency unit 30 has an emergency light source and an emergency power source, lights the emergency light source by the power of the emergency power source during power failure of the external power source, and has the emergency power source mounted outside of the recess 11.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a lighting device including an emergency unit that is turned on in the event of a power failure.

Patent Document 1 describes an illumination device including a light source unit formed in a long shape, an emergency unit, and an instrument body having a recess in which the light source unit and the emergency unit are accommodated.
The emergency unit has an emergency light source and an emergency power source. When the power supply of the commercial power supply is stopped for some reason and the light source unit cannot turn on the light source, the emergency unit turns on the emergency light source with the power of the emergency power supply.

Japanese Patent Laying-Open No. 2015-88433

In the lighting device described in Patent Document 1, an emergency power source included in the emergency unit is arranged on the back surface of the light source unit. Therefore, the emergency power source is easily affected by the heat of the light source unit.
An object of the present invention is to reduce the influence of heat of a light source unit on an emergency power supply included in an emergency unit.

The lighting device according to the present invention includes:
An instrument body having a recess extending in the longitudinal direction;
A light source unit having a light source and turning on the light source with electric power from an external power source, housed in the recess, and extending in the longitudinal direction;
An emergency unit having an emergency light source and an emergency power source, wherein the emergency light source is turned on by the power of the emergency power source in the event of a power failure of the external power source, and the emergency power source is mounted outside the recess Emergency unit.

  In this invention, the emergency power supply with which the emergency unit is provided is attached outside the recessed part which an instrument main body has. Therefore, it is possible to reduce the influence of the heat of the light source unit on the emergency power supply.

1 is a perspective view of a lighting device 1 according to Embodiment 1. FIG. 1 is an exploded perspective view of a lighting device 1 according to Embodiment 1. FIG. 2 is a perspective view and a cross-sectional view of the light source unit 20 according to Embodiment 1. FIG. The perspective view of the spring part 16 which the instrument main body 10 which concerns on Embodiment 1 has. FIG. 3 is a perspective view of a connector 26 included in the light source unit 20 according to the first embodiment. The perspective view and sectional drawing of the emergency unit 30 in the state attached to the instrument main body 10 which concerns on Embodiment 1. FIG. FIG. 3 is a perspective view of a power supply unit 36 according to the first embodiment. FIG. 3 is an explanatory diagram of a power supply unit according to the first embodiment. FIG. 3 is an explanatory diagram of a power supply unit according to the first embodiment. Explanatory drawing of the wiring of the illuminating device 1 which concerns on Embodiment 1. FIG. FIG. 6 shows a first modification of the lighting device 1 according to the first embodiment. FIG. 6 shows a second modification of the lighting device 1 according to the first embodiment. The perspective view and sectional drawing of the emergency unit 30 which concern on Embodiment 2. FIG. FIG. 9 shows a third modification of the lighting device 1 according to the second embodiment.

Embodiment 1 FIG.
*** Explanation of configuration ***
Based on FIG. 1 to FIG. 10, a lighting apparatus 1 according to Embodiment 1 will be described.
In Embodiment 1, a lighting device 1 attached to a ceiling will be described. Therefore, in the first embodiment, for convenience, the ceiling side is described as the upper side, and the floor side is described as the lower side.

<Lighting device 1>
FIG. 1 is a perspective view of lighting apparatus 1 according to Embodiment 1. FIG.
The lighting device 1 includes an instrument body 10, a light source unit 20, and an emergency unit 30.

<Apparatus body 10>
FIG. 2 is an exploded perspective view of the lighting device 1 according to the first embodiment.
The instrument body 10 is formed in a long shape extending in the longitudinal direction X. The instrument body 10 has a recess 11, an outer wall 12, and an end plate 13.

  The recess 11 extends in the longitudinal direction X, the bottom 111 is flat, and the cross section having the longitudinal direction X as a normal line is U-shaped. The concave portion 11 is formed by a bottom portion 111 extending in the longitudinal direction X and a pair of long side walls 112 rising vertically from both ends in the short side direction Y of the bottom portion 111. The opposite side is an opening indicated by PQRS.

  The outer wall 12 opens a space between the long side wall 112 and covers the outside of the long side wall 112. The outer wall 12 includes an opening wall 121 parallel to the surface of the opening indicated by PQRS of the recess 11, an inclined wall 122 inclined in a direction away from the recess 11 from the opening of the recess 11 toward the bottom 111, It has an outer wall 123 parallel to the side wall 112. Therefore, when viewed from the end plate 13, the instrument body 10 has an inverted Fuji shape in which the upper side is wide and the lower side is narrow.

  The end plate 13 just covers the end of the instrument body 10 in the longitudinal direction X. The end plate 13 has a processed portion 131 that is formed by knockout processing and is removable at a position covering the concave portion 11. By removing the processing portion 131, a power cable pull-in hole 132 is formed. When connecting a plurality of lighting devices 1, it is possible to draw the power cable from the adjacent lighting device 1 through the drawing hole 132.

A power hole 14 for drawing a power cable connected to an external power source and a mounting hole 15 into which a fixture such as a bolt is inserted are formed in the bottom 111 of the recess 11. In addition, a spring portion 16 for fixing the light source unit 20 and a power supply cable drawn from the power supply hole 14 are connected to the bottom portion 111, and a terminal block 17 that supplies power to the light source unit 20 is attached. . When a plurality of lighting devices 1 are connected, the power cable drawn from the drawing hole 132 may be connected to the terminal block 17.
Here, the external power source is a commercial power source.

The instrument body 10 is attached by the fixture inserted into the attachment hole 15 so that the back surface of the bottom 111 of the recess 11 faces the ceiling as the attachment portion. Therefore, the opening of the recessed part 11 is attached to the lower side, that is, the floor surface.
Here, the attached portion is a ceiling, but the attached portion may be another place such as a wall surface.

<Light source unit 20>
FIG. 3 is a perspective view and a cross-sectional view of the light source unit 20 according to the first embodiment. FIG. 3A is a perspective view of the upper side of the light source unit 20. FIG. 3B is a perspective view of the lower side of the light source unit 20. FIG.3 (c) is AA 'sectional drawing of FIG.3 (b). In FIG. 3C, the cover 23 is seen through and the internal LEDs 211 and the substrate 212 are visible, and the LEDs 211 and the substrate 212 are indicated by broken lines.
The light source unit 20 is formed in a long shape extending in the longitudinal direction X.
The light source unit 20 includes a plurality of LEDs 211 that are light sources, and turns on the plurality of LEDs 211 that are light sources by the power of an external power source. The light source unit 20 is accommodated and attached to the recess 11 of the instrument body 10.

  The light source unit 20 includes an LED unit 21, a holding portion 22 to which the LED unit 21 is attached, a cover 23 attached to the holding portion 22 so as to cover the LED unit 21, and a light source that covers an end portion in the longitudinal direction X of the cover 23. And a lid 24.

  The LED unit 21 includes a plurality of LEDs 211 that are light sources, and a long substrate 212 in which the plurality of LEDs 211 are mounted along the longitudinal direction X and extend in the longitudinal direction X. The plurality of LEDs 211 are mounted in the central portion of the substrate 212 in the short direction Y and arranged in a line in the longitudinal direction X at equal intervals.

The holding part 22 has a length that is substantially the same as the length of the substrate 212 in the longitudinal direction X. The holding part 22 has a flat holding front part 221 to which the LED unit 21 is attached, and a pair of holding side parts 222 rising vertically from both ends in the short direction Y of the holding front part 221.
The holding front portion 221 supplies power from an external power source to the plurality of LEDs 211 serving as a light source in the vicinity of the center in the longitudinal direction X on the surface 2212 on the back side of the surface 2211 to which the LED unit 21 is attached, and turns on the plurality of LEDs 211. A lighting device 25 is attached. In addition, the holding front portion 221 is provided with a connector 26 for attaching the light source unit 20 to the instrument body 10 on a surface 2212 on the back side of the surface 2211 to which the LED unit 21 is attached.

The length of the cover 23 in the longitudinal direction X is substantially the same as that of the substrate 212 and the holding unit 22. The cover 23 is formed from a resin member such as polycarbonate. The cover 23 includes a diffusion portion 231, a pair of knob portions 232, and a pair of connection portions 233.
The diffusion unit 231 is formed in an arc shape so as to cover the LED unit 21 and diffuses light emitted from the plurality of LEDs 211. The knob portion 232 is formed by folding back both ends 2311 of the diffusing portion 231 in the short direction Y, and has a recessed shape so that an operator can easily hold the light source unit 20 when attaching or detaching the light source unit 20. The connecting portion 233 is provided at the end portion 2321 opposite to the diffusing portion 231 of the knob portion 232, and the cross section of FIG. 3C is formed in a U shape, and the holding side surface portion 222 of the holding portion 22 is moved up and down. Hold from.

  The light source lid part 24 has the same shape as the end part in the longitudinal direction X so as to cover the end part in the longitudinal direction X formed between the cover 23 and the holding part 22.

  The lighting device 25 supplies the power of the external power source to the LED unit 21 via the terminal block 17 attached to the instrument main body 10, and turns on the plurality of LEDs 211. The lighting device 25 has a box shape, and a lighting circuit that controls the power of the external power supply to the LED unit 21 is housed therein.

FIG. 4 is a perspective view of the spring portion 16 included in the instrument main body 10 according to the first embodiment. FIG. 5 is a perspective view of the connector 26 included in the light source unit 20 according to the first embodiment.
The light source unit 20 is attached to the instrument main body 10 by the spring portion 16 and the connector 26 engaging with each other.
The spring portion 16 includes an arc-shaped spring arc portion 161, a spring fixing portion 162 that comes into contact with the bottom portion 111 of the recess 11 and is fixed by a screw, a spring claw portion 163 provided at the tip of the spring arc portion 161, The elastic portion 164 is provided between the portion 161 and the spring fixing portion 162 and bent a plurality of times.
The connector 26 has an L shape. The connection tool 26 includes a connection tool fixing part 261 that is fixed to the holding front surface part 221 with a screw, a connection part 262 that protrudes vertically from the side of the connection tool fixing part 261, and has an engagement opening 263. Have

The spring arc portion 161 of the spring portion 16 is inserted into the engagement opening 263 formed in the connection portion 262 of the connection tool 26. Then, the spring portion 16 pulls the light source unit 20 into the concave portion 11 while the spring arc portion 161 slides on the edge 2631 of the engagement opening 263 by the elastic force of the elastic portion 164.
Here, as shown in FIG. 2, the end plate 13 of the instrument main body 10 has a protrusion 133 that suppresses the light source unit 20 from entering the recess 11 at the edge of the opening indicated by the symbol PQRS. Further, as will be described later, the emergency unit 30 includes a light source receiver 314 that suppresses the light source unit 20 from entering the interior of the recess 11. When the light source unit 20 is drawn inside the recess 11, the end 241 (see FIG. 3B) of the light source lid 24 of the cover 23 is the end of the instrument body 10 at one end 20 </ b> L in the longitudinal direction X of the light source unit 20. The plate 13 comes into contact with the protrusion 133, and the connection portion 233 of the cover 23 comes into contact with the light source receiving portion 314 of the emergency unit 30 at the other end 20R. Then, the light source unit 20 is fixed to the instrument body 10.
In FIG. 2, the protrusion 133 is provided on the edge of the opening indicated by the symbol PQRS. However, the protrusion 133 may be provided at a position on the back side of the concave portion 11 indicated by reference numeral 133 ′ in FIG. Then, when the light source unit 20 is drawn inside the recess 11, the connection portion 233 of the cover 23 may abut on the protrusion 133.

<Emergency unit 30>
FIG. 6 is a perspective view and a cross-sectional view of the emergency unit 30 in a state of being attached to the instrument body 10 according to the first embodiment. FIG. 6A is a perspective view of the lower side of the emergency unit 30 in a state of being attached to the instrument body 10. FIG. 6B is a cross-sectional view taken along the line BB ′ of FIG. FIG.6 (c) is CC 'sectional drawing of Fig.6 (a). FIG. 6D is a perspective view of the unit outer shell 31.
The emergency unit 30 includes an LED 321 that is an emergency light source and an emergency power source 362, and the LED 321 that is an emergency light source is turned on by the power of the emergency power source 362 when a power failure occurs in the external power source.
The emergency unit 30 includes a unit outer part 31, an emergency LED unit 32, a power supply device 33, an inspection switch 34, a monitor lamp 35, and a power supply part 36.
The emergency LED unit 32, the power supply device 33, the inspection switch 34, and the monitor lamp 35 are attached to one end 11 </ b> R in the longitudinal direction X of the recess 11. The emergency unit 30 includes a unit outer portion 31, an emergency LED unit 32, a power supply device 33, an inspection switch 34, and a monitor lamp 35 accommodated in the recess 11, and the emergency power supply 362 is provided in the recess 11. A power supply unit 36 is attached so as to be outside. Here, an emergency power source 362 is attached to the outside of the longitudinal side wall 112 of the recess 11.

The unit outer shell 31 is formed in a plate shape from metal. The unit outer portion 31 is formed with a lens opening 311 disposed so that the lens 323 is exposed, a switch opening 312 where the inspection switch 34 is disposed, and a monitor opening 313 where the monitor lamp 35 is disposed. ing.
As shown in FIG. 6B, the unit outer shell 31 is formed with an L-shaped light source receiver 314 including a plate 3141 and a plate 3142 at the end on the light source unit 20 side. As described above, when the light source unit 20 is attached to the instrument main body 10, the light source receiver 314 prevents the light source unit 20 from entering the recess 11 by the contact of the connecting portion 233 of the cover 23.
Here, the light source receiving portion 314 is located on the back side of the concave portion 11 by the dimension W from the opening surface 114 of the concave portion 11 so that the connection portion 233 of the cover 23 abuts when the light source unit 20 is attached to the instrument body 10. Is provided. However, when the light source unit 20 is attached to the instrument main body 10, the light source receiver 314 has a recess 11 so that the light source receiver 314 contacts the end 241 (see FIG. 3B) of the light source lid 24 of the light source unit 20. It may be provided near the opening surface 114. Further, the light source receiver 314 is extended until the plate 3141 contacts the bottom 111 of the recess 11 as indicated by a dashed line 3143 in FIG. 6B, so that the plate 3141 contacts the bottom 111 of the recess 11. May be provided. By providing the light source receiving portion 314 so as to contact the bottom portion 111 in this way, the strength of the unit outer portion 31 can be increased.

The emergency LED unit 32 includes an LED 321 that is an emergency light source, a substrate 322 on which the LED 321 is executed, and a glass lens 323 disposed below the LED 321.
The emergency LED unit 32 is accommodated in the recess 11 so that the lens 323 is located at a position facing the lens opening 311 of the unit outline 31.

The power supply 33 charges the emergency power supply 362 with the power of the external power supply when power is normally supplied from the external power supply, and the power of the emergency power supply 362 when the external power supply fails. As a result, the LED 321 as an emergency light source is turned on.
The power supply device 33 is accommodated between the emergency LED unit 32 and the bottom 111 of the recess 11.

The inspection switch 34 is a switch for executing an inspection for confirming whether or not the emergency power supply 362 is normal. When the inspection switch 34 is pressed, the LED 321 is lit by the power of the emergency power source 362 for a certain period of time.
The inspection switch 34 is accommodated in the recess 11 so as to be operable from the outside through the switch opening 312 of the unit outer shell 31.
The inspection switch 34 may not be configured to perform inspection when the switch is pressed, but may be configured to perform inspection when the pull rod is pulled. Further, a drawstring may be used instead of the drawbar.

The monitor lamp 35 displays whether or not the emergency power source 362 is normally charged, and the result of the inspection performed by pressing the inspection switch 34. Specifically, the monitor lamp 35 is turned on when the emergency power source 362 is normally charged, and turned off when the emergency power source 362 is not normally charged. Moreover, when inspection is performed, it will be in the lighting state according to the result of inspection.
The monitor lamp 35 is accommodated in the recess 11 so as to be visible from the outside through the monitor opening 313 of the unit outer portion 31.
Note that the monitor lamp 35 may be set in a lighting state for other uses, such as blinking when the replacement time of the emergency power supply 362 is almost over.

  As shown in FIG. 6A, the inspection switch 34 and the monitor lamp 35 are arranged on the end plate 13 side from the lens 323. Thereby, it is suppressed that the monitor lamp 35 becomes difficult to see with the light from the light source unit 20, and the visibility of the monitor lamp 35 improves.

FIG. 7 is a perspective view of the power supply unit 36 according to the first embodiment. In FIG. 7, the power supply unit 36 is shown in a state in which the instrument body 10 is partially broken and attached to the instrument body 10.
In the power supply unit 36, an emergency power supply 362 is accommodated in a case 361. The case 361 is provided with an opening 363 so that the emergency power source 362 can be inserted therein. The emergency power source 362 inserted into the case 361 is hooked and held by the folded portion 3611 of the case 361.

As shown in FIG. 6B, the case 361 has a space for holding the emergency power supply 362 disposed between the longitudinal side wall 112 and the outer wall 12 and is attached to the instrument body 10 by a fixture 364 such as a screw. ing.
As shown in FIGS. 6B and 6C, an arrangement opening 113 for inserting the emergency power source 362 into the case 361 is formed in the longitudinal side wall 112 of the recess 11. The emergency power source 362 is inserted into the case 361 from the placement opening 113 and attached between the longitudinal side wall 112 and the outer wall 12. In FIG. 6C, the emergency power source 362 is attached between the long side wall 112 and the inclined wall 122 constituting the outer wall 12.
As shown in FIG. 10, when the light source unit 20 and the emergency unit 30 are attached to the instrument main body 10, the arrangement opening 113 and the position of the lighting device 25 in the longitudinal direction X of the recess 11 and the emergency LED unit 32 and the position of the power supply device 33. Therefore, the emergency power source 362 is attached between the lighting device 25, the emergency LED unit 32, and the power source device 33 in the longitudinal direction X of the recess 11.

8 and 9 are explanatory diagrams of the power supply unit 36 according to the first embodiment.
The case 361 is connected to the folded portion 3611, the case fixing portion 3612 fixed to the bottom portion 111 of the recess 11, the case side portion 3613 facing the arrangement opening 113, the case side portion 3613, and the folded portion 3611. A case inclined portion 3614 parallel to the wall 122 and a case claw portion 3615 that is formed at the tip of the folded portion 3611 and is caught by the opening edge of the arrangement opening 113 are provided.

  First, the emergency power supply 362 is inserted into the opening 363 of the case 361 from one side 3621 of the emergency power supply 362 as shown in FIG. Next, as shown in FIG. 8B, when one side 3621 of the emergency power supply is inserted to the case side part 3613 side, the other side 3622 of the emergency power supply 362 rotates to the case inclined part 3614 side. Is done. As a result, as shown in FIG. 8C, the other side 3622 of the emergency power source 362 is hooked on the folded portion 3611, and the emergency power source 362 is held in the case 361.

The case 361 may have an elastic force. Since the case 361 has elasticity, the emergency power source 362 can be prevented from being detached from the case 361.
Specifically, as shown in FIG. 9, the case 361 is displaced in the D1 direction from the state where the emergency power source 362 is installed in a state where the case fixing portion 3612 is fixed to the bottom 111. At this time, the width L1 of the emergency power supply 362 is made smaller than the width L2 of the opening 363 of the case 361. That is, L1> L2. Then, the case claw portion 3615, the turn-back portion 3611, and the case inclined portion 3614 are spread and L1 = L2, and the emergency power source 362 is inserted to the case side portion 3613 side. When the emergency power supply 362 is inserted, L1> L2 again. As a result, the emergency power source 362 is held by the folded portion 3611 and is not easily detached from the case 361.

<Wiring>
FIG. 10 is an explanatory diagram of wiring of the illumination device 1 according to the first embodiment.
The power cable 41 is drawn from the power hole 14 formed in the recess 11 of the instrument body 10, and the power cable 41 is connected to the terminal block 17. The terminal block 17 and the lighting device 25 of the light source unit 20 are connected by a wiring 42. Further, the terminal block 17 and the power supply device 33 of the emergency unit 30 are connected by the wiring 43. The power supply device 33 and the emergency LED unit 32 are connected by a wiring 44, and the power supply device 33 and the emergency power supply 362 are connected by a wiring 45. With respect to the connection of the wiring, a method of removing and inserting the coating at the tip of the wiring or a method of connecting via a connecting part such as a connector may be used.

*** Explanation of operation ***
<Lighting operation during non-power failure>
At the time of non-power failure in which power is supplied from an external power source, power is supplied to the terminal block 17 via the power cable 41, and power is supplied from the terminal block 17 to the lighting device 25 via the wiring 42. Then, the plurality of LEDs 211 included in the light source unit 20 are turned on.
At this time, power is also supplied from the terminal block 17 to the power supply device 33 via the wiring 43, and power is supplied from the power supply device 33 to the emergency power supply 362 via the wiring 45. Then, the emergency power source 362 is charged.

<Lighting operation at power failure>
At the time of a power failure in which the power supply from the external power supply is stopped, the power supply to the lighting device 25 is stopped, so that the plurality of LEDs 211 included in the light source unit 20 are turned off. Further, power supply to the power supply device 33 is stopped, and charging of the emergency power supply 362 is also stopped.
When the power supply from the wiring 43 is stopped, the power supply device 33 supplies the power of the emergency power supply 362 to the emergency LED unit 32 via the wiring 44 and the wiring 45. Then, the LED 321 included in the emergency LED unit 32 is turned on.

*** Effects of Embodiment 1 ***
As described above, in the lighting device 1 according to Embodiment 1, the emergency power source 362 is attached to the outside of the recess 11 of the instrument body 10. Therefore, it is possible to reduce the influence of heat of the light source unit 20 on the emergency power supply 362. Moreover, the number of parts accommodated in the recessed part 11 reduces, and it is possible to suppress interference between parts.

  In particular, in the lighting device 1 according to the first embodiment, the emergency power source 362 is attached between the long side wall 112 of the recess 11 and the inclined wall 122 constituting the outer wall 12. Therefore, the length of the lighting device 1 in the longitudinal direction X can be kept short.

In the lighting device 1 according to Embodiment 1, the emergency power supply 362 is attached between the lighting device 25, the emergency LED unit 32, and the power supply device 33 in the longitudinal direction X of the recess 11. Therefore, components connected by wiring are arranged close to each other, and wiring work is facilitated.
The arrangement opening 113 may be provided at a position where it is difficult to apply a load in the longitudinal direction in order to ensure the rigidity of the recess 11.

*** Other configurations ***
FIG. 11 is a diagram illustrating a first modification of the lighting device 1 according to the first embodiment. FIG. 11A is a perspective view of the lighting device 1. FIG. 11B is a perspective view of the unit outer shell 31.
In the above description, as shown in FIG. 6, the lower surface 315 of the unit outer shell 31 is a flat surface.
However, as shown in FIG. 11, the unit outer shell 31 has a lower surface 315 of the unit outer shell 31 so that a portion 3151 on the light source unit 20 side protrudes downward from the position where the monitor opening 313 is installed. You may make a level | step difference in the lower surface of.
As a result, the light of the light source unit 20 is blocked by the protruding portion 3151 of the unit outer shell 31, so that the visibility of the monitor lamp 35 is not easily lowered even if the emergency unit 30 is disposed near the light source unit 20. . Since the emergency unit 30 can be disposed close to the light source unit 20, the length of the lighting device 1 in the longitudinal direction X can be shortened.
Instead of projecting the light source unit 20 side portion 3151 downward to block the light of the light source unit 20, the installation portion of the monitor lamp 35 is recessed inside the instrument, and the monitor lamp 35 is recessed in the recessed portion. It is also possible to block the light of the light source unit 20 by installing.

FIG. 12 is a diagram illustrating a second modification of the lighting device 1 according to the first embodiment.
In addition, in FIG. 12, the spring part 16 and the coupling tool 26 for attaching the light source unit 20 to the instrument main body 10 are abbreviate | omitted.
In the above description, as shown in FIG. 2, the instrument main body 10 has an inverted Fuji shape, and the bottom surface 111 is attached with the back surface facing the ceiling.
However, as illustrated in FIG. 12, the lighting device 1 may be an embedded type that is embedded and attached to the attached portion 40 such as a ceiling. In this case, although the shape of the instrument body 10 is different from the configuration shown in FIG. 2, the mounting position of the emergency power source 362 is outside the longitudinal side wall 112 of the recess 11, as in the configuration shown in FIG. 2.
Thus, even if the illumination device 1 is an embedded type, the same effects as those of the configuration shown in FIG. 2 can be obtained.

Embodiment 2. FIG.
Based on FIG. 13, the illuminating device 1 which concerns on Embodiment 2 is demonstrated.
The second embodiment is different from the first embodiment in that the emergency unit 30 is configured by incorporating other elements in a box-shaped unit outer shell 31 and is externally attached to the instrument main body 10. In the second embodiment, this different point will be described.

FIG. 13 is a perspective view and a cross-sectional view of the emergency unit 30 according to the second embodiment. FIG. 13A is a perspective view of the lower side in a state where the emergency unit 30 is attached to the instrument main body 10. FIG. 13B is a perspective view of the lower side in a state where the emergency unit 30 is detached from the instrument main body 10. FIG.13 (c) is DD 'sectional drawing of FIG.13 (b).
The emergency unit 30 includes a unit outer part 31, an emergency LED unit 32, a power supply device 33, an inspection switch 34, a monitor lamp 35, and a power supply part 36.

The unit outer shell 31 has a shape in which the length of the instrument body 10 in the longitudinal direction X is shortened, and has a reverse Fuji-shaped box shape. The unit outline portion 31 accommodates an emergency LED unit 32, a power supply device 33, an inspection switch 34, a monitor lamp 35, and a power supply portion 36.
The emergency unit 30 is attached to the end of the instrument main body 10 in the longitudinal direction X with a fixture such as a screw so that the end surface 37 of the unit shell 31 faces the end plate 13 of the instrument main body 10. At this time, in the emergency unit 30, the emergency LED unit 32, the power supply device 33, the inspection switch 34, and the monitor lamp 35 are in a position where the concave portion 11 is extended in the longitudinal direction X, and the emergency power source 362 is the concave portion. Each element is accommodated in the unit outline 31 so as to be outside the virtual wall obtained by extending the eleven longitudinal side walls 112 in the longitudinal direction X.

*** Effects of Embodiment 2 ***
As described above, in the lighting device 1 according to the second embodiment, the emergency unit 30 is externally attached to the instrument body 10 by incorporating other elements in the unit outline 31 formed in a box shape. Therefore, the emergency unit 30 can be attached to the existing instrument body 10.

  The unit outline portion 31 may be a mechanism that is attached by providing a projection on the end surface 37 and fitting the projection on the end surface 37 at a position where the processed portion 131 of the end plate 13 of the instrument body 10 is removed. Thereby, the emergency unit 30 can be easily attached to the instrument main body 10.

*** Other configurations ***
FIG. 14 is a diagram illustrating a third modification of the lighting device 1 according to the second embodiment. FIG. 14A is a perspective view of the lower side in a state in which the emergency unit 30 is attached to the instrument main body 10. FIG. 14B is a perspective view of the lower side in a state where the emergency unit 30 is detached from the instrument body 10. FIG.14 (c) is EE 'sectional drawing of FIG.14 (b).
In FIG. 14, the instrument body 10 has a rectangular parallelepiped shape instead of the inverted Fuji shape. The unit outer shell 31 also has a rectangular parallelepiped shape like the instrument body 10.
The emergency unit 30 is attached to the end of the instrument body 10 in the longitudinal direction X so that the end surface 37 of the unit shell 31 faces the end plate 13 of the instrument body 10. At this time, as shown in FIG. 14 (c), in the third modification, each element includes the unit outline portion 31 so that all the elements including the emergency power supply 362 are located at positions where the recess 11 is extended in the longitudinal direction X. Is housed in.

  As described above, the length of the lighting device 1 in the longitudinal direction X is increased by setting all the elements including the emergency power source 362 to the position where the recess 11 is extended in the longitudinal direction X, but the short direction The length of Y can be shortened. Depending on the position of the mounted portion, it may be effective to shorten the length in the short direction.

DESCRIPTION OF SYMBOLS 1 Illuminating device, 10 fixture main body, 11 recessed part, 11R end part, 111 bottom part, 112 longitudinal side wall, 113 opening for arrangement | positioning, 114 opening surface, 12 outer wall, 121 opening wall, 122
Inclined wall, 123 outer wall, 13 end plate, 131 processing part, 132 lead-in hole, 133 protrusion, 14 power supply hole, 15 mounting hole, 16 spring part, 161 arc part, 162 spring fixing part, 163 spring claw part, 164 elasticity Part, 17 terminal block, 20 light source unit, 20L one end, 20R other end, 21 LED unit, 211 LED, 212 substrate, 22 holding part, 221 holding front part, 2211 face, 2212 back side face, 222 holding side face part, 23 Cover, 231 diffusion part, 2311 both ends, 232 knob part, 2321 end part, 233 connection part, 24 light source cover part, 241 end part, 25 lighting device, 26 connection tool, 261 connection tool fixing part, 262 connection part, 263 Engagement opening, 2631 edge, 30 emergency unit, 31 unit outline, 311 lens opening, 312 switch opening, 313 Monitor opening, 314 Light source receiving part, 3141, 3142 Plate, 3143 Dotted line, 315 Lower surface, 3151 Light source unit 20 side, 32 Emergency LED unit, 321 LED, 322 Substrate, 323 Lens, 33 Power supply, 34 Inspection Switch, 35 Monitor lamp, 36 Power supply part, 361 Case, 3611 Folding part, 3612 Case fixing part, 3613 Case side part, 3614 Case inclined part, 3615 Case claw part, 362 Emergency power supply, 3621 One side, 3622 The other side, 363 opening, 364 fitting, 37 end face, 40 attached portion, 41 power cable, 42, 43, 44, 45 wiring, X longitudinal direction, Y transverse direction.

Claims (7)

An instrument body having a recess extending in the longitudinal direction;
A light source unit having a light source and turning on the light source with electric power from an external power source, housed in the recess, and extending in the longitudinal direction;
An emergency unit having an emergency light source and an emergency power source, wherein the emergency light source is turned on by the power of the emergency power source in the event of a power failure of the external power source, and the emergency power source is mounted outside the recess And an emergency unit. The concave portion is formed by a bottom portion extending in the longitudinal direction and a longitudinal side wall rising from an end portion in a short direction of the bottom portion,
2. The lighting device according to claim 1, wherein the emergency unit includes the emergency light source accommodated in the recess, and the emergency power source is attached to the outside of the longitudinal side wall of the recess. The instrument body has an outer wall that opens the space between the longitudinal side walls and covers the outside of the longitudinal side walls,
The lighting device according to claim 2, wherein the emergency power source is attached between the longitudinal side wall and the outer wall. The outer wall has an inclined wall inclined in a direction away from the recess from the opening of the recess toward the bottom.
The lighting device according to claim 3, wherein the emergency power source is attached between the longitudinal side wall and the inclined wall. The light source unit includes a lighting device that supplies power from the external power source to the light source,
The emergency light source is attached to one end in the longitudinal direction of the recess,
The lighting device according to any one of claims 2 to 4, wherein the emergency power source is attached between the lighting device and the emergency light source in the longitudinal direction. The lighting device according to any one of claims 2 to 5, wherein the longitudinal side wall is provided with an arrangement opening for attaching the emergency power source to the outside. The concave portion is formed by a bottom portion extending in the longitudinal direction and a longitudinal side wall rising from an end portion in a short direction of the bottom portion,
The emergency unit is located at a position where the emergency light source extends the recess in the longitudinal direction, and the emergency power source is located outside the virtual wall extending the longitudinal side wall of the recess in the longitudinal direction. The lighting device according to claim 1, wherein the lighting device is attached to an end portion in a longitudinal direction of the instrument body.

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