JP2017103006A - Luminaire - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a luminaire which suppresses interference of members stored in a recess and an electric wire, in the long luminaire including an emergency light source unit.SOLUTION: A luminaire includes a storage part 2000 arranged adjacent to a body recess 110 in a shorter direction Y of the body recess 110, and for storing a storage battery 240. The storage battery 240 is stored inside the storage part 2000 in a position for sandwiching a power supply hole 111a with a terminal block 130 in a longer direction X. Then, the body recess 110 and the storage part 2000 form an opening 217 for storage battery in which the storage battery 240 can pass from the storage part 2000 to the body recess 110, at the position for sandwiching the power supply hole 111a with the terminal block 130 in the longer direction X.SELECTED DRAWING: Figure 8

Description

  The present invention relates to an illuminating device including a light source unit that is lit during normal use and an emergency light source unit that is lit during an emergency.

Patent Document 1 includes a light source unit that is formed in a long shape and includes a lighting device, an emergency light source unit, and an instrument main body having a recess in which a part of the light source unit and the emergency light source unit are accommodated. A lighting fixture is described.
In the case of an emergency in which the power supply from the commercial power supply is stopped for some reason and the light source unit cannot be turned on, this lighting fixture turns on the emergency light source unit using a storage battery as an emergency power source as a power source.

Japanese Patent Laying-Open No. 2015-88433

  In the lighting fixture of Patent Document 1, the inner side of the recess was drawn in to receive power from a fixture such as a bolt for attaching the fixture main body to the attached portion, or a commercial power source provided outside the lighting fixture. Also included are an electric cable, attachment means for attaching the light source unit to the instrument body, and the like. Further, a plurality of electric wires that electrically connect the members to each other are also accommodated inside the concave portion, and it is conceivable that the members and electric wires accommodated in the concave portion interfere with each other.

Moreover, the recessed part is formed in the dimension equivalent to an instrument main body in a longitudinal direction, and the light source unit and the emergency light source unit are arranged in parallel by the longitudinal direction in the recessed part.
Since only the light source unit is turned on during normal use, when the emergency light source unit is arranged in the longitudinal direction, the light emitting area is reduced with respect to the length of the instrument body in the longitudinal direction. Further, if the length of the fixture is the same as that of the service lamp, the light source unit must be shortened when the emergency light source unit is arranged in the longitudinal direction.

  An object of the present invention is to provide a lighting device including an emergency light source unit that suppresses interference between a member housed in a recess and an electric wire.

  Another object of the present invention is to provide an illuminating device having an emergency light source unit and maintaining a light emitting area during normal use.

The lighting device of the present invention is
A light source unit;
An elongated main body recess in which the light source unit is detachably attached;
A storage unit disposed adjacent to the main body recess in a short direction of the main body recess, and an emergency light source unit having a storage battery stored in the storage unit,
The body recess is
A power supply hole into which the power supply line is drawn is formed and arranged adjacent to the power supply hole along the longitudinal direction, and has a terminal block to which the power supply line is connected,
The storage battery is
In the longitudinal direction, the terminal block and the power supply hole are housed inside the housing part at a position sandwiching the other together with the other,
The main body concave portion and the accommodating portion are
A storage battery opening, which is an opening through which the storage battery can pass from the storage portion to the main body recess, is formed at a position where the storage battery is stored in the longitudinal direction.

  The illuminating device of this invention is arrange | positioned adjacent to a main body recessed part in the transversal direction of a main body recessed part, and is provided with the accommodating part which accommodates a storage battery. The storage battery is housed inside the housing portion at a position sandwiching the other along with either one of the terminal block and the power supply hole in the longitudinal direction. And the main body recessed part and the accommodating part form the opening for storage batteries which can pass a storage battery from a accommodating part to a main body recessed part in the position where the storage battery is accommodated in the longitudinal direction. Therefore, in the illuminating device provided with the emergency light source unit, it is possible to suppress interference between members and electric wires housed in the main body recess.

FIG. 3 is a perspective view of the lighting fixture according to the first embodiment. In the figure of Embodiment 1, the 4th view of a lighting fixture is shown, (a) is a top view, (b) is a front view, (c) is a bottom view, (d) is a right view. FIG. 3 is an exploded perspective view of the lighting device according to the first embodiment. FIG. 3 is a cross-sectional view taken along the line AA in FIG. In the figure of Embodiment 1, it is a perspective view of a light source unit, (a) is a perspective view seen from the lighting device side, (b) is a perspective view seen from the cover side. In the figure of Embodiment 1, it is a disassembled perspective view of a light source unit, and the disassembled perspective view which abbreviate | omitted the connection tool and the lighting device. FIG. 3 is a perspective view of a connector disposed in the light source unit in the first embodiment. FIG. 5 is a diagram of the first embodiment, and is a perspective view of the instrument main body. FIG. 3 is a perspective view of a spring disposed on the instrument body in the first embodiment. FIG. 3 is an exploded perspective view of the emergency light source unit in the first embodiment. The figure of Embodiment 1, and the figure of the unit decoration part seen from the C direction of FIG. FIG. 3 is an exploded perspective view of the emergency light source unit in the first embodiment. The figure of Embodiment 1, The figure which shows the attachment method to the main body recessed part of the emergency light source unit. The perspective view which shows the attachment method to the main body recessed part of the emergency light source unit with the figure of Embodiment 1. FIG. FIG. 15 is a diagram of the first embodiment, and is a diagram illustrating a mounting state after FIG. 14, and a perspective view illustrating a state after mounting the emergency light source unit to the main body recess. FIG. 16 is a diagram of the first embodiment, and shows the F direction arrow of FIG. 15. FIG. 5 is a diagram of the first embodiment, and is a wiring diagram of the instrument main body and the emergency light source unit. The figure of Embodiment 1, and the figure which shows the modification of an instrument main body. FIG. 8 is another view showing a modification of the instrument body in the first embodiment.

Embodiment 1 FIG.
<*** Explanation of configuration *****>
With reference to FIGS. 1-19, the structure of the illuminating device in Embodiment 1 is demonstrated. In the present embodiment, a trough-type lighting device 1 attached to a mounted portion such as a ceiling will be described as an example of the lighting device according to the present invention. The lighting device 1 described in Embodiment 1 has a long shape as shown in FIG.
In the following embodiment, as shown in FIG. 1, in the lighting device 1, the longitudinal direction is determined as X and the lateral direction is defined as Y, and the longitudinal direction X and the lateral direction Y are described. In addition, a direction orthogonal to the longitudinal direction X and from the light source unit 10 toward the instrument main body 100 is a Z1 direction, and an opposite direction is a Z2 direction. In the longitudinal direction X, the direction from the lens 223 of the emergency light source unit 200 toward the pulling rod 252 is defined as a direction X1, and the opposite direction is defined as X2. The light source unit 10 and the instrument main body 100 described below are also long, and the longitudinal direction X and the like are the same as those of the lighting device 1.

(Regarding lighting device 1)
As shown in FIGS. 1 to 3, the lighting device 1 includes a light source unit 10 that is formed in an elongated shape, an instrument main body 100, and an emergency light source unit 200. The instrument body 100 has a body recess 110. The main body concave portion 110 is installed so as to abut on the attached portion, and has a long shape in which a part of the light source unit 10 is accommodated and the light source unit 10 is detachably attached. The emergency light source unit 200 includes a storage unit 2000 disposed adjacent to the main body recess 110 in the short direction Y of the main body recess 110 and a storage battery 240 stored in the storage unit 2000. As will be described later, the accommodating portion 2000 is composed of a unit decorative portion 212 and a bottom surface arranging portion 211a.

(Regarding the light source unit 10)
The light source unit 10 will be described with reference to FIGS. In FIG. 6, the connector 15 and the lighting device 16 are omitted. The light source unit 10 includes a light emitter 11, a frame 12, a cover 13, a light source lid 14, a connector 15, and a lighting device 16.
(1) The light emitter 11 includes a plurality of light emitting elements 11a and a substrate 11b on which the plurality of light emitting elements 11a are mounted. In this embodiment, the light emitting element 11a is an LED. The light emitting element 11a is not limited to an LED, and may be a light emitting element such as an organic EL or a laser. The light emitter 11 may be referred to as a light emitting module, and may be referred to as an LED module when an LED is used as a light emitting element.
(2) The light emitter 11 is attached to the frame 12.
(3) The cover 13 is attached to the frame 12 so as to cover the light emitter 11 and controls diffusion of light emitted from the light emitter 11.
(4) The light source lid 14 covers the longitudinal end of the cover 13.
(5) The light source unit 10 is fixed to the instrument main body 100 by connecting the connector 15 to the spring 140 disposed on the instrument main body 100.
(6) The lighting device 16 lights the light emitter 11.

  The light emitter 11 includes a plurality of light emitting elements 11a and a substrate 11b on which the plurality of light emitting elements 11a are mounted. The light emitter 11 is formed in a long shape that is substantially equal to the entire length in the longitudinal direction X of the lighting device 1. The light emitting elements 11a are linearly arranged in the longitudinal direction X of the substrate 11b. In FIG. 6, the light emitting elements 11a have two rows, but the light emitting elements 11a may have three or more rows or one row.

  The frame 12 includes a frame front surface portion 12a having a substantially rectangular shape to which the light emitter 11 is attached, and a pair of frame side surface portions 12b protruding vertically with bases on both sides in the longitudinal direction X of the frame front surface portion 12a. The frame 12 is formed in a long shape. Further, a connector 15 and a lighting device 16 are disposed on the back surface 12ab which is the back side of the mounting surface 12aa to which the light emitter 11 of the frame front surface portion 12a is mounted.

The cover 13 has an arc portion 13a, a gripping portion 13b, and an engaging portion 13c. The cover 13 is formed from a resin member such as polycarbonate.
(1) The arc portion 13 a is formed in an arc shape so as to cover the light emitting body 11 in a cross section of the cut surface with the longitudinal direction X being the normal direction.
(2) The gripping portion 13b is formed in a recessed shape from both ends of the arc portion 13a, and is gripped by the worker when the worker attaches / detaches the light source unit 10 to / from the instrument body 100.
(3) The engaging portion 13c is substantially U-shaped, is formed at the end of the grip portion 13b, and engages with the frame side surface portion 12b. The cover 13 is formed in a long shape, and each of the arc portion 13a, the grip portion 13b, and the engaging portion 13c is formed continuously in the longitudinal direction X.

  The light source lid 14 closes the opening at the end in the longitudinal direction X formed by the cover 13 and the frame 12.

  As shown in FIG. 7, the connector 15 has a substantially L shape, and is fixed to the frame back surface 12ab with a fixing member such as a screw. The connector 15 protrudes substantially perpendicularly from a connector fixing portion 15a fixed to the frame back surface 12ab and a side of the connector fixing portion 15a, and a spring arc portion 141 of a spring 140 described later is inserted into the connector. And a connecting portion 15b formed with a connecting tool opening 15ba.

  The lighting device 16 supplies power from the commercial power source to the light emitter 11 via the terminal block 130 arranged in the instrument main body 100 to light the light emitter 11. The lighting device 16 includes a lighting device main body 16 a that has a built-in power supply circuit (not shown) and has a long shape, and a light source unit side connection portion 16 b that is connected to the terminal block side connection portion 132. As shown in FIG. 5, the light source unit side connecting portion 16b includes a light source unit side electric wire 16ba and a light source unit side connector 16bb provided at the tip of the light source unit side electric wire 16ba.

(Regarding the instrument body 100)
As shown in FIG. 4, the instrument main body 100 is formed in a long shape, and a main body concave portion 110 having a concave cross section of the cut surface with the longitudinal direction X as a normal direction, and a short direction Y of the main body concave portion 110. 1 has an emergency light source unit 200 provided adjacent to the main body recess 110.

  The main body recess 110 is formed in a long shape, and the cross section of the cut surface with the longitudinal direction X as the normal direction is concave as shown in FIGS. 3 and 4. The main body recess 110 includes a pair of end plate portions 120 that block the end surface in the longitudinal direction X of the main body recess 110, a terminal block 130 disposed inside the concave shape of the main body recess 110, and a spring 140.

  The main body concave portion 110 corresponds to a concave bottom surface portion, and corresponds to a substantially rectangular main body bottom surface portion 111 and a concave side wall, and each side side in the longitudinal direction X of the main body bottom surface portion 111 is a base end. The first side surface portion 112 and the second side surface portion 113 that rise as opposed to each other are provided. A power supply hole 111a for drawing in the power supply line 400 from the outside and an attachment hole 111b for attaching the instrument main body 100 to an attachment portion such as a ceiling with a fitting such as a bolt are formed in the bottom surface portion 111 of the main body. . That is, as shown in FIG. 8, the body recess 110 is formed with a pair of attachment holes 111 b for allowing the attachment tool to pass between the terminal block 130 and the storage battery opening 217 in the longitudinal direction X. The first side surface portion 112 is a side surface portion adjacent to the emergency light source unit 200, and a first communication portion 112a and a second communication portion 112b are formed. As described above, the main body recess 110 is formed with the power supply hole 111a into which the power supply line 400 is drawn, and is disposed adjacent to the power supply hole 111a along the longitudinal direction X, and is connected to the power supply line 400. 130. The power supply hole 111 a is disposed at the approximate center in the longitudinal direction X of the main body recess 110.

  As shown in FIG. 3, the end plate portion 120 covers the end surface in the longitudinal direction X of the main body recess 110. The end plate part 120 has an end plate cover part 121 formed so as to be removable by a knockout process. When connecting a plurality of lighting devices 1, 1 ′, etc., by removing the end plate lid 121 from the end plate portion 120, even if a power line is drawn from the lighting device 1 ′ adjacent to the lighting device 1. Good.

  As shown in FIG. 17 to be described later, the terminal block 130 is connected to the power line 400 drawn from the outside, and supplies power to the light source unit 10 and the emergency light source unit 200. The terminal block 130 includes a terminal block main body 131 formed in a rectangular box shape and a terminal block side connection portion 132 that is electrically connected to the light source unit side connection portion 16 b of the lighting device 16. The terminal block main body 131 has a plurality of output terminals 131b. The terminal block side connecting portion 132 is connected to one of the plurality of output terminals 131b. The other output terminal 131b is connected to an electric wire 300 that is connected to an emergency lighting device 230 of an emergency light source unit 200 described later. The terminal block side connecting portion 132 includes a terminal block side electric wire 132a and a terminal block side connector 132b provided at the tip of the terminal block side electric wire 132a.

  As shown in FIG. 9, the spring 140 is connected to a connector 15 provided in the light source unit 10 to be described later. The spring 140 includes a spring arc portion 141 having an arc shape, a spring fixing portion 142 that is in contact with and fixed to the bottom surface portion 111 of the main body recess, and a spring claw portion 143 provided at the tip of the spring arc portion 141. doing. In the spring 140, the spring arc portion 141 is inserted into the connector opening 15ba of the connector 15, and the spring arc portion 141 slides on the edge 15baa (FIG. 7) of the connector opening 15ba. The light source unit 10 is drawn into the concave space of the main body recess 110 so that a part of the light source unit 10 is accommodated in the main body recess 110.

(Regarding emergency light source unit 200)
The emergency light source unit 200 will be described with reference to FIGS. 8 and 10 to 17. The emergency light source unit 200 includes a unit outer part 210, an emergency light source part 220, an emergency lighting device 230, a storage battery 240, and an inspection switch 250. The unit outer portion 210 has a substantially rectangular parallelepiped shape and forms an outer shape. The emergency light source unit 220 is housed inside the unit outer portion 210 and functions as an emergency light source. Although not shown, the emergency light source unit 200 includes a monitor lamp that displays whether or not the storage battery 240 is normally charged. In order to show the storage battery 240, FIG. 8 shows a state in which the storage battery main body 241 of the storage battery 240 protrudes from the opening 217 for the storage battery, but the storage battery main body 241 is accommodated as shown in FIG. Part 2000 is housed.

  The unit outline portion 210 includes a unit bottom surface portion 211 arranged so as to be aligned in the short-side direction with the main body bottom surface portion 111 of the main body concave portion 110, and a unit decorative portion 212 having a substantially box shape without a lid. The unit outer portion 210 is formed of a noncombustible material. In this embodiment, the unit outer portion 210 is formed of a metal member.

  Of the unit outline portion 210, the unit decorative portion 212 and the bottom surface arrangement portion 211a constitute a housing portion 2000 that houses components such as the emergency lighting device 230 and the storage battery 240 that function as an emergency light source unit.

  As shown in FIG. 14, the unit bottom surface portion 211 includes a bottom surface arrangement portion 211a and a bottom surface mounting portion 211b. In this embodiment, the bottom surface arrangement portion 211a and the bottom surface mounting portion 211b are integrated. The bottom surface arrangement portion 211a is a portion in the range of the broken line D shown in FIG. Further, the bottom surface attaching portion 211b is a portion in a range of a broken line E shown in FIG. The bottom surface arrangement portion 211a serves as a lid for the unit decorative portion 212. The bottom surface attaching portion 211b has a role of attaching the housing portion 2000 including the unit decorative portion 212 and the bottom surface arranging portion 211a to the main body recessed portion 110. The placement surface 211 a-1 (FIG. 10) on the mounting side of the unit decorative portion 212 in the bottom surface placement portion 211 a is covered with the unit decorative portion 212. The emergency lighting device 230, the storage battery 240, and the inspection switch 250 are arranged on the arrangement surface 211a-1. In the bottom surface mounting portion 211b, the contact surface 211b-1 facing the main body bottom surface portion 111 is in contact with the main body bottom surface portion 111, and the bottom surface mounting portion 211b is fixed to the main body bottom surface portion 111. The emergency light source unit 200 is fixed to the main body recess 110. As shown in FIGS. 14 and 15, the bottom mounting portion 211 b includes a bottom power supply hole 211 ba communicating with the power supply hole 111 a, a first fixing hole 211 bb formed on the second side surface 113 side, and a first side surface portion. A second fixing hole 211bc is formed on the 112 side.

  In this embodiment, the bottom surface arrangement portion 211a and the bottom surface attachment portion 211b are integral members, but the bottom surface arrangement portion 211a and the bottom surface attachment portion 211b may be separate members.

  As shown in FIGS. 10 and 12, the unit decorative portion 212 includes a unit front surface portion 213 and a unit side surface portion 214. The unit front portion 213 is a portion where a lens opening 213a is formed, and the unit side portion 214 is other than the unit front portion 213. The unit side surface portion 214 includes unit side surface portions 214-1, 214-2, 214-3, 214-4, and 214-5. As will be described later, the unit side surface portion 214-5 is an instrument adjacent wall portion 215. The unit front portion 213 faces the bottom surface arrangement portion 211a of the unit bottom surface portion 211. The unit side surface portion 214 is each side surface of the box-shaped unit decorative portion 212, and is located between the bottom surface arrangement portion 211 a and the unit front surface portion 213. The unit front face 213 is provided with a lens opening 213a arranged so that a lens 223 of an emergency light source 220, which will be described later, protrudes, and a switch opening 213b arranged so that a pulling rod 252 of the inspection switch 250 protrudes. It has been.

  Of each unit side face 214, the unit side face 214-5 that faces the first side face 112 of the main body recess 110 is the instrument adjacent wall 215. The appliance adjacent wall portion 215 is formed in a shape for arranging the input / output electric wires to the emergency lighting device 230 and for inserting the storage battery 240 therein. Specifically, the appliance adjacent wall portion 215 has a shape obtained by cutting portions a, b, c, d, e, f, g, and h from the rectangular shapes a, i, j, and h. This “parts a, b, c, d, e, f, g, h” will be referred to as an open part 215C. The height in the Z1 direction from the unit front face 213 is the dimension H (FIG. 10) in all of the unit side faces 214-1, 214-3, 214-4, but the height of the instrument adjacent wall 215 is the dimension. Lower than H. Of the appliance adjacent wall portion 215, the concave portions of c, d, e, and f are referred to as a wall concave portion 215A, and the portions of constant heights b and c are referred to as a long wall portion 215B. As shown in FIG. 8, in the state where the emergency light source unit 200 is attached to the main body recess 110, the appliance adjacent wall 215 forms the first communication portion 112a and the wire opening 216, and the second communication portion 112b. And a storage battery opening 217 is formed. When the emergency light source unit 200 is fixed to the main body concave portion 110, the wall concave portion 215A and the long wall portion 215B of the unit decorative portion 212 are connected to the first communication portion 112a and the second communication portion 112b of the first side surface portion 112, respectively. On the other hand, it will be in the attachment state shown with the dashed-two dotted line in the position of the 1st communication part 112a of FIG. 10, and the 2nd communication part 112b.

  That is, the electric wire opening 216 is formed by positioning a part of the upper ends b to c of the long wall portion 215B at the lower end where the first communication portion 112a is notched. Moreover, the opening 217 for storage batteries is formed because the upper end cf of wall recessed part 215A is located in the lower end where the 2nd communication part 112b is notched. The side height H of the unit decorative portion 212 shown in FIG. 10 is such a height that the lens 223 of the emergency light source 220 is arranged on the side of the grip portion 13b of the light source unit 10 as shown in FIG. is there. Therefore, the light source unit 10 and the emergency light source unit 220 are positions where the influence of light distribution exerted on the other party is small.

  As shown in FIG. 10, the emergency light source unit 220 includes a substrate 222 on which the light emitting element 221 is mounted, a socket 222 a, a glass lens 223 disposed in front of the mounted light emitting element 221, It has a light source installation base 224 that is shaped like a letter and on which a substrate 222 is installed. The emergency light source unit 220 is attached to the light source installation base 224 with a light source holder 223a. In the emergency light source unit 220, the lens 223 projects from the lens opening 213a in the Z2 direction (FIG. 2B). The lens 223 is a lens that distributes light emitted from the light emitting element 221 at a wide angle, and has a light distribution characteristic that irradiates a range necessary for an emergency light source unit. In this embodiment, it has a bad wing light distribution characteristic. The light source installation base 224 has a heat dissipation effect, and an emergency lighting device 230 is disposed inside.

As shown in FIG. 10, the emergency lighting device 230 includes an emergency lighting device body 231 having a substantially rectangular parallelepiped shape, and a device-side connection portion 232. The device-side connection portion 232 includes a device-side electric wire 232a and a device-side connector 232b that is attached to the end of the device-side electric wire 232a and connected to the storage battery 240. The device side connector 232b is connected to a storage battery side connector 242b described later.
FIG. 17 is a wiring diagram of the instrument body and the emergency light source unit. FIG. 17 corresponds to the direction of the arrow K in FIG. 8, in which the unit decorative portion 212 is removed, the lens 223, the light source presser 223 a, etc. are exposed, and the first side surface portion of the instrument main body 100. 112, the 2nd side part 113 is cut | disconnected in the middle. As shown in FIG. 17, in the emergency lighting device 230, the electric wire 300 is drawn from the terminal block 130 through the electric wire opening 216 in a state where the emergency light source unit 200 is disposed on the side of the main body recess 110. ing. The electric wire 300 is an electric wire that is connected to the terminal block 130 and receives electric power. Further, the device-side connection portion 232 is disposed outside the unit outer portion 210.

  The emergency lighting device 230 charges the storage battery 240 with electric power from the commercial power source in a state where an external power source such as a commercial power source is normally supplied. When power supply from commercial power is stopped due to a power failure or the like, the emergency light source unit 220 is turned on by power from the storage battery 240. As shown in FIG. 12, the emergency lighting device 230 is disposed inside the light source installation base 224.

As shown in FIG. 10, the storage battery 240 includes a storage battery main body 241 having a substantially rectangular parallelepiped shape and a storage battery side connection portion 242. The storage battery side connection part 242 has a storage battery side electric wire 242a and a storage battery side connector 242b. The storage battery side connector 242 b is connected to the device side connector 232 b of the emergency lighting device 230. The storage battery side electric wire 242a is connected to the storage battery side connector 242b. The storage battery 240 is disposed inside a storage battery holding member 243 having a U-shape as shown in FIGS. 10 and 12.
The storage battery holding member 243 is disposed such that the opening 243a of the storage battery holding member 243 is in a communication position with the storage battery opening 217. The storage battery 240 is housed inside the battery holding member 243 so as to be able to be taken in and out through the storage battery opening 217 in a state where the emergency light source unit 200 is disposed in the main body recess 110. The storage battery 240 is housed inside the housing portion 2000 at a position that sandwiches the power supply hole 111 a together with the terminal block 130 in the longitudinal direction X. Further, as shown in FIG. 17, the storage battery side connector 242 b of the storage battery side connection part 242 is arranged to be outside the unit outer part 210 through the storage battery opening 217.

  The inspection switch 250 shown in FIG. 10 is provided with an inspection switch main body 251 in which a substrate on which a switch terminal (not shown) is mounted is disposed, and is connected to the switch terminal so as to be operable from the inspection switch main body 251. It has a pull bar 252. The inspection switch 250 is held by a part of the light source installation base 224, and is arranged such that the pulling rod 252 protrudes from the switch opening 212b of the unit outer section 210 as shown in FIG. The check switch 250 is a switch for checking whether or not the storage battery 240 is normal. When the pulling rod 252 of the inspection switch 250 is pulled, the emergency light source 220 is turned on with the power of the storage battery 240 for a set time.

(Attachment mechanism of emergency light source unit 200)
A mechanism for attaching the emergency light source unit 200 to the main body recess 110 will be described with reference to FIGS.
(1) First, as shown in FIG. 13, the operator makes the bottom surface mounting portion 211 b of the unit bottom surface portion 211 of the emergency light source unit 200 abut on the main body bottom surface portion 111 of the main body recess 110. At this time, the worker arranges the emergency light source unit 200 so that the power supply hole 111a and the bottom power supply hole 211ba of the main body bottom surface portion 111 communicate with each other. The bottom surface mounting portion 211b is formed to be approximately the same as the length of the main body bottom surface portion 111 in the short direction Y. Therefore, the bottom surface mounting portion 211b contacts the main body bottom surface portion 111 in substantially the entire length in the short direction Y of the main body bottom surface portion 111.
(2) Next, the operator causes the first fixing hole 211bb and the second fixing hole 211bc of the unit bottom surface portion 211 to communicate with the first instrument side fixing hole 111bb and the second instrument side fixing hole 111bc of the main body recess 110. Then, the emergency light source unit 200 is attached to the bottom face portion 111 of the main body with attachment members (screws, rivets, etc.) at the four places in a state of communication. Thereby, the emergency light source unit 200 is fixed to the main body bottom surface portion 111. In this embodiment, a screw 501 is used as a mounting member (FIG. 16). In this mounted state, the bottom surface mounting portion 211 b is in contact with the main body bottom surface portion 111.

The emergency light source unit 200 is fixed to the main body recess 110 in the mounting process as described above. In a state where the emergency light source unit 200 is fixed to the main body recess 110, the following states (1) to (3) are established.
(1) The bottom surface mounting portion 211 b is in contact with the main body bottom surface portion 111 in substantially the entire length in the short direction Y of the main body bottom surface portion 111.
(2) An emergency light source in the first fixing hole 211bb on the second side surface 113 side located farther from the optical axis 220a (FIG. 16) of the emergency light source 220 in the short direction Y of the main body bottom 111. A bottom surface mounting portion 211 b of the unit 200 is fixed to the main body bottom surface portion 111.
(3) As shown in FIG. 16, in the short side direction Y of the main body bottom surface portion 111, the bottom surface mounting portion is formed by the second fixing hole 211bc between the optical axis 220a of the emergency light source 220 and the first fixing hole 211bb. 211b is fixed to the bottom face portion 111 of the main body.

With the mounting configurations (1) to (3) described above, the emergency light source unit 200 can be stably mounted to the main body recess 110. That is, in the above (1), the weight of the emergency light source unit 200 can be shared and transmitted to the main body concave portion 110 by the bottom surface mounting portion 211b abutting on the main body bottom surface portion 111 with “substantially full length in the short direction Y”. Therefore, it can suppress that the main body recessed part 110 deform | transforms partially. Therefore, it is possible to prevent the emergency light source unit 200 from hanging down in the Z2 direction (FIG. 16) due to partial deformation of the main body recess 110.
In (2) above, the bottom surface mounting portion 211 b is fixed on the second side surface portion 113 side in the lateral direction Y of the main body bottom surface portion 111. Accordingly, the weight of the emergency light source unit 200 suppresses the second side surface portion 113 of the unit bottom surface portion 211 from floating in the Z1 direction (FIG. 16), and suppresses the emergency light source unit 200 from hanging down in the Z2 direction. Yes.
The above (3) is fixed on the first side surface portion 112 side in the lateral direction Y of the main body bottom surface portion 111. Accordingly, the unit bottom surface portion 211 is deformed due to storage conditions, vibrations, and the like, and the emergency light source unit 200 is suppressed from floating in the Z1 direction.
From the above (1) to (3), it is possible to prevent the main body recess 110 from being deformed when the emergency light source unit 200 is attached.

  With the arrangement configuration of the first fixing hole 211bb and the second fixing hole 211bc described above, the emergency light source unit 200 can be stably attached to the main body recess 110. Further, by providing a rib on the unit bottom surface portion 211 or providing a hemming reinforcing portion, the rigidity can be further increased and stabilized.

  In this embodiment, the emergency light source unit 200 is attached to the main body recess 110 after completion of the assembly. However, after the unit bottom surface portion 211 is attached to the main body recess 110, each part is attached to the emergency light source unit. 200 may be completed.

(Regarding wiring of the instrument body 100)
The wiring of the instrument body 100 will be described with reference to FIG. In the instrument main body 100, the emergency light source unit 200 is disposed so as to be adjacent to the lateral direction Y of the first side surface 112 of the main body recess 110. The terminal block 130 is located in the X1 direction with respect to the power supply hole 111a with the power supply hole 111a of the main body recess 110 as a substantial center. At this time, the terminal block 130 is arranged so that the output terminal 131b is on the X1 direction side, that is, outward in the longitudinal direction X. The first side surface portion 112 is provided with a first communication portion 112a and a second communication portion 112b. The first communication portion 112a is provided on the X1 direction side of the power supply hole 111a. The second communication portion 112b is provided on the X2 direction side of the power supply hole 111a. That is, the first communication portion 112a and the second communication portion 112b form the wire opening 216 and the storage battery opening 217, respectively. However, in the longitudinal direction X, as shown in FIG. And the storage battery opening 217.

The configuration of the wiring shown in FIG. 17 is as follows (a) to (e).
(A) The power supply line 400 drawn from the power supply hole 111a is connected to an input terminal 131a provided on the X2 direction side of the terminal block 130.
(B) One end side of the electric wire 300 is connected to the output terminal 131 b of the terminal block 130, and the other end side of the electric wire 300 is connected to the emergency lighting device 230 of the emergency light source unit 200. Note that the terminal block side connection portion 132 is connected to the output terminal 131 b of the terminal block 130. The terminal block side connection part 132 is connected to the light source unit side connection part 16 b of the light source unit 10 and supplies power to the lighting device 16.
(C) In the emergency lighting device 230, the device-side wire 232a of the device-side connection portion 232 passes through the wire opening 216, and the device-side connector 232b is disposed inside the main body recess 110 together with a part of the device-side wire 232a. Is done.
(D) The storage battery opening 217 is provided on the X2 direction side of the power supply hole 111a, the storage battery side electric wire 242a of the storage battery side connection portion 242 passes through the storage battery opening 217, and the storage battery side connector 242b is the storage battery. It arrange | positions inside the main-body recessed part 110 with a part of side electric wire 242a.
(E) The apparatus side connector 232b of the apparatus side connection part 232 and the storage battery side connector 242b of the storage battery side connection part 242 are connected on the X2 direction side of the power supply hole 111a.
That is, the device-side connector 232b and the storage battery-side connector 242b are connected in the longitudinal direction X at a position inside the main body recess 110 that sandwiches the power supply hole 111a together with the terminal block 130. The lengths of the device-side electric wire 232a and the storage battery-side electric wire 242a are such that the device-side connector 232b and the storage battery-side connector 242b can be connected and are not too long. As shown in FIG. 17, a part of the lamp device side electric wire 232a and the storage battery side electric wire 242a are fixed to the bottom surface portion 111 of the main body by the electric wire support portion 111c.

As shown in FIG. 17, in a state where the light source unit 10 is attached to the instrument main body 100, the engaging portion 13 c of the cover 13 of the light source unit 10 is disposed on the side of the storage battery 240 in the lateral direction Y. The With this arrangement, there is an effect that the storage battery 240 can be prevented from unintentionally coming out of the main body recess 110 from the storage battery opening 217 of the unit outer portion 210.
Moreover, if the lighting device 16 is disposed so as to face the opening 217 for the storage battery, the above effect is further improved. That is, the storage battery 240 is housed in the housing portion 2000 and part of the light source unit 10 housed in the main body recessed portion 110 is prevented from moving from the housing portion 2000 to the main body recessed portion 110 via the storage battery opening 217. Has been. The “part of the light source unit 10” that prevents the movement of the storage battery 240 is the engaging portion 13c of the cover 13 or the lighting device 16 in the above example.

(Regarding normal lighting operation)
Next, a normal lighting operation will be described. During normal times (when power is supplied from a commercial power source), power is supplied to the lighting device 16 via the terminal block 130 and the light source unit 10 is lit. At this time, the emergency lighting device 230 supplies the electric power supplied via the electric wire 300 to the storage battery 240 to charge the storage battery 240.

(Regarding lighting operation in emergency)
Next, the lighting operation in an emergency will be described. In an emergency, the power supply to the lighting device 16 is stopped and the light source unit 10 is turned off. Emergency means when the power supply from the commercial power supply is stopped for some reason such as a power failure.
When the power supply from the electric wire 300 is stopped, the emergency lighting device 230 switches to power supply from the storage battery 240, supplies power to the emergency light source unit 220, and the emergency light source unit 220 lights up.

<*** Effect of this embodiment (wiring / equipment main body) *****>
(1) In the lighting device 1, the instrument main body 100 includes a main body recess 110 that holds the light source unit 10 and an emergency light source unit 200. Since the housing portion 2000 of the emergency light source unit 200 is disposed on the side of the main body recess 110 in the short direction Y, the housing portion 2000 is provided adjacent to the longitudinal direction X when the emergency light source unit 200 is provided. As in the case, it is not necessary to lengthen the entire length of the lighting device 1 in the longitudinal direction or shorten the total length of the light source unit. Moreover, since the illuminating device 1 can use the light source unit 10 which has a length substantially the same as the length of the illuminating device 1 in the longitudinal direction X, even if the emergency light source unit 200 is provided, the emergency light source A light emitting area similar to that when the unit 200 is not provided can be maintained.
(2) The instrument main body 100 is provided with a main body recess 110 to which the light source unit 10 is attached and an emergency light source unit 200 as separate bodies. By forming the structural member that becomes a light source in an emergency as the emergency light source unit 200 separately from the main body recess 110, the assembling property of the lighting device can be improved.
(3) Moreover, since it is a separate body, the unit outer portion 210 can be formed of a material different from that of the main body recess 110. Therefore, the emergency light source unit 200 can be made of a material according to the application such as a material excellent in fire resistance as an emergency light source. In addition, by configuring only the unit shell portion 210 with the specific application material, it is possible to reduce the cost compared to configuring the entire instrument body 100 with the specific application material.
(4) Moreover, it can suppress that each of the power wire 400, each member, and the electric wire 300 interferes with each other by making a wiring structure like said (a)-(e). In particular, the configuration shown in (d) above facilitates the insertion and removal of the storage battery 240 from the emergency light source unit 200. Further, with the configuration of (e) above, the connection work and the release work between the device-side connector 232b and the storage battery-side connector 242b can be performed without interfering with the power supply line 400. Therefore, replacement maintenance of the storage battery 240 becomes easy.
(5) When the lighting device 16 is provided in the X2 direction from the power supply hole 111a, the space inside the main body recess 110 can be effectively used in a state where the light source unit 10 is attached to the instrument main body 100.
(6) Further, by concentrating electrical components such as the terminal block 130 and the emergency light source unit 200 between the pair of mounting holes 111b and around the power supply hole 111a, the electric wires for connecting to each other are long. Can be suppressed. Furthermore, it is possible to prevent interference between the aggregated parts and an attachment mechanism (such as a bolt for fixing to the ceiling) or the spring 140 and the connector 15.
Furthermore, the position where the mounting hole 111b and the power supply hole 111a are provided may be the same position as that of the lighting device to which the emergency light source unit 200 is not mounted. That is, the illuminating device 1 can make the fixture main body 100 (main body recessed part 110) common with the illuminating device which is not equipped with the emergency light source unit 200. FIG. Therefore, without changing the position of the “mounting tool such as a bolt for attaching the instrument main body 100 to the ceiling or the power supply line 400 to be drawn into the instrument main body 100” provided for the lighting device not equipped with the emergency light source unit 200. Since it can be used, workability is good. (7) Since the emergency light source unit 200 has the device side connection part 232 and the storage battery side connection part 242 arranged outside the unit outer part 210, the emergency lighting device 230 and the storage battery 240 can be easily connected. Also, the connection state can be easily released.

(Modifications and supplements)
In the present embodiment, the instrument main body 100 has been described with the trough-shaped main body recess 110, but an inverted Fuji-type lighting device 1A as shown in FIG. 18 or an embedded type shape as shown in FIG. The lighting device 1B may be used. In the case of the inverted Fuji type shape or the embedded type shape, the reflecting portions 114 having an inclined shape are formed in pairs in the opening of the main body recess 110 (openings of p, q, r, and s in FIG. 3) and accommodated. A cutout 114a is formed in one reflecting portion 114 on the side where the portion 2000 is disposed so that the emergency light source unit can be disposed. Although the shape of the notch 114a does not appear in FIG. 19, it is the same as FIG. As described above, the main body recess 110 includes the reflecting portion 114 in which the region through which the accommodating portion 2000 penetrates is cut out as the notch 114a.

  Further, as in the case of the embedded shape in FIG. 19, the height dimension H (B) of the emergency light source unit 220 of the emergency light source unit 200 may be increased so as to protrude from the reflection unit 114. By projecting the emergency light source unit 220 from the reflecting unit 114, the light distribution characteristics of the emergency light source unit 220 can be ensured. As shown in FIG. 19, the emergency light source part 220B of the lighting device 1B protrudes from the housing part 2000B, and the main body recess 110 has a region where the emergency light source part 220B penetrates.

In the present embodiment, the terminal block 130 has a plurality of output terminals 131b and is wide in the short direction Y. Therefore, when connecting a plurality of lighting devices 1 in the longitudinal direction X, a space in which a feed wiring such as an F cable is arranged between the terminal block 130 and the first side surface portion 112 or the second side surface portion 113. May not be secured.
Further, when the feed wiring is arranged in front of the storage battery opening 217, there is a hindrance to the storage / removal operation of the storage battery 240. Therefore, it is preferable to form a feed wiring opening 113 a in the second side surface 113 between the power supply hole 111 a and the terminal block 130. In FIG. 17, the main body recess 110 has a feed wiring opening 113 a that is a feed wiring opening formed in a second side surface 113 that is the side surface opposite to the housing portion 2000 in the short direction Y. Show the case.
By providing the feed wiring opening 113a in the second side surface 113, the side of the main body recess 110 on the second side surface 113 side can be used as a space for the feed wiring. Accordingly, interference between the feed wiring, the storage battery opening 217, and other components can be suppressed.

In the present embodiment, the lighting device 1 has been described with respect to the shape in which the light source unit 10 has the connector 15 and the lighting device 16, and the fixture body 100 has the spring 140. However, the light source unit 10 may include the spring 140 and the instrument main body 100 may include the connector 15 and the lighting device 16.
In the case where the lighting device 16 is provided in the fixture main body 100, the lighting device 16 is installed in the X2 direction from the second communication portion 112b in the longitudinal direction X in FIG. And the storage battery 240 should not interfere with each other.

  In the present embodiment, the shape in which the power supply hole 111a is provided at the approximate center in the longitudinal direction X of the main body recess 110 has been described. However, the position where the power supply hole 111a is formed may not be the approximate center in the longitudinal direction X. . In the longitudinal direction X of the main body recess 110, the terminal block 130 may be provided on one side of the power supply hole 111a and the second communication part 112b may be provided on the other side.

In the present embodiment, main body recess 110 and housing portion 2000 form wire opening 216 that is an opening through which device-side electric wire 232a of device-side connecting portion 232 passes from housing portion 2000 to main body recess 110. doing. In addition, the main body recess 110 and the housing portion 2000 form a storage battery opening 217 that is an opening through which the storage battery 240 can pass from the housing portion 2000 to the main body recess 110 at a position sandwiching the power supply hole 111a together with the terminal block 130 in the longitudinal direction X. doing.
That is, the first communication portion 112a and the opening portion 215C of the appliance adjacent wall portion 215 form the wire opening 216, and the second communication portion 112b and the opening portion 215C of the appliance adjacent wall portion 215 form the storage battery opening 217. Is forming.

However, it is not limited to this. The configuration in which the main body concave portion 110 and the housing portion 2000 form the wire opening 216 or the storage battery opening 217 may be as follows. When the opening 215C of the appliance adjacent wall 215 is not open and is in the shape of a single plate having a height H (FIG. 10), the wire opening 216 is formed in the appliance adjacent wall 215 and the first side surface 112. And an opening corresponding to the storage battery opening 217 are formed, and the opening of the appliance adjacent wall portion 215 and the opening of the first side surface portion 112 are communicated with each other. As long as one opening is the size of the electric wire opening 216 and the storage battery opening 217, the other opening may be larger.
Alternatively, either of the main body recess 110 and the housing portion 2000 is formed with a wire opening 216 that is an opening through which the device-side electric wire 232a of the device-side connection portion 232 passes from the housing portion 2000 to the main body recessed portion 110. It may be configured. Alternatively, in either of the main body recess 110 and the housing portion 2000, a storage battery that is an opening through which the storage battery 240 can pass from the housing portion 2000 to the main body recess 110 at a position sandwiching the power supply hole 111 a together with the terminal block 130 in the longitudinal direction X. The structure in which the opening 217 for use is formed may be sufficient. In these examples, when there is no appliance adjacent wall portion 215, that is, there is no “ibcdefgj” portion of the appliance adjacent wall portion 215 in FIG. 10, while the opening corresponding to the wire opening 216 is formed in the first side surface portion 112. In this case, an opening corresponding to the storage battery opening 217 is formed.

When the main body recess 110 and the housing portion 2000 form the storage battery opening 217, the positional relationship in the longitudinal direction X of the storage battery 240, the terminal block 130, the power supply hole 111a, and the storage battery opening 217 may be as follows.
(A1) The storage battery 240 is housed inside the housing portion 2000 at a position that sandwiches the other along with one of the terminal block 130 and the power supply hole 111a in the longitudinal direction X.
And,
(A2) The main body recessed portion 110 and the housing portion 2000 form a storage battery opening 217 that is an opening through which the storage battery 240 can pass from the housing portion 2000 to the main body recessed portion 110 at a position where the storage battery 240 is housed in the longitudinal direction X. doing.
In the above (a1), the “position between the terminal block 130 and the power supply hole 111a in the longitudinal direction X and the other sandwiching the other” means that when “any one” is the terminal block 130, the other is The power supply hole 111 a corresponds to the case shown in FIG. 17, and the power supply hole 111 a is sandwiched between the storage battery 240 and the terminal block 130. And as above-mentioned (a2), the main body recessed part 110 and the accommodating part 2000 form the opening 217 for storage batteries in the accommodation position of the storage battery 240 in the longitudinal direction X, and this is equivalent to FIG.
In addition, when “any one” is the power supply hole 111a, the other is the terminal block 130. With respect to FIG. 17, the terminal block 130 is sandwiched between the storage battery 240 and the power supply hole 111a in the longitudinal direction X. is there. In this configuration, the power supply hole 111a and the terminal block 130 are interchanged in the longitudinal direction X in FIG. Also in this case, as in (a2) above, the main body recess 110 and the housing portion 2000 may form the storage battery opening 217 at the housing position of the storage battery 240 in the longitudinal direction X.
With the configurations (a1) and (a2) described above, the storage battery 240 can be easily taken in and out of the emergency light source unit 200.

When the storage battery opening 217 is formed in either the main body recess 110 or the housing part 2000, the positional relationship in the longitudinal direction X of the storage battery 240, the terminal block 130, the power supply hole 111a, and the storage battery opening 217 is as follows. A simple configuration may be used.
(B1) The storage battery 240 is housed inside the housing portion 2000 at a position sandwiching the other along with one of the terminal block 130 and the power supply hole 111a in the longitudinal direction X.
And,
(B2) An opening for a storage battery, which is an opening through which the storage battery 240 can pass from the storage part 2000 to the main body recess 110 at a position where the storage battery 240 is stored in either the main body recess 110 or the storage part 2000 in the longitudinal direction X. 217 is formed. The above (b1) is the same as the content described in the above (a1). Further, as in (b2) above, a configuration in which the storage battery opening 217 is formed in the storage position of the storage battery 240 in the longitudinal direction X in either the main body recess 110 or the storage section 2000 may be adopted.
With the configurations (b1) and (b2) described above, the storage battery 240 can be easily taken in and out of the emergency light source unit 200.

The wire opening 216 may have the following configuration.
(C1) The device-side connector 232b and the storage battery-side connector 242b are connected at a position inside the main body recess 110 sandwiching the other along with one of the terminal block 130 and the power supply hole 111a in the longitudinal direction X. .
“In the longitudinal direction X, the position inside the main body recess 110 sandwiching the other of the terminal block 130 and the power supply hole 111a together with the other” is the same as in the case of (a1) above.
When “one of” is the terminal block 130, the other is the power supply hole 111 a, which corresponds to the case shown in FIG. 17, and the “device-side connector 232 b and storage battery-side connector 242 b” along with the terminal block 130 in the longitudinal direction The power hole 111a is sandwiched by X.
When “one” is the power supply hole 111a, the other is the terminal block 130. In FIG. 17, in the longitudinal direction X, “device side connector 232b and storage battery side connector 242b” together with the power supply hole 111a. The terminal block 130 is sandwiched. In this configuration, the power supply hole 111a and the terminal block 130 are interchanged in the longitudinal direction X in FIG. With the configuration (c1), the operator can easily connect and release the device-side connector 232b and the storage battery-side connector 242b.

In the present embodiment, the shape in which the housing portion 2000 of the emergency light source unit 200 is disposed in the lateral direction of the main body recess 110 in the instrument main body 100 has been described.
The accommodating portion 2000 accommodates the emergency light source portion 220, the emergency lighting device 230, the storage battery 240, the inspection switch 250, and the like constituting the emergency light source unit 200, but not all of them, but the emergency light source unit. At least one of the emergency light source units 220 and the like constituting the unit 200 may be accommodated.
Further, the storage unit 2000 may store any part that is not a constituent part of the emergency light source unit. As some parts, functional parts such as sensors and pull switches, or electrical components may be accommodated.

  In the present embodiment, the shape of the unit bottom surface portion 211 having the bottom surface arrangement portion 211a and the bottom surface attachment portion 211b has been described, but the bottom surface arrangement portion 211a and the bottom surface attachment portion 211b may be provided separately.

  DESCRIPTION OF SYMBOLS 1 Illuminating device, 10 light source unit, 11 light emitter, 11a light emitting element, 11b board | substrate, 12 frame, 12a frame front part, 12aa attachment surface, 12ab back surface, 12b frame side surface part, 13 cover, 13a circular arc part, 13b grip part, 13c engaging part, 14 light source cover part, 15 connecting tool, 15a connecting tool fixing part, 15b connecting part, 15ba connecting tool opening, 15baa edge, 16 lighting device, 16a lighting device body, 16b light source unit side connecting part, 16ba Light source unit side electric wire, 16bb Light source unit side connector, 100 instrument main body, 110 main body recess, 111 main body bottom surface part, 111a power supply hole, 111b mounting hole, 111bb first instrument side fixing hole, 111bc second instrument side fixing hole, 111c electric wire Support part, 112 1st side part, 112a 1st Communication part, 112b second communication part, 113 second side face part, 113a opening for feed wiring, 114 reflection part, 114a notch, 120 end plate part, 121 end plate cover part, 130 terminal block, 131 terminal block Main body, 131a input terminal, 131b output terminal, 132 terminal block side connection part, 132a terminal block side electric wire, 132b terminal block side connector, 140 spring, 141 spring arc part, 142 spring fixing part, 143 spring claw part, 200 emergency Light source unit, 210 unit outline part, 211 unit bottom face part, 211a bottom face placement part, 211a-1 placement face, 211b bottom face attachment part, 211b-1 contact face, 211ba bottom power supply hole, 211bb first fixing hole, 211bc second Fixing hole, 212 unit decorative part, 213 unit front part, 213a lens opening, 21 b Switch opening, 214, 214-1, 214-2, 214-3, 214-4, 214-5 Unit side surface, 215 Instrument adjacent wall, 215A wall recess, 215B long wall, 215C open part, 216 For wire Aperture, 217 storage battery opening, 220 emergency light source, 220a optical axis, 221 light emitting element, 222 substrate, 222a socket, 223 lens, 223a light source holder, 224 light source installation base, 230 emergency lighting device, 231 emergency lighting device Main body, 232 Device side connection part, 232a Device side electric wire, 232b Device side connector, 240 Storage battery, 241 Storage battery main body, 242 Storage battery side connection part, 242a Storage battery side electric wire, 242b Storage battery side connector, 243 Battery holding member, 243a Opening, 250 Inspection switch, 251 Inspection switch body , 252 Pull rod, 300 electric wire, power line, 400, 501 screw, 2000 housing.

Claims (7)

A light source unit;
An elongated main body recess in which the light source unit is detachably attached;
A storage unit disposed adjacent to the main body recess in a short direction of the main body recess, and an emergency light source unit having a storage battery stored in the storage unit,
The body recess is
A power supply hole into which the power supply line is drawn is formed and arranged adjacent to the power supply hole along the longitudinal direction, and has a terminal block to which the power supply line is connected,
The storage battery is
In the longitudinal direction, the terminal block and the power supply hole are housed inside the housing part at a position sandwiching the other together with the other,
The main body concave portion and the accommodating portion are
A lighting device in which an opening for a storage battery, which is an opening through which the storage battery can pass from the storage portion to the main body recess, is formed at a position where the storage battery is stored in the longitudinal direction. The accommodating portion is
Contains an emergency lighting device for charging the storage battery;
The emergency lighting device is
A device-side connecting portion having an electric wire and a connector attached to the end of the electric wire and connected to the storage battery;
The main body concave portion and the accommodating portion are
The lighting device according to claim 1, wherein an electric wire opening, which is an opening through which the electric wire of the device-side connection portion passes from the housing portion to the main body recess, is formed. The storage battery is
A storage battery side connection portion having a storage battery side connector connected to the device side connector which is the connector of the device side connection portion of the emergency lighting device, and a storage battery side electric wire connected to the storage battery side connector. And
The device side connector and the storage battery side connector are:
The illuminating device according to claim 2, wherein the lighting device is connected at a position inside the main body concave portion sandwiching the other together with either one of the terminal block and the power supply hole in the longitudinal direction. The body recess is
The lighting device according to any one of claims 1 to 3, wherein a pair of attachment holes for allowing the attachment tool to pass are formed at positions where the terminal block and the storage battery opening are sandwiched in the longitudinal direction. . The body recess is
The lighting device according to any one of claims 1 to 4, wherein an opening for a feed wiring is formed in a side surface portion on the opposite side to the housing portion in the short direction. The accommodating portion is
Contains an emergency lighting device for charging the storage battery;
The emergency lighting device is
A device-side connecting portion having an electric wire and a connector attached to the end of the electric wire and connected to the storage battery;
In either of the main body recess and the accommodating portion,
The lighting device according to claim 1, wherein an opening for an electric wire, which is an opening through which the electric wire of the device-side connection portion passes from the housing portion to the main body recess, is formed. A light source unit;
An elongated main body recess in which the light source unit is detachably attached;
A storage unit disposed adjacent to the main body recess in a short direction of the main body recess, and an emergency light source unit having a storage battery stored in the storage unit,
The body recess is
A power supply hole into which the power supply line is drawn is formed and arranged adjacent to the power supply hole along the longitudinal direction, and has a terminal block to which the power supply line is connected,
The storage battery is
In the longitudinal direction, the terminal block and the power supply hole are housed inside the housing part at a position sandwiching the other together with the other,
In either of the main body recess and the accommodating portion,
A lighting device in which an opening for a storage battery, which is an opening through which the storage battery can pass from the storage portion to the main body recess, is formed at a position where the storage battery is stored in the longitudinal direction.

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