JP7437668B2 - lighting equipment - Google Patents

Description

The present disclosure relates to a lighting fixture, and specifically relates to a lighting fixture including a long fixture body and a long lighting unit attached to the fixture body.

BACKGROUND ART Conventionally, lighting fixtures including a long fixture body and a long lighting unit attached to the fixture body have been used for applications such as stairway lights (see Patent Document 1, etc.). The elongated main body of the lighting equipment accommodates various types of equipment.

Japanese Patent Application Publication No. 2014-93122

In the above-mentioned lighting equipment, there is a demand for further slimming of the entire equipment. However, in general, as the entire device becomes slimmer, it becomes more difficult to connect or replace devices housed in the device itself.

An object of the present disclosure is to propose a lighting fixture that allows easy connection and replacement of devices housed in the fixture body even though the fixture as a whole has a slim structure.

A lighting fixture according to one aspect of the present disclosure includes a long fixture body and a long lighting unit. The device body includes a first frame on which equipment is installed, and a second frame detachably connected to the first frame. The lighting unit is movably attached to the first frame.

When the second frame is removed from the first frame, an opening is formed between the first frame and the lighting unit so that at least a part of the equipment can be accessed from the outside. . The opening width of the opening can be changed as the lighting unit moves with respect to the first frame.

The present disclosure has the advantage that it is possible to easily connect and replace equipment housed in the instrument body.

FIG. 1A is a front view of a lighting fixture according to an embodiment, FIG. 1B is a bottom view of the lighting fixture, and FIG. 1C is a left side view of the lighting fixture. FIG. 2 is an exploded perspective view of the above lighting fixture. FIG. 3 is another exploded perspective view of the above lighting fixture. FIG. 4 is a front view of a light source unit included in the above lighting fixture. FIG. 5 is a top view of the lighting unit same as above. FIG. 6 is a bottom view of the lighting unit same as above. FIG. 7 is a rear view of the lighting unit same as above. FIG. 8 is a front view showing an enlarged main part of the same lighting unit as above. FIG. 9 is a perspective view of a cover end included in the above lighting fixture. FIG. 10 is an exploded perspective view of the emergency light source unit included in the above lighting fixture. FIG. 11 is a bottom view of the emergency light source unit same as above. FIG. 12 is a front view of the emergency light source unit same as above. FIG. 13 is a sectional view of essential parts of the emergency light source unit same as above. FIG. 14 is a circuit configuration diagram of the above lighting fixture. FIG. 15A is a top view of the above lighting fixture when the second frame is not connected and the lighting unit is in the first position, and FIG. 15B is a top view of the above lighting fixture when the second frame is connected. FIG. 3 is a right side view when the lighting unit is in the first position. FIG. 16A is a top view of the above lighting fixture when the second frame is not connected and the lighting unit is in the second position, and FIG. 16B is a top view of the same lighting fixture when the second frame is connected. It is a right side view when the lighting unit is in the second position. FIG. 17A is a top view of the above lighting fixture when the second frame is not connected and the lighting unit is in the third position, and FIG. 17B is a top view of the same lighting fixture when the second frame is connected. It is a right side view when the lighting unit is in the third position.

(One embodiment)
A lighting fixture of one embodiment will be described in detail with reference to the accompanying drawings. However, all the attached drawings are schematic diagrams, and the dimensional ratio of each component does not necessarily reflect the actual dimensional ratio. The configuration described in the following embodiments is only an example, and various changes can be made within the range that can achieve the same effects.

A lighting fixture of one embodiment (hereinafter simply referred to as a "lighting fixture") is, for example, a so-called stairway guide light installed on the wall of a staircase landing that serves as an evacuation route in a building. However, the lighting equipment is not limited to stairway guide lights.

In the following description, unless otherwise specified, the directions shown by the arrows in FIG. 2 define the front-back, top-bottom, and left-right directions of the lighting fixture. When the lighting fixture is installed on a wall, the vertical direction of the lighting fixture is the vertical direction. The front-rear direction of the lighting fixture is the normal direction of the wall. What is the left and right direction of the lighting equipment? This is the left and right direction when facing the wall.

As shown in FIGS. 1 to 3, the lighting fixture includes a fixture body 1 and a lighting unit 9 attached to the fixture body 1. The lighting unit 9 is a commonly used lighting unit, and includes a cover 2, a commonly used light source unit 3, and a sensor device 5. Each component will be explained in detail below.

[1. Light source unit]
The light source unit 3 includes two first LED modules 30, two lens blocks 31, a mounting plate 32, and a lighting device 33 (see FIGS. 2 and 4 to 8).

[1-1. 1st LED module]
Each of the two first LED modules 30 includes a substrate 300 formed in a long rectangular shape and a plurality of LEDs 301 mounted on the surface (front surface) of the substrate 300. Four LEDs 301 are mounted on each of the first end 3001 and the second end 3002 in the longitudinal direction of the substrate 300 in a matrix (see FIG. 8, etc.). A plurality of remaining LEDs 301 are mounted on a portion of the substrate 300 excluding the first end 3001 and the second end 3002 so as to be lined up in a line with a constant interval.

[1-2. Lens block]
Each of the two lens blocks 31 has a base portion 310, a first lens 312, a second lens 313, and a third lens 314, as shown in FIGS. 4 to 7. The base portion 310 is formed in a long rectangular shape. The first lens 312 is provided at the first end of the base portion 310 in the longitudinal direction. The second lens 313 is provided at the second end of the base portion 310 in the longitudinal direction. The third lens 314 is provided between the first end and the second end of the base portion 310.

The first lens 312 and the second lens 313 are aspheric plano-convex lenses. The third lens 314 is an aspherical cylindrical lens. The third lens 314 has a light distribution characteristic that spreads the incident light in the width direction (that is, in the vertical direction). The first lens 312 and the second lens 313 have light distribution characteristics that spread incident light in the length direction (that is, in the left-right direction) in addition to the width direction.

The base portion 310, the first lens 312, the second lens 313, and the third lens 314 are integrally formed of a transparent synthetic resin such as polycarbonate resin. The first end of the base portion 310 is provided with a plurality of (specifically two) circular screw insertion holes. Further, in the portion of the base portion 310 excluding the first end, a plurality of oval screw insertion holes 3102 are provided at both ends of the base portion 310 in the transverse direction (that is, the vertical direction) (Fig. 4 and Figure 8).

[1-3. Mounting plate]
The mounting plate 32 has a mounting portion 320 to which the two first LED modules 30 are mounted, a pair of fixing pieces 321 to which the cover 2 is fixed, and a pair of mounting pieces 324 for attaching to the instrument body 1 (FIG. 2 , see Figures 4 to 8).

The attachment portion 320 is formed into a rectangular flat plate shape. A rectangular window hole 322 is provided in the longitudinal center of the attachment portion 320. The window hole 322 penetrates the mounting portion 320 in its thickness direction (that is, the front-rear direction).

Each of the pair of fixing pieces 321 is formed into a rectangular flat plate shape. Each of the fixing pieces 321 protrudes rearward from the upper and lower edges of the mounting portion 320 one by one. One screw hole 323 is provided in the center and both ends of each fixing piece 321 in the longitudinal direction (that is, in the left-right direction) (see FIGS. 5 and 6). The mounting portion 320 and the pair of fixing pieces 321 are integrally formed by punching and bending a single metal plate.

The pair of attachment pieces 324 respectively protrude rearward from the first and second ends of the attachment portion 320 in the longitudinal direction (see FIGS. 2, 5, and 6). Each mounting piece 324 has a rectangular groove 3240 and two screw holes 3241 (see FIG. 2).

Further, the rear end portion of each attachment piece 324 is bent into an L shape when viewed from the vertical direction (see FIGS. 5 and 6). A screw hole is provided at the tip (that is, the rear end) of the L-shaped bent portion of each mounting piece 324, and a screw 325 is screwed into the screw hole. The tip of the screw 325 protrudes along the longitudinal direction of the mounting portion 320 toward the outside of the mounting piece 324 (that is, the side away from the window hole 322 of the mounting portion 320). The tip of this screw 325 constitutes a pin-shaped shaft portion 3250.

The pair of mounting pieces 324 are each formed separately from the mounting portion 320 and screwed to the mounting portion 320, but may be formed integrally with the mounting portion 320.

[1-4. Lighting device]
The lighting device 33 converts AC power supplied from a regular power supply PS (see FIG. 14) such as a grid power supply into DC power, supplies this DC power to the first LED module 30, and lights the first LED module 30. It is configured as follows. The lighting device 33 houses a printed circuit. The printed circuit constitutes a power conversion circuit that performs power conversion, a constant current circuit that makes the DC current supplied to the first LED module 30 a constant current, and the like.

[1-5. Assembling the light source unit]
The two first LED modules 30 and the two lens blocks 31 are each attached to the front surface of the attachment part 320 of the attachment plate 32. One fixing screw 315 is inserted into each of the plurality of screw insertion holes 3102 provided in the base portion 310 of the lens block 31 (see FIGS. 4 and 8). The lens block 31 is fixed to the mounting part 320 by screwing each of the plurality of fixing screws 315 into a plurality of screw holes provided in the base part 310 one by one.

The first LED module 30 is attached to the attachment part 320 by being sandwiched between the attachment part 320 and the base part 310 of the lens block 31 when the lens block 31 is fixed to the attachment part 320 (see FIG. 8).

The four LEDs 301 mounted on the first end 3001 of the substrate 300 overlap the first lens 312 of the lens block 31 when viewed from the front. The four LEDs 301 mounted on the second end 3002 of the substrate 300 overlap the second lens 313 of the lens block 31 when viewed from the front. Further, the remaining plurality of LEDs 301 mounted on the portion of the substrate 300 excluding the first end 3001 and the second end 3002 overlap with the third lens 314 of the lens block 31 when viewed from the front.

[2. Sensor device]
The sensor device 5 is a radio wave sensor that detects the presence of a moving object using, for example, the Doppler effect. The sensor device 5 is configured to transmit unmodulated continuous wave radio waves in the microwave band from a transmitting antenna, and to receive radio waves reflected by an object using a receiving antenna. The sensor device 5 outputs a detection signal to a control device 60, which will be described later, while detecting the presence of a moving object.

The sensor device 5 is attached to the attachment plate 32 of the light source unit 3 via the attachment base 52 (see FIGS. 5 to 7). The mounting base 52 includes a box body 521 with an open front surface, and a pair of fixing protrusions 522 protruding from the left and right side surfaces of the box body 521. A pair of holes 5210 penetrate through the bottom wall of the box body 521 (see FIGS. 5 and 7). The sensor device 5 includes a pair of hook pieces 523 that protrude rearward.

The sensor device 5 can be attached to the bottom wall of the mount 52 by inserting the pair of hook pieces 523 into the pair of holes in the bottom wall of the mount 52 one by one, and hooking the hook pieces 523 onto the edges of the holes in the bottom wall. (See Figures 5 and 7).

The mounting base 52 is attached to the mounting plate 32 by screwing a pair of fixing protrusions 522 to the mounting portion 320 of the mounting plate 32 (see FIG. 7). The pair of fixing protrusions 522 are each screwed to the left and right sides of the window hole 322 on the rear surface of the mounting portion 320.

[3. cover]
The cover 2 has a cover main body 20 and a pair of cover ends 22 (see FIGS. 2 and 3).

The cover main body 20 has a front wall 200, an upper wall 201, and a lower wall 202, and is formed in the shape of an elongated square gutter with an open rear surface and both left and right sides. The front wall 200 is formed into a long rectangular shape whose longitudinal direction is the left-right direction. The upper wall 201 is formed in a long rectangular shape and protrudes rearward from the upper end of the front wall 200 in the longitudinal direction. The lower wall 202 is formed in a long rectangular shape and protrudes rearward from the lower end of the front wall 200 in the longitudinal direction. The cover main body 20 is made of a molded body of synthetic resin (for example, polycarbonate resin or acrylic resin) having translucency.

Three elongated screw insertion holes 205 are provided at the rear end of the upper wall 201 and the lower wall 202 of the cover body 20, respectively (see FIG. 2). One mounting screw 23 is inserted into each of these screw insertion holes 205. Then, the cover body 20 is attached to the attachment plate 32 by screwing the attachment screws 23 one by one into the plurality of screw holes 3210 provided in each of the pair of fixing pieces 321 (see FIG. 3). When the cover main body 20 is attached to the mounting plate 32, the rear surface of the cover main body 20 is closed by the mounting plate 32.

The pair of cover ends 22 are formed to have the same shape and dimensions. As shown in FIG. 9, the cover end 22 includes a cover end main body 220, a side wall 221, a first hook portion 222, and a second hook portion 223. It is preferable that the cover end main body 220, the side wall 221, the first hook part 222, and the second hook part 223 are integrally formed as a molded body of synthetic resin having a light reflectance of 90% or more, for example.

The cover end main body 220 is formed into a rectangular flat plate shape. The side wall 221 projects laterally from two long sides (that is, the upper end and the lower end) and one short side (that is, the front end) of the cover end main body 220.

The first hook portion 222 has a horizontal piece 2220 and a vertical piece 2221. The horizontal piece 2220 and the vertical piece 2221 are formed into a rectangular flat plate shape with equal lengths in the longitudinal direction. The horizontal piece 2220 protrudes from the center of the inner bottom surface of the cover end main body 220 so as to be parallel to the side walls 221 at the upper and lower ends. The vertical piece 2221 protrudes from the tip of the horizontal piece 2220 on both sides of the upper and lower sides of the horizontal piece 2220. Thereby, the first hook portion 222 is formed in a T-shape when viewed from the longitudinal direction (that is, the front-back direction) of the cover end main body 220.

Each of the pair of second hook portions 223 is formed in an elongated trapezoidal shape. The pair of second hook portions 223 protrude from the inner bottom surface of the cover end main body 220 so as to face each other with the first hook portion 222 in between. Each second hook part 223 has an inclined part 2230 that is inclined so as to gradually increase the amount of protrusion from the inner bottom surface of the cover end main body 220 from the rear end to the front end of the cover end main body 220. A first recess 2231 recessed in a semicircular shape is formed in the inclined portion 2230 of each second hook portion 223 .

In each second hook portion 223, a second recess 2232 recessed in a semicircular shape is formed in front of the inclined portion 2230. The second recess 2232 is located in front of the first recess 2231. The distance between the second recess 2232 and the first recess 2231 is preferably set to, for example, 10 mm. The second recess 2232 is formed to be deeper than the first recess 2231 located behind it. Further, a protrusion 2233 that protrudes in the thickness direction (that is, in the left-right direction) of the cover end main body 220 is formed at the front end portion of each second hook portion 223 .

These pair of cover ends 22 are removably attached to the instrument main body 1 as will be described later, and are configured to close both left and right side surfaces of the cover main body 20 (see FIG. 1C). The illumination light emitted from the two first LED modules 30 passes through the cover body 20 and is irradiated toward an external space (for example, a landing of a staircase and a space of stairs). However, a portion of the illumination light emitted from the two first LED modules 30 is reflected by the pair of cover ends 22, passes through the cover body 20, and is irradiated into the space.

[4. Equipment body]
As shown in FIG. 2, the instrument main body 1 has a first frame 16 that is elongated and a second frame 17 that is also elongated. The second frame 17 is detachably coupled to the first frame 16. By combining the first frame 16 and the second frame 17, a long box-shaped instrument main body 1 with an open front is configured.

[4-1. 1st frame]
The first frame 16 includes a back plate 160, a bottom plate 161, and a pair of support plates 162. The back plate 160, the bottom plate 161, and the pair of support plates 162 are integrally formed by bending a single metal plate. The back plate 160 and the bottom plate 161 are formed into elongated rectangular flat plates having the same length in the left-right direction. The back plate 160 projects upward from one end (that is, the rear end) of the bottom plate 161 in the width direction.

A long reinforcing piece 1610 protrudes forward from the end of the back plate 160 on the side away from the bottom plate 161 (that is, the upper end). The length of the reinforcing piece 1610 is set shorter than the length of the back plate 160. At the upper end of the back plate 160, the reinforcing piece 1610 is not provided at the left end.

Each support plate 162 is formed into a rectangular flat plate shape. Each support plate 162 has a groove portion 1620 that includes a first groove 1621, a second groove 1622, and a third groove 1623.

The first groove 1621 is formed in a straight line from the upper end of each support plate 162 to the center in the vertical direction. The second groove 1622 is formed in a straight line so as to extend rearward from the lower end of the first groove 1621. The third groove 1623 is formed in a straight line so as to extend diagonally upward and forward from the lower end of the first groove 1621. The first groove 1621, the second groove 1622, and the third groove 1623 are connected. A circular screw insertion hole 1624 penetrates below the groove 1620 in each support plate 162 .

The back plate 160 is provided with two round holes 1600 and four elongated holes 1601. A power line for supplying regular power from a regular power supply PS and a signal line for receiving an automatic fire alarm interlocking signal from an automatic fire alarm equipment installed in the building are inserted into the two round holes 1600.

Anchor bolts are inserted into at least two of the four long holes 1601 on the left and right sides. The anchor bolt is embedded in a wall (for example, a concrete wall) such as a staircase landing. The first frame 16 is fixed to the wall by tightening nuts on the anchor bolts inserted into the elongated holes 1601.

Further, a fixing member 163 is attached to the front surface of the back plate 160. The fixing member 163 includes a first fixing plate 1631 in the shape of a rectangular flat plate, and a second fixing plate 1632 in the shape of a flat plate that protrudes forward from the end (that is, the upper end) of the first fixing plate 1631 on the side away from the bottom plate 161. and has. The first fixing plate 1631 is fixed to the back plate 160.

Various types of equipment are attached to the first frame 16 via fixing members 163 and the like. Specifically, the plurality of terminal blocks 14 and 15 are attached to the right end of the front surface of the first fixing plate 1631, and the switch block 8 is attached to the left end of the front surface of the first fixing plate 1631. The circuit block 6 is attached to the lower surface of the second fixing plate 1632. An emergency power source 7 is arranged at the left end of the first frame 16. These devices (that is, the terminal blocks 14 and 15, the circuit block 6, the emergency power supply 7, the switch block 8, etc.) will be described later.

A first window 1611 is provided at the longitudinal center of the bottom plate 161, and a second window 1612 is provided at the left end of the bottom plate 161 (see FIG. 1B). The first window 1611 and the second window 1612 are each formed in the shape of an elongated rectangular hole so that their longitudinal direction coincides with the longitudinal direction (that is, the left-right direction) of the bottom plate 161.

[4-2. 2nd frame]
As shown in FIGS. 2 and 3, the second frame 17 includes a top plate 170, a pair of side plates 171, and an inverted U-shaped connecting plate 172 that connects the top plate 170 and the pair of side plates 171. . The top plate 170 is formed into a long rectangular flat plate shape. The connecting plate 172 projects downward from the rear end of the top plate 170 along the longitudinal direction. The top plate 170, the pair of side plates 171, and the connecting plate 172 are integrally formed by bending a single metal plate.

The pair of side plates 171 are each formed into a rectangular shape. The pair of side plates 171 protrude forward from both ends (that is, the left end and right end) of the connecting plate 172 in the longitudinal direction. Each side plate 171 has a vertical groove 1711, a horizontal groove 1712, a pair of protrusions 1713, and a screw insertion hole 1714. The vertical groove 1711 extends linearly from the lower end of each side plate 171 to the center in the vertical direction. The lateral groove 1712 extends linearly from the front end of each side plate 171 to the center in the front-rear direction.

Each of the pair of protrusions 1713 is formed into a semi-cylindrical shape. The pair of protrusions 1713 are formed integrally with each side plate 171 in a central portion of the outer side surface of the side plate 171 so as to be lined up in a straight line parallel to the up-down direction. The screw insertion hole 1714 is provided at a position between the vertical groove 1711 and the lower projection 1713.

[5. Emergency light source unit]
The emergency light source unit 4 has two second LED modules 40, two light guides 43, two heat sinks 44, a panel 46, a holder 47, and a mounting frame 48, as shown in FIGS. 10 to 13.

[5-1. 2nd LED module]
Each of the two second LED modules 40 is a chip-on-board type white LED for illumination. The two second LED modules 40 are each supported by a holder 47.

[5-2. Heat sink]
As shown in FIG. 10, the two heat sinks 44 are made of a highly thermally conductive metal material and have the same shape and dimensions. Each heat dissipation plate 44 has a flat first fixing piece 441 and a second fixing piece 442 protruding from the lower end of the first fixing piece 441 in a stepwise manner. The first fixing piece 441 has three hook holes 443 that are square holes and three positioning holes 444 that are round holes.

[5-3. Light guide]
Each of the pair of light guides 43 is formed into a truncated pyramid shape using inorganic glass or synthetic resin material. It is preferable that a plurality of grooves are formed on the slope (that is, the upper surface) of each light guide 43 so as to be lined up at equal intervals along the axial direction of each light guide 43.

[5-4. panel]
The panel 46 is formed into a rectangular flat plate shape from a light-transmitting noncombustible material, for example, an inorganic glass such as quartz glass or silicate glass. A seal member 460 is tightly attached to the periphery of the lower surface of the panel 46 .

[5-5 Holder]
The holder 47 has two LED support parts 470, a light guide support part 471, and a panel accommodating part 472.

The two LED support parts 470 are each configured to support one second LED module 40. Each LED support 470 includes a recess 4700 that accommodates the second LED module 40 (see FIG. 10). An opening 4704 through which illumination light emitted from the second LED module 40 passes passes through the bottom of the recess 4700 .

Furthermore, a rectangular parallelepiped-shaped flexible piece 4705 is formed in the recess 4700 of each LED support part 470. The flexible piece 4705 is cantilevered by the LED support section 470 at one longitudinal end (that is, the rear end). The tip (that is, the front end) of the flexible piece 4705 is movable within the opening 4704 along the thickness direction (that is, the left-right direction) of the LED support section 470.

A thermally conductive sheet 400 is sandwiched between the second LED module 40 supported by each LED support part 470 and the first fixing piece 441 . That is, the second LED module 40 is thermally coupled to the heat sink 44 via the heat conductive sheet 400.

The light guide support part 471 has two accommodation recesses 4710 and a bridge part 4711. The two housing recesses 4710 are formed so as to be lined up in a straight line. The bridge section 4711 is located at each end of the two accommodation recesses 4710, straddling each accommodation recess 4710. The panel accommodating portion 472 is formed in a rectangular frame shape so as to surround the two accommodating recesses 4710.

The light guide 43 is inserted into the accommodation recess 4710 through the opening 4704 of the LED support 470. The flexible piece 4705 of the LED support part 470 is pushed by the claw part 430 (see FIG. 13) provided at the rear end of the slope of the light guide 43 during the process of inserting the light guide 43 into the accommodation recess 4710. Deflect. When the insertion of the light guide 43 is completed, the tip of the flexible piece 4705 climbs over the claw portion 430 of the light guide 43 and returns to its original state (that is, the undeflected state). As a result, the light guide 43 is supported by the light guide support part 471 while being accommodated in the accommodation recess 4710 by the tip of the flexible piece 4705 being caught by the claw part 430 .

[5-6 Mounting frame]
The mounting frame 48 includes a frame body 480, two first fixing plates 481, a second fixing plate 482, and two reinforcing plates 483. The frame body 480, the first fixing plate 481, the second fixing plate 482, and the two reinforcing plates 483 are integrally formed from one metal plate. The frame body 480 is formed into a long rectangular frame shape with a window 4800 in the center.

Reinforcement plates 483 are bent one by one from both ends of the frame 480 in the lateral direction. The second fixing plate 482 projects upward from the upper edge of the rear reinforcing plate 483 of the two reinforcing plates 483.

By screwing the second fixing pieces 442 of the heat sink 44 to the two first fixing plates 481 one by one, the holder 47 is attached to the mounting frame 48 via the two heat sinks 44 . When the holder 47 is attached to the mounting frame 48, the panel 46 accommodated in the panel accommodating portion 472 of the holder 47 faces the window 4800 of the mounting frame 48. The gap between the frame body 480 and the panel 46 is sealed by a rectangular frame-shaped sealing member 460.

[5-7 Mounting structure of emergency light source unit]
By screwing the second fixing plate 482 of the mounting frame 48 to the front surface of the first fixing plate 1631 of the fixing member 163, the emergency light source unit 4 is attached to the first frame 16 (that is, the instrument body) via the fixing member 163. 1).

When the emergency light source unit 4 is attached to the first frame 16, the first window 1611 of the bottom plate 161 of the first frame 16 and the window 4800 of the frame body 480 of the attachment frame 48 overlap in the vertical direction. As a result, the illumination light that has passed through the panel 46 is irradiated toward the outside of the appliance main body 1 (eg, the floor surface of the landing) through the first window 1611.

[6. Emergency power supply]
The emergency power source 7 includes, for example, a plurality of storage batteries and a battery case 70 that accommodates the plurality of storage batteries (see FIG. 2, etc.). Each of the plurality of storage batteries is, for example, a dry cell type nickel-metal hydride storage battery. The battery case 70 is made of an electrically insulating material such as synthetic resin and is formed into a cylindrical shape. The emergency power supply 7 is housed, for example, in the left end portion of the instrument main body 1.

[7. switch block]
The switch block 8 is configured by accommodating a circuit board in a synthetic resin housing 80 (see FIG. 2). Two push button switches, a monitor lamp, an infrared light receiving element, etc. are mounted on the circuit board.

The switch block 8 is housed on the right side of the emergency power source 7 within the instrument body 1. As shown in FIG. 1B, the switch block 8 is arranged such that the lower surface of the housing 80 is exposed to the outside through the second window 1612.

[8. Circuit block]
As shown in FIG. 14, the circuit block 6 includes a control device 60, a charging device 61, and an emergency lighting device 62. The charging device 61 converts regular power (AC power) supplied from a regular power source PS such as a grid power source into DC power, and charges the emergency power source 7 with the converted DC power. The emergency lighting device 62 lights the two second LED modules 40 of the emergency light source unit 4 using emergency power (DC power) supplied from the emergency power supply 7 via the charging device 61 according to instructions from the control device 60 . Turn it on.

Control device 60 includes, for example, a microcontroller. The control device 60 determines whether or not the regular power supply PS is out of power by dividing the voltage input to the lighting device 33 with two resistors R1 and R2 and detecting the divided voltage. If the control device 60 determines that the regular power source PS is not out of power, it causes the charging device 61 to charge the emergency power source 7, and causes the lighting device 33 to light the two first LED modules 30 of the light source unit 3. The control device 60 turns on the monitor lamp of the switch block 8 while the charging device 61 is charging the emergency power source 7.

On the other hand, if the control device 60 determines that the regular power source PS is out of power, it causes the charging device 61 to stop charging the emergency power source 7, and causes the emergency lighting device 62 to switch on the two emergency light source units 4. The second LED module 40 is turned on.

Moreover, when the detection signal is not input from the sensor device 5, the control device 60 controls the lighting device 33 to make the current supplied to the two first LED modules 30 approximately half of the rated value. On the other hand, when the detection signal is input from the sensor device 5, the control device 60 controls the lighting device 33 to set the current supplied to the two first LED modules 30 to the rated value.

As shown in FIG. 2, the circuit block 6 has a metal case 63 in which a printed circuit board is housed. The printed circuit board constitutes the above-described control device 60, charging device 61, and emergency lighting device 62. The circuit block 6 is housed on the left side of the emergency light source unit 4 in the appliance main body 1 . The case 63 of the circuit block 6 is fixed to the lower surface of the second fixing plate 1632 with screws.

[9. Lighting equipment construction procedure]
The lighting fixture configured as described above is installed on the wall of the landing using the procedure described below (see FIGS. 15A to 17B).

First, a worker who performs the installation work fixes the first frame 16 to the wall.

Specifically, the worker passes two anchor bolts embedded in the wall through the long holes 1601 of the back plate 160 of the first frame 16, tightens nuts on these two anchor bolts, and then Fix the frame 16 to the wall. Then, the operator electrically connects the power wire inserted through the round hole 1600 of the first frame 16 to the primary side terminal of the terminal block 14.

Subsequently, the operator attaches the lighting unit 9 to the first frame 16.

Specifically, the operator attaches the two shaft parts 3250, which are formed by the tips of the two screws 325 attached to the mounting plate 32 of the light source unit 3, to the two support plates that the first frame 16 has. It is inserted into each of the 162 first grooves 1621 from the upper end. Then, the shaft portion 3250 inserted into the first groove 1621 is slid to the lower end of the first groove 1621 (see FIG. 15B). The position of the lighting unit 9 at this time is the first position P1.

Further, the operator slides the lighting unit 9 until each shaft portion 3250 reaches from the lower end to the upper end of the third groove 1623 (see FIG. 16B).

At this time, the illumination unit 9 rotates so as to be tilted diagonally forward and downward about the portion of the lower wall 202 of the cover body 20 that is in contact with the front end of the bottom plate 161 of the first frame 16 as the rotation axis. That is, the lighting unit 9 performs both sliding movement and rotational movement with respect to the first frame 16. The position of the illumination unit 9 after the movement is the second position P2. The lighting unit 9 is movable between the first position P1 and the second position P2 when the second frame 17 is not coupled to the first frame 16.

Note that it is not an essential component of the lighting fixture of the present disclosure that the lighting unit 9 performs both sliding movement and rotational movement with respect to the first frame 16. For example, when the illumination unit 9 moves between the first position P1 and the second position P2, it may be configured to slide relative to the first frame 16 and not rotate. Alternatively, when the lighting unit 9 moves between the first position P1 and the second position P2, the lighting unit 9 is configured to rotate relative to the first frame 16 and not slide. Good too.

As a result of the lighting unit 9 moving from the first position P1 to the second position P2, the opening width W1 of the opening 19 formed between the first frame 16 and the lighting unit 9 is widened (see FIGS. 15A and 16A). ). The opening 19 is an opening portion that is formed between the upper end of the back plate 160 of the first frame 16 and the rear end of the upper wall 201 of the cover main body 20 and is opened upward. At least a portion of the equipment supported by the first frame 16 (that is, the terminal blocks 14 and 15, the circuit block 6, the emergency power supply 7, the switch block 8, etc.) can be contacted from above through the opening 19.

The operator inserts his/her hand from above through the opening 19 and electrically connects the input terminal of the lighting device 33 of the light source unit 3 and the terminal on the secondary side of the terminal block 14 with an electric wire. Thereafter, the operator rotates the lighting unit 9 in the opposite direction and slides the lighting unit 9 so that each shaft portion 3250 extends from the upper end to the lower end of the third groove 1623. The lighting unit 9 rotates as the slide moves. That is, the lighting unit 9 slides and rotates from the second position P2 to the first position P1. As a result, the opening width W1 of the opening 19 formed between the first frame 16 and the lighting unit 9 becomes narrower.

Furthermore, the operator slides the lighting unit 9 backward until each shaft portion 3250 reaches the rear end of the second groove 1622 from the lower end of the third groove 1623 (see FIG. 17B). The position of the illumination unit 9 after the movement is the third position P3.

Subsequently, the operator couples the second frame 17 to the first frame 16 with the lighting unit 9 in the third position P3. Specifically, the operator inserts the two shaft portions 3250 one-on-one into the vertical grooves 1711 of the two side plates 171 of the second frame 17, until each shaft portion 3250 reaches the upper end of the vertical groove 1711. Move the second frame 17 downward so that it reaches the target.

Next, the operator uses two fixing screws 18 (see FIGS. 2 and 3) and inserts each screw 18 into the screw insertion hole 1714 of the side plate 171 and the screw insertion hole 1714 of the support plate 162 of the first frame 16. It is inserted through the hole 1624 and further screwed into the screw hole 3241 of the mounting piece 324 of the mounting plate 32 of the light source unit 3. As a result, the first frame 16, the second frame 17, and the mounting plate 32 of the light source unit 3 are fixed with the two screws 18. With the second frame 17 connected to the first frame 16 in this manner, movement of the lighting unit 9 with respect to the first frame 16 is restrained by the second frame 17 and by the screws 18. The lighting unit 9 is fixed at the third position P3 in a state where the first frame 16 and the second frame 17 are connected.

Finally, the operator attaches the pair of cover ends 22 to the instrument body 1. First, the operator moves the cover end 22 backward along the side surface of the instrument main body 1, and inserts the horizontal piece 2220 of the first hook part 222 of the cover end main body 220 from the front of the instrument main body 1 into the second frame 17. Insert into the horizontal groove 1712 of the side plate 171. At this time, the vertical piece 2221 of the first hook part 222 is inserted into the groove 3240 of the attachment piece 324 of the light source unit 3.

Then, when the operator moves the cover end 22 further backward, the pair of protrusions 1713 of the side plate 171 of the second frame 17 climb over the first recesses 2231 of the pair of second hooks 223 of the cover end 22. It fits into the second recess 2232 on the front side. The state in which the pair of protrusions 1713 are respectively fitted into the pair of second recesses 2232 is the normally attached state of the cover end 22. Thereby, the pair of cover ends 22 are attached one-to-one to both longitudinal ends of the instrument main body 1. With the above steps, the lighting fixture is installed on the wall.

[10. Cover end fall prevention mechanism]
In the lighting equipment installed as described above, when some external force acts on the cover end 22 and the cover end 22 moves in the direction in which it comes off (that is, when the cover end 22 suddenly moves forward), the cover end It is equipped with a fall suppression mechanism that can suppress the fall of 22. The fall suppression mechanism is a mechanism that includes a pair of first recesses 2231 shown in FIG. , the cover end 22 is prevented from moving any further in the direction in which it comes off, and in turn, the cover end 22 is prevented from falling off.

The state in which the pair of protrusions 1713 are respectively fitted into the pair of first recesses 2231 is the hooked state of the cover end 22. When the cover end 22 is in the hooked state, it is shifted by a predetermined distance (for example, 10 mm) in the direction in which the cover end 22 comes off compared to when it is in the normally attached state. Therefore, it is possible to easily determine by visual inspection whether the cover end 22 is in a properly attached state or in a caught state. If it is determined visually that the cover end 22 is stuck, the cover end 22 can be easily returned to the normal attachment state by pushing the cover end 22 backward.

[11. Emergency power supply replacement procedure]
Next, the procedure for replacing the emergency power supply 7 of the lighting equipment will be explained. First, the operator who performs the replacement work pulls the cover end 22 toward the front of the instrument body 1, releases the protrusion 1713 of the side plate 171 of the second frame 17 from the groove 3240 of the mounting piece 324, and removes the cover end 22 from the instrument body 1. Remove.

Next, the operator removes the two screws 18 and then removes the second frame 17 from the first frame 16. At this stage, each shaft portion 3250 is located at the rear end of the second groove 1622, and the lighting unit 9 is in the third position P3 (see FIGS. 17A and 17B).

Then, the operator slides the lighting unit 9 forward so that each shaft portion 3250 extends from the rear end of the second groove 1622 to the lower end of the third groove 1623 (see FIGS. 15A and 15B), and then The illumination unit 9 is slid and rotated so that the shaft portion 3250 extends from the lower end to the upper end of the third groove 1623 (see FIGS. 16A and 16B). At this time, the lighting unit 9 moves from the third position P3 to the first position P1, and further moves from the first position P1 to the second position P2.

The opening width W1 before and after the opening 19 when the lighting unit 9 is in the second position P2 is larger than the opening width W1 before and after the opening 19 when the lighting unit 9 is in the first position P1. It is larger than the front and rear opening width W1 of the opening 19 when the opening 9 is at the second position P2. The operator inserts his hand from above through the opening 19 having the widest opening width W1 in the movable range of the lighting unit 9, takes out the emergency power source 7, and stores the new emergency power source 7 in the first frame 16. You can easily perform the tasks that you want to do.

Here, as described above, a reinforcing piece 1610 that protrudes forward from the back plate 160 is provided in the portion of the first frame 16 where the emergency power source 7 is installed in the left-right direction (that is, the left end). It has not been done. Therefore, when replacing the emergency power source 7 from above, the reinforcing piece 1610 is prevented from getting in the way, making the replacement work of the emergency power source 7 even easier.

After replacing the emergency power source 7, the worker rotates and slides the lighting unit 9 back to the first position P1, returns it to the third position P3, and then moves the lighting unit 9 to the second position relative to the first frame 16. The frame 17 is combined and the pair of cover ends 22 are attached to the instrument body 1.

With the above steps, the replacement work of the emergency power supply 7 is completed.

(mode)
As described based on one embodiment, this specification discloses the lighting fixtures of the following first to fifth aspects.

The lighting fixture of the first aspect includes a long fixture main body (1) and a long lighting unit (9). The lighting fixture includes a first frame (16) on which equipment is installed, and a second frame (17) detachably connected to the first frame (16). The lighting unit (9) is movably attached to the first frame (16). When the second frame (17) is removed from the first frame (16), there is no external contact between the first frame (16) and the lighting unit (9). A possible opening (19) is formed. The opening width (W1) of the opening (19) can be changed as the lighting unit (9) moves relative to the first frame (16).

According to the lighting fixture of the first aspect, the opening (19) between the first frame (16) and the lighting unit (9) can be widened as necessary, so the entire fixture can be configured slimly. Even if the opening width (W1) is widened, it is possible to touch the various devices housed and easily perform connection work, replacement work, etc. by inserting your hand through the opening (19) with the opening width (W1) widened. can.

In the lighting fixture of the second aspect, in addition to the first aspect, the equipment includes an emergency light source unit (4) and an emergency power source (7). The emergency light source unit (4) is attached to the appliance body (1). The emergency power source (7) is detachably attached to the appliance body (1) and supplies power to the emergency light source unit (4). The emergency power source (7) is detachable through the opening (19) when the opening width (W1) is widened.

According to the lighting fixture of the second aspect, by inserting a hand through the opening (19) while the lighting unit (9) is moved and the opening width (W1) is widened, the fixture body can be easily opened. It is possible to perform work such as replacing the emergency power supply (7) housed in (1).

In the lighting fixture of the third aspect, in addition to the first or second aspect, the lighting unit (9) performs both or one of sliding movement and rotational movement with respect to the first frame (16), It is movable relative to the first frame (16).

According to the lighting fixture of the third aspect, the lighting unit (9) can be moved with respect to the first frame (16) with a simple operation.

In the lighting fixture of the fourth aspect, in addition to any one of the first to third aspects, the lighting unit (9) has a shaft portion (3250) for being attached to the first frame (16). . The first frame (16) has a groove (1620) into which the shaft (3250) is slidably inserted. The illumination unit (9) is movable relative to the first frame (16) by sliding the shaft (3250) within the groove (1620).

According to the lighting fixture of the fourth aspect, the lighting unit (9) is configured to be movable with respect to the first frame (16) with a simple structure in which the shaft portion (3250) and the groove portion (1620) are provided. Can be done.

In the lighting fixture of the fifth aspect, in addition to any one of the first to fourth aspects, in a state where the second frame (17) is connected to the first frame (16), the first frame (16) Movement of the lighting unit (9) relative to the space is restricted.

According to the lighting fixture of the fifth aspect, unexpected movement of the lighting unit (9) in the assembled state of the lighting fixture is suppressed. If it is desired to move the lighting unit (9), the second frame (17) can be removed from the first frame (16).

1 Apparatus body 16 First frame 1620 Groove 17 Second frame 19 Opening 3250 Shaft 4 Emergency light source unit 7 Emergency power supply 9 Lighting unit W1 Opening width

Claims (4)

an elongated instrument body including a first frame on which equipment is installed and a second frame detachably connected to the first frame;
a long lighting unit movably attached to the first frame;
In a state where the second frame is removed from the first frame, an opening is formed between the first frame and the lighting unit so that at least a part of the equipment can be accessed from the outside,
The opening width of the opening is changeable as the lighting unit moves relative to the first frame ,
In a state where the second frame is connected to the first frame, movement of the lighting unit with respect to the first frame is restricted.
lighting equipment. The said equipment is
an emergency light source unit attached to the appliance body;
an emergency power source that is detachably attached to the device main body and supplies power to the emergency light source unit;
The lighting fixture according to claim 1, wherein the emergency power supply is detachable through the opening when the opening width is widened. The lighting fixture according to claim 1 or 2, wherein the lighting unit is movable with respect to the first frame by sliding and/or rotating with respect to the first frame. The lighting unit has a shaft portion for being attached to the first frame,
The first frame has a groove into which the shaft is slidably inserted,
The lighting fixture according to any one of claims 1 to 3, wherein the lighting unit is movable relative to the first frame by sliding the shaft within the groove .

Images