JP7284456B2 - lighting equipment - Google Patents

Description

Embodiments of the present invention relate to lighting fixtures that route wires within a housing.

Conventionally, various devices such as lighting units have been used in lighting fixtures. Such devices are often attached to the rear surface, top surface, or the like of a housing that is attached to the installation surface.

Various electric wires such as signal lines and power lines are wired between various devices in the housing, and there is a possibility that noise or the like may occur due to contact between these electric wires. Therefore, it is desired that the electric wires in the housing can be easily aligned.

JP 2014-93122 A

SUMMARY OF THE INVENTION An object of the present invention is to provide a lighting fixture in which electric wires routed in a housing can be easily aligned.

The lighting fixture of the embodiment includes a housing, a device arranged in the housing, and three wirings attached to the housing and separating a power line and a signal line between the device and the housing. A support member for supporting the equipment to form a region , and a first electric unit and a second electric unit respectively arranged on both side regions of the equipment of the housing . In the wiring area, a power supply line and a signal line, which are wired between the first electric unit side and the second electric unit side, are separately wired.

According to the lighting fixture of the embodiment, it can be expected that the wires wired in the housing can be easily aligned.

1 is a perspective view of a wall-mounted state of a lighting fixture showing a first embodiment; FIG. It is the perspective view which removed the cover of the lighting fixture same as the above. It is the perspective view which removed the cover and light source unit of the lighting fixture same as the above. It is a perspective view of the ceiling surface attachment state of the lighting fixture same as the above. It is the front view which removed the cover of the lighting fixture same as the above. It is the perspective view which removed the cover of the lighting fixture same as the above. It is sectional drawing of a lighting fixture same as the above. It is sectional drawing of the emergency light unit of lighting fixtures same as the above. FIG. 4 is a light distribution diagram of a lens of the emergency light unit of the same lighting fixture, where (a) is a light distribution diagram when mounted on a wall surface, and (b) is a light distribution diagram when mounted on a ceiling surface. Fig. 3 is a perspective view of a human sensor and an emergency lighting unit of the same lighting fixture; It is a part of wiring diagram of the same lighting fixture. It is sectional drawing which shows the battery and mounting bracket of the lighting fixture same as the above. It is a perspective view of the wall surface attachment state of the lighting fixture which shows 2nd Embodiment. It is the perspective view which removed the cover of the lighting fixture same as the above. It is the perspective view which removed the cover and light source unit of the lighting fixture same as the above.

A first embodiment will be described below with reference to FIGS. 1 to 12. FIG.

A luminaire 10 is shown in FIGS. 1-4. This luminaire 10 is installed, for example, on an installation surface such as a wall surface or a ceiling surface of a staircase landing, and is used to illuminate the stairs and the landing. Furthermore, this lighting fixture 10 is an emergency lighting fixture that performs dimming control in response to detection of a person moving up the stairs and lights up with an emergency power supply in the event of a power failure of the normal power supply.

FIG. 1 shows a state in which the lighting device 10 is attached to the wall surface, and FIG. 4 shows a state in which the lighting device 10 is attached to the ceiling surface. do.

The lighting fixture 10 is provided in an elongated shape along the width direction. The lighting fixture 10 includes a housing 11, a light source unit 12 and an emergency light unit 13, which are a main light source or a regular light source, arranged on the front side of the housing 11 (fixture main body 23), and the housing 11 (fixture main body 23 ), a power supply unit 15, a human sensor 16, a sensor control unit 17, an emergency lighting unit 18 as equipment, a battery 19, and the like.

The housing 11 includes an instrument body 23 and a cover 24 detachably attached to the front surface of the instrument body 23 . The front surface of the housing 11 is formed with an inclined surface 25 that is inclined in one of the width directions. The inclined surface 25 forms an angle of, for example, 30° with the installation surface (back surface 27 of the instrument body 23).

The instrument main body 23 has an open front side and is formed in a long shape along the width direction. The apparatus main body 23 has a back surface portion 27 which is an installation surface to be attached to an installation surface such as a wall surface or a ceiling surface, and upper and lower side portions bent forward from both sides in the short direction of the back surface portion 27. It has 28, 29 and end faces 30 at both longitudinal ends.

The light source unit 12 and the emergency light unit 13 are arranged in the lower region, which is one of the lateral directions, on the front side of the fixture body 23, and the front opening 31, which is opened and closed by the cover 24, is formed in the other upper region. ing.

The rear surface portion 27 is provided with a wiring hole 32 for drawing an external power supply line drawn out from the installation surface into the device main body 23, and a mounting portion 33 for mounting the device main body 23 on the installation surface. The attachment portion 33 is attached to a bolt protruding from the installation surface, and has attachment holes 34 and 35 provided at both ends of the back portion 27 in the longitudinal direction. Then, by passing the bolts through the mounting holes 34 and 35 and screwing nuts onto the ends of the bolts and tightening them, the device main body 23 is mounted on the installation surface. One attachment hole 34 is formed in an elongated hole shape elongated in the longitudinal direction of the instrument body 23, and the other attachment hole 35 is formed in an elongated hole shape elongated in the longitudinal direction of the instrument body 23. As shown in FIG.

With the light source unit 12 attached, the fixture main body 23 has a space formed between it and the light source unit 12 so that the attachment portion 33 and the like can be constructed from the outside. That is, the wiring hole 32 and the mounting portion 33 are arranged in the fixture main body 23 at positions exposed when the cover 24 is removed with the light source unit 12 and the emergency light unit 13 attached to the fixture main body 23. In addition, a terminal block 14, a power supply unit 15, a human sensor 16, a sensor control unit 17, an emergency lighting unit 18 and a battery 19 are arranged. That is, as shown in FIG. 5, when the fixture main body 23 is viewed from the front, the wiring is located at a position where the work can be performed from the front opening 31 of the fixture main body 23 at a position not covered by the light source unit 12 and the emergency light unit 13. A terminal block 14, a power supply unit 15, a human sensor 16, a sensor control unit 17, an emergency lighting unit 18, and a battery 19 are arranged along with a hole 32 and a mounting portion 33. Further, a human sensor 16 is arranged in the longitudinal center of the device main body 23, and a terminal block 14, a power supply unit 15, and a battery 19 are arranged on the left side, which is one end side of the longitudinal center. An emergency lighting unit 18, a sensor control unit 17 and a battery 19 are arranged on the right side, which is the other end. Note that the battery 19 may be mounted on either the left or right side of the device main body 23 as required.

A pair of mounting bases 36 for mounting the light source unit 12 and the emergency light unit 13 are mounted in the vicinity of both ends in the fixture body 23 and in the lower region in one of the lateral directions. The front surface of the mounting base 36 is provided in an inclined shape corresponding to the inclined surface 25 on the front surface of the housing 11 . A spring bracket 37 for mounting the light source unit 12 is attached to the front surface of the mounting base 36 .

The pair of mounting bases 36 are spaced apart from each other in the longitudinal direction of the fixture body 23. As shown in FIG. A wiring space 38 that communicates with the interior of the instrument body 23 is formed between the back side and the back side. That is, the light source unit 12 is attached to the pair of mounting bases 36 so as to be separated from the back surface of the fixture body 23, and the space formed on the back side of the light source unit 12, the back surface of the fixture body 23, and the cover 24 are separated. It communicates with the space formed between them.

The cover 24 also has a front portion 40 and side portions 41 bent from the front portion 40 . The cover 24 covers the front opening 31 of the instrument body 23 with the front part 40, is arranged so that the side part 41 overlaps the upper side part 28 of the instrument body 23, and is detachably attached to the side part 28 with screws or the like. It is

An inclined surface 25 on the front surface of the housing 11 is formed on the front surface portion 40 of the cover 24 . This inclined surface 25 also functions as a reflecting surface that reflects the light from the light source unit 12 . The side surface portion 41 of the cover 24 has its front end side inclined toward the front surface portion 40, but it does not have to be inclined.

A sensor hole 42 in which the human sensor 16 is arranged and an inspection window 43 through which the emergency lighting unit 18 faces are formed in the center of the front portion 40 of the cover 24 .

Next, the light source unit 12 is elongated along the width direction of the lighting device 10 . As shown in FIG. 7, the light source unit 12 includes a chassis 47, a light emitting module 48 attached to the front surface of the chassis 47, a transparent cover 49 covering the light emitting module 48 and attached to the chassis 47, and the light source unit 12 as a fixture body. A pair of mounting springs 50 that attach to 23 are provided.

The light-emitting module 48 includes an elongated substrate 52 and a light-emitting element (semiconductor light-emitting element) (not shown) mounted on the surface of the substrate 52 . Surface-mounted LEDs, for example, are used as the light-emitting elements, and a plurality of light-emitting elements are mounted in one or more rows along the longitudinal direction of the substrate 52 . Note that the light-emitting element is not limited to an LED, and may be another element such as an organic EL. The light emitting module 48 is electrically connected to the power supply unit 15 by connection wiring when the light source unit 12 is attached to the fixture main body 23 .

The light source unit 12 is attached parallel to the inclined surface 25 on the front surface of the housing 11, that is, attached in an inclined state with respect to the rear portion 27 attached to the installation surface.

The light-transmitting cover 49 is made of resin having light-transmitting and light-diffusing properties, and has a convexly curved cross section that intersects the longitudinal direction.

The mounting springs 50 are mounted on the rear surface of the chassis 47 near both ends in the longitudinal direction. With the mounting spring 50 engaged with the spring bracket 37 of the mounting base 36 attached to the fixture body 23, the elastic force of the mounting spring 50 pulls the light source unit 12 toward the mounting base 36, and the light source unit 12 is pulled toward the mounting base 36. It is attached to the device main body 23 by engaging with a pair of mounting bases 36 . Also, the light source unit 12 can be removed from the fixture body 23 by pulling the light source unit 12 away from the fixture body 23 against the elastic force of the mounting spring 50 and removing the mounting spring 50 from the spring bracket 37 . The light source unit 12 is attached to the lower area, which is one of the short sides of the front surface of the apparatus main body 23, and the optical axis direction is perpendicular to the inclined surface 25 on the front surface of the housing 11 and obliquely downward. It is arranged in a slanted shape so as to face the

The emergency light units 13 are attached to the front surface of the fixture main body 23 at positions aligned on both sides of the light source unit 12 in the longitudinal direction. As shown in FIG. 8, the emergency light unit 13 includes an emergency light source 56, and a front frame 57 that is an emergency light source cover and decorative frame to which the emergency light source 56 is attached.

The emergency light source 56 includes a light emitting portion 59 and a lens 62 that controls the light distribution of the light from the light emitting portion 59 .

A light-emitting element (semiconductor light-emitting element) such as an LED is used for the light-emitting portion 59 . The light emitting unit 59 uses, for example, a COB module in which a plurality of LED chips are mounted on a substrate and these LED chips are covered with a sealing member containing phosphor. The light-emitting part 59 is attached to a ring-shaped socket 60 and attached to the front surface of the radiator plate 61 by means of the socket 60 in close contact therewith. The radiator plate 61 is attached to the rear side of the front frame 57, and has an engaging claw (not shown) protruding from its end portion, which is attached by being engaged with the end face portion 30 of the device main body 23. As shown in FIG.

The lens 62 is made of glass, for example. The lens 62 has a lens portion 63 and an edge portion 64 protruding from the periphery of the lens portion 63 . The lens portion 63 has a concave inner surface facing the light emitting portion 59 and a convex outer surface. The lens portion 63 projects forward from the front frame 57 .

The lens 62 has an irregular shape in order to obtain a desired light distribution. It is not positioned on the central axis along the longitudinal direction of the light source unit 12 . FIG. 9(a) shows a light distribution diagram by the lens 62 when the lighting device 10 is mounted on the wall surface, and FIG. 9(b) shows a light distribution diagram by the lens 62 when the lighting device 10 is mounted on the ceiling surface. A shown in FIGS. 9A and 9B is the optical axis direction of the light-emitting portion 59 perpendicular to the light-emitting surface of the light-emitting portion 59 . The lens 62 produces a light distribution with a forward peak in the case of wall mounting shown in FIG. 9(a), and a light distribution with a downward peak in the case of ceiling surface mounting shown in FIG. 9(b). , suitable light distribution characteristics can be obtained for any mounting position.

The front frame 57 is made of metal or a noncombustible material. The front frame 57 includes a cover portion 66 that covers the emergency light source 56, a mounting plate portion 67 that protrudes from one end of the cover portion 66 and is attached to the front surface of the mounting base 36 (see FIG. 3), and the light source unit 12 and the emergency light source. It has a partition wall portion 68 that is arranged between the emergency light source 56 and protrudes beyond the emergency light source 56 .

An opening 69 through which the lens portion 63 of the lens 62 protrudes is provided in the center of the cover portion 66 . A tapered portion 70 that widens forward is provided at the edge of the opening 69 corresponding to at least the area where the partition wall 68 is not provided. In this embodiment, a tapered portion 70 is provided along the entire circumference of the edge of the opening 69 . The angle of inclination of the tapered portion 70 is set to an angle that expands more toward the wall surface than directly below when the lighting device 10 is mounted on the wall surface, and expands upward from the horizontal direction when the lighting device 10 is mounted on the ceiling surface. It is set at an open tilt angle.

The partition wall portion 68 is arranged between the light-transmitting cover 49 of the light source unit 12 and the partition wall portion 68 . The partition wall 68 has a projection height higher than the translucent cover 49 and the lens 62 of the light source unit 12, and separates the translucent cover 49 and the lens 62 of the light source unit 12 from each other. An inclined reflecting surface 71 is formed on the surface of the partition wall 68 facing the lens 62 side so as to spread forward from the front surface of the cover portion 66 .

The partition wall 68 is provided only on one side of the cover 66 facing the light source unit 12 between the emergency light source 56 and the light source unit 12, and is not provided on the other three sides of the cover 66. Therefore, between the emergency light source 56 and the end of the fixture body 23, a flat portion 72 lower than the tip of the emergency light source 56 is formed. The flat portion 72 is formed by the front surface of the cover portion 66 of the front frame 57. As shown in FIG. Due to this flat portion 72, there is no light blocking object between the emergency light source 56 and the end portion of the device main body 23, and the light from the emergency light source 56 is emitted toward the end portion of the device main body 23.

Also, the terminal block 14 is attached to the back surface portion 27 of the device main body 23 . The terminal block 14 is connected to an external power supply line drawn into the device body 23 through the wiring hole 32 . The terminal block 14 is electrically connected to the power supply unit 15, the sensor control unit 17 and the emergency lighting unit 18 by internal wiring that is electric wires. In addition, when there are many power supply points by internal wiring, the terminal block 14a for internal wiring may be used as a part of the terminal block 14. FIG. Since this internal wiring terminal block 14a is not used to connect an external power supply line, it may be arranged in the fixture main body 23 on the back side of the light source unit 12, but the light source unit 12 and the emergency light unit are not connected to the fixture main body 23. It may be arranged at a position where the cover 24 is removed and exposed with the 13 attached.

Also, the power supply unit 15 is attached to the back portion 27 of the instrument main body 23 . The power supply unit 15 is electrically connected to the terminal block 14 by internal wiring at the external power supply input section, which is the primary side, and is electrically connected to the light source unit 12 by connection wiring at the lighting power supply output side, which is the secondary side. The connection wiring is detachable from the light source unit 12 by connector connection.

The power supply unit 15 converts external power such as AC power supplied through the terminal block 14 into lighting power such as DC power for lighting the light emitting elements of the light emitting module 48, and supplies the lighting power to the light emitting module 48 of the light source unit 12. do. For example, the power supply unit 15 includes a rectifier circuit that rectifies an AC voltage supplied from an AC power supply that is an external power supply, a power factor improvement circuit such as a boost chopper circuit that converts the AC voltage rectified by the rectifier circuit into a DC voltage, and a driving circuit such as a step-down chopper circuit for converting the DC voltage from the power factor correction circuit into a predetermined DC voltage to be supplied to the light emitting element. The drive circuit has a switching element, controls the current supplied to the light emitting element by the switching operation of the switching element, and dims each light emitting element. The switching operation of the switching element is controlled according to a control signal such as a dimming signal input from the sensor control unit 17 .

The human sensor 16 is, for example, a radio wave type, and transmits and receives detection radio waves from the front sensor surface 16a to detect the presence of a person moving in the area in front of the lighting device 10. FIG. As shown in FIG. 10, the human sensor 16 is attached to the upper side surface portion 28 of the device main body 23 by a support member 75. As shown in FIG. The support member 75 obliquely supports the human sensor 16 so that the sensor surface 16a faces downward by 30°, for example, corresponding to the inclination of the inclined surface 25 on the front surface of the housing 11 . The front end side of the human sensor 16 protrudes forward from the sensor hole 42 of the cover 24 .
The human sensor 16 is positioned in the center of the device body 23 in the longitudinal direction and overlaps with the wiring hole 32 provided in the back portion 27 of the device body 23. By being attached to the side surface portion 28 of the wiring hole 32, it is separated from the wiring hole 32 so as not to interfere with the external power supply line drawn from the wiring hole 32.

Also, the sensor control unit 17 is attached to the back portion 27 of the instrument main body 23 . The sensor control unit 17 is electrically connected to the terminal block 14 by internal wiring and operates by being supplied with an external power supply. The sensor control unit 17 is electrically connected to the human sensor 16 by internal wiring, controls the human sensor 16, and detects the presence of a person. The sensor control unit 17 is electrically connected to the power supply unit 15 by internal wiring, and sends a control signal such as a dimming signal to the power supply unit 15 in response to detection of the presence of a person by the human sensor 16 .

In addition, the emergency lighting unit 18 is electrically connected to the terminal block 14 by internal wiring to operate by being supplied with an external power supply, and is electrically connected to the battery 19 by internal wiring to charge the battery 19. Control discharge.

The emergency lighting unit 18 includes, for example, a resin case 78 and circuits housed in the case 78, that is, a power failure detection circuit that detects power failure of the external power supply, a charging circuit that charges the battery 19 when the external power supply is supplied, An emergency lighting circuit or the like is provided to supply lighting power to the emergency light source 56 using the power supply of the battery 19 when the external power supply fails. Furthermore, the emergency lighting unit 18 includes an inspection unit 79 provided on the front surface of the case 78 and instructing inspection of the emergency lighting including the emergency light source 56 and the battery 19, and an inspection circuit for executing an inspection mode according to this inspection instruction. I have.

The inspection unit 79 is arranged facing the inspection window 43 of the cover 24 of the instrument body 23, and is a receiving unit for receiving wireless signals such as infrared signals transmitted from terminals such as inspection remote controllers, and transmitting inspection results to terminals. , an inspection switch for manually instructing inspection, and a monitor lamp for displaying inspection results.

As shown in FIGS. 7 and 10, the emergency lighting unit 18 is attached to the upper side surface portion 28 of the fixture body 23 by a support member 81. As shown in FIGS. The support member 81 supports the emergency lighting unit 18 with respect to the back surface 27 of the appliance main body 23 so that the inspection part 79 on the front faces downward by 30°, for example, corresponding to the inclination of the inclined surface 25 on the front of the housing 11. support diagonally. The support member 81 includes a support plate portion 82 for mounting the emergency lighting unit 18, and a mounting plate portion 83 which is bent from both sides of the support plate portion 82 and mounted on the upper side surface portion 28 of the device main body 23 by screwing or the like. have. The mounting plate portion 83 is bent from the rear region of the support plate portion 82, and the front region of the support plate portion 82 is open. The inspection portion 79 of the emergency lighting unit 18 obliquely supported by the support member 81 faces the inspection window 43 provided on the inclined surface 25 of the cover 24 (housing 11).

The support member 81 supports the emergency lighting unit 18 so as to form three wiring areas 84 between the emergency lighting unit 18 and the housing 11 . That is, the wiring region 84 includes a first wiring region 84a between the emergency lighting unit 18 and the first surface portion 11a of the housing 11, and a wiring region 84a between the emergency lighting unit 18 and the second surface portion 11b of the housing 11. It has a second wiring area 84b between them, and a third wiring area 84c surrounded by the emergency lighting unit 18 and the first surface portion 11a and the second surface portion 11b of the housing 11. As shown in FIG. The first surface portion 11a of the housing 11 is the back surface portion 27 of the instrument body 23, and the second surface portion 11b includes the side surface portion 28 of the instrument body 23 and the side surface portion 41 of the cover 24. 11b protrudes forward with respect to the first surface portion 11a.

FIG. 11 shows a wiring diagram of part of the lighting fixture 10. As shown in FIG. In the wiring area 84 formed by the emergency lighting unit 18, internal wiring connecting between the first electric unit E1 and the second electric unit E2 arranged on both sides of the emergency lighting unit 18 is wired. be done. The first electrical unit E1 includes a terminal block 14, a power supply unit 15 and a human sensor 16, and the second electrical unit E2 includes a sensor control unit 17. FIG.

In the three wiring regions 84 formed by the emergency lighting unit 18, the power supply line AC and the signal line S of the internal wiring are separately wired so as not to come into contact with each other. For example, a power line AC1 for electrically connecting the terminal block 14 and the emergency lighting unit 18 is wired in the first wiring region 84a, and the terminal block 14 and the sensor control unit 17 are electrically connected in the second wiring region 84b. A signal line S electrically connecting the power supply unit 15 and the sensor control unit 17 is wired in the third wiring area 84c. The power supply line AC and the signal line S may be wired in any wiring area 84 as long as they are wired separately so as not to overlap each other. For example, if the signal line S is routed in the second wiring region 84b or the third wiring region 84c, and a plurality of power source lines AC are routed in the first wiring region 84a, contact of the plurality of power source lines AC should be considered. Therefore, the wiring work can be reduced. In addition, by wiring the signal line S in the third wiring region 84c and wiring the power line AC, which is easily affected by noise among the plurality of power lines AC, in the second wiring region 84b, It becomes possible to separate and wire the line AC.

Also, the battery 19 is a chargeable/dischargeable storage battery. Two battery packs are used for the batteries 19, which are arranged at both longitudinal ends of the instrument body 23 and electrically connected to the emergency lighting unit 18 by internal wiring.

The battery 19 is attached to the instrument main body 23 with a fitting 87 . As shown in FIGS. 2 and 12, the mounting bracket 87 is formed of a single metal plate in the shape of a frame. It has opposing side frame portions 90 . A substantially L-shaped locking piece portion 91 projects from the tip of one end frame portion 89 . One end of the mounting bracket 87 is engaged with the outer surface of the device main body 23 by the locking piece 91 passing through the back surface 27 of the device main body 23 , and the other end of the mounting bracket 87 is attached to the rear surface 27 of the device main body 23 by a screw 92 . can be attached to When the screw 92 is removed, the mounting bracket 87 is rotatable around the engaging portion of the locking piece 91 penetrating the back surface 27 of the device body 23, so that the battery 19 can be replaced. A space is provided in the device main body 23 on the side of the mounting bracket 87 in the opening rotation direction so that the mounting bracket 87 can be rotated to be opened. If the battery 19 is mounted on either the left or right side of the device main body 23 as required, only one mounting bracket 87 may be used.

When the luminaire 10 is installed on the installation surface, the cover 24 is removed from the luminaire main body 23, and the front opening 31 of the luminaire main body 23 is opened.

Through the front opening 31 of the device body 23, an external power supply line protruding from the installation surface is passed through the device body 23 from the wiring hole 32.

Through the front opening 31 of the instrument body 23, two bolts protruding from the installation surface are passed through two mounting holes 34 and 35 in the back part 27 of the instrument body 23, nuts are screwed onto the ends of the bolts, and tightened. The rear part 27 of the device main body 23 is attached to the installation surface. When attaching the instrument body 23 to the ceiling surface, a nut is lightly screwed onto the tip of one of the bolts, and the bolt and nut are passed through the barrel-shaped mounting hole 35 on the one end side of the instrument body 23. By moving the device main body 23 to one end side in the longitudinal direction and temporarily fixing the one end side of the device main body 23 to one of the bolts, the installation work of the device main body 23 to the ceiling surface can be performed satisfactorily.

An external power supply line passed through the instrument body 23 from the wiring hole 32 is connected to the terminal block 14 through the front opening 31 of the instrument body 23 .

A cover 24 is attached to the device main body 23 . In this way, the luminaire 10 is installed on the installation surface such as the wall surface of the stair landing or the ceiling.

Then, during normal times when external power is supplied to the lighting fixture 10 , the power supply unit 15 converts the external power into predetermined lighting power and supplies it to the light source unit 12 . As a result, the light source unit 12 lights up to illuminate the stairs and the landing.

When the luminaire 10 is mounted on the wall, the light source unit 12 is arranged on the lower side of the luminaire main body 23 and is slanted downward. Light is also applied to the floor surface, etc., and there is an effect that the vicinity of the foot of the landing becomes bright.

Also, during normal operation, the sensor control unit 17 monitors whether or not the human sensor 16 detects a person, controls the power supply unit 15 according to the detection of the person, and automatically controls the brightness of the light source unit 12 . When the human sensor 16 does not detect a person, the sensor control unit 17 turns off the light source unit 12 or dims the light output so as to reduce the light output, thereby saving energy. When a person is detected by the light source unit 12, the light source unit 12 is turned on or dimmed so as to increase the light output.

In normal times, the emergency lighting unit 18 detects the supply of external power, and charges the battery 19 with this external power. At this time, the emergency light source 56 is turned off.

In the event of a power failure when the external power supply to the lighting fixture 10 is stopped, the emergency lighting unit 18 detects the power failure of the external power supply, converts the power of the battery 19 into a predetermined lighting power supply, and supplies it to the emergency light source 56. do. As a result, when a power failure occurs, the light source unit 12 is turned off, but the emergency light source 56 is turned on to illuminate the stairs and the landing.

When the luminaire 10 is mounted on the wall, the emergency light source 56 is arranged on the lower side of the luminaire body 23 and slanted downward, so that the luminaire 10 is installed on the lower side of the wall or on the landing. The light is also applied to the floor surface, etc., and has the effect of brightening the area around the feet of stairs and landings.

Furthermore, when the lighting fixture 10 is mounted on the wall, the lens 62 of the emergency light source 56 provides a light distribution having a peak in the forward direction, which has the effect of illuminating an area on the side of the stairs away from the lighting fixture 10 as well. Further, when the lighting apparatus 10 is mounted on the ceiling surface, the lens 62 of the emergency light source 56 provides a light distribution having a downward peak, which has the effect of brightening the vicinity of the foot of stairs and landings.

Furthermore, a tapered portion 70 that widens forward is provided at least in an area where there is no partition wall portion 68 at the edge of the opening portion 69 of the front frame 57 where the lens 62 of the emergency light source 56 is arranged. , the light from the lens 62 is irradiated over a wide range. For example, when the luminaire 10 is mounted on a wall surface, the wall surface is illuminated with more light than directly downward, which has the effect of making the wall surface brighter. This has the effect of illuminating the upper side of the stairs and making the stairs brighter.

In addition, since the emergency light sources 56 are arranged at two locations on both end sides of the fixture body 23, the stair side connecting the landing and the upper floor and the stair side connecting the landing and the lower floor are properly illuminated. can be illuminated.

In addition, the lighting device 10 is regularly inspected to see if the emergency light source 56 is normally operated by the power source of the battery 19 . When inspecting the lighting fixture 10 , the operator operates the terminal below the lighting fixture 10 to be inspected, and transmits an inspection signal to the inspection unit 79 of the lighting fixture 10 . When the inspection unit 79 receives an inspection signal from the terminal, the emergency lighting unit 18 enters inspection mode, lights the emergency light source 56 with the power of the battery 19, and determines the life of the battery 19. The monitor lamp of the inspection unit 79 displays the inspection operation and the inspection result. After the inspection is completed, the inspection unit 79 transmits an inspection result signal to the terminal. Then, the worker visually confirms the lighting state of the emergency light source 56 and the monitor lamp, and also confirms the inspection result received by the terminal, and grasps the state of the lighting fixture 10 .

If the battery 19 is found to be dead or abnormal as a result of the inspection, the battery 19 is replaced. When replacing the battery 19, first, the cover 24 is removed from the instrument body 23, the front opening 31 of the instrument body 23 is opened, and the battery 19 and the mounting bracket 87 are exposed. Subsequently, the screw 92 that secures the mounting bracket 87 to the instrument main body 23 is removed, the mounting bracket 87 is rotated open with the locking piece 91 side as a fulcrum, and the battery 19 is removed from the inside of the mounting bracket 87 . Subsequently, a new battery 19 is placed inside the mounting bracket 87, and the mounting bracket 87 is rotated toward the back surface portion 27 of the instrument main body 23 with the locking piece portion 91 side as a fulcrum. It is attached to the device main body 23 . At this time, since the mounting bracket 87 is rotatably connected to the device main body 23 with the locking piece portion 91 side as a fulcrum, the battery 19 can be replaced simply by attaching and detaching one screw 92 to and from the device main body 23. Facilitates replacement work.

According to the lighting fixture 10 configured in this way, the fixture body 23 can be installed on the installation surface with the light source unit 12 attached. can be improved.

With the light source unit 12 attached, the fixture main body 23 has a space between it and the light source unit 12 that allows construction from the outside to the attachment portion 33. Therefore, with the light source unit 12 attached, The instrument body 23 can be constructed on the installation surface.

The fixture main body 23 has a mounting portion 33 for mounting on an installation surface at a position exposed when the cover 24 is removed with the light source unit 12 attached to the fixture main body 23, so that the light source unit 12 can be attached. In this state, the fixture main body 23 can be constructed on the installation surface.

The light source unit 12 is attached to a pair of mounting bases 36 so as to be separated from the back surface of the fixture body 23, and the space formed on the back side of the light source unit 12 and the back surface of the fixture body 23 and the cover 24 are separated. Since the formed space is communicated, the rear side of the light source unit 12 can be used as the wiring space 38 .

In the fixture body 23, the battery 19 is replaceably arranged at a position exposed by removing the cover 24 with the light source unit 12 attached to the fixture body 23. Therefore, when the battery 19 is replaced, the light source unit Since there is no need to remove the battery 12, the workability of replacing the battery 19 can be improved.

In addition, since the support member 81 supports the emergency lighting unit 18 so as to form three wiring areas 84 between the emergency lighting unit 18 and the housing 11, the three wiring areas 84 are utilized. The internal wiring, which is the electric wire wired inside the housing 11, can be easily aligned. Moreover, since the emergency lighting unit 18 serves as a partition wall, it is possible to prevent the electric wires wired in the vicinity of the emergency lighting unit 18 from coming into contact with each other.

If the housing 11 has a first surface portion 11a and a second surface portion 11b projecting relative to the first surface portion 11a, the emergency lighting unit 18 and the first surface portion 11a of the housing 11 a first wiring region 84a between the emergency lighting unit 18 and the second surface portion 11b of the housing 11; a second wiring region 84b between the emergency lighting unit 18 and the housing 11; Three wiring regions 84, a third wiring region 84c surrounded by the surface portion 11a and the second surface portion 11b, can be formed.

If the emergency lighting unit 18 is arranged between the terminal block 14 or the power supply unit 15, which is the first electric unit E1, and the sensor control unit 17, which is the second electric unit E2, the emergency lighting unit 18 forms In the three wiring areas 84, the power supply line AC and the signal line S of the internal wiring routed between the first electric unit E1 and the second electric unit E2 are not in contact with each other. It can be wired separately, and it is possible to prevent the influence of noise or the like from occurring due to the contact between the power line AC and the signal line S.

Since the emergency lighting unit 18 is obliquely supported with respect to the first surface portion 11a of the housing 11 by the support member 81, the inspection portion 79 can be directed diagonally forward, making inspection operation and inspection confirmation easy. can be done.

The device supported by the support member 81 so that the three wiring regions 84 are formed is not limited to the emergency lighting unit 18, and other devices such as the human sensor 16 may be used.

In addition, since the emergency light unit 13 has the partition wall portion 68 arranged between the light source unit 12 and the emergency light source 56, even if the translucent cover 49 of the light source unit 12 spreads fire in an emergency, , the emergency light source 56 is protected by each wall portion 68, and the emergency light source 56 can be reliably operated.

Between the emergency light source 56 and the end of the device main body 23 is formed a flat portion 72 that is lower than the tip of the emergency light source 56. Since there is no light blocking object, the light from the emergency light source 56 can be emitted toward the end portion of the fixture body 23, and the side area of the lighting fixture 10 can also be brightened.

At the edge of the opening 69 of the front frame 57 where the lens 62 of the emergency light source 56 is arranged, at least in the region without the partition wall 68, a tapered portion 70 expanding forward is provided, so that the lens 62 can irradiate a wide range of light from For example, when the luminaire 10 is mounted on a wall surface, the wall surface is illuminated with more light than directly downward, which has the effect of making the wall surface brighter. This has the effect of illuminating the upper side of the stairs and making the stairs brighter.

Next, a second embodiment is shown in FIGS. 13 and 14. FIG.

In the second embodiment, the length of the lighting device 10 in the longitudinal direction, that is, the length of the housing 11 and the light source unit 12 is shortened while sharing some parts with respect to the first embodiment. ing.

One of the commonly used parts is a pair of mounts 36 . In this case, one spring receiving metal fitting 37 is attached to one mounting base 36, but the other spring receiving metal fitting 37 is not attached to the other mounting base 36, and the other spring receiving metal fitting 37 is attached to the emergency light unit 13. attached to the front frame 57 side. This is because when the distance between the pair of mounting springs 50 of the light source unit 12 is determined, the other spring bracket 37 is mounted not on the mounting base 36 but on the front frame 57 side of the emergency light unit 13 according to the distance. . By configuring in this way, a pair of mounting bases 36 can be shared.

In addition, the emergency light source 56 may be provided at one location in the center of the instrument body 23 in the width direction, or may be arranged below the light source unit 12 . When the emergency light source 56 is arranged close to the lower side of the light source unit 12, the partition wall portion 68 may be arranged between the emergency light source 56 and the light source unit 12. FIG.

It should be noted that it may be constructed so that it can be installed on the installation surface even with the cover 24 attached to the device main body 23 . That is, in a state where the cover 24 is attached, the device body 23 may have a space formed between itself and the cover 24 so that the mounting portion 33 can be constructed from the outside. Further, the fixture body 23 may have a mounting portion 33 for mounting on an installation surface at a position where the light source unit 12 is exposed when the cover 24 is attached to the fixture body 23. Then, with the cover 24 attached, the instrument body 23 can be constructed on the installation surface.

While several embodiments of the invention have been described, these embodiments have been presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof.

10 lighting fixtures
11 Enclosure
11a first face
11b second face
18 Emergency lighting unit as equipment
81 Support member
84 wiring area
84a First wiring area
84b Second wiring area
84c Third routing area
AC power line
E1 first electrical unit
E2 second electrical unit S signal line

Claims (2)

a housing;
a device disposed in the housing;
a support member that is attached to the housing and supports the device so as to form three wiring regions between the device and the housing in which power lines and signal lines are arranged separately ;
a first electrical unit and a second electrical unit respectively arranged on both side regions of the device of the housing;
and
In the wiring area, the power line and the signal line, which are wired between the first electric unit side and the second electric unit side, are separately wired.
A lighting fixture characterized by: The housing has a first surface and a second surface that protrudes with respect to the first surface,
The wiring regions include a first wiring region between the device and the first surface, a second wiring region between the device and the second surface, and a wiring region between the device and the first surface. 2. The lighting fixture according to claim 1, further comprising a third wiring area surrounded by said second surface portion and said second surface portion .

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