JP2024018631A - Illuminating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an illuminating device that can stably perform an auxiliary function by reducing a thermal influence on the auxiliary function.

SOLUTION: An illuminating device 10 comprises an appliance body 11, a light source unit 30 attachable/detachable to/from the appliance body 11, and an auxiliary function unit 31 arranged on the light source unit 30. The light source unit 30 comprises a light source module 34. The auxiliary function unit 31 comprises an auxiliary function device 52. The auxiliary function device 52 is arranged at a height position different from that of the light source module 34.

SELECTED DRAWING: Figure 6

COPYRIGHT: (C)2024,JPO&INPIT

Description

Embodiments of the present invention relate to lighting devices.

Conventionally, lighting devices are known that include an elongated instrument body and an elongated light source unit attached to the instrument body, and a camera is integrally disposed at one end of the light source unit in the longitudinal direction. .

In such a lighting device, since the light source of the light source unit generates heat, there is a concern that the camera may be affected by this heat, causing a problem in the function of the camera.

JP2019-169455A

The problem to be solved by the present invention is to provide a lighting device that can reduce the thermal influence on the auxiliary function and allow the auxiliary function to function stably.

The lighting device of the embodiment includes a fixture body, a light source unit that is detachable from the fixture body, and an auxiliary function unit disposed in the light source unit. The light source unit has a light source module. The auxiliary function unit has an auxiliary function device, and the auxiliary function device is arranged at a different height from the light source module.

According to the lighting device of the embodiment, it can be expected that the thermal influence on the auxiliary function unit can be reduced and the auxiliary function unit can function stably.

FIG. 1 is a perspective view of a lighting device showing one embodiment. It is an exploded perspective view of the lighting device same as the above. It is an end view with a part of the fixture body and light source unit of the lighting device same as the above omitted. FIG. 3 is a perspective view of a light source unit and an auxiliary function unit of the lighting device. FIG. 2 is a perspective view of the lighting device with the housings of the light source unit and the auxiliary function unit omitted. It is a sectional view of a part of the lighting device same as the above. FIGS. 6(a) to 8(e) are schematic diagrams showing how to attach the light source unit of the lighting device.

Hereinafter, one embodiment will be described with reference to the drawings.

A lighting device 10 is shown in FIGS. 1-3. The lighting device 10 is a long base light, and is a direct-ceiling lighting device installed on an installation surface, for example, a ceiling surface.

The lighting device 10 includes a long fixture body 11 installed on a ceiling surface, and a long light source unit with auxiliary function (light source unit with auxiliary function) 12 that is detachably attached to the bottom side of the fixture body 11. It is equipped with

The instrument main body 11 is made of, for example, a sheet metal, and is formed into an elongated shape. The appliance main body 11 includes an elongated top plate part 15, side plate parts 16 provided on both sides of the top plate part 15 in the width direction, which is a transverse direction that intersects with the longitudinal direction, and the top plate part 15. and end plate portions 17 provided at both ends in the longitudinal direction with respect to the side plate portions 16, and is formed in an elongated box shape with an open bottom side.

A wiring hole 19 for inserting a power line is provided approximately at the center of the top plate portion 15 in the longitudinal direction. A plurality of mounting holes 20 are provided near both longitudinal ends of the top plate part 15 for attachment to the ceiling surface, including elongated holes, potbell holes, etc. long in the longitudinal direction of the top plate part 15.

Attachment edges 16a and 17a are provided at the lower edge of the side plate part 16 and the lower edge of the end plate part 17, to which the upper surface side of the light source part 12 with auxiliary function is attached. The mounting edge 17a of the end plate 17 is bent into a substantially L shape so as to protrude from the lower edge of the end plate 17 toward the longitudinal center of the instrument body 11 (see FIG. 6). .

A terminal block 22 is disposed within the appliance main body 11 near one end of the top plate portion 15 in the longitudinal direction with respect to the wiring hole 19 . A power line drawn into the device main body 11 from the outside through the wiring hole 19 is electrically connected to the terminal block 22 . The power line supplies AC power, which is external power from a commercial AC power source, for example. The terminal block 22 is connected to one end side of each of the light source electric wire and the main body side auxiliary function electric wire that are wired along the inside of the appliance body 11.

Inside the appliance main body 11, a light source power source 24 is disposed near the other end in the longitudinal direction of the top plate portion 15, which is opposite to the terminal block 22 with respect to the wiring hole 19. The other end of the light source wire from the terminal block 22 is electrically connected to the power input section of the light source power source 24 . The light source power source 24 is, for example, an AC-DC converter, which converts AC power supplied from a commercial AC power source through the terminal block 22 into predetermined lighting power such as DC power, and converts the AC power supplied from the commercial AC power source through the terminal block 22 into predetermined lighting power such as DC power, and converts the light source included in the light source unit 12 with auxiliary functions. Supply to the module. One end side of a lighting power supply line on the main body side, which is wired along the inside of the appliance main body 11, is electrically connected to the lighting power output part of the light source power supply 24, and the lighting power supply line on the main body side is electrically connected to The other end side is pulled out from the other end side of the instrument main body 11 and is connected by a connector to a lighting power supply line on the unit side connected to a light source module included in the light source section 12 with auxiliary functions.

Inside the appliance body 11, two locations near both ends of the top plate 15 in the longitudinal direction are attached parts for attachment mechanisms 26 that removably attach the auxiliary function light source section 12 (light source unit) to the appliance body 11. A spring receiving member 27 is attached as a mounting member. The spring receiving members 27 of the two attachment mechanisms 26 are arranged closer to the end of the instrument body 11 than at least some of the attachment holes 20 and with a predetermined interval between them and the end of the instrument body 11. There is. A terminal block 22 and a light source power source 24 are disposed in the central region of the instrument body 11 in the longitudinal direction between the spring receiving members 27 of the two attachment mechanisms 26 .

The auxiliary function light source section 12 includes an elongated light source unit (light source unit main body) 30 and an auxiliary function unit 31 disposed at the outer end of one end of the light source unit 30 in the longitudinal direction. ing.

For example, in the light source unit 30, the fixture body 11 has the same structure as the existing fixture body, but the length on one end side of the existing light source unit is shortened, and the outer end of the one end side of the light source unit 30 has a It is attached so that the auxiliary function unit 31 is arranged. Therefore, the length of the auxiliary function light source section 12, which is the combination of the light source unit 30 and the auxiliary function unit 31, is configured to be approximately the same length as the existing light source unit. The light source unit 30 is removably attached to the instrument main body 11 by two attachment structures 26, similar to existing light source units.

The light source unit 30 includes an elongated light source chassis 33, a light source module 34 which is a light source attached to the lower surface side of the light source chassis 33, and a transparent cover 35 attached to the light source chassis 33 to cover the light source module 34. , an end face cover 36 that covers both longitudinal ends of the translucent cover 35 and is attached to the light source chassis 33; and a first attachment part of the two attachment mechanisms 26 disposed on the upper surface side of the light source chassis 33; The mounting spring 37 is a mounting spring.

The light source chassis 33 is made of metal and is provided in an elongated shape.

The light source module 34 includes an elongated substrate 39 and a plurality of light emitting elements 40 mounted on the front surface of the substrate 39 along the longitudinal direction. The board 39 is attached to the light source chassis 33 so that the back side faces the lower surface side of the light source chassis 33. As the light emitting element 40, a semiconductor light emitting element such as an LED or an organic EL is used, for example. One end side of the lighting power supply line on the unit side is electrically connected to the light source module 34, and the other end side of the lighting power supply line on the unit side is pulled out from the other end side of the light source unit 30 to connect to the device. The connector is connected to a lighting power supply line on the main body side drawn out from the main body 11.

The light-transmitting cover 35 has light-transmitting and light-diffusing properties, and allows light from the light-emitting element 40 to pass therethrough. The light-transmitting cover 35 is formed so that the cross-sectional shape in the width direction is a convex curved surface toward the front side.

The attachment springs 37 are attached to two locations near both ends in the longitudinal direction on the upper surface side of the light source chassis 33 by attachment members 42 . The distance between the mounting spring 37 on one end side and the end portion on the one end side of the light source unit 30 is shorter than the distance between the mounting spring 37 on the other end side and the end portion on the other end side of the light source unit 30; In other words, the length is shortened by the length necessary to arrange the auxiliary function unit 31 at the outer end on one end side of the light source unit 30. The position of each mounting spring 37 in the light source section with auxiliary function 12 including the light source unit 30 and the auxiliary function unit 31 is arranged at a position corresponding to the position of each mounting spring disposed in the existing light source unit. This allows each attachment spring 37 to be attached to an existing spring receiving member of the main body of the instrument.

As shown in FIGS. 4 and 5, the mounting spring 37 is composed of, for example, a torsion spring, and has a pair of coil portions 37a held by the mounting member 42, and a substantially cylindrical spring that connects one end of the pair of coil portions 37a. A letter-shaped hook portion 37b is extended, and this hook portion 37b can be engaged with the spring receiving member 27. The attachment spring 37 is arranged such that a spring force acts on the hook portion 37b in a direction from the upper side of the light source chassis 33 toward the lower side through the end side. As shown in FIG. 2, the attachment spring 37 is attached to the light source unit 30 (with auxiliary function) by hooking the hook portion 37b to the spring receiving member 27 of the device main body 11 with the hook portion 37b pulled up from the light source chassis 33 against the spring force. By temporarily suspending the light source unit 12) on the fixture main body 11 and further pushing up the light source unit 30, the light source unit 30 (light source unit with auxiliary function 12) is pulled up and attached to the fixture main body 11 by the action of the spring force, and the installation is performed. Configured to maintain state.

Note that the attachment mechanism 26 may include an attachment spring 37 provided on the instrument body 11 and a spring receiving member 27 provided on the light source unit 30. Further, the attachment spring 37 is not limited to a torsion spring, and a leaf spring or the like may be used.

Further, the auxiliary function unit 31 is shown in FIGS. 4 to 6. The auxiliary function unit 31 is connected to a connecting member 45 attached to the light source chassis 33 on the one end side of the light source unit 30, so that the auxiliary function unit 31 is disposed at the outer end of the one end side of the light source unit 30.

The connecting member 45 is formed of a metal plate, and includes a top mounting portion 46 that is attached to the top surface of the light source chassis 33 by screws or the like, and a side surface mounting portion 47 that is attached to both side surfaces of the light source chassis 33 by screws or the like. It is formed into a substantially U-shaped cross section. A connecting portion 48 that projects outward in the longitudinal direction from one end side of the light source unit 30 is provided in the side mounting portions 47 on both sides.

The auxiliary function unit 31 includes a support member 51 connected to a connecting member 45 and supporting the auxiliary function unit 31 to the light source unit 30, an auxiliary function device 52 integrally supported by this support member 51, and this auxiliary function device 52. It includes an auxiliary function power source 53 that supplies operating power, and a casing 54 that accommodates these auxiliary function devices 52 and the auxiliary function power source 53.

The support member 51 is formed of a metal plate, and includes a flat support portion 57 that is long in the longitudinal direction of the light source unit 30, and a housing mounting portion provided at one end of the support portion 57 in the longitudinal direction. 58, and a unit mounting portion 59 that stands up from both sides in the width direction on the other end side in the longitudinal direction of the support portion 57. The auxiliary function device 52 is attached to the lower surface side of the support part 57, the auxiliary function power source 53 is attached to the upper surface side of the support part 57, and the auxiliary function power source 53 and the auxiliary function device 52 are connected vertically via the support member 51. are arranged so that they overlap.

The unit mounting portions 59 are arranged inside the connecting portions 48 of the connecting member 45, respectively. A bending part 60 bent toward the opposite outer side is provided at the upper end of the unit mounting part 59, and this bending part 60 is arranged so as to overlap the upper side of the connecting part 48. The unit mounting plate portion 59 is attached to the connecting portion 48 with screws 61. One unit attachment part 59 is attached to one connection part 48 with one screw 61, and the other unit attachment part 59 is connected to the other connection part 48 with two screws 61, and for example, They are connected so that there is no movement around the axis 61.

The auxiliary function unit 31 is configured to be detachable from the light source unit 30 by attaching and detaching the screws 61 and to be replaceable.

An attachment spring 63, which is a second attachment spring, is disposed on the end face side of one end of the auxiliary function unit 31, which is a second attachment spring that detachably attaches the one end side of the auxiliary function unit 31 to the instrument main body 11. The mounting spring 63 is composed of a leaf spring, and includes a fixed part 64 fixed to the upper surface of the support plate part 51, a rising part 65 raised from this fixed part 64, and an auxiliary function from the upper end side of this rising part 65. A hook portion 66 is curved and inclined diagonally upward toward the outside of one end of the unit 31, and a hook portion 66 is bent back from the tip of the hook portion 66 and inclined diagonally upward toward the other end of the auxiliary function unit 31. The auxiliary function unit 31 has a bent introduction part 67 and a bent part 68 that is bent from the tip of the introduction part 67 toward the other end of the auxiliary function unit 31. The upper side of the hook portion 66 of the attachment spring 63 projects upwardly from the housing 54, and the hook portion 66 is engaged and hooked on the attachment edge 17a of the end plate portion 17 of the instrument main body 11, and the auxiliary function unit 31 is One end side is attached to the instrument main body 11.

Note that the attachment mechanism 26 (attachment spring 37), which is disposed in the light source unit 30 and detachably attaches the light source unit 30 to the instrument main body 11, is configured as a first attachment part 70, and is also attached to the auxiliary function unit 31. The attachment spring 63 that is disposed and detachably attaches the auxiliary function unit 31 to the instrument body 11 is configured as a second attachment portion 71 .

The auxiliary function unit 31 is constituted by, for example, a camera unit that photographs a downward region in the light irradiation direction of the illumination device 10.

In the case of a camera unit, the auxiliary function device 52 includes an imaging section 74 having an imaging device for photographing a subject, a lens 73 for condensing light from the subject onto the imaging device, and a device for driving the imaging device or for photographing with the imaging device. It has a circuit section 75 that processes images. As the image sensor, a solid-state image sensor such as a CMOS (Complementary Metal Oxide Semiconductor) or a CCD (Charge Coupled Device) is used. The lens 73 is disposed in a window hole formed on the lower surface side of the housing 54, and focuses light from a subject in the lower region onto the image sensor. Furthermore, the auxiliary function device 52 has a storage unit that stores captured images, and communicates with an external communication device by wire or wirelessly to transmit stored image data and perform operations from the communication device, to the circuit unit 75. It is equipped with a communications department that accepts communications. Further, the auxiliary function device 52 is located at a different height from the light source module 34, and is located below the light source module 34.

The auxiliary function power source 53 is covered with a power source case 77 and attached to the upper surface side of the support portion 57 of the support member 51. The auxiliary function power source 53 is disposed at a position overlapping the auxiliary function device 52 so as to be disposed between the auxiliary function device 52 and the instrument main body 11.
The auxiliary function power supply 53 is, for example, an AC-DC converter, which converts AC power supplied from a commercial AC power supply through the terminal block 22 into predetermined operating power such as DC power, and converts the AC power supplied from the commercial AC power supply through the terminal block 22 into predetermined operating power such as DC power. supply to. One end of the auxiliary function wire on the unit side is electrically connected to the auxiliary function power source 53, and the other end of the auxiliary function wire on the unit side is connected to the terminal block 22 to connect the device body 11. The connector is connected to the auxiliary function wire drawn out from the main body. At least a portion of the auxiliary function power source 53 is disposed at the same height as the light source module 34 of the light source unit 30, and at least a portion of the upper portion thereof is disposed within the instrument main body 11.

The housing 54 is attached to the support member 51 so as to cover the auxiliary function device 52 and the lower side of the auxiliary function power source 53. The upper surface side of the casing 54 is open, and the upper side of the unit attachment part 59 of the support member 51, the upper side of the auxiliary function power source 53, and the hook part 66 of the attachment spring 63 respectively protrude upward. A window hole in which the lens 73 of the imaging section 74 is arranged is formed on the lower surface side of the housing 54 . The lower side of the housing 54 protrudes further downward than the lower surface side of the light source unit 30.

Then, construction of the lighting device 10 will be explained with reference to FIG. 7.

A power line drawn out from the ceiling surface is drawn into the lower surface side of the appliance body 11 through the wiring hole 19, and the appliance body 11 is attached to the ceiling surface. The appliance main body 11 is attached by passing two hanging bolts protruding from the ceiling surface through the attachment holes 20 and tightening them with nuts, or by screwing them through the attachment holes 20 to the ceiling surface. The power wire drawn into the lower surface side of the device main body 11 is electrically connected to the terminal block 22.

As shown in FIG. 7(a), by raising the two mounting springs 37 of the light source unit 30 against the spring force and hooking them to each spring receiving member 27 of the instrument main body 11, the light source unit 30 (light source section with auxiliary function 12) is temporarily suspended on the instrument main body 11. In this temporarily suspended state, the lighting power supply line from the light source power supply 24 of the fixture main body 11 and the lighting power supply line from the light source module 34 of the light source unit 30 are connected to each other, and the lighting power supply line from the terminal block 22 of the fixture main body 11 is connected to the connector. The auxiliary function electric wire and the auxiliary function electric wire from the auxiliary function power supply 53 of the auxiliary function unit 31 are connected with a connector.

Thereafter, for example, as shown in FIG. 7B, when one end side (the left side in the figure) of the light source unit 30 is pushed up toward the appliance main body 11, the spring of the mounting spring 37 on the one end side of the light source unit 30 Due to the action of the force, one end side of the light source unit 30 is pulled up to the instrument main body 11, and the upper surface side of the one end side of the light source unit 30 is brought into contact with the lower surface side of the instrument main body 11. The light source unit 30 is in an inclined state in which one end side of the light source unit 30 is rotated upward about the other end side of the light source unit 30 supported by the attachment spring 37 on the other end side.

At this time, by the action of the spring force of the mounting spring 37 on the one end side of the light source unit 30, the one end side of the light source unit 30 is pulled up to the fixture body 11 while moving the light source unit 30 toward the other end side (the right side in the figure). The attachment spring 63 disposed on one end side of the functional unit 31 enters into the instrument body 11 through the side of the attachment edge 17a without contacting the attachment edge 17a of the instrument body 11, and closes the attachment edge 11. It moves to a height position where it can engage with 17a.

Thereafter, when the other end of the light source unit 30 is pushed up toward the fixture main body 11, the other end of the light source unit 30 is pulled up toward the fixture main body 11 due to the spring force of the mounting spring 37 on the other end of the light source unit 30. As shown in FIG. 7(e), the upper surface side of the other end of the light source unit 30 is brought into contact with the lower surface side of the instrument main body 11.

At this time, due to the spring force of the mounting spring 37 on the other end side of the light source unit 30, the other end side of the light source unit 30 is pulled up to the appliance main body 11 while moving the light source unit 30 toward one end side (left side in the figure). The mounting spring 63 of the auxiliary function unit 31 engages on the mounting edge 17a of the instrument body 11.

Therefore, by the action of the spring force of the two mounting springs 37, which are the first mounting portions 70 on one end side and the other end side of the light source unit 30, the light source unit 30 is pulled up and kept attached to the instrument body 11, and , one end side of the auxiliary function unit 31 is supported on the instrument main body 11 by the attachment spring 63, which is the second attachment part 71 of the auxiliary function unit 31.

Further, when the other end of the light source unit 30 is pushed up toward the appliance main body 11, for example, as shown in FIG. 7(c) from the temporarily suspended state of the light source unit 30 shown in FIG. 7(a), By the action of the spring force of the mounting spring 37 on the other end side of the light source unit 30, the other end side of the light source unit 30 is pulled up to the fixture main body 11, and the upper surface side of the other end side of the light source unit 30 is moved to the lower surface side of the fixture main body 11. bring it into contact. The light source unit 30 is in an inclined state in which the other end of the light source unit 30 rotates upward around one end of the light source unit 30 supported by the mounting spring 37 on the one end.

At this time, the spring force of the attachment spring 37 on the other end side of the light source unit 30 pulls the other end side of the light source unit 30 toward the instrument main body 11 while moving the light source unit 30 toward one end side.

After that, when one end side of the light source unit 30 is pushed up toward the appliance body 11, the one end side of the light source unit 30 is pulled up toward the appliance body 11 by the action of the spring force of the mounting spring 37 on the one end side of the light source unit 30, and as shown in FIG. As shown in (e), the upper surface side of one end side of the light source unit 30 comes into contact with the lower surface side of the instrument main body 11.

At this time, the spring force of the mounting spring 37 on the one end side of the light source unit 30 causes the light source unit 30 to move toward the other end side and pull up the one end side of the light source unit 30 toward the appliance body 11, but the mounting spring 37 on the other end side Coupled with the action of the spring force 37, the introduction portion 67 of the attachment spring 63 of the auxiliary function unit 31 comes into contact with the attachment edge 17a of the instrument main body 11. The attachment spring 63 rides over the attachment edge 17a while being elastically deformed by contact with the attachment edge 17a, and engages on the attachment edge 17a.

Therefore, by the action of the spring force of the two mounting springs 37, which are the first mounting portions 70 on one end side and the other end side of the light source unit 30, the light source unit 30 is pulled up and kept attached to the instrument body 11, and , one end side of the auxiliary function unit 31 is supported on the instrument main body 11 by the attachment spring 63, which is the second attachment part 71 of the auxiliary function unit 31.

Further, from the temporarily suspended state of the light source unit 30 shown in FIG. 7(a), for example, as shown in FIG. When the light source unit 30 is pushed up, the spring forces of the mounting springs 37 at one end and the other end of the light source unit 30 act together, and the one end and the other end of the light source unit 30 are pulled up in parallel to the appliance main body 11, and as shown in FIG. As shown in (e), the upper surface side of the light source unit 30 comes into contact with the lower surface side of the instrument main body 11.

At this time, the attachment spring 63 of the auxiliary function unit 31 comes into contact with the attachment edge 17a of the instrument main body 11. The attachment spring 63 rides over the attachment edge 17a while being elastically deformed by contact with the attachment edge 17a, and engages on the attachment edge 17a.

Therefore, by the action of the spring force of the two mounting springs 37, which are the first mounting portions 70 on one end side and the other end side of the light source unit 30, the light source unit 30 is pulled up and kept attached to the instrument body 11, and , one end side of the auxiliary function unit 31 is supported on the instrument main body 11 by the attachment spring 63, which is the second attachment part 71 of the auxiliary function unit 31.

In the lighting device 10 constructed in this manner, the light source unit 30 is attached to the fixture body 11 with the attachment spring 37, which is the first attachment part 70, and the auxiliary function unit is disposed on one end side of the light source unit 30. 31 is attached to the instrument body 11 by the attachment spring 63, which is the second attachment part 71, so even if the auxiliary function unit 31 is attached in a cantilevered state to the outer end of one end of the light source unit 30, the auxiliary function unit Misalignment such as drooping of one end of 31 is suppressed.

When AC power is supplied to the lighting device 10 through the power line, the light source power supply 24 converts the AC power into predetermined lighting power, supplies it to the light source module 34 of the light source unit 30, and the light emitting element 40 lights up. do.

Further, the auxiliary function power supply 53 of the auxiliary function unit 31 converts the AC power into predetermined operating power and supplies it to the auxiliary function device 52, so that the auxiliary function device 52 operates. When the auxiliary function device 52 is a camera unit, the imaging unit 74 photographs the subject in the lower region. The camera unit always takes pictures while AC power is being input to the illumination device 10. Then, the data of the image photographed by the imaging section 74 is stored in the storage section, and the stored image data is transmitted to the outside through the communication circuit, so that the image can be checked externally.

Further, when the lighting device 10 is turned on, the plurality of light emitting elements 40 in the light source module 34 of the light source unit 30 generate heat, and the heat of the light source module 34 is transmitted to the light source chassis 33 and the fixture body 11 and radiated.

In the auxiliary function unit 31 , the auxiliary function device 52 is located at a different height from the light source module 34 and lower than the light source module 34 , so the heat from the light source module 34 affects the auxiliary function device 52 . temperature is reduced, and the auxiliary function device 52 is maintained within a predetermined allowable temperature range and functions stably.

Furthermore, since the auxiliary function unit 31 has the auxiliary function power source 53 disposed above the auxiliary function device 52, the thermal influence from the auxiliary function power source 53 on the auxiliary function device 52 is also reduced.

In the lighting device 10, the auxiliary function unit 31 integrally includes the auxiliary function device 52 and the auxiliary function power source 53, and the auxiliary function unit 31 is attached to the outer end of the light source unit 30 at one end in the longitudinal direction. Because of this configuration, auxiliary functions can be provided without extending the instrument main body 11 in the longitudinal direction.

Furthermore, since the auxiliary function unit 31 can be replaced with the light source unit 30, it is easy to replace the auxiliary function unit 31 due to a malfunction, or to install or replace it according to the type of auxiliary function added to the light source unit 30. can.

Further, in the auxiliary function unit 31, the auxiliary function power source 53 and the auxiliary function device 52 are arranged vertically so that the auxiliary function power source 53 is arranged between the auxiliary function device 52 and the instrument main body 11. By doing so, it is possible to downsize the auxiliary function unit 31 in the direction corresponding to the longitudinal direction of the light source unit 30, so the mounting mechanism 26 remains in the same position as the existing fixture, and the length of one end of the light source unit 30 is reduced. The auxiliary function unit 31 can be arranged by shortening the length.

Further, since the auxiliary function unit 31 is located on the opposite side of the instrument body 11 from the light source unit 30 and is protruded in the light irradiation direction (downward) of the light source unit 30, the auxiliary function device 52 is similar to a camera unit. Even if there is a possibility that the auxiliary function device 52 may be affected by light from the outside, the influence of the light from the light source unit 30 on the auxiliary function device 52 can be reduced.

Furthermore, in the auxiliary function unit 31, since at least a portion of the auxiliary function power source 53 is disposed within the instrument main body 11, the amount of protrusion from the light source unit 30 can be minimized, and the design can be improved.

Further, since the auxiliary function unit 31 is arranged in the light source unit 30 such that the auxiliary function device 52 is disposed at a different height position from the light source module 34, the heat from the light source module 34 is transferred to the auxiliary function device 52. This allows the auxiliary function device 52 to function stably.

Furthermore, since the auxiliary function unit 31 has the auxiliary function power source 53 disposed above the auxiliary function device 52, the thermal influence from the auxiliary function power source 53 on the auxiliary function device 52 is reduced, and the auxiliary function device 52 is It can function stably.

In addition, the light source unit 30 is provided with a mounting spring 37, which is a first mounting portion 70 that is detachably attached to the instrument main body 11, and an auxiliary function unit 31 disposed on one end side of the light source unit 30 is attached to the instrument body 11. Since the attachment spring 63 is provided as the second attachment part 71 attached to the main body 11, even in a structure in which the auxiliary function unit 31 is attached in a cantilevered manner to the outer end of one end of the light source unit 30, the auxiliary function unit 31 is It is possible to suppress the occurrence of misalignment such as drooping of one end, and to allow the auxiliary function unit 31 to function stably.

Furthermore, since the second attachment portion 71 is disposed on the end surface side of one end of the auxiliary function unit 31, the auxiliary function unit 31 can be attached to the instrument main body 11 in a stable position.

Note that it is preferable that the mounting springs 37, which are the first mounting portions 70, be provided at two locations, one on one end side and the other end of the light source unit 30; however, if they are provided only on at least the other end side of the light source unit 30 good. In this case, the light source unit 30 (light source section with auxiliary function 12) can be attached to and detached from the fixture main body 11 by the first attachment section 70 on the other end side of the light source unit 30 and the second attachment section 71 of the auxiliary function unit 31. Can be installed as possible.

In addition, in the lighting device 10 of the said embodiment, the light source power supply 24 may be arrange|positioned not in the fixture main body 11 but in the light source unit 30. In this case, since the light source power supply 24 and the auxiliary function unit 31 are integrally arranged in the light source unit 30, by replacing the light source unit 30 with respect to the fixture main body 11, you can All components can be replaced as a complete set, improving the work efficiency of replacement.

Further, the auxiliary function unit 31 is not limited to a camera unit, and may be, for example, a sensor unit that detects a human body or brightness, an emergency light unit that lights up in the event of a power outage, a speaker unit that emits sound, or the like.

Further, the lighting device 10 may be a recessed lighting device, a hanging lighting device, or the like in addition to a direct-mounted lighting device.

Although several embodiments of the invention have been described, these embodiments are 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, substitutions, and changes can be made without departing from the gist of the invention. These embodiments and their modifications are included within the scope and gist of the invention, as well as within the scope of the invention described in the claims and its equivalents.

10 Lighting device 11 Apparatus body 30 Light source unit 31 Auxiliary function unit 34 Light source module 52 Auxiliary function device 53 Auxiliary function power supply

Claims (2)

The instrument body;
a light source unit that has a light source module and is detachable from the instrument body;
an auxiliary function unit having an auxiliary function device and disposed in the light source unit such that the auxiliary function device is disposed at a different height position from the light source module;
A lighting device comprising: The lighting device according to claim 1, wherein the auxiliary function unit has an auxiliary function power source disposed above the auxiliary function device.

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