JP2020167120A - Luminaire - Google Patents

Abstract

To provide a luminaire compatible of receiving sensitivity of radio communication and design property.SOLUTION: A luminaire 11 comprises a long appliance body 13, a driver 25, and a control unit 34 A light source 20 is attached to the appliance body 13. The driver 25 is arranged in the appliance body 13, and supplies power to the light source 20. The control unit 34 comprises a control part 42 for controlling the driver 25, and a receiving part 43 for receiving a radio signal from the outside. In the control unit 34, a part P1 including at least a portion of the receiving part 43 protrudes from a side part 17 of the appliance body 13, and a remaining part P2 is attached to the appliance body 13 so as to be located on the inside.SELECTED DRAWING: Figure 1

Description

An embodiment of the present invention relates to a luminaire including a receiving unit that receives a radio signal from the outside.

Conventionally, in a lighting fixture, a driver that is a power source for the light source module and a control unit that controls lighting of the light source module are arranged inside a metal fixture chassis to which the light source module is mounted. In such a lighting fixture, for example, a user may have a function of setting lighting control of a light source module by wireless communication such as radio waves or infrared rays by using an external device such as a remote controller. In this case, a part of the instrument chassis is opened or a control unit including the wireless communication unit is arranged at the end of the instrument chassis so that the reception of signals by wireless communication is not obstructed by the metal instrument chassis. Is possible. However, in the former case, it is necessary to prevent insects and the like from entering the equipment chassis from the opening, and the mounting position of the control unit is restricted. Further, in the latter case, the wiring route becomes long. Further, if the control unit is attached to the outside of the equipment chassis with priority given to the reception sensitivity, the control unit may be conspicuous and the appearance may be deteriorated.

JP-A-2019-33104

An object to be solved by the present invention is to provide a lighting fixture capable of achieving both reception sensitivity and design of wireless communication.

The luminaire of the embodiment includes a longitudinal fixture body, a driver, and a control unit. A light source is attached to the main body of the fixture. The driver is placed on the instrument body and supplies power to the light source. The control unit includes a control unit that controls the driver and a reception unit that receives a radio signal from the outside. The control unit is attached to the instrument body so that a portion including at least a part of the receiving portion projects from the side surface portion of the instrument body and the remaining portion is located inside.

According to the present invention, it can be expected that both reception sensitivity and design of wireless communication are compatible.

(a) is a plan view of a part of the luminaire showing the first embodiment, and (b) is a cross-sectional view schematically showing the position corresponding to I-I of (a). It is a top view which shows the control unit of the lighting fixture as above. It is a circuit block diagram of the lighting fixture as above. It is a perspective view which shows the lighting fixture as above. It is a top view of a part of the luminaire which shows the 2nd Embodiment. It is a schematic cross-sectional view of the luminaire which shows the 3rd Embodiment.

Hereinafter, the first embodiment will be described with reference to FIGS. 1 to 4.

In FIGS. 1 (a), 1 (b), and 4, 11 shows a luminaire. The luminaire 11 is a longitudinal base light in the present embodiment. The luminaire 11 is attached to an installation surface 12 such as an indoor ceiling surface or a vertical wall surface. In the illustrated example, the luminaire 11 shows, for example, a state of being mounted on a ceiling surface.

The luminaire 11 includes a longitudinal fixture body (fitting chassis) 13. The instrument body 13 is integrally formed of a metal such as aluminum. The instrument body 13 includes a base portion 14 formed in a linear longitudinal shape. The base portion 14 is a portion for attaching the instrument main body 13 to the installation surface 12. The base portion 14 is formed in a plate shape. The base portion 14 is located along the installation surface 12 with the instrument main body 13 attached to the installation surface 12, and faces the installation surface 12. The base portion 14 is formed with an installation surface mounting portion for mounting the instrument main body 13 on the installation surface 12. The installation surface mounting portion is, for example, a hole portion, and the instrument main body 13 is fixed to the installation surface 12 by an instrument mounting member 15 such as a mounting bolt inserted into the installation surface mounting portion.

End face portions 16 are formed in succession at both ends of the base portion 14 in the longitudinal direction (only one is shown). The end face portion 16 is located at the end portion of the instrument main body 13. The end face portion 16 rises in a direction intersecting the thickness of the base portion 14.

Further, side surface portions 17 are formed in succession on both side portions of the base portion 14. That is, the instrument main body 13 includes a base portion 14, a pair of end face portions 16, and a pair of side surface portions 17. The side surface portion 17 sets the width of the instrument main body 13. The side surface portion 17 is formed along the long side of the base portion 14. In the present embodiment, the side surface portion 17 is formed so as to extend over the entire long side of the base portion 14. The side surface portion 17 rises in a direction intersecting the thickness of the base portion 14. In the present embodiment, the side surface portion 17 stands up along a direction substantially orthogonal to the base portion 14. That is, the side surface portion 17 is located along a direction substantially orthogonal to the installation surface 12. Further, the side surface portion 17 is connected to the end surface portion 16 so as to surround the circumference of the instrument main body 13 in a quadrangular shape. That is, the accommodation space 18 is formed inside the instrument main body 13 by the base portion 14, the side surface portions 17, and the both end surface portions 16. Further, both side surface portions 17 and both end surface portions 16 form an opening 19 in the instrument main body 13 at a position opposite to the installation surface 12 with respect to the base portion 14. A light source module 21 including a light source 20 is attached to the opening 19.

In the present embodiment, the light source module 21 is a longitudinal light source bar in which a plurality of light sources 20 are arranged in a straight line. As the light source 20, a solid-state light emitting element such as an LED is used in the present embodiment. The light source module 21 includes a cover 23 that covers the emission side of the light from the light source 20. The cover 23 may have an arbitrary shape for controlling the light distribution of the emitted light. For example, the cover 23 is formed by being curved in an arc shape whose cross section is convex in the light emitting direction, that is, on the side opposite to the installation surface 12. ing. The width of the light source module 21 may be larger or smaller than the width of the fixture main body 13, but in the present embodiment, it is set to be substantially equal to the width of the fixture main body 13 or larger than the width of the fixture main body 13. There is. The light source module 21, that is, the light source 20, is removable from the fixture body 13, and the light source module 21 covers the opening 19 in a state of being attached to the fixture body 13.

The light source module 21, that is, the light source 20, is turned on by the electric power from the driver 25. The driver 25 is housed inside the instrument body 13, that is, in the accommodation space 18, and is attached to the instrument body 13. In the present embodiment, the driver 25 is attached to a mounting portion formed on the base portion 14 of the instrument main body 13. The driver 25 is formed in a longitudinal shape. The longitudinal dimension of the driver 25 is shorter than the longitudinal dimension of the instrument body 13. The driver 25 faces the opening 19 while being attached to the instrument body 13, and is arranged along the longitudinal direction of the instrument body 13. The driver 25 may be arranged at an arbitrary position of the instrument main body 13 according to its longitudinal dimension, but in the present embodiment, for example, the driver 25 is arranged at one end side of the central portion in the longitudinal direction of the instrument main body 13. .. One end in the longitudinal direction of the driver 25 is located close to one end in the longitudinal direction of the instrument body 13, and the other end in the longitudinal direction of the driver 25 is located on the central portion side in the longitudinal direction of the instrument body 13. There is.

Further, as shown in FIG. 3, the driver 25 is supplied with power from an external power source 27 such as a commercial power source, converts the power from the external power source 27, and supplies the power to the light source module 21, that is, the light source 20. The driver 25 is electrically connected to the light source module 21, that is, the light source 20, by wiring 28. The wiring 28 has a connector and the like, and the connection between the driver 25 and the light source module 21, that is, the light source 20 can be attached and detached. Further, the driver 25 is electrically connected to the external power supply 27 by the wiring 29. The wiring 29 is derived from the installation surface 12 shown in FIG. 1 (b), and as shown in FIG. 1 (a), the inside of the instrument body 13 is provided through the introduction hole 31 which is an introduction portion formed in the instrument body 13. That is, it is introduced into the accommodation space 18. The introduction hole 31 is formed in the base portion 14. The introduction hole 31 is formed in a round hole shape, for example. The introduction hole 31 is arranged on the other end side of the driver 25 in the longitudinal direction. The wiring 29 introduced from the introduction hole 31 to the accommodation space 18 is electrically connected to the driver 25 via the terminal block 32 in the present embodiment. The terminal block 32 is preferably located between the introduction hole 31 and the driver 25. The terminal block 32 is housed inside the instrument body 13, that is, in the accommodation space 18, and is attached to the instrument body 13. In this embodiment, the terminal block 32 is attached to the base portion 14. The terminal block 32 is formed in a square shape and has a shorter longitudinal dimension than the driver 25.

The driver 25 is controlled by the control unit 34. As shown in FIG. 2, the control unit 34 is configured such that the unit main body 35 is housed in the case 36. The unit main body portion 35 is a substrate portion. The unit main body 35 is formed in a quadrangular shape. In the present embodiment, the unit main body 35 is formed in a rectangular shape. The unit main body 35 is configured by mounting various components 39 and connectors 40 on a square substrate 38. The unit main body 35 is formed with various components 39, a control unit 42 for controlling the driver 25 (FIG. 3), and a reception unit 43 for receiving a wireless signal from the outside. The control unit 42 is composed of parts 39a such as an MCU. In the present embodiment, the receiving unit 43 includes, for example, a first signal receiving unit 45 that receives a radio signal such as a wireless antenna, and a second signal receiving unit 46 that receives an infrared signal such as a light receiving element. .. The first signal receiving unit 45 is formed of, for example, a longitudinal component 39b. The second signal receiving unit 46 is formed of, for example, a rectangular component 39c.

The control unit 42 and the reception unit 43 are arranged at different positions in the longitudinal direction of the unit main body unit 35. In the present embodiment, the control unit 42 is arranged near the central portion of the unit main body 35 in the longitudinal direction, and the receiving unit 43 is arranged at one end of the unit main body 35 in the longitudinal direction. Further, in the receiving unit 43, the first signal receiving unit 45 and the second signal receiving unit 46 are arranged side by side in the width direction of the unit main body unit 35. For example, the component 39a constituting the control unit 42 is arranged near the central portion in the longitudinal direction of the substrate 38, and the component 39b constituting the first signal receiving unit 45 is on one side at one end in the longitudinal direction of the substrate 38. The component 39c, which is arranged at the position so as to have a longitudinal direction along a direction intersecting or orthogonal to the longitudinal direction of the substrate 38 and constitutes the second signal receiving unit 46, is at one end in the longitudinal direction of the substrate 38. It is located on the side. In the illustrated example, the control unit 42 is arranged on one side and the receiving unit 43 is arranged on the other side, sandwiching the alternate long and short dash line L that crosses the unit main body 35 along the width direction. Further, in the present embodiment, the connector 40 is arranged on the same side as the control unit 42 with respect to the alternate long and short dash line L. The connector 40 is arranged near the other end, which is the end opposite to the receiving portion 43 of the unit main body portion 35 or the substrate 38. Further, the connector 40 is arranged so as to have a plurality of terminals along a direction intersecting or orthogonal to the longitudinal direction of the unit main body 35 or the substrate 38. Further, the connector 40 is arranged at a diagonal position with respect to the second signal receiving unit 46 or the component 39c on the unit main body 35 or the substrate 38.

The case 36 is made of a material that does not easily interfere with the radio signal, for example, a synthetic resin. The case 36 has a thin shape that is thin in the thickness direction of the substrate 38 of the unit main body 35. The shape of the case 36 is a rectangular shape, which is one size larger than the unit main body 35, and is formed into a rectangular shape in this embodiment. The case 36 is formed with an opening 50 on one main surface that exposes at least a part of the receiving unit 43 to the outside. In the present embodiment, the opening 50 exposes the second signal receiving unit 46 to the outside. The opening 50 is formed at a position facing the second signal receiving unit 46. Further, the opening 50 is formed in a groove shape from one main surface of the case 36 to the end surface in the longitudinal direction. Further, the case 36 is formed with a connector opening 51 on one main surface for exposing the connector 40 to the outside.

Then, as shown in FIG. 1 (b), the control unit 34 is attached to the instrument main body 13 in a state in which a part thereof projects from one side surface portion 17 to the outside of the instrument main body 13. In the control unit 34, at least a part of the receiving unit 43, a portion P1 including the entire receiving unit 43 protrudes from the side surface portion 17 of the instrument main body 13, and the remaining portion, that is, a portion P2 including the control unit 42 is the appliance. It is attached to the instrument body 13 so as to be located in the accommodation space 18 inside the body 13. That is, an insertion opening 54 is formed in the side surface portion 17 of the instrument main body 13, and includes the receiving portion 43 of the control unit 34 from the accommodation space 18 inside the instrument main body 13 to the outside with respect to the insertion opening 54. One end side is inserted. The insertion opening 54 is formed in the side surface portion 17 of the instrument main body 13 in a slit shape, for example, along the longitudinal direction. The insertion opening 54 is formed according to the outer shape of the case 36 of the control unit 34, and has a shape with substantially no gap with respect to the outer shape of the case 36 of the inserted control unit 34.

Further, the case 36 of the control unit 34 is formed with a regulation portion 56 for positioning the control unit 34 inserted into the insertion opening 54 with respect to the instrument main body 13. Regulators 56 are projected on both sides of the case 36 of the control unit 34. Further, in the vicinity of the regulating portion 56, a holding portion 57 is formed to sandwich the edge portion of the insertion opening 54 of the side surface portion 17 of the instrument main body 13 with the regulating portion 56. The sandwiching portion 57 is located away from the regulating portion 56 on the one end side in the longitudinal direction of the control unit 34. Further, the holding portion 57 is formed in a claw shape that gradually projects laterally from one end side in the longitudinal direction of the control unit 34 toward the regulating portion 56.

Further, the control unit 34 is fixed to the instrument main body 13 via mounting members 60 and 61 such as bolts and nuts. In the present embodiment, the control unit 34 is fixed to the base portion 14 of the instrument main body 13. That is, the base portion 14 is formed with an insertion hole 63, which is an insertion portion through which the mounting member 60 is inserted, and the control unit 34 is a fixed portion fixed by the mounting members 60, 61 together with the insertion hole 63. 64 are formed. As shown in FIG. 1A, the fixed portion 64 is formed in a portion of the control unit 34 located in the accommodation space 18 of the instrument main body 13. That is, the fixed portion 64 is formed in the portion P2 of the control unit 34 that does not include the receiving portion 43, in other words, the portion P2 that includes the control unit 42. In the present embodiment, the fixed portions 64 are formed on both side portions on the other end side of the case 36 of the control unit 34. A hole 65 aligned with the insertion hole 63 (FIG. 1 (b)) is formed in the fixed portion 64, and the mounting member 60 inserted into the hole 65 together with the insertion hole 63 is prevented from coming off by the mounting member 61. By doing so, the control unit 34 is fixed to the instrument body 13.

The control unit 34 attached to the instrument body 13 is arranged in the order of the introduction hole 31, the driver 25, and the control unit 34 when viewed in the longitudinal direction of the instrument body 13. That is, the control unit 34 is located at one end of the driver 25 in the longitudinal direction, the introduction hole 31 is located at the other end of the driver 25 in the longitudinal direction, and the terminal block 32 is located in the present embodiment. The driver 25 is sandwiched in the longitudinal direction, and the introduction hole 31 and the control unit 34 are arranged on opposite sides of each other. Further, the control unit 34 is preferably arranged at the central portion in the longitudinal direction of the instrument main body 13. Therefore, it is preferable that the driver 25 and the introduction hole 31 are unevenly arranged on the other end side in the longitudinal direction of the instrument main body 13.

The control unit 34 is electrically connected to the driver 25 by wiring 67 via the connector 40. The wiring 67 includes a power supply line for supplying operating power from the driver 25 to the control unit 34, and a signal line for communicating between the control unit 34 and the driver 25. That is, as shown in FIG. 3, in the lighting fixture 11, the driver 25 is connected to the external power supply 27, the control unit 34 is connected to the driver 25, and the light source is connected to the driver 25. 20 are connected and configured.

Next, the assembly method of the first embodiment will be described.

The driver 25, the terminal block 32, etc. are fixed to the base portion 14 of the instrument body 13 preformed by press molding or the like, and the instrument body 13 is placed at one end side of the control unit 34 in the insertion opening 54 of the side surface portion 17. Insert from the inside of. In the control unit 34, the amount of protrusion from the insertion opening 54 is restricted by the regulating portion 56 contacting the inside of the side surface portion 17 at the position of the edge portion of the insertion opening 54. Further, when the control unit 34 is inserted into the insertion opening 54, the holding portion 57 is pushed in while in contact with the edge of the insertion opening 54, and is restricted at a position located outside the side surface portion 17 of the instrument body 13. The edge of the insertion opening 54 is sandwiched between the portion 56 and the portion 56. At this position, in the control unit 34, since the hole 65 of the fixed portion 64 is aligned with the insertion hole 63 formed in the base portion 14 of the instrument main body 13, the mounting member 60 is accommodated in the accommodation space 18 of the base portion 14. The control unit 34 is assembled to the base portion 14 of the instrument main body 13 by inserting the mounting member 61 through the insertion hole 63 and the hole portion 65 of the fixed portion 64 from the opposite side to the mounting member 60 by screwing or the like. Fix to.

Then, in the instrument main body 13, the base portion 14 is fixed to the installation surface 12 by the instrument mounting member 15 while the wiring 29 derived from the installation surface 12 is inserted into the introduction hole 31, and the wiring 29 is fixed to the terminal block 32. It is connected to the driver 25 via the wiring 67, and the control unit 34 is connected to the driver 25 by the wiring 67. After that, the separately assembled light source module 21 is connected to the driver 25 of the fixture body 13 by the wiring 28, and then is attached to the fixture body 13 by covering the opening 19.

In this state, the portion of the control unit 34 located outside the instrument main body 13, that is, one end of the portion P1 including at least a part of the receiving unit 43, faces the light emitting direction of the light source 20, that is, the installation surface 12. It projects at least to the side of the instrument body 13 when viewed from the direction of the instrument. In the present embodiment, a portion of the control unit 34 located outside the instrument body 13, that is, one end portion that is a portion P1 including at least a part of the receiving unit 43 is located in the light emitting direction of the light source 20, that is, on the installation surface 12. It projects laterally from the light source 20 or the light source module 21 when viewed from the opposite direction.

Then, the electric power supplied from the external power source 27 is converted by the driver 25 driven by the control unit 42 of the control unit 34 and supplied to the light source 20 of the light source module 21, and the light source 20 is turned on. When the user transmits a wireless signal to the luminaire 11 by an external device such as a remote controller when the light source 20 is turned on / off or dimmed, the control unit 42 controls the driver 25 according to the wireless signal received by the receiving unit 43. It is changed and the lighting state of the light source 20 is controlled.

According to the first embodiment described above, in the control unit 34, only the portion P1 including at least a part of the receiving unit 43 is projected from the side surface portion 17 of the instrument main body 13, and the remaining portion P2 is the instrument main body 13. Since it is attached to the instrument body 13 so as to be located inside, it is difficult for the instrument body 13 to interfere with the reception of wireless communication by the receiving unit 43, the reception sensitivity of wireless communication can be ensured, and the control unit 34 is outside the instrument body 13. Since it does not protrude significantly, it is possible to suppress deterioration of the appearance as compared with the case where the entire control unit 34 is arranged outside the instrument main body 13, for example. Therefore, it is possible to achieve both reception sensitivity and design of wireless communication.

Since the control unit 34 is fixed to the instrument body 13 by the fixed portion 64 formed on the portion P2 of the control unit 34 that does not include the receiver 43, the portion P2 that does not include the receiver 43 of the control unit 34 is the instrument body 13. It can be surely prevented from being exposed to the outside.

In the control unit 34, since the portion P1 including at least a part of the receiving unit 43 protrudes sideways from the instrument main body 13 when viewed from the light emitting direction of the light source 20, the control unit 34 is located in the light emitting direction, that is, on the installation surface 12. The instrument main body 13 does not easily interfere with the reception of the wireless signal transmitted by the user from the opposite direction at the receiving unit 43.

Further, in the control unit 34, since the portion P1 including at least a part of the receiving unit 43 projects laterally from the light source 20 or the light source module 21 when viewed from the light source 20 light source direction, the light emission direction, That is, the light source 20 or the light source module 21 is unlikely to interfere with the reception of the radio signal transmitted by the user from the direction facing the installation surface 12 at the receiving unit 43.

Further, since the control unit 34 is arranged in the central portion in the longitudinal direction of the luminaire main body 13, when the user transmits a radio signal toward the luminaire 11, the receiver 43 can easily receive the radio signal, and for example, a plurality of illuminators. When the fixtures 11 are arranged side by side in the longitudinal direction on the installation surface 12, the radio signal transmitted to the luminaire 11 is erroneously received by the receiving unit 43 of the luminaire 11 adjacent to the luminaire 11. It becomes difficult, interference between the lighting fixtures 11 is less likely to occur, and the radio signal can be accurately transmitted to the lighting fixture 11 intended by the user, so that the usability is good.

Further, since the lighting fixture 11 is connected in the order of the external power supply 27, the driver 25, and the control unit 34 in a circuit, the wiring 29 connected to the external power supply 27 is introduced when viewed in the longitudinal direction of the fixture main body 13. By arranging the introduction hole 31, the driver 25, and the control unit 34 in this order, the wiring can be shortened.

In the first embodiment, as in the second embodiment shown in FIG. 5, the control unit 34 is arranged on the side opposite to the driver 25 with respect to the introduction hole 31 in the longitudinal direction of the instrument main body 13. You may. That is, the control unit 34, the introduction hole 31, and the driver 25 may be arranged in this order when viewed in the longitudinal direction of the instrument body 13. In this case, since the control unit 34 can be arranged at a position where the arrangement space is relatively wide apart from the driver 25, the degree of freedom in arrangement of the control unit 34 can be improved. In this case, in order to arrange the control unit 34 in the central portion in the longitudinal direction of the instrument main body 13, the driver 25 is preferably arranged near one end of the instrument main body 13.

Further, as in the third embodiment shown in FIG. 6, the fixture main body 13 has an inverted Fuji shape in which the side surface portions 17 and 17 are inclined so as to be expanded from the light source module 21 or the light source 20 toward the installation surface 12. It may be in the shape of. In this case, the control unit 34 is attached to the instrument body 13 so that a portion P1 including at least a part of the receiving unit 43 protrudes from the side surface portion 17 of the instrument body 13 and the remaining portion P2 is located inside. However, preferably, the portion P1 including at least a part of the receiving unit 43 projects laterally from the instrument main body 13 when viewed from the light emitting direction of the light source 20, and more preferably laterally from the light source 20. By making it project, it is possible to obtain the same action and effect as in each of the above embodiments.

In each of the above embodiments, the portion P1 including at least a part of the receiving unit 43 of the control unit 34 does not include any other portion as long as it includes at least the receiving region of the radio signal by the receiving unit 43. Good. Further, at least a part of the control unit 42 may be included in this part P1.

Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

11 Lighting equipment
13 Instrument body
17 Side part
20 light source
25 driver
27 External power supply
29 Wiring
31 Introduction hole that is the introduction part
34 Control unit
42 Control unit
43 Receiver
64 Fixed part

Claims (7)

With a long instrument body to which a light source is attached;
With a driver that is placed on the instrument body and supplies power to the light source;
A control unit for controlling the driver and a receiving unit for receiving a wireless signal from the outside are provided, a portion including at least a part of the receiving unit projects from a side surface portion of the instrument body, and the remaining portion is located inside. With the control unit attached to the instrument body;
Lighting equipment characterized by being equipped with. The lighting fixture according to claim 1, wherein the control unit includes a fixed portion fixed to the fixture main body in the remaining portion. The lighting fixture according to claim 1 or 2, wherein a portion including at least a part of the receiving portion of the control unit projects laterally from the fixture main body when viewed from the light emitting direction of the light source. .. The illumination according to any one of claims 1 to 3, wherein a portion including at least a part of the receiving portion of the control unit projects laterally from the light source when viewed from the light emitting direction of the light source. Equipment. The lighting fixture according to any one of claims 1 to 4, wherein the control unit is arranged at a central portion in the longitudinal direction of the fixture body. The instrument body includes an introduction section into which wiring for connecting the driver and an external power source is introduced.
The lighting fixture according to any one of claims 1 to 5, wherein the control unit is arranged on the side opposite to the driver in the longitudinal direction of the fixture main body with respect to the introduction portion. The instrument body includes an introduction section into which wiring for connecting the driver and an external power source is introduced.
The lighting fixture according to any one of claims 1 to 5, wherein the introduction portion, the driver, and the control unit are arranged in this order when viewed in the longitudinal direction of the fixture body.

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