JP2022009981A - Light source unit and luminaire including the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a light source unit which enables further improvement of communication performance, and to provide a luminaire.

SOLUTION: A light source unit 10 includes: a light source part 1; a wireless communication part 2 which performs wireless communication; and a holder 3 which holds the light source part 1 and the wireless communication part 2. The holder 3 has: a support member 4 made of a metallic material and supporting the light source part 1; and a cover member 5 which is attached to the support member 4 and forms a space 10aa therein so as to cover the support member 4. The wireless communication part 2 includes an antenna part 2a and a communication circuit part 2b. The cover member 5 is configured to transmit radio waves with a resin material. The antenna part 2a is disposed in the space 10aa formed by the cover member 5.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2022,JPO&INPIT

Description

The present invention relates to a light source unit and a lighting fixture, and more particularly to a light source unit capable of wireless communication and a lighting fixture including the light source unit.

In recent years, in order to save energy and improve convenience, remote control of lighting equipment may be performed by wireless communication.

As a lighting fixture of this type, there is known a structure in which an antenna of a radio unit is provided in the lighting fixture so as to correspond to a through hole that communicates with the outside of the lighting fixture (for example, Patent Document 1).

Further, although it is not a lighting fixture, there is also known an electronic device in which a radiation element of an antenna connected to a wireless communication circuit by a feeder is arranged on a circuit board so as to be located in a frame region when viewed from the front side. (For example, Patent Document 2).

Japanese Unexamined Patent Publication No. 2013-33652 Japanese Unexamined Patent Publication No. 2012-235224

By the way, in the light source unit and the lighting equipment provided with the light source unit, a structure having higher communication performance is required, and the configuration to which the above-mentioned Patent Document 1 and the above-mentioned Patent Document 2 are applied is not sufficient, and further improvement is made. It has been demanded.

An object of the present invention is to provide a light source unit and a lighting fixture capable of higher communication performance.

The light source unit of the present invention includes a light source unit, a wireless communication unit, a holding body, and a lighting unit. The wireless communication unit is configured to be capable of performing infrared communication using infrared rays as a medium. The holder holds the light source unit and the wireless communication unit. The lighting unit includes a control unit that controls the lighting of the light source unit, and a power supply unit that supplies power to the light source unit and the wireless communication unit. The holding body has a support member and a cover member. The support member is configured to support the light source unit. The cover member has a translucency that allows light from the light source unit to pass through. The cover member is attached to the support member. The cover member forms a space inside so as to cover the support member. The wireless communication unit and the lighting unit are arranged at positions separated from each other on the opposite side of the support member from the cover member. The wireless communication unit is configured to perform infrared communication via an opening provided in the support member.

The lighting fixture of the present invention is characterized by including the above-mentioned light source unit and a fixture main body to which the light source unit is attached.

The light source unit of the present invention can have higher communication performance.

The lighting fixture of the present invention can have higher communication performance.

It is sectional drawing explaining the light source unit of Embodiment 1. FIG. It is a partially broken perspective sectional view explaining the main part of the light source unit of Embodiment 1. FIG. It is a partially broken front view explaining the main part of the light source unit of Embodiment 1. FIG. It is an exploded perspective view which shows the lighting fixture using the light source unit of Embodiment 1. FIG. It is a perspective view which shows the lighting fixture using the light source unit of Embodiment 1. FIG. It is a perspective view explaining the main part of the light source unit of Embodiment 2. It is a partially broken front view explaining the main part of the light source unit of Embodiment 2. It is a side view of the light source unit of Embodiment 2. FIG. It is an exploded perspective view of the main part in the light source unit of Embodiment 2. It is a plane explanatory view explaining the light source unit of Embodiment 2. It is a plane explanatory view explaining the light source unit to compare with Embodiment 2.

(Embodiment 1)
Hereinafter, the light source unit 10 of the present embodiment will be described with reference to FIGS. 1, 2, and 3. 4 and 5 show a lighting fixture 30 provided with a light source unit 10. In the figure, the same members are designated by the same reference numerals, and duplicate description will be omitted. The size and positional relationship of the members shown in each drawing may be exaggerated for the sake of clarity. In the following description, each element constituting the present embodiment may be configured such that a plurality of elements are composed of one member and the plurality of elements are combined with one member, or a plurality of functions of one member may be used in combination. It may be realized by sharing the members.

As shown in FIGS. 1, 2, and 3, the light source unit 10 of the present embodiment includes a light source unit 1, a wireless communication unit 2, and a holding body 3. The wireless communication unit 2 is configured to be capable of performing wireless communication using radio waves as a medium. The holding body 3 holds the light source unit 1 and the wireless communication unit 2. The holding body 3 has a support member 4 and a cover member 5. The support member 4 is made of a metal material. The support member 4 is configured to support the light source unit 1. The cover member 5 is attached to the support member 4. The cover member 5 forms a space 10aa inside so as to cover the support member 4. The wireless communication unit 2 includes an antenna unit 2a and a communication circuit unit 2b. The antenna unit 2a is configured to be capable of transmitting or receiving at least one of radio waves. The communication circuit unit 2b is electrically connected to the antenna unit 2a. The cover member 5 is made of a resin material. The cover member 5 is configured to transmit radio waves. The antenna portion 2a is arranged in the space 10aa formed by the cover member 5.

Since the light source unit 10 of the present embodiment is arranged in the space 10aa in which the antenna portion 2a is formed by the cover member 5 that transmits radio waves, it is possible to further improve the communication performance.

Hereinafter, the light source unit 10 of the present embodiment will be described in detail.

The light source unit 1 includes a light emitting element 1a and a mounting substrate 1b for electrically connecting the light emitting element 1a. The light emitting element 1a uses an LED (Light Emitting Diode). Light emitting element 1a
Is electrically connected to the wiring portion provided on the mounting board 1b by soldering.

The mounting substrate 1b is long and has a flat plate-like outer shape. As shown in FIGS. 2 and 3, a plurality of light emitting elements 1a are mounted on the mounting substrate 1b along the longitudinal direction. The mounting board 1b uses a wiring portion to electrically connect a plurality of light emitting elements 1a in series. The plurality of light emitting elements 1a are arranged linearly along the longitudinal direction of the mounting substrate 1b at the central portion of the mounting substrate 1b in the lateral direction. As the mounting board 1b, for example, a printed wiring board can be used. A resist film is formed on the mounting substrate 1b except for the mounting surface of the light emitting element 1a. The mounting board 1b is not limited to the printed wiring board, and for example, a ceramic board, a metal-based printed wiring board, or the like may be used. The mounting board 1b is mounted and supported by the mounting portion 4a of the support member 4. The light source unit 1 is not limited to the configuration using LEDs, and may be configured by an organic electroluminescence element, a discharge lamp, or the like.

The support member 4 has a long outer shape. The support member 4 can be formed by using, for example, a steel plate. The support member 4 has a plate-shaped mounting portion 4a and a pair of side wall portions 4b. The support member 4 is formed in a C shape by the mounting portion 4a and the pair of side wall portions 4b in a cross-sectional view. The mounting portion 4a is formed in a long rectangular shape when viewed from the front. The side wall portion 4b is provided so as to extend in a direction orthogonal to the mounting portion 4a from both ends of the mounting portion 4a in the lateral direction. A protruding portion 4e projecting outward is provided at the tip end portion of the side wall portion 4b. The support member 4 is provided with a protrusion 4e over the entire length in the longitudinal direction.

The protruding portion 4e is formed in a cylindrical shape by winding the tip of the side wall portion 4b. A recess 4ad is provided in the central portion of the mounting portion 4a along the longitudinal direction. The recess 4ad comprises a bottom 4cc and a pair of side 4cc. The bottom portion 4bb is formed in a long rectangular shape in a front view. The side portion 4cc is provided so as to rise from the bottom portion 4cc along the longitudinal direction of the bottom portion 4cc. The support member 4 is configured so that the mounting substrate 1b can be arranged at a predetermined position on the bottom portion 4cc. The support member 4 has a locking piece 4s that protrudes from the bottom 4bb. The locking piece 4s is configured to be able to be inserted into the hole portion 1bc penetrating in the thickness direction of the mounting substrate 1b. In the support member 4, the mounting substrate 1b can be caulked and fixed between the locking piece 4s and the bottom portion 4cc by bending the locking piece 4s.

The pair of side portions 4cc are provided so that the distance from each other increases as the distance from the bottom portion 4cc increases. The surface of the side portion 4cc constitutes a reflecting surface that reflects light from the light emitting element 1a. An opening 4aa that opens in the thickness direction is provided at one end of the mounting portion 4a in the longitudinal direction. The opening 4aa may be configured to cut out an end portion of the mounting portion 4a, or may be configured as a through hole penetrating the mounting portion 4a in the thickness direction. The opening 4aa can be formed, for example, by punching a metal plate constituting the support member 4.

The light source unit 10 can use the support member 4 as a heat sink by abutting the mounting substrate 1b on the support member 4 formed of a metal material to support the light source unit 10. When the support member 4 is made of a steel plate having a higher thermal conductivity than the resin, the heat generated by the light emitting element 1a can be efficiently dissipated to the outside. The material of the support member 4 is not limited to the steel plate, and may be formed of a metal material such as aluminum, copper, or stainless steel. The support member 4 is formed by punching and bending a sheet metal. The support member 4 is configured so that the cover member 5 can be attached.

The cover member 5 is configured to be long. The cover member 5 is attached to the support member 4 so as to cover the light source portion 1. The cover member 5 is configured to cover the mounting substrate 1b on which the light emitting element 1a is mounted so that a space 10aa is formed between the cover member 5 and the support member 4. The cover member 5 includes a cover main body 5a and a cover end 5b.

The cover body 5a includes a semi-cylindrical light emitting portion 5c and a pair of protruding wall portions 5d. The protruding wall portion 5d is provided along the longitudinal direction of the light emitting portion 5c. The pair of protruding wall portions 5d are formed so as to project parallel to each other from both ends of the light emitting portion 5c. Each of the tips of the pair of protruding wall portions 5d is provided with a protrusion 5e that projects in a direction approaching each other.

The protrusion 5e is configured so that it can be hooked on the protrusion 4e of the support member 4. The protrusion 5d is provided with an inner protrusion 5f between the protrusion 5e and the light emitting portion 5c. The pair of internal protrusions 5f project inward toward the opposite protrusions 5d. Extension portions 5h are provided at both ends of the light emitting portion 5c in the longitudinal direction. The extending portion 5h extends to the outside of the protruding wall portion 5d so as to be connected to the light emitting portion 5c. The cover main body 5a is integrally formed with a light emitting portion 5c, a protruding wall portion 5d, a protruding portion 5e, an extending portion 5h, and an internal protruding portion 5f.

The cover end 5b is provided at the longitudinal end of the support member 4 and the cover body 5a. The cover end 5b is formed in a semicircular plate-like outer shape. The cover end 5b includes a holding portion 5g that sandwiches the inner protrusion portion 5f of the cover main body 5a. The cover end 5b is attached to the cover body 5a by the sandwiching portion 5g sandwiching the inner protrusion 5f at the end of the cover body 5a. The cover member 5 is composed of a cover main body 5a and a cover end 5b to form a polyhedron having a plurality of surfaces. The cover end 5b has the smallest surface among the surfaces of the cover member 5 that emits light from the light source unit 1.

In the light source unit 10 of the present embodiment, the cover member 5 has a translucency for transmitting light from the light source unit 1. The cover member 5 emits light from the light source unit 1 to the outside from the outer bottom surface 5aa of the cover member 5. Since the cover member 5 has a translucent property for transmitting the light from the light source unit 1, the light source unit 10 can suppress a decrease in the light utilization efficiency of the light source unit 1. The cover member 5 preferably has a configuration capable of efficiently transmitting the light radiated from the light emitting element 1a. It is preferable to use a material having high radio wave transmission for the cover member 5. The cover member 5 can be formed by using a resin material such as a polycarbonate resin or an acrylic resin. The cover member 5 can be formed, for example, by injection molding. The cover member 5 may contain a light diffusing material in a translucent resin material.

In the cover member 5, the cover main body 5a and the cover end 5b may be formed of the same material or may be formed of different materials. The cover member 5 may be formed with the cover main body 5a and the cover end 5b having the same thickness, or may be formed so that the thickness of the cover end 5b is different from that of the cover main body 5a.

The wireless communication unit 2 is attached to the support member 4. The wireless communication unit 2 is configured to be able to perform wireless communication by using the antenna unit 2a and the communication circuit unit 2b. The wireless communication unit 2 includes, in addition to the antenna unit 2a and the communication circuit unit 2b, a circuit board 6 and a storage case 7 for accommodating the circuit board 6.

The circuit board 6 has a flat plate-like outer shape. As the circuit board 6, for example, a printed wiring board can be used. The circuit board 6 has a first region 6ca in which the antenna portion 2a is provided and a second region 6cc in which the communication circuit portion 2b is provided. The circuit board 6 is configured so that the communication signal received by the antenna unit 2a can be input to the communication circuit unit 2b. The circuit board 6 is configured so that the communication signal output by the communication circuit unit 2b can be wirelessly radiated from the antenna unit 2a to the outside.

The antenna portion 2a can be formed by using, for example, a wiring 6a having a predetermined shape on the circuit board 6. As the wiring 6a having a predetermined shape, for example, as shown in FIG. 1, the wiring 6
A detour wiring formed by bending a can be mentioned. The antenna portion 2a may be provided on only one side of the circuit board 6 in the thickness direction, or may be provided on both sides. The antenna portion 2a is not limited to the configuration formed by using the wiring 6a of the circuit board 6, and may be formed separately from the circuit board 6. When the antenna portion 2a is formed by using the wiring 6a of the circuit board 6, the component cost of the antenna portion 2a is suppressed and the antenna portion 2a is inexpensively configured as compared with a structure in which the antenna portion 2a is formed separately from the circuit board 6. be able to. When the antenna portion 2a is formed separately from the circuit board 6, the antenna portion 2a may be appropriately fixed to the first region 6ca of the circuit board 6. The communication circuit unit 2b is configured to include, for example, an electronic component 6d such as a crystal oscillator or a microcomputer so that at least one of transmission and reception of radio waves can be performed.

The storage case 7 has a rectangular parallelepiped outer shape. The storage case 7 may be configured to include, for example, a lid 7a and a case body 7b. The storage case 7 can be formed into a box shape having a hollow inside by housing the circuit board 6 in the case body 7b and covering it with the lid 7a. In the accommodation case 7, the circuit board 6 is arranged so that the antenna portion 2a is accommodated in the lid 7a and the communication circuit portion 2b can be accommodated in the case main body 7b. The lid 7a constitutes an antenna accommodating portion 7c that accommodates the antenna portion 2a. The housing case 7 is provided with a plate-shaped fixing portion 7d projecting in the longitudinal direction in the case body 7b so that the case 7 can be fixed to the support member 4. The fixing portion 7d is provided with a screw hole penetrating in the thickness direction. The housing case 7 is configured so that the screw 7e through which the through hole of the support member 4 is inserted can be screwed and fastened by the fixing portion 7d. The housing case 7 is configured so that the antenna housing portion 7c can be inserted through the opening 4aa penetrating in the thickness direction of the mounting portion 4a.

The storage case 7 is made of a material that transmits radio waves. As the material of the storage case 7, for example, a synthetic resin such as a polycarbonate resin, an epoxy resin, a polyester resin, or a polyimide resin can be used. The storage case 7 can contain a light diffusing material in the synthetic resin constituting the storage case 7.

In the wireless communication unit 2, the screw 7e is screwed to the fixed portion 7d via the support member 4 in a state where the antenna accommodating portion 7c is projected from the opening 4aa toward the cover member 5. The wireless communication unit 2 is arranged so that the circuit board 6 intersects the surface of the bottom portion 4cc by projecting the antenna accommodating unit 7c toward the cover member 5. The wireless communication unit 2 is arranged in the space 10aa so as to project from the recess 4ad of the support member 4 toward the cover member 5, so that the communication performance of the antenna unit 2a can be improved. The light source unit 10 enhances the directivity of radio waves in the longitudinal direction of the support member 4, for example, by aligning one surface of the circuit board 6 on which the antenna portion 2a is formed along a direction orthogonal to the longitudinal direction of the support member 4. be able to.

That is, in the light source unit 10 of the present embodiment, the wireless communication unit 2 includes a circuit board 6 and a housing case 7. The storage case 7 is configured to accommodate the circuit board 6. The circuit board 6 has a first region 6ca in which the antenna portion 2a is provided and a second region 6cc in which the communication circuit portion 2b is provided. The storage case 7 is configured to transmit radio waves by a resin material.

The light source unit 10 can easily handle the wireless communication unit 2 by the housing case 7 that houses the circuit board 6.

In the light source unit 10 of the present embodiment, the support member 4 includes a plate-shaped mounting portion 4a to which the light source portion 1 is mounted. The support member 4 has an opening 4aa that penetrates in the thickness direction of the mounting portion 4a. The accommodating case 7 includes an antenna accommodating portion 7c for accommodating the antenna portion 2a. The antenna accommodating portion 7c is inserted into the opening 4aa and is arranged in the space 10aa so as to project toward the cover member 5.

The light source unit 10 is arranged in the space 10aa so that the antenna accommodating portion 7c is inserted into the opening 4aa and protrudes toward the cover member 5, so that the portion of the wireless communication unit 2 provided in the space 10aa is made smaller. Can be made to.

The wireless communication unit 2 is configured so that, for example, a communication signal can be transmitted or received by radio waves to a communication device arranged outside the lighting fixture 30 provided with the light source unit 10. The wireless communication unit 2 can receive, for example, a wireless signal indicating the presence of a person from a communication device connected to the human detection sensor. The light source unit 10 can be configured to turn on the light source unit 1 when it receives a radio signal indicating the presence of a person from the person detection sensor. The light source unit 10 can be configured to dimm or turn off the light source unit 1 when it receives a radio signal indicating the absence of a person from the person detection sensor. The wireless communication unit 2 can transmit, for example, a wireless signal indicating the presence or absence of a failure of the light source unit 10 to the communication device. The wireless communication unit 2 can transmit, for example, a wireless signal indicating the power consumption of the light source unit 10 to the communication device.

That is, the wireless communication unit 2 has a function of transmitting and receiving wireless signals. The wireless communication unit 2 may be configured to have only a function of transmitting a wireless signal. The wireless communication unit 2 may be configured to have only a function of receiving a wireless signal.

For the frequency of the radio signal transmitted by the radio communication unit 2, for example, the UHF band can be used. The wireless communication unit 2 uses, for example, a 2.4 GHz band low power data communication system as wireless communication. The wireless communication unit 2 is not limited to a configuration using a low power data communication system in the 2.4 GHz band, and may use, for example, a specific low power wireless communication system in the 920 MHz band.

The light source unit 10 includes a lighting unit 8 shown in FIG. 4, in addition to the light source unit 1, the wireless communication unit 2, and the holding body 3.

The lighting unit 8 is electrically connected to the light source unit 1 and the wireless communication unit 2. The lighting unit 8 can be configured to include a control unit that controls the lighting of the light source unit 1 and a power supply unit that supplies power to the light source unit 1 and the wireless communication unit 2. The power supply unit is configured to convert electric power from an external power source such as a commercial AC power source into predetermined electric power and supply electric power to the light source unit 1 and the wireless communication unit 2 separately. The lighting unit 8 is configured to be able to control the lighting of the light source unit 1 based on the signal from the wireless communication unit 2. The lighting unit 8 includes a lighting board 8a that constitutes a control unit and a power supply unit, and a housing unit 8c that houses the lighting board 8a.

The lighting board 8a is configured such that, for example, a power supply unit converts an AC voltage into a DC voltage. The lighting unit 8 is held on the side opposite to the light source unit 1 in the support member 4. The light source unit 10 is configured so that electric power from the outside is supplied to the lighting unit 8. A plurality of types of electrical components 8b are mounted on the lighting board 8a.

The electrical component 8b is used to form various circuits constituting the lighting unit 8. Examples of various circuits include a filter circuit, a step-up circuit, a step-down circuit, a main control circuit, a control power supply circuit, a dimming control circuit, and a turn-off control circuit. Examples of the electrical component 8b include a transformer, a diode, a capacitor, a switching element, a microcomputer, and the like. As the external power source, for example, a commercial AC power source can be used. AC power is supplied to the lighting unit 8.

The housing portion 8c has a rectangular box-like outer shape with an opening formed on one surface. The lighting unit 8 is configured so that the housing portion 8c accommodating the lighting substrate 8a is attached to the support member 4. The housing portion 8c is arranged so that the opening is closed by the mounting portion 4a of the support member 4. The housing portion 8c can be formed by bending a metal plate material. The housing portion 8c is attached to the support member 4 by using, for example, a mounting screw 8d or the like.

The wireless communication unit 2 is electrically connected to the lighting unit 8 via a wiring cord 2f electrically connected to the circuit board 6. A shielded wire can be used for the wiring cord 2f. The shielded wire has a structure in which a thin conductor wire or a metal foil is wrapped around the coated conductor wire. The shielded wire is configured so that a communication signal can be passed through the internal conductor wire by setting the external conductor wire or the metal foil to the ground potential.

By the way, in the light source unit for comparison with the present application, if the antenna portion 2a of the wireless communication unit 2 protrudes to the outside, the degree of freedom in design is restricted, which may give an unattractive impression. In the light source unit, the light source unit 1 is attached to the support member 4 made of a metal material in order to efficiently dissipate the heat generated in the light source unit 1 to the outside. In the light source unit, when the wireless communication unit 2 is simply arranged on the support member 4 in order to improve the appearance, the communication performance such as the directivity and the gain of the antenna unit 2a tends to deteriorate.

When the light source unit 10 is arranged so that the circuit boards 6 intersect the surface of the mounting portion 4a, radio waves are absorbed by the support member 4 made of a metal material as compared with the case where the circuit boards 6 are arranged in parallel. It is possible to suppress this and increase the radiation intensity ratio of the radio wave from the wireless communication unit 2. When the light source unit 10 is arranged so as to intersect the surface of the mounting portion 4a so that the circuit boards 6 intersect, the radio wave radiation intensity ratio of the wireless communication unit 2 varies as compared with the case where the circuit boards 6 are arranged in parallel. Can also be made smaller.

In the light source unit 10 of the present embodiment, the wireless communication unit 2 is arranged at a position away from the lighting unit 8 in the longitudinal direction of the support member 4. The wireless communication unit 2 includes a crystal oscillator or the like, and when heated by heat from the light source unit 1 or the lighting unit 8, the output radio wave may be weakened. Since the wireless communication unit 2 is arranged at a position away from the lighting unit 8, it is possible to suppress deterioration of communication performance.

When the wireless communication unit 2 is provided at the end of the support member 4, the shadow of the wireless communication unit 2 may be reflected on the cover end 5b. In the light source unit 10, since the area of the cover end 5b of the entire cover member 5 is small and the contribution to lighting is small, the influence of the antenna unit 2a on shielding the light from the light source unit 1 can be reduced. In the light source unit 10, the presence of the wireless communication unit 2 can be made inconspicuous by reducing the effect of shielding the light from the light source unit 1 by the antenna unit 2a.

In other words, in the light source unit 10 of the present embodiment, the cover member 5 is formed so that a plurality of surfaces are combined and cover the light source unit 1. The wireless communication unit 2 is preferably arranged in the vicinity of the smallest surface among the plurality of surfaces.

In the light source unit 10, the wireless communication unit 2 is arranged in the vicinity of the smallest surface among the plurality of surfaces, so that even if the shadow of the wireless communication unit 2 is projected on the cover member 5, the wireless communication unit 10 is a wireless communication unit. 2 can be made inconspicuous. Of the plurality of surfaces, the smallest surface is the surface in which the light emitted from the light source unit 1 is small in the light source unit 10, and even if the wireless communication unit 2 is arranged in the vicinity, it is arranged in the vicinity of the larger surface. It is possible to reduce the influence of shading by the wireless communication unit 2 as compared with the case of making the light source. That is, the wireless communication unit 2 is arranged at the end of the light source unit 10 having a low contribution as main lighting in the light source unit 10.

The light source unit 10 is provided with a gap between the cover end 5b of the cover member 5 and the accommodating case 7. In the light source unit 10, since a gap is provided between the cover end 5b of the cover member 5 and the accommodating case 7, the end portion of the light source unit 10 is caused by the wraparound of the light scattered by the support member 4 and the cover member 5. It is possible to suppress extremely darkening.

By including the light diffusing material in the synthetic resin, the housing case 7 can prevent the circuit board 6 from being reflected on the cover member 5 and being visually recognized from the outside. The housing case 7 can improve the appearance of the light source unit 10 by suppressing the circuit board 6 from being reflected from the outside and being visually recognized. The storage case 7 contains a light diffusing material in the synthetic resin to reflect the light that has entered between the storage case 7 and the cover member 5 to the outside, as compared with a configuration that does not contain the light diffusing material. It is also possible to suppress a decrease in the brightness of the end portion of the light source unit 10 provided with the wireless communication unit 2. The storage case 7 is preferably colored white by containing a light diffusing material in the synthetic resin constituting the storage case 7.

Hereinafter, the assembly process of the light source unit 10 will be described.

In the assembly process of the light source unit 10, the light emitting element 1a is mounted on the mounting substrate 1b to prepare the light source unit 1 in advance. In the assembly process, the wireless communication unit 2 and the lighting unit 8 are mounted on the side opposite to the mounting portion 4a of the support member 4 on which the mounting board 1b is mounted.

In the assembly process, the screw 7e is attached to the fixing portion 7d of the accommodating case 7 via the support member 4 in a state where the antenna accommodating portion 7c is arranged so as to project from the opening 4aa of the support member 4 toward the cover member 5. By screwing, the wireless communication unit 2 is fixed to the support member 4. The wireless communication unit 2 is electrically connected to the circuit board 6 and electrically connects the wiring cord 2f derived from the housing case 7 to the lighting unit 8.

Next, in the assembly process, the cover member 5 is attached to the support member 4 so as to cover the mounting substrate 1b. In the assembly process, the protrusion 5e of the cover member 5 is fitted to the protrusion 4e of the support member 4. The cover member 5 is assembled to the support member 4 by hooking the pair of protrusions 5e separately from the corresponding protrusions 4e. In the assembly process, the cover member 5 and the support member 4 can be integrally fixed by appropriately screwing the protruding wall portion 5d of the cover member 5 and the side wall portion 4b of the support member 4. In the assembly process, the light source unit 10 can be assembled by attaching the cover end 5b to both ends of the cover member 5 and the support member 4 in the longitudinal direction.

Hereinafter, the lighting fixture 30 provided with the light source unit 10 will be briefly described with reference to FIGS. 4 and 5.

The lighting fixture 30 includes the above-mentioned light source unit 10 and a fixture main body 31 that holds the light source unit 10.

Since the antenna portion 2a of the light source unit 10 is arranged in the space 10aa formed by the cover member 5, the lighting fixture 30 can further improve the communication performance.

The luminaire 30 is configured to be directly attached to, for example, a ceiling material. The appliance main body 31 can be configured to be attached to the ceiling material by using hanging bolts. The instrument body 31 has a long outer shape. The instrument body 31 is formed in a flat box shape. The instrument body 31 has a recess 31aa in the center. The concave portion 31aa has an outer shape in which one surface of the instrument main body 31 is recessed in a rectangular shape. The recess 31aa is provided over the entire length of the instrument main body 31. The recess 31aa is configured to accommodate a part of the light source unit 10 so that the light source unit 10 can be attached. The extension portion 5h is provided so as to overlap the open end edge of the recess 31aa of the fixture body 31 with the light source unit 10 attached to the fixture body 31. The instrument body 31 is formed of a metal plate.

An insertion hole 31ca is provided in the bottom surface portion 31a of the instrument main body 31. A power supply line for power supply, which is electrically connected to an external power source, is inserted into the insertion hole 31ca. The bottom surface portion 31a is provided with a plurality of insertion holes 31ca along the longitudinal direction of the instrument main body 31.

The bottom surface portion 31a is provided with a bolt insertion hole 31cc through which a hanging bolt is passed. Four bolt insertion holes 31cc are provided along the longitudinal direction of the instrument main body 31. The bolt insertion hole 31cc is configured so that a hanging bolt can be inserted. A nut is tightened to the hanging bolt inserted into the bolt insertion hole 31 kb.

The instrument main body 31 has inclined portions 31b extending from the open end edge of the recess 31aa on both sides of the recess 31aa in the lateral direction. The inclined portion 31b is inclined so that the thickness of the instrument main body 31 becomes thinner as the distance from the recess 31aa increases. The instrument body 31 can be formed by bending a sheet metal. The instrument body 31 includes an end cap 31e. The end caps 31e are provided at both ends of the instrument main body 31 in the longitudinal direction. The end cap 31e has a trapezoidal shape when viewed from the front.

A steel plate can be used as the material of the instrument main body 31. The material of the instrument main body 31 is not limited to the steel plate, and for example, aluminum, stainless steel, a copper alloy, or the like may be adopted. By making the fixture body 31 made of metal, the lighting fixture 30 can efficiently dissipate the heat generated by the light emitting element 1a of the light source unit 10 to the outside through the fixture body 31 as compared with the case where the lighting fixture body 31 is made of resin. It becomes. In the lighting fixture 30, since the antenna portion 2a is arranged in the space 10aa formed by the cover member 5 of the light source unit 10 protruding from the fixture main body 31, the communication performance can be further improved.

The lighting fixture 30 is not limited to a ceiling-mounted structure. The lighting fixture 30 can be appropriately used for a lighting fixture having another structure as long as the light source unit 10 can be attached to the support member 4. In the lighting fixture 30, the fixture body 31 is configured so that the light source unit 10 can be freely attached and detached.

(Embodiment 2)
The light source unit 10 of the present embodiment shown in FIG. 6 has the same configuration as that of the first embodiment shown in FIG. 1, and the structure of the wireless communication unit 2 is mainly different. In the light source unit 10 of the present embodiment, the same components as those of the first embodiment are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

In the light source unit 10 of the present embodiment, as shown in FIG. 7, each of the light source unit 1, the holding body 3, and the cover member 5 is formed in a long shape. As shown in FIG. 8, in the antenna accommodating portion 7c, the tip portion 7f protruding toward the cover member 5 when viewed from the direction along the longitudinal direction of the cover member 5 is the inner bottom surface 5ab of the cover member 5 facing the antenna accommodating portion 7c. It is formed into an outer shape that follows the shape.

In the light source unit 10 of the present embodiment, since the tip portion 7f of the antenna accommodating portion 7c has an outer shape along the inner bottom surface 5ab of the cover member 5, the shadow of the antenna accommodating portion 7c is cast on the cover member 5 by the light of the light source unit 1. Even if it is projected, the shape of the antenna accommodating portion 7c can be made inconspicuous.

In the light source unit 10 of the present embodiment, as compared with the configuration that does not follow the shape of the inner bottom surface 5ab of the cover member 5 like the antenna accommodating portion 7c of the first embodiment, the outer shape of the tip portion 7f of the cover member 5 is a shadow. It is possible to suppress the manifestation and improve the appearance. Further, in the light source unit 10 of the present embodiment, since the tip portion 7f of the antenna accommodating portion 7c is formed in an arc shape along the inner bottom surface 5ab of the cover member 5, there is no angular protrusion toward the cover member 5. .. Since the light source unit 10 of the present embodiment does not have an angular protrusion toward the cover member 5, it is difficult for the cover member 5 and the tip portion 7f of the wireless communication unit 2 to hit each other when the cover member 5 is attached to the support member 4. It is also possible to improve the assembly workability. The light source unit 10 can set the distance between the tip portion 7f and the inner bottom surface 5ab of the cover member 5 to, for example, about 3 mm.

Hereinafter, a specific structure of the wireless communication unit 2 in the present embodiment will be described with reference to FIG.

In the wireless communication unit 2, the accommodating case 7 includes a lid 7a and a case body 7b, as in the first embodiment. The lid 7a includes an antenna accommodating portion 7c, a flat plate portion 7g, and a leg portion 7h. The flat plate portion 7g has a rectangular flat plate-like outer shape. The antenna accommodating portion 7c is provided so as to stand upright from one surface of the flat plate portion 7g. The antenna accommodating portion 7c is provided so that the longitudinal direction is parallel to the longitudinal direction of the flat plate portion 7g in the front view. The leg portion 7h projects to the side opposite to the antenna accommodating portion 7c in the flat plate portion 7g. The leg portion 7h is provided with a claw portion 7j at a tip protruding from the flat plate portion 7g. The pair of leg portions 7h are arranged so as to face each other in the longitudinal direction of the rectangular flat plate portion 7g. A total of four legs 7h are provided along each side of the rectangular flat plate portion 7g in the lateral direction. The leg portion 7h has elasticity with respect to the flat plate portion 7g so as to be able to bend in the direction opposite to the protruding direction of the claw portion 7j.

The lid 7a is provided with a through hole 7fa that penetrates the flat plate portion 7g in the thickness direction. The flat plate portion 7g is provided with a through hole 7fa at one end in the longitudinal direction of the antenna accommodating portion 7c when viewed from the front. The lid 7a is provided with a restricting portion 7s protruding from the flat plate portion 7g to the antenna accommodating portion 7c at the other end of the antenna accommodating portion 7c opposite to the through hole 7fa in the longitudinal direction.

The case body 7b includes a rectangular bottom wall portion 7b1, a pair of first side wall portions 7b2, and a pair of second side wall portions 7b3. The pair of first side wall portions 7b2 are provided so as to stand up from the bottom wall portion 7b1 along the longitudinal direction of the bottom wall portion 7b1 so as to face each other. The pair of second side wall portions 7b3 are provided so as to stand up from the bottom wall portion 7b1 along the lateral direction of the bottom wall portion 7b1 so as to face each other. The case body 7b is formed of a rectangular bottom wall portion 7b1, a pair of first side wall portions 7b2, and a pair of second side wall portions 7b3 in a box shape having one open surface. The case body 7b includes a business trip portion 7b4 that projects outward from the second side wall portion 7b3 along the longitudinal direction of the bottom wall portion 7b1. The business trip portion 7b4 is provided with a screw fixing portion 7r to which the screw 7e shown in FIG. 6 is fixed.

One of the pair of second side wall portions 7b3 is provided with a pair of ribs 7k that sandwich one side end of the circuit board 6 so as to project from the bottom wall portion 7b1. On the other side of the pair of second side wall portions 7b3, a groove portion 7m for accommodating the other side end of the circuit board 6 is provided. The case body 7b is configured to be able to hold the second region 6cc side of the circuit board 6 provided with the communication circuit unit 2b by using the rib 7k and the groove portion 7m. The circuit board 6 is electrically connected to the wiring cord 2f. The wiring cord 2f is provided with a connector 2h at the tip thereof. The wiring cord 2f is bound by a binding band 2g. The binding band 2g is configured such that, for example, a lock component is provided at one end of a long band, and the opposite end can be passed through a tubular lock component to bind.

One of the pair of first side wall portions 7b2 is provided with a notch portion 7n provided so as to be cut out from the opening side of the case main body 7b. The wireless communication unit 2 is configured so that the wiring cord 2f can be led out from the inside of the housing case 7 to the outside via the notch 7n. The storage case 7 is provided with a recessed portion 7t in the case body 7b. The recessed portion 7t is configured to accommodate 2 g of a binding band. The accommodating case 7 can function as a tension stopper when the wiring cord 2f is pulled with respect to the accommodating case 7 by accommodating the binding band 2g for bundling the wiring cord 2f in the recessed portion 7t.

The storage case 7 is provided with an engaging groove 7u that engages with the claw portion 7j. The storage case 7 is covered with a lid 7a so as to close the opening of the case body 7b, and the claw portion 7j of the leg portion 7h engages with the engaging groove 7u to fix the lid body 7a and the case body 7b. be able to. The wireless communication unit 2 is configured to be able to output a dimming signal generated by the communication circuit unit 2b based on the signal received by the antenna unit 2a via the wiring code 2f.

The wireless communication unit 2 has a configuration for performing infrared communication using infrared rays as a medium, in addition to a configuration for performing wireless communication using radio waves as a medium. The wireless communication unit 2 mounts a light receiving element 6e that receives infrared light in the second region 6cc of the circuit board 6. The light receiving element 6e can be composed of a photodiode or a phototransistor. The light receiving element 6e is configured to be able to receive an infrared signal through the through hole 7fa of the lid 7a.

When a plurality of light source units 10 are grouped in advance, the wireless communication unit 2 is configured to receive a signal to be controlled for each group. The grouped light source units 10 can be dimmed and controlled based on the signal received by the wireless communication unit 2. Each of the plurality of light source units 10 is configured so that the light output emitted from the light source unit 1 of each light source unit 10 can be adjusted by using an infrared signal. The light source unit 10 can be configured to receive, for example, an infrared signal radiated from an external remote controller and set the light output of each of the light source units 10. The light source unit 10 is an infrared signal radiated from a remote controller, and is configured so that an address for discriminating is set for each of the plurality of light source units 10.

By the way, in the light source unit 10, the light output can be further increased by arranging a large number of light emitting elements 1a so as to be close to the end portion of the light source unit 1 in the longitudinal direction. Further, in the light source unit 10, the communication performance can be improved so that the antenna accommodating portion 7c accommodating the antenna portion 2a projects toward the inner bottom surface 5ab side of the cover member 5.

However, in the light source unit of the reference example shown in FIG. 11, when the wireless communication unit 2 is provided, the closer the light source unit 1a is to the longitudinal end of the light source unit 1, the more direct light from the light emitting element 1a is received from the antenna accommodating unit. There is a risk of being shielded from light by 7c. Further, in the light source unit, the direct light from the light emitting element 1a may be shielded by the antenna accommodating portion 7c so that the antenna accommodating portion 7c protrudes toward the cover member 5. In the light source unit of the reference example, when the light output is to be further improved, the direct light from the light emitting element 1a may be shielded by the antenna accommodating portion 7c, and the cover body 5a may be shaded by the antenna accommodating portion 7c. In FIG. 11, the direct light from the light emitting element 1a is illustrated by a two-dot broken line arrow, and the portion where the shadow of the cover main body 5a is generated is shown by the broken line region.

In the light source unit 10 of the present embodiment, the antenna accommodating portion 7c of the wireless communication unit 2 has a plate-like outer shape. The antenna accommodating portion 7c is arranged so as to intersect the longitudinal direction of the light source portion 1. The tip portion 7f constitutes an inclined surface 7fb that is farther from the inner bottom surface 5ab as the surface facing the cover member 5 approaches the light source portion 1 along the longitudinal direction of the light source portion 1.

In the light source unit 10 of the present embodiment, since the tip portion 7f of the antenna accommodating portion 7c has the inclined surface 7fb, the shadow of the antenna accommodating portion 7c is generated on the cover main body 5a while further improving the light output. Can be suppressed.

Hereinafter, the assembly process of the light source unit 10 of the present embodiment will be described.

In the assembly process of the light source unit 10, the light source portion 1 in which the light emitting element 1a is mounted on the mounting substrate 1b is attached to the mounting portion 4a of the support member 4. The support member 4 has an engaging piece 4t protruding from the surface of the bottom portion 4bb. As shown in FIG. 6, the engaging piece 4t has a first projecting piece 4ta protruding from the surface of the bottom portion 4cab and a first projecting piece 4ta in a direction toward the wireless communication unit 2 along the longitudinal direction of the support member 4. It is provided with a second projecting piece 4tb protruding from the tip of the. The engaging piece 4t has an L-shaped outer shape with the first projecting piece 4ta and the second projecting piece 4tb. The pair of engaging pieces 4t are provided so as to face each other in the lateral direction of the mounting substrate 1b, and are configured to sandwich the notched groove 1bd notched in the thickness direction of the mounting substrate 1b.

In the assembly process, the wireless communication unit 2 is mounted so that the antenna accommodating portion 7c protrudes from the side opposite to the mounting portion 4a of the support member 4 on which the mounting board 1b is mounted. The support member 4 is attached with the wireless communication unit 2 in a state where the first projecting piece 4ta of the engaging piece 4t is abutted against the edge of the notch groove 1bd of the mounting substrate 1b.

In the light source unit 10 of the present embodiment, the accommodation case 7 is provided with a regulation unit 7s facing the light source unit 1 and restricting the movement of the light source unit 1 in the longitudinal direction.

In the light source unit 10, when the light source unit 1 and the wireless communication unit 2 are attached to the support member 4, the distance between the regulation unit 7s and the second projecting piece 4tb in the longitudinal direction of the light source unit 1 is set to the regulation unit 7s. It is set to be shorter than the length of the light source unit 1 sandwiched between the first projecting pieces 4ta.

In the light source unit 10, since the regulating unit 7s can restrict the movement of the light source unit 1 in the longitudinal direction, the wireless communication unit 2 can be used to prevent the light source unit 1 from coming off. In the light source unit 10 of the present embodiment, when the mounting substrate 1b is fixed to the support member 4, it can be assembled without bending the locking piece 4s as in the first embodiment.

In the assembly process, the screw 7e is arranged so as to project from the opening 4aa of the support member 4 toward the cover member 5, and the screw 7e is interposed through the support member 4 to fix the screw fixing portion 7r of the housing case 7. The wireless communication unit 2 is fixed to the support member 4.

Next, in the assembly process, the cover member 5 is attached to the support member 4 so as to cover the mounting substrate 1b. In the assembly process, the protrusion 5e of the cover member 5 is fitted to the protrusion 4e of the support member 4. The cover member 5 is assembled to the support member 4 by hooking the pair of protrusions 5e separately from the corresponding protrusions 4e. In the assembly process, the cover member 5 and the support member 4 can be integrally fixed by appropriately screwing the protruding wall portion 5d of the cover member 5 and the side wall portion 4b of the support member 4. In the assembly process, the light source unit 10 can be assembled by attaching the cover end 5b to both ends of the cover member 5 and the support member 4 in the longitudinal direction.

The light source unit 10 of the present embodiment can be attached to the fixture main body 31 to form the lighting fixture 30 in the same manner as in the first embodiment.

1 Light source part 2 Wireless communication part 2a Antenna part 2b Communication circuit part 3 Holder 4 Support member 4a Mounting part 4aa Opening part 5 Cover member 5ab Inner bottom surface 6 Circuit board 6ca 1st area 6cb 2nd area 7 Storage case 7c Antenna housing part 7f Tip part 7fb Inclined surface 7s Restriction part 10 Light source unit 10aa Space 30 Lighting equipment 31 Equipment body

Claims (9)

Light source part and
A wireless communication unit that performs infrared communication using infrared rays as a medium,
A holding body that holds the light source unit and the wireless communication unit,
A control unit that controls the lighting of the light source unit, and a lighting unit including a power supply unit that supplies power to the light source unit and the wireless communication unit.
Equipped with
The holder is
A support member that supports the light source unit and
A cover member having a translucent property for transmitting light from the light source unit and being attached to the support member to form an internal space so as to cover the support member.
Have,
The wireless communication unit and the lighting unit are arranged at positions separated from each other on the opposite side of the support member from the cover member.
The wireless communication unit is a light source unit that performs infrared communication via an opening provided in the support member. The wireless communication unit is fixed to the support member.
The light source unit according to claim 1. The support member includes a mounting portion to which the light source portion is mounted.
The lighting unit is held on the side of the support member opposite to the light source portion.
The light source unit according to claim 1 or 2. The light source unit is
A mounting board that is attached to and supported by the support member,
A plurality of light emitting elements mounted on the mounting board and
To prepare
The light source unit according to any one of claims 1 to 3. The wireless communication unit is further configured to perform wireless communication using radio waves as a medium.
The light source unit according to any one of claims 1 to 4. The wireless communication unit is
An antenna unit capable of transmitting or receiving radio waves, and
A communication circuit unit that is electrically connected to the antenna unit,
Equipped with
The cover member is configured to transmit radio waves by a resin material.
The antenna portion is arranged in the space formed by the cover member.
The light source unit according to claim 5. The wireless communication unit includes a circuit board and a storage case for accommodating the circuit board.
The circuit board has a first region in which the antenna portion is provided and a second region in which the communication circuit portion is provided.
The light source unit according to claim 6, wherein the storage case is configured to transmit radio waves by a resin material. The support member includes a plate-shaped mounting portion to which the light source portion is mounted.
The opening penetrates in the thickness direction of the mounting portion and penetrates.
The accommodating case includes an antenna accommodating portion for accommodating the antenna portion.
The antenna accommodating portion is inserted into the opening portion and is arranged in the space so as to project toward the cover member.
The light source unit according to claim 7. The light source unit according to any one of claims 1 to 8.
The fixture body that holds the light source unit and
Lighting equipment equipped with.

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