JP7656882B2 - Light source unit and lighting fixture equipped with same - Google Patents

Description

The present invention relates to a light source unit and a lighting device, and in particular to a light source unit capable of wireless communication and a lighting device equipped with the same.

In recent years, lighting fixtures are sometimes remotely controlled via wireless communication in order to save energy and improve convenience.

A known lighting fixture of this type has a structure in which the antenna of the wireless unit is provided inside the lighting fixture and is arranged to correspond to a through hole that communicates with the outside of the lighting fixture (for example, Patent Document 1).

In addition, although not a lighting fixture, electronic devices are also known in which the radiating element of an antenna connected to a wireless communication circuit by a power supply line is arranged on a circuit board so that it is positioned within the frame area when viewed from the front side (for example, Patent Document 2).

JP 2013-33652 A JP 2012-235224 A

However, there is a demand for light source units and lighting fixtures equipped with them that have structures with higher communication performance, and the configurations disclosed in the above-mentioned Patent Document 1 and Patent Document 2 are not sufficient, so further improvements are required.

The object of the present invention is to provide a light source unit and lighting fixture that can improve communication performance.

The light source unit of the present invention is removably attached to the fixture body. The light source unit includes a light source section, a wireless communication section, a holder, and a lighting unit. The light source section has a long mounting board on which a plurality of light-emitting elements are mounted. The wireless communication section is configured to be able to perform wireless communication using radio waves as a medium. The holder includes a long support member and a cover member. The support member is plate-shaped and has an attachment section to which the mounting board is attached. The cover member is attached to the support member and forms a space inside so as to cover the support member. The holder holds the wireless communication section. The lighting unit has a power supply section that supplies power to the light source section and the wireless communication section. The lighting unit is disposed on the opposite side of the support member to the light source section, and is held by the support member so as to be aligned along the longitudinal direction of the support member. The wireless communication section includes an antenna section capable of at least one of transmitting and receiving radio waves, a communication circuit section electrically connected to the antenna section, and a circuit board on which the antenna section is provided, and is disposed so that the circuit board intersects with the surface of the attachment section. The cover member is made of a resin material and is configured to transmit radio waves. The light source unit is attached to the fixture body such that the cover member protrudes from the fixture body. When attached to the fixture body installed on a ceiling, the lower end of the cover member is located lower than the lower end of the fixture body.

The lighting device of the present invention comprises the light source unit described above and the device body that holds the light source unit.

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

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

FIG. 2 is a cross-sectional view illustrating the light source unit according to the first embodiment. 1 is a partially cutaway perspective cross-sectional view illustrating a main part of a light source unit according to a first embodiment. FIG. FIG. 2 is a partially cutaway front view illustrating a main part of the light source unit according to the first embodiment. 1 is an exploded perspective view showing a lighting fixture using the light source unit of embodiment 1. FIG. 1 is a perspective view showing a lighting fixture using the light source unit of embodiment 1. FIG. FIG. 11 is a perspective view illustrating a main part of a light source unit according to a second embodiment. FIG. 11 is a partially cutaway front view illustrating a main part of a light source unit according to a second embodiment. FIG. 11 is a side view of a light source unit according to a second embodiment. FIG. 11 is an exploded perspective view of a main part of a light source unit according to a second embodiment. FIG. 11 is a plan view illustrating a light source unit according to a second embodiment. FIG. 11 is a plan view illustrating a light source unit to be compared with the second embodiment.

(Embodiment 1)
The light source unit 10 of this embodiment will be described below with reference to Figs. 1, 2, and 3. A lighting fixture 30 including the light source unit 10 will be described with reference to Figs. 4 and 5. In the drawings, the same components are denoted with the same reference numerals, and duplicated descriptions will be omitted. The size and positional relationship of the components shown in each drawing may be exaggerated to clarify the description. In the following description, each element constituting this embodiment may be configured such that a single component is used for multiple elements, or the function of a single component may be shared by multiple components.

As shown in Figs. 1, 2 and 3, the light source unit 10 of this embodiment includes a light source section 1, a wireless communication section 2 and a holder 3. The wireless communication section 2 is configured to be able to perform wireless communication using radio waves as a medium. The holder 3 holds the light source section 1 and the wireless communication section 2. The holder 3 includes 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 section 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 section 2 includes an antenna section 2a and a communication circuit section 2b. The antenna section 2a is configured to be able to transmit or receive radio waves. The communication circuit section 2b is electrically connected to the antenna section 2a. The cover member 5 is made of a resin material. The cover member 5 is configured to transmit radio waves. The antenna section 2a is disposed in the space 10aa formed by the cover member 5.

In this embodiment, the light source unit 10 has the antenna section 2a disposed in a space 10aa formed by a cover member 5 that allows radio waves to pass through, making it possible to improve communication performance.

The light source unit 10 of this embodiment is described in detail below.

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

The mounting board 1b has a long and flat outer shape. As shown in FIG. 2 and FIG. 3, the mounting board 1b has a plurality of light-emitting elements 1a mounted along the longitudinal direction. The mounting board 1b electrically connects the plurality of light-emitting elements 1a in series using a wiring portion. The plurality of light-emitting elements 1a are arranged linearly along the longitudinal direction of the mounting board 1b at the center of the short side of the mounting board 1b. The mounting board 1b may be, for example, a printed wiring board. The mounting board 1b has a resist film formed thereon except for the mounting surface of the light-emitting elements 1a. The mounting board 1b is not limited to a printed wiring board, and may be, for example, a ceramic board, a metal-based printed wiring board, or the like. The mounting board 1b is attached to and supported by the mounting portion 4a of the support member 4. The light source unit 1 is not limited to a configuration using an LED, and may be composed of 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, for example, using a steel plate. The support member 4 has a plate-shaped mounting portion 4a and a pair of side walls 4b. In a cross-sectional view, the support member 4 is formed into a C-shape by the mounting portion 4a and the pair of side walls 4b. In a front view, the mounting portion 4a is formed into a long rectangular shape. The side walls 4b are provided so as to extend from both ends of the mounting portion 4a in the short direction in a direction perpendicular to the mounting portion 4a. The tip of the side walls 4b is provided with a protrusion 4e that protrudes outward. The support member 4 is provided with the protrusion 4e over the entire length in the longitudinal direction.

The protrusion 4e is formed into a cylindrical shape by rolling the tip of the side wall portion 4b. A recess 4ad is provided in the center of the mounting portion 4a along the longitudinal direction. The recess 4ad has a bottom portion 4cb and a pair of side portions 4cc. The bottom portion 4cb is formed in a long rectangular shape when viewed from the front. The side portions 4cc are provided to rise from the bottom portion 4cb along the longitudinal direction of the bottom portion 4cb. The support member 4 is configured so that the mounting board 1b can be placed at a predetermined position on the bottom portion 4cb. The support member 4 has a locking piece 4s that protrudes from the bottom portion 4cb. The locking piece 4s is configured so that it can be inserted into a hole portion 1bc that penetrates the mounting board 1b in the thickness direction. The support member 4 can be crimped and fixed between the locking piece 4s and the bottom portion 4cb by bending the locking piece 4s.

The pair of side portions 4cc are arranged so that the distance between them increases as they move away from the bottom portion 4cb. The surface of the side portion 4cc forms a reflective surface that reflects light from the light-emitting element 1a. An opening 4aa that opens in the thickness direction is provided at one end in the longitudinal direction of the mounting portion 4a. The opening 4aa may be configured by cutting out the end of the mounting portion 4a, or may be configured as a through hole that penetrates the mounting portion 4a in the thickness direction. The opening 4aa can be formed, for example, by punching the metal plate that constitutes the support member 4.

The light source unit 10 can use the support member 4 made of a metal material as a heat sink by supporting the mounting substrate 1b in contact with the support member 4. When the support member 4 is made of a steel plate, which has a higher thermal conductivity than resin, it is possible to efficiently dissipate heat generated by the light emitting element 1a to the outside. The material of the support member 4 is not limited to a steel plate, and it may be made of a metal material such as aluminum, copper, or stainless steel. The support member 4 is formed by punching and bending sheet metal. The support member 4 is configured so that a 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 unit 1. The cover member 5 is configured to cover the mounting board 1b on which the light emitting element 1a is mounted, thereby creating a space 10aa between the cover member 5 and the support member 4. The cover member 5 includes a cover body 5a and a cover end 5b.

The cover body 5a has a semi-cylindrical light emitting portion 5c and a pair of protruding walls 5d. The protruding walls 5d are provided along the longitudinal direction of the light emitting portion 5c. The pair of protruding walls 5d are formed so as to protrude parallel to each other from both ends of the light emitting portion 5c. The tips of the pair of protruding walls 5d are provided with projections 5e that protrude in directions approaching each other.

The protrusion 5e is configured so that it can be hooked onto the protrusion 4e of the support member 4. The protruding wall 5d has an inner protrusion 5f between the protrusion 5e and the light emitting portion 5c. The pair of inner protrusions 5f protrude inward toward the opposing protruding wall 5d. An extension 5h is provided at both ends in the longitudinal direction of the light emitting portion 5c. The extension 5h extends to the outside of the protruding wall 5d so as to be connected to the light emitting portion 5c. The cover main body 5a is integrally formed with the light emitting portion 5c, the protruding wall 5d, the protrusion 5e, the extension 5h, and the inner protrusion 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 with a semicircular outer shape. The cover end 5b has a clamping portion 5g that clamps the inner protrusion 5f of the cover body 5a. The cover end 5b is attached to the cover body 5a at the end of the cover body 5a by the clamping portion 5g clamping the inner protrusion 5f. The cover member 5 is formed of the cover body 5a and the cover end 5b, forming a polyhedron with multiple faces. The cover end 5b has the smallest face of the faces of the cover member 5 that emit light from the light source unit 1.

In the light source unit 10 of this embodiment, the cover member 5 has a translucency that transmits 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. In the light source unit 10, the cover member 5 has a translucency that transmits light from the light source unit 1, so that the light source unit 1 can suppress a decrease in the light utilization efficiency of the light source unit 1. The cover member 5 is preferably configured to efficiently transmit light emitted from the light-emitting element 1a. The cover member 5 is preferably made of a material that is highly translucent for radio waves. The cover member 5 can be formed, for example, using a resin material such as polycarbonate resin or 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.

The cover member 5 may be formed with the cover body 5a and the cover end 5b of the same material or different materials. The cover member 5 may be formed with the cover body 5a and the cover end 5b of the same thickness or the cover end 5b may be formed with a different thickness from the cover 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 using the antenna unit 2a and the communication circuit unit 2b. In addition to the antenna unit 2a and the communication circuit unit 2b, the wireless communication unit 2 includes a circuit board 6 and a housing case 7 that houses the circuit board 6.

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

The antenna portion 2a can be formed, for example, by using a wire 6a having a predetermined shape on a circuit board 6. As the wire 6a having a predetermined shape, for example, as shown in FIG.
a. The antenna portion 2a may be provided on only one surface of the circuit board 6 in the thickness direction, or on both surfaces. The antenna portion 2a is not limited to a configuration formed 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 using the wiring 6a of the circuit board 6, the component cost of the antenna portion 2a can be suppressed and the antenna portion 2a can be constructed inexpensively, compared with a structure in which the antenna portion 2a is formed separately from the circuit board 6. When the antenna portion 2a is formed separately from the circuit board 6, it is sufficient to fix the antenna portion 2a appropriately to the first region 6ca of the circuit board 6. The communication circuit portion 2b is configured to be capable of at least one of transmitting and receiving radio waves by mounting electronic components 6d such as a crystal oscillator and a microcomputer.

The storage case 7 has a rectangular parallelepiped outer shape. The storage case 7 can be configured to include, for example, a lid 7a and a case body 7b. The storage case 7 can be configured to have a hollow box shape by storing the circuit board 6 in the case body 7b and covering it with the lid 7a. The storage case 7 has the circuit board 6 arranged so that the antenna section 2a can be stored in the lid 7a and the communication circuit section 2b can be stored in the case body 7b. The lid 7a forms an antenna storage section 7c that stores the antenna section 2a. The storage case 7 has a plate-shaped fixing section 7d that protrudes in the longitudinal direction on the case body 7b so that it can be fixed to the support member 4. The fixing section 7d has a screw hole that penetrates in the thickness direction. The storage case 7 is configured so that the screw 7e that passes through the through hole of the support member 4 can be screwed to the fixing section 7d. The housing case 7 is configured so that the antenna housing section 7c can be inserted through the opening 4aa that penetrates the mounting section 4a in the thickness direction.

The housing case 7 is formed from a material that transmits radio waves. Examples of materials that can be used for the housing case 7 include synthetic resins such as polycarbonate resin, epoxy resin, polyester resin, and polyimide resin. The synthetic resin that constitutes the housing case 7 may contain a light diffusing material.

The wireless communication unit 2 is screwed to the fixing portion 7d via the support member 4 with the screw 7e screwed to the fixing portion 7d with the antenna housing portion 7c protruding from the opening 4aa toward the cover member 5. The wireless communication unit 2 is arranged so that the circuit board 6 intersects with the surface of the bottom portion 4cb by protruding the antenna housing portion 7c toward the cover member 5. The wireless communication unit 2 is arranged in the space 10aa so that it protrudes from the recess 4ad of the support member 4 toward the cover member 5, thereby improving the communication performance of the antenna portion 2a. The light source unit 10 can increase the directivity of radio waves in the longitudinal direction of the support member 4 by, for example, aligning one surface of the circuit board 6 on which the antenna portion 2a is formed in a direction perpendicular to the longitudinal direction of the support member 4.

That is, in the light source unit 10 of this embodiment, the wireless communication section 2 includes a circuit board 6 and a housing case 7. The housing case 7 is configured to be able to house the circuit board 6. The circuit board 6 has a first area 6ca in which the antenna section 2a is provided, and a second area 6cb in which the communication circuit section 2b is provided. The housing case 7 is configured to be transparent to radio waves by using a resin material.

The light source unit 10 has a housing case 7 that houses the circuit board 6, making it easy to handle the wireless communication unit 2.

In the light source unit 10 of this embodiment, the support member 4 has a plate-shaped mounting portion 4a to which the light source section 1 is attached. The support member 4 has an opening 4aa that penetrates the mounting portion 4a in the thickness direction. The storage case 7 has an antenna storage portion 7c that stores the antenna section 2a. The antenna storage portion 7c is inserted into the opening 4aa and is disposed in the space 10aa so as to protrude toward the cover member 5.

The light source unit 10 is disposed in the space 10aa so that the antenna housing section 7c is inserted into the opening 4aa and protrudes toward the cover member 5, thereby making it possible to reduce the portion of the wireless communication section 2 provided in the space 10aa.

The wireless communication unit 2 is configured to be able to transmit and receive communication signals by radio waves to a communication device disposed outside the lighting fixture 30 equipped with the light source unit 10, for example. The wireless communication unit 2 can receive a wireless signal indicating the presence of a person from a communication device connected to a human detection sensor, for example. The light source unit 10 can be configured to turn on the light source unit 1 when it receives a wireless signal indicating the presence of a person from the human detection sensor. The light source unit 10 can be configured to dim or turn off the light source unit 1 when it receives a wireless signal indicating the absence of a person from the human detection sensor. The wireless communication unit 2 can, for example, transmit a wireless signal indicating the presence or absence of a malfunction of the light source unit 10 to the communication device. The wireless communication unit 2 can, for example, transmit 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 wireless signals. The wireless communication unit 2 may be configured to have only a function of receiving wireless signals.

The frequency of the radio signal transmitted by the wireless communication unit 2 may be, for example, the UHF band. The wireless communication unit 2 uses, for example, a low-power data communication system in the 2.4 GHz band for 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 light source section 1, a wireless communication section 2, a holder 3, and a lighting unit 8 shown in FIG. 4.

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

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

The electrical components 8b are used to configure the various circuits that make up the lighting unit 8. Examples of the 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 lights-off control circuit. Examples of the electrical components 8b include a transformer, a diode, a capacitor, a switching element, and a microcomputer. The external power source may be, for example, a commercial AC power source. The lighting unit 8 is supplied with AC power.

The housing portion 8c has an outer shape like a rectangular box with an opening formed on one side. The lighting unit 8 is configured so that the housing portion 8c, which houses the lighting board 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. The housing portion 8c is attached to the support member 4 using, for example, mounting screws 8d.

The wireless communication unit 2 is electrically connected to the lighting unit 8 via a wiring cord 2f that is electrically connected to the circuit board 6. A shielded wire can be used for the wiring cord 2f. The shielded wire is constructed by wrapping a coated conductor with a thin conductor wire or metal foil. The shielded wire is configured so that the external conductor wire or metal foil is at ground potential, allowing a communication signal to flow through the internal conductor.

However, in the light source units for comparison with the present application, if the antenna section 2a of the wireless communication section 2 protrudes to the outside, the design freedom is restricted, and the appearance may be unattractive. In the light source unit, the light source section 1 is attached to a support member 4 made of a metal material in order to efficiently dissipate heat generated in the light source section 1 to the outside. If the wireless communication section 2 is simply placed on the support member 4 to improve the appearance of the light source unit, the communication performance of the antenna section 2a, such as the directivity and gain, tends to decrease.

When the circuit board 6 of the light source unit 10 is arranged so as to intersect with the surface of the mounting portion 4a, it is possible to suppress absorption of radio waves by the support member 4 made of a metal material and to increase the radiation intensity ratio of radio waves from the wireless communication unit 2, compared to when the circuit board 6 is arranged in parallel. When the circuit board 6 of the light source unit 10 is arranged so as to intersect with the surface of the mounting portion 4a, it is also possible to reduce the variation in the radio wave radiation intensity ratio of the wireless communication unit 2, compared to when the circuit board 6 is arranged in parallel.

In the light source unit 10 of this embodiment, the wireless communication unit 2 is disposed 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 and the like, and if it is heated by heat from the light source unit 1 or the lighting unit 8, the radio waves it outputs may become weak. By disposing the wireless communication unit 2 at a position away from the lighting unit 8, it is possible to suppress a decrease in communication performance.

When the wireless communication unit 2 is provided at the end of the support member 4, a shadow of the wireless communication unit 2 may be cast on the cover end 5b. In the light source unit 10, the area of the cover end 5b is small compared to the entire cover member 5, and therefore contributes little to illumination, so that the effect of the antenna unit 2a blocking light from the light source unit 1 can be reduced. In the light source unit 10, by reducing the effect of the antenna unit 2a blocking light from the light source unit 1, it is possible to make the presence of the wireless communication unit 2 less noticeable.

In other words, in the light source unit 10 of this embodiment, the cover member 5 is formed by combining multiple surfaces and covering the light source section 1. It is preferable that the wireless communication section 2 is disposed near the smallest surface among the multiple surfaces.

The light source unit 10 has the wireless communication unit 2 disposed near the smallest surface among the multiple surfaces, so that the wireless communication unit 2 is less noticeable even if a shadow of the wireless communication unit 2 is projected onto the cover member 5. The smallest surface among the multiple surfaces is the surface in the light source unit 10 where less light is radiated from the light source unit 1, and even if the wireless communication unit 2 is disposed nearby, the effect of shading by the wireless communication unit 2 can be reduced compared to when the wireless communication unit 2 is disposed near a larger surface. In other words, the wireless communication unit 2 is disposed at the end of the light source unit 10 where its contribution as the main illumination is low.

The light source unit 10 has a gap between the cover end 5b of the cover member 5 and the housing case 7. In the light source unit 10, a gap is provided between the cover end 5b of the cover member 5 and the housing case 7, so that the end of the light source unit 10 can be prevented from becoming extremely dark due to the light scattered by the support member 4 or the cover member 5 being deflected.

The housing case 7 contains a light diffusing material in the synthetic resin, which can prevent the circuit board 6 from being reflected on the cover member 5 and being visible from the outside. The housing case 7 can improve the appearance of the light source unit 10 by preventing the circuit board 6 from being reflected and being visible from the outside. The housing case 7 contains a light diffusing material in the synthetic resin, which can reflect light that has entered between the housing case 7 and the cover member 5 to the outside, and can also prevent a decrease in brightness at the end of the light source unit 10 where the wireless communication unit 2 is provided, compared to a configuration that does not contain a light diffusing material. The housing case 7 is preferably colored white by containing a light diffusing material in the synthetic resin that constitutes the housing case 7.

The assembly process for the light source unit 10 is described below.

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

In the assembly process, the wireless communication unit 2 is fixed to the support member 4 by screwing the screw 7e into the fixing part 7d of the storage case 7 through the support member 4 with the antenna storage part 7c positioned so as to protrude from the opening 4aa of the support member 4 toward the cover member 5. The wireless communication unit 2 is electrically connected to the circuit board 6, and the wiring cord 2f led out from the storage case 7 is electrically connected 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 board 1b. In the assembly process, the protrusions 5e of the cover member 5 are fitted into the protrusions 4e of the support member 4. The cover member 5 is attached to the support member 4 by hooking the pair of protrusions 5e onto the corresponding protrusions 4e. In the assembly process, the cover member 5 and the support member 4 can be fixed together 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 cover ends 5b are attached to both longitudinal ends of the cover member 5 and the support member 4, so that the light source unit 10 can be assembled.

Below, a brief explanation of the lighting fixture 30 equipped with the light source unit 10 will be given with reference to Figures 4 and 5.

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

The lighting fixture 30 has the antenna section 2a of the light source unit 10 disposed in the space 10aa formed by the cover member 5, which allows for improved communication performance.

The lighting fixture 30 is configured to be directly attached to a ceiling material, for example. The fixture body 31 can be configured to be attached to the ceiling material using a hanging bolt. The fixture body 31 has an elongated outer shape. The fixture body 31 is formed in a flat box shape. The fixture body 31 has a recess 31aa in the center. The recess 31aa has an outer shape in which one surface of the fixture body 31 is recessed in a rectangular shape. The recess 31aa is provided over the entire length of the fixture 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 5h is provided so as to overlap the opening edge of the recess 31aa of the fixture body 31 when the light source unit 10 is attached to the fixture body 31. The fixture body 31 is formed of a metal plate.

The bottom surface 31a of the device body 31 has an insertion hole 31ca. A power supply line electrically connected to an external power source is inserted through the insertion hole 31ca. The bottom surface 31a has a plurality of insertion holes 31ca along the longitudinal direction of the device body 31.

The bottom surface portion 31a is provided with bolt insertion holes 31cb through which the hanging bolts pass. Four bolt insertion holes 31cb are provided along the longitudinal direction of the fixture body 31. The bolt insertion holes 31cb are configured so that the hanging bolts can be inserted. A nut is tightened on the hanging bolt inserted into the bolt insertion holes 31cb.

The instrument body 31 has inclined portions 31b extending from the opening edge of the recess 31aa on both sides of the recess 31aa in the short direction. The inclined portions 31b are inclined so that the thickness of the instrument body 31 becomes thinner as it moves away from the recess 31aa. The instrument body 31 can be formed by bending a metal plate. The instrument body 31 has end caps 31e. The end caps 31e are provided at both ends of the instrument body 31 in the longitudinal direction. The end caps 31e are trapezoidal in front view.

The material of the fixture body 31 may be steel plate. The material of the fixture body 31 is not limited to steel plate, and may be aluminum, stainless steel, copper alloy, or the like. By making the fixture body 31 out of metal, the lighting fixture 30 is able to dissipate heat generated by the light emitting element 1a of the light source unit 10 to the outside more efficiently through the fixture body 31 than when it is made of resin. The lighting fixture 30 has the antenna section 2a disposed in the space 10aa formed by the cover member 5 of the light source unit 10 protruding from the fixture body 31, which allows for improved communication performance.

The lighting fixture 30 is not limited to a direct ceiling mounting structure. As long as the light source unit 10 can be attached to the support member 4, the lighting fixture 30 can be used in lighting fixtures of other structures as appropriate. 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 this embodiment shown in Fig. 6 has a similar configuration to that of the first embodiment shown in Fig. 1, and differs mainly in the structure of the wireless communication unit 2. Note that in the light source unit 10 of this embodiment, components similar to those of the first embodiment are denoted by the same reference numerals, and descriptions thereof will be omitted as appropriate.

In the light source unit 10 of this embodiment, as shown in Fig. 7, the light source section 1, the holder 3, and the cover member 5 are each formed in an elongated shape. As shown in Fig. 8, the antenna housing section 7c has a tip 7f that protrudes toward the cover member 5 when viewed in a direction along the longitudinal direction of the cover member 5, and is formed in an outer shape that follows the shape of the inner bottom surface 5ab of the opposing cover member 5.

In the light source unit 10 of this embodiment, the tip 7f of the antenna housing section 7c has an outer shape that conforms to the inner bottom surface 5ab of the cover member 5, so even if the shadow of the antenna housing section 7c is projected onto the cover member 5 by the light from the light source unit 1, the shape of the antenna housing section 7c is less noticeable.

Compared to a configuration that does not follow the shape of the inner bottom surface 5ab of the cover member 5, such as the antenna housing section 7c of embodiment 1, the light source unit 10 of this embodiment can suppress the outer shape of the tip 7f from becoming a shadow and becoming apparent in the cover member 5, and can improve the appearance. In addition, in the light source unit 10 of this embodiment, the tip 7f of the antenna housing section 7c is formed in an arc shape along the inner bottom surface 5ab of the cover member 5, so there is no angular protrusion toward the cover member 5. Since the light source unit 10 of this embodiment does not have an angular protrusion toward the cover member 5, when the cover member 5 is attached to the support member 4, the cover member 5 and the tip 7f of the wireless communication unit 2 are unlikely to come into contact with each other, and the assembly workability can be improved. In the light source unit 10, the distance between the tip 7f and the inner bottom surface 5ab of the cover member 5 can be set to, for example, about 3 mm.

The specific structure of the wireless communication unit 2 in this embodiment is described below with reference to FIG. 9.

In the wireless communication unit 2, as in the first embodiment, the housing case 7 includes a lid 7a and a case body 7b. The lid 7a includes an antenna housing section 7c, a flat plate section 7g, and legs 7h. The flat plate section 7g has a rectangular flat plate-like outer shape. The antenna housing section 7c is provided to stand from one surface of the flat plate section 7g. The antenna housing section 7c is provided so that its longitudinal direction is parallel to the longitudinal direction of the flat plate section 7g when viewed from the front. The legs 7h protrude on the opposite side of the antenna housing section 7c in the flat plate section 7g. The legs 7h have claws 7j at the tips protruding from the flat plate section 7g. The pair of legs 7h are arranged to face each other in the longitudinal direction of the rectangular flat plate section 7g. The legs 7h are provided in a total of four, two on each side, along the short sides of the rectangular flat plate section 7g. The leg portion 7h has elasticity so that it can bend in the opposite direction to the protruding direction of the claw portion 7j relative to the flat plate portion 7g.

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

The case body 7b includes a rectangular bottom wall portion 7b1, a pair of first side walls 7b2, and a pair of second side walls 7b3. The pair of first side walls 7b2 are provided opposite each other so as to rise from the bottom wall portion 7b1 along the longitudinal direction of the bottom wall portion 7b1. The pair of second side walls 7b3 are provided opposite each other so as to rise from the bottom wall portion 7b1 along the lateral direction of the bottom wall portion 7b1. The case body 7b is formed into a box shape with one side open by the rectangular bottom wall portion 7b1, the pair of first side walls 7b2, and the pair of second side walls 7b3. The case body 7b includes a protruding portion 7b4 protruding outward from the second side wall portion 7b3 along the longitudinal direction of the bottom wall portion 7b1. The protruding portion 7b4 includes a screw fixing portion 7r to which the screw 7e shown in FIG. 6 is fixed.

A pair of ribs 7k that sandwich one side end of the circuit board 6 are provided on one of the pair of second side walls 7b3 so as to protrude from the bottom wall 7b1. A groove 7m that accommodates the other side end of the circuit board 6 is provided on the other of the pair of second side walls 7b3. The case body 7b is configured to be able to hold the second region 6cb side of the circuit board 6 on which the communication circuit section 2b is provided, using the ribs 7k and the groove 7m. The circuit board 6 is electrically connected to the wiring cord 2f. The wiring cord 2f has a connector 2h at its tip. The wiring cord 2f is tied with a cable tie 2g. The cable tie 2g is configured to have a locking part at one end of a long band, and to be able to tie the other end by passing it through a cylindrical locking part.

One of the pair of first side walls 7b2 has a notch 7n that is cut out from the opening side of the case body 7b. The wireless communication unit 2 is configured to allow the wiring cord 2f to be led out from inside the case 7 to the outside through the notch 7n. The case body 7b of the case has a recess 7t. The recess 7t is configured to accommodate a cable tie 2g. By accommodating the cable tie 2g that ties the wiring cord 2f in the recess 7t, the case 7 can function as a tension stopper when the wiring cord 2f is pulled against the case 7.

The storage case 7 has an engagement 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 engagement groove 7u, thereby fixing the lid 7a and the case body 7b. The wireless communication unit 2 is configured to output a dimming signal generated by the communication circuit unit 2b based on a signal received by the antenna unit 2a via the wiring cord 2f.

The wireless communication unit 2 is configured to perform wireless communication using radio waves as a medium, and also to perform infrared communication using infrared rays as a medium. The wireless communication unit 2 is mounted with a light receiving element 6e that receives infrared light in the second area 6cb of the circuit board 6. The light receiving element 6e can be configured with a photodiode or a phototransistor. The light receiving element 6e is configured to receive infrared signals through the through hole 7fa of the cover body 7a.

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

Incidentally, in the light source unit 10, the light output can be increased by arranging many light emitting elements 1a closer to the longitudinal end of the light source section 1. Also, in the light source unit 10, the communication performance can be improved the further the antenna housing section 7c that houses the antenna section 2a protrudes toward the inner bottom surface 5ab 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-emitting element 1a is to the longitudinal end of the light source unit 1, the more likely it is that the direct light from the light-emitting element 1a will be blocked by the antenna housing 7c. Also, in the light source unit, the more the antenna housing 7c protrudes toward the cover member 5, the more likely it is that the direct light from the light-emitting element 1a will be blocked by the antenna housing 7c. In the light source unit of the reference example, when attempting to further improve the light output, the direct light from the light-emitting element 1a may be blocked by the antenna housing 7c, and a shadow of the antenna housing 7c may be cast on the cover main body 5a. In FIG. 11, the direct light from the light-emitting element 1a is illustrated by a two-dot dashed arrow, and the area where the shadow of the cover main body 5a is cast is indicated by a dashed line area.

In the light source unit 10 of this embodiment, the wireless communication section 2 has an antenna housing section 7c with a plate-like outer shape. The antenna housing section 7c is arranged so as to intersect with the longitudinal direction of the light source section 1. The surface of the tip section 7f facing the cover member 5 forms an inclined surface 7fb that becomes more distant from the inner bottom surface 5ab as it approaches the light source section 1 along the longitudinal direction of the light source section 1.

In the light source unit 10 of this embodiment, the tip 7f of the antenna housing portion 7c has an inclined surface 7fb, which improves the light output while preventing the shadow of the antenna housing portion 7c from appearing on the cover body 5a.

The assembly process for the light source unit 10 of this embodiment is described below.

In the assembly process of the light source unit 10, the light source section 1, in which the light emitting element 1a is mounted on the mounting substrate 1b, is attached to the mounting section 4a of the support member 4. The support member 4 has an engagement piece 4t protruding from the surface of the bottom section 4cb. As shown in FIG. 6, the engagement piece 4t has a first protrusion 4ta protruding from the surface of the bottom section 4cb and a second protrusion 4tb protruding from the tip of the first protrusion 4ta along the longitudinal direction of the support member 4 in the direction toward the wireless communication section 2. The engagement piece 4t has an L-shaped external shape with the first protrusion 4ta and the second protrusion 4tb. The pair of engagement pieces 4t are provided opposite each other in the short direction of the mounting substrate 1b, and are configured to sandwich the notch groove 1bd cut in the thickness direction of the mounting substrate 1b.

In the assembly process, the wireless communication unit 2 is attached so that the antenna housing section 7c protrudes from the side opposite the attachment section 4a of the support member 4 on which the mounting board 1b is mounted. The wireless communication unit 2 is attached to the support member 4 with the first protrusion 4ta of the engagement piece 4t abutting against the edge of the notch groove 1bd of the mounting board 1b.

In the light source unit 10 of this embodiment, the storage case 7 has a restricting portion 7s that faces the light source section 1 and restricts the movement of the light source section 1 in the longitudinal direction.

When the light source unit 1 and the wireless communication unit 2 are attached to the support member 4, the light source unit 10 is set so that the distance between the restricting portion 7s and the second protrusion 4tb in the longitudinal direction of the light source unit 1 is shorter than the length of the light source unit 1 sandwiched between the restricting portion 7s and the first protrusion 4ta.

In the light source unit 10, the restricting portion 7s can restrict the longitudinal movement of the light source portion 1, so the wireless communication portion 2 can be used to prevent the light source portion 1 from coming loose. In the light source unit 10 of this embodiment, when the mounting board 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 antenna housing section 7c is positioned so that it protrudes from the opening 4aa of the support member 4 toward the cover member 5, and the screw 7e is fixed to the screw fixing section 7r of the housing case 7 via the support member 4, and the wireless communication section 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 board 1b. In the assembly process, the protrusions 5e of the cover member 5 are fitted into the protrusions 4e of the support member 4. The cover member 5 is attached to the support member 4 by hooking the pair of protrusions 5e onto the corresponding protrusions 4e. In the assembly process, the cover member 5 and the support member 4 can be fixed together 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 cover ends 5b are attached to both longitudinal ends of the cover member 5 and the support member 4, so that the light source unit 10 can be assembled.

The light source unit 10 of this embodiment can be attached to the fixture body 31 to form the lighting fixture 30 in the same manner as in embodiment 1.

REFERENCE SIGNS LIST 1 light source section 2 wireless communication section 2a antenna section 2b communication circuit section 3 holder 4 support member 4a attachment section 4aa opening 5 cover member 5ab inner bottom surface 6 circuit board 6ca first area 6cb second area 7 storage case 7c antenna storage section 7f tip 7fb inclined surface 7s restriction section 10 light source unit 10aa space 30 lighting fixture 31 fixture body

Claims (10)

A light source unit that is removably attached to a fixture body,
a light source unit having a long mounting board on which a plurality of light emitting elements are mounted;
a wireless communication unit that performs wireless communication using radio waves as a medium;
a holder that holds the wireless communication unit, the holder comprising: a plate-shaped, long support member having an attachment portion to which the mounting board is attached; and a cover member that is attached to the support member and covers the support member to form a space therein;
a lighting unit including a power supply unit that supplies power to the light source unit and the wireless communication unit, the lighting unit being disposed on the support member on an opposite side to the light source unit and held by the support member along a longitudinal direction of the support member;
Equipped with
the wireless communication unit includes an antenna unit capable of at least one of transmitting and receiving radio waves, a communication circuit unit electrically connected to the antenna unit, and a circuit board on which the antenna unit is provided, the circuit board being disposed so as to intersect with a surface of the attachment unit;
The cover member is made of a resin material and is configured to transmit radio waves.
The cover member is attached to the instrument body so as to protrude from the instrument body,
When the cover member is attached to the fixture body installed on a ceiling, the lower end of the cover member is located lower than the lower end of the fixture body.
Light source unit. the antenna portion is provided in a first region of the circuit board,
The communication circuit unit is provided in a second region of the circuit board.
The light source unit according to claim 1 . the wireless communication unit further includes a housing case that houses the circuit board,
The housing case is made of a resin material and is configured to transmit radio waves.
The light source unit according to claim 1 . The wireless communication unit is fixed to the support member.
The light source unit according to any one of claims 1 to 3. The cover member has a translucency that transmits light from the light source unit.
The light source unit according to any one of claims 1 to 4. The support member has an opening penetrating the mounting portion in a thickness direction,
the wireless communication unit further includes a housing case that houses the circuit board,
The housing case is made of a resin material so as to be transparent to radio waves,
the housing case includes an antenna housing portion that houses the antenna portion,
The antenna housing portion is inserted into the opening and disposed in the space so as to protrude toward the cover member.
The light source unit according to any one of claims 1 to 5. The plurality of light emitting elements are mounted on the mounting substrate along a longitudinal direction of the mounting substrate.
The light source unit according to any one of claims 1 to 6. The wireless communication unit is further configured to perform infrared communication using infrared rays as a medium.
The light source unit according to any one of claims 1 to 7. The support member is
The housing further includes a pair of side walls,
In a cross-sectional view, the mounting portion and the pair of side wall portions are formed into a C-shape.
The light source unit according to any one of claims 1 to 8. A light source unit according to any one of claims 1 to 9,
The fixture body for holding the light source unit;
Equipped with
Lighting fixtures.

Images