JP2016170988A - Luminaire - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a luminaire capable of enhancing assembly efficiency.SOLUTION: A luminaire includes a light source substrate 10G supported to a luminaire body, and a circuit board 12G arranged so as to overlap with a part of the light source substrate 10G in a thickness direction. The light source substrate 10G and the circuit board 12G are electrically connected to each other in a region where the light source substrate 10G and the circuit board 12G overlap with each other in the thickness direction. The shape of the outer periphery of the circuit board 12G in a plane view is substantially identical to the shape of the inner periphery of the light source substrate 10G in the plane view.SELECTED DRAWING: Figure 18

Description

  The present invention relates to a lighting fixture attached to a construction material.

  As a lighting fixture attached to the construction material, for example, a ceiling light is known (for example, see Patent Document 1). A conventional ceiling light includes an instrument main body, an instrument attachment portion for attaching the instrument main body to a construction material, and a light source substrate and a circuit board supported by the instrument main body. A plurality of LEDs (Light Emitting Diodes) are mounted on the light source substrate. On the circuit board, a plurality of circuit components constituting a lighting circuit for lighting each of the plurality of LEDs are mounted.

  The circuit board is arranged in a ring shape on the instrument body so as to surround the periphery of the instrument mounting portion. The light source board is arranged in a ring shape on the instrument body so as to surround the circuit board.

JP 2012-146666 A

  When assembling the above-described conventional ceiling light, first, after performing the positioning work for positioning the light source board and the circuit board with respect to the instrument body, the wiring work for connecting the light source board and the circuit board with lead wires is performed. There is a need to do. However, when the positioning operation and the wiring operation are performed in separate steps as described above, there is a problem that the number of steps for assembling the ceiling light increases and the assembly efficiency of the ceiling light decreases.

  This invention is made | formed in view of such a subject, and it aims at providing the lighting fixture which can improve assembly efficiency.

  In order to solve the above-described problem, a lighting fixture according to an aspect of the present invention includes a light source substrate supported by a fixture main body, and a circuit board arranged to overlap a part of the light source substrate in the thickness direction. The light source board and the circuit board are electrically connected in a region where the light source board and the circuit board overlap in the thickness direction, and the shape of the outer periphery of the circuit board when viewed in plan is the shape when viewed in plan The shape is substantially the same as the shape of the inner periphery of the light source substrate.

  According to the lighting fixture which concerns on 1 aspect of this invention, assembly efficiency can be improved.

The exploded perspective view of the lighting fixture which concerns on Embodiment 1 Sectional drawing which expands and shows a part of lighting fixture which concerns on Embodiment 1 FIG. 3 is a plan view showing an extracted light source board and circuit board according to the first embodiment. Sectional drawing of the lighting fixture by the VV line | wire of FIG. 3 which showed the structure of the lighting fixture which concerns on Embodiment 1 typically The top view which shows typically an example of the electrical connection terminal formed in the surface side of the light source substrate which concerns on Embodiment 1 The top view which shows typically an example of the electrical connection terminal formed in the back surface side of the circuit board which concerns on Embodiment 1. FIG. Sectional drawing of the lighting fixture by IV-IV of FIG. 3 which showed typically the structure of the lighting fixture concerning the modification of Embodiment 1 FIG. 9 is a plan view showing the light source board and the circuit board according to the second embodiment. Sectional drawing of the lighting fixture by the IV-IV line | wire of FIG. 8 which showed the structure of the lighting fixture which concerns on Embodiment 2 typically Sectional drawing of the lighting fixture by the VV line of FIG. 8 which showed the structure of the lighting fixture which concerns on Embodiment 2 typically The top view which shows typically an example of the electrical connection terminal formed in the back surface side of the light source substrate which concerns on Embodiment 2. FIG. The top view which shows typically an example of the electrical connection terminal formed in the surface side of the circuit board based on Embodiment 2 Sectional drawing of the lighting fixture which showed the structure of the lighting fixture which concerns on the modification 1 of Embodiment 2 typically Sectional drawing of the lighting fixture which showed typically the structure of the lighting fixture which concerns on the modification 2 of Embodiment 2 FIG. 9 is a plan view showing a pair of light source boards and circuit boards extracted from the third embodiment. FIG. 7 is a plan view showing a plurality of light source boards and circuit boards according to a modification of the third embodiment. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on Embodiment 1. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on Embodiment 1. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on Embodiment 2. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on Embodiment 2. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on Embodiment 5. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on Embodiment 5. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on the modification of Embodiment 5. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on the modification of Embodiment 5. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on Embodiment 6. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on Embodiment 6. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on the modification of Embodiment 6. FIG. The figure for demonstrating the procedure which produces the light source board | substrate and circuit board which concern on the modification of Embodiment 6. FIG.

  Embodiments of the present invention will be described below. Each of the embodiments described below shows a preferred specific example of the present invention. Therefore, numerical values, shapes, materials, components, arrangement positions and connection forms of the components, and the like shown in the following embodiments are merely examples, and are not intended to limit the present invention. Therefore, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims showing the highest concept of the present invention are described as optional constituent elements.

  Each figure is a mimetic diagram and is not necessarily illustrated strictly. In each figure, substantially the same configuration is denoted by the same reference numeral, and redundant description is omitted or simplified.

(Embodiment 1)
Hereinafter, the lighting fixture 2A according to Embodiment 1 will be described.

[1-1. Overall configuration of lighting equipment]
First, the overall configuration of a lighting fixture 2A according to Embodiment 1 will be described with reference to FIGS. 1 is an exploded perspective view of a lighting fixture 2A according to Embodiment 1. FIG. FIG. 2 is an enlarged cross-sectional view of a part of the lighting fixture 2A according to the first embodiment. FIG. 3 is a plan view showing the light source board 10A and the circuit board 12A extracted from the first embodiment. For convenience of explanation, FIGS. 2 and 3 show only main components of the lighting fixture 2A.

  As shown in FIG. 1, the lighting fixture 2A of the present embodiment is a ceiling light that is attached to, for example, a ceiling 4 (an example of a construction material). The lighting fixture 2A includes a fixture body 6, a fixture mounting portion 8, a light source substrate 10A, a circuit substrate 12A, a light receiving portion cover 14, a circuit cover 16, a light source cover 18, and a globe 20. In FIG. 1 and the like, the minus side of the Z axis represents the ceiling 4 side, and the plus side of the Z axis represents the floor side.

[1-1-1. Instrument body]
As shown in FIG. 1, the instrument main body 6 is formed in a disk shape, and is formed by, for example, pressing a sheet metal such as an aluminum plate or a steel plate into a disk shape. A plurality of glove mounting portions 22 are spaced in the circumferential direction of the instrument body 6 on the surface of the instrument body 6 on which the light source substrate 10A and the like are arranged (that is, the floor side surface and the Z-axis plus side surface). Is placed. Note that a white paint having a high reflectance is applied or a reflective metal material is deposited on the surface of the instrument body 6 on which the light source substrate 10A and the like are disposed. As shown in FIGS. 1 and 2, a circular opening 24 is formed at the center of the instrument body 6. Further, the instrument body 6 is formed with a substantially cylindrical support portion 26 extending from the peripheral edge of the opening 24 toward the light source substrate 10 </ b> A.

  Furthermore, as shown in FIGS. 1 and 2, the instrument body 6 includes a ceiling mounting part 28 that extends in a ring shape from the outer peripheral part of the support part 26 to the radially outer side of the instrument main body 6, and an outer peripheral part of the ceiling mounting part 28. A cylindrical portion 30 that extends in a cylindrical shape while standing on the light source substrate 10 </ b> A side, and a substrate support portion 32 that extends from the distal end portion of the cylindrical portion 30 to the outer side in the radial direction of the instrument body 6 in a ring shape. The radially outer side of the instrument body 6 is a direction from the center of the instrument body 6 toward the outer peripheral portion of the instrument body 6. Each of the ceiling mounting portion 28 and the substrate support portion 32 of the instrument body 6 is formed in a plane substantially parallel to the XY plane. A plurality of screw holes 34 are formed in the inner peripheral portion of the substrate support portion 32 at intervals in the circumferential direction of the substrate support portion 32.

[1-1-2. Instrument mounting part]
As shown in FIG. 2, the instrument attachment portion 8 is inserted into the support portion 26 from the opening 24 of the instrument body 6 and attached to the support portion 26. The appliance attachment portion 8 is detachably attached to a ceiling side attachment member 36 installed on the ceiling 4. In this way, the fixture body 8 is attached to the ceiling 4 by detachably attaching the fixture mounting portion 8 to the ceiling side mounting member 36. As shown in FIG. 1, a cushion member 38 for suppressing wobbling of the instrument body 6 is interposed between the instrument body 6 and the ceiling 4.

[1-1-3. Light source board]
As shown in FIGS. 1 and 3, the light source substrate 10 </ b> A is formed in a ring shape and has a substantially D-shaped opening 40 at the center. That is, a projecting piece 42 that protrudes radially inward of the light source substrate 10 </ b> A is formed at the peripheral edge of the opening 40. The radially inner side of the light source substrate 10A is a direction from the outer periphery of the light source substrate 10A toward the center of the light source substrate 10A. A wiring pattern 44 is formed on the surface of the light source substrate 10A (that is, the surface opposite to the surface facing the instrument body 6 and the surface on the plus side of the Z axis in FIG. 1). A plurality of LEDs 46 (an example of a light source) are mounted on the wiring pattern 44. The plurality of LEDs 46 are arranged at intervals in the circumferential direction of the light source substrate 10A. Each of the plurality of LEDs 46 is, for example, an LED element in which an LED chip is packaged. That is, the mounting structure of the light source substrate 10A is an SMD (Surface Mount Device) structure in which an LED element packaged with an LED chip is mounted on the light source substrate 10. In addition, a plurality of through holes 52 through which the screws 50 are inserted are formed in the light source substrate 10A at intervals in the circumferential direction of the light source substrate 10A.

  10 A of light source substrates are supported by the board | substrate support part 32, and are arrange | positioned at the ring shape so that the circumference | surroundings of the circuit board 12A may be enclosed. In this state, as shown in FIG. 2, the back surface of the light source substrate 10 </ b> A (that is, the surface facing the instrument body 6 and the surface on the minus side of the Z axis in FIG. 1) is the substrate support of the instrument body 6. The portion 32 comes into surface contact. Thereby, the heat from each of the plurality of LEDs 46 is efficiently transmitted to the substrate support portion 32 through the light source substrate 10A, and the heat from each of the plurality of LEDs 46 can be efficiently radiated by the instrument body 6. it can.

[1-1-4. Circuit board]
As shown in FIGS. 1 and 3, the circuit board 12A is formed in a ring shape, and has a circular opening 54 at the center. On the surface of the circuit board 12A (that is, the surface opposite to the surface facing the instrument body 6 and the surface on the plus side of the Z-axis in FIG. 1), the light source substrate 10A from the lighting circuit on the circuit board 12A is provided. A wiring pattern 56A is formed. A plurality of circuit components 58A are mounted on the wiring pattern 56A. Each of the plurality of circuit components 58A is for configuring a lighting circuit for lighting each of the plurality of LEDs 46, and is, for example, an electronic component such as a resistance element and a capacitor. The plurality of circuit components 58A are through-hole mounted on the surface of the circuit board 12A (that is, the surface opposite to the surface facing the instrument body 6 and the surface on the plus side of the Z axis in FIG. 1). Type circuit component 58A and a circuit component 58A of the type that is surface-mounted on the back surface of the circuit board 12A.

  As shown in FIG. 2, the circuit board 12 </ b> A is fixed to the light source board 10 </ b> A as will be described later, and is arranged in a ring shape so as to surround the periphery of the instrument mounting portion 8. As shown in FIG. 3, the circuit board 12A is opposite to the surface of the light source board 10A facing the instrument body 6 in the Z-axis direction (that is, the circuit board 12A in FIG. (Positive side) Further, in the circuit board 12A, a part of the outer peripheral part on the back surface side of the circuit board 12A and the protruding piece 42 of the light source board 10A (that is, a part of the inner peripheral part on the surface side of the light source board 10A) are in the thickness direction (Z (Axial direction). Note that the region 74A where the light source substrate 10A and the circuit substrate 12A overlap in the thickness direction is a region with a hatched pattern in FIG.

[1-1-5. Receiver section]
As shown in FIG. 1, the light receiving unit cover 14 is a light-transmitting cover that is disposed so as to cover a remote control receiving unit (not shown) and a nightlight (not shown) on the circuit board 12A. The remote control receiving unit is for receiving a remote control signal from a remote control (not shown), and is mounted on the surface of the circuit board 12A (that is, on the positive side of the Z-axis of the circuit board 12A). . The night light is composed of LEDs and is mounted on the surface of the circuit board 12A. The light receiving unit cover 14 has a function of transmitting a remote control signal and light from the nightlight.

[1-1-6. Circuit cover]
As shown in FIGS. 1 and 2, the circuit cover 16 is for covering the surface of the circuit board 12 </ b> A, and is formed of a nonflammable material such as metal and an opaque material. The circuit cover 16 is formed in a ring shape, and is supported on the surface of the light source substrate 10A so as to surround the instrument mounting portion 8 and cover the surface of the circuit substrate 12A. Furthermore, the circuit cover 16 covers the surface of the circuit board 12A, and covers a region 74 where the light source board 10A and the circuit board 12A overlap in the thickness direction. A plurality of through holes 62 for inserting the screws 50 are formed in the outer periphery of the circuit cover 16 at intervals in the circumferential direction of the circuit cover 16.

  Further, the light receiving unit cover 14 is held on the side surface of the circuit cover 16 by cutting out a portion of the circuit cover 16 that overlaps the light receiving unit cover 14. In addition, when the remote control receiver and the nightlight described above are not mounted on the lighting fixture 2, the above cutout may be omitted.

[1-1-7. Light source cover]
As shown in FIGS. 1 and 2, the light source cover 18 is for covering the light source substrate 10 </ b> A, and is formed of a translucent (for example, transparent) resin or the like. The light source cover 18 is formed in a ring shape, and is supported on the surface of the light source substrate 10A so as to surround the circuit cover 16 and cover the surface of the light source substrate 10A. A plurality of through holes 64 for inserting the screws 50 are formed in the inner peripheral portion of the light source cover 18 at intervals in the circumferential direction of the light source cover 18.

  As shown in FIG. 1, each of the plurality of screws 50 is screwed into the screw hole 34 of the instrument body 6 through the through hole 64 of the light source cover 18, the through hole 62 of the circuit cover 16, and the through hole 52 of the light source substrate 10A. The Thereby, the light source cover 18, the circuit cover 16, and the light source substrate 10 </ b> A are fixed to the instrument body 6 by the plurality of screws 50.

[1-1-8. Globe]
The globe 20 is for covering the entire instrument body 6 and is formed of a translucent (for example, milky white) resin. A plurality of protrusions (not shown) are formed in the opening (not shown) of the globe 20. By engaging these plurality of protrusions with the plurality of globe attaching portions 22 of the instrument body 6, the globe 20 is detachably attached to the instrument body 6.

[1-2. Fixing of light source board and circuit board]
Next, a configuration for fixing the light source board 10A and the circuit board 12A to each other will be described with reference to FIGS. 4 is a cross-sectional view of the luminaire 2A taken along the line V-V of FIG. 3, schematically showing the structure of the luminaire 2A according to the first embodiment. For convenience of explanation, FIG. 4 shows only main components of the lighting fixture 2A.

  A through hole 68 for inserting a screw 66 (an example of a fixing member) is formed in the protruding piece 42 of the light source substrate 10A, as in FIG. 9 described later. Similarly to FIG. 9 described later, a through hole 70 for inserting the screw 66 is formed in a portion corresponding to the through hole 68 in the outer peripheral portion of the circuit board 12A.

  The screws 66 are inserted into the through holes 68 of the light source board 10A and the through holes 70 of the circuit board 12A, respectively, and a nut 72 (an example of a fixing member) is screwed to the tip of the screw 66, whereby the light source board 10A. And the circuit board 12A are fixed to each other. That is, the light source board 10A and the circuit board 12A are fixed to each other by the screw 66 and the nut 72 in the region 74A where the light source board 10A and the circuit board 12A overlap in the thickness direction.

[1-3. Electrical connection between light source board and circuit board]
Next, a configuration for electrically connecting the light source board 10A and the circuit board 12A will be described with reference to FIGS. FIG. 5 is a plan view schematically showing an example of the electrical connection terminals formed on the surface side of the light source substrate 10A according to the first embodiment. FIG. 6 is a plan view schematically showing an example of the electrical connection terminals formed on the back side of the circuit board 12A according to the first embodiment. For convenience of explanation, FIG. 5 shows the electrical connection terminals formed on the front surface side of the light source substrate 10A, and FIG. 6 shows the electrical connection terminals formed on the back surface side of the circuit board 12A. Only the essential components are shown.

  As shown in FIG. 5, a circular first land 76A (an example of an electrical connection terminal) patterned with a conductive member such as copper is formed on the protruding piece 42 on the surface of the light source substrate 10A. Yes. The first land 76A is electrically connected to the wiring pattern 44 in the region of the protruding piece 42 on the surface, which is the surface on which the wiring pattern 44 is mounted. In this way, the first land 76A is electrically connected to the LED 46 via the wiring pattern 44. Note that the shape of the first land 76A is not limited to the circular shape shown in FIG. The first land 76A may have any shape as long as it can come into contact with a second land 84A described later, and may be formed in a certain region such as a flat plate.

  As shown in FIGS. 3 and 6, for example, a circular second land 84A (an example of an electrical connection terminal) is provided at the end of the wiring pattern 56A formed on the outer peripheral portion of the back surface of the circuit board 12A. It has been. The second land 84A is electrically connected to the plurality of circuit components 58A via the wiring pattern 56A.

  The light source board 10A and the circuit board 12A configured as described above are fixed to each other by the screws 66 and the nuts 72 as described above, so that the light source board 10A is formed in the region 74A overlapping in the thickness direction as shown in FIG. The first land 76A and the second land 84A of the circuit board 12A are in contact with each other. Thereby, the light source board 10A and the circuit board 12A are electrically connected to each other in the region 74A that overlaps in the thickness direction.

[1-4. Effect]
As described above, the lighting fixture 2A of the present embodiment includes the fixture main body 6 attached to the ceiling 4, the light source substrate 10A supported by the fixture main body 6, the LED 46 mounted on the light source substrate 10, and the light source substrate 10A. The first land 76A electrically connected to the LED 46, the circuit board 12A disposed so as to overlap a part of the light source board 10A in the thickness direction, and the circuit board 12A are mounted. Circuit component 58A that constitutes a lighting circuit to be operated, and a second land 84A that is provided on the circuit board 12A and is electrically connected to the circuit component 58A. The first land 76A and the second land 84A are electrically connected to each other by contacting the light source substrate 10A and the circuit substrate 12A with each other in a region 74A where they overlap each other in the thickness direction.

  Here, the LED 46 is mounted on the main surface opposite to the ceiling 4 of the light source substrate 10A, and the first land 76A is provided on the main surface of the light source substrate 10A and is electrically connected to the LED 46. Good. In this case, the light source board 10A is arranged at a position closer to the ceiling 4 than the circuit board 12A.

  According to these configurations, the first land 76A and the second land 84A can be electrically connected in the region 74 where the light source substrate 10A and the circuit substrate 12A overlap each other in the thickness direction. Thereby, when assembling the lighting fixture 2A, the light source board 10A and the circuit board 12A can be electrically connected without performing the wiring work of connecting the light source board 10A and the circuit board 12A with the lead wires. As a result, the number of assembling steps for the lighting fixture 2A is reduced, so that the assembly efficiency of the lighting fixture 2A can be increased.

  The lighting fixture 2A may further include a screw 66 and a nut 72 that fix the light source board 10A and the circuit board 12A to each other in a region 74A where the light source board 10A and the circuit board 12A overlap in the thickness direction. .

  According to this configuration, the light source board 10A and the circuit board 12A are fixed to each other in the vicinity of the first land 76A and the second land 84A that are in contact with each other. Then, by tightening the screw 66 and the nut 72, the first land 76A and the second land 84A can be brought into contact with each other and maintained in contact with each other. Thereby, the light source substrate 10A and the circuit board 12A can be stably electrically connected. Further, the light source board 10A and the circuit board 12A are fixed to each other in a region 74A where the light source board 10A and the circuit board 12A overlap each other. Thereby, it is possible to suppress stress from being applied to each of the first land 76A and the second land 84A due to dimensional errors of the light source substrate 10A and the circuit substrate 12A, deformation due to secular change, and the like.

  Furthermore, the lighting fixture 2 </ b> A further includes a fixture attachment portion 8 for attaching the fixture body 6 to the ceiling 4. The circuit board 12 </ b> A is arranged in a ring shape so as to surround the periphery of the instrument mounting portion 8. The light source board 10A is arranged in a ring shape so as to surround the circuit board 12A, and a part of the outer peripheral part of the circuit board 12A and a part of the inner peripheral part of the light source board 10A overlap in the thickness direction. Has been placed.

  According to this configuration, the lighting fixture 2A can be used as a ceiling light, for example.

  Furthermore, the lighting fixture 2A further includes a light source cover 18 that is disposed so as to cover the light source substrate 10A and has a light-transmitting property, and an opaque circuit cover 16 that is disposed so as to cover the circuit substrate 12A. The circuit cover 16 covers a region 74A where the light source substrate 10A and the circuit substrate 12A overlap in the thickness direction.

  According to this configuration, the first land 76A and the second land 84A arranged in the region 74A where the light source board 10A and the circuit board 12A overlap in the thickness direction are prevented from touching the user's eyes through the globe 20. And the beauty of the lighting fixture 2 can be maintained.

(Modification)
Next, the configuration of a lighting fixture 2D according to this modification will be described with reference to FIG. FIG. 7 is a cross-sectional view of the lighting fixture 2D according to IV-IV of FIG. 3, schematically showing the structure of the lighting fixture 2D according to this modification.

  As shown in FIG. 7, the circuit board 12A is disposed on the opposite side of the instrument body 6D with respect to the light source board 10A in the Z-axis direction, and a part of the outer peripheral portion on the back side of the circuit board 12A and the light source board 10A. The protruding piece 42 (that is, a part of the inner peripheral portion on the surface side of the light source substrate 10A) is arranged so as to overlap in the thickness direction.

  In this state, the screws 66 are respectively inserted into the through holes 70 of the circuit board 12A and the through holes 68 of the light source board 10A, and are screwed into the screw holes 106 formed in the board support portion 32D. 10A, the circuit board 12A, and the instrument body 6D are fixed to each other. That is, the light source board 10A, the circuit board 12A, and the instrument body 6D are fixed to each other by the screws 66 in a region 74 where the light source board 10A and the circuit board 12A overlap in the thickness direction.

  When assembling the lighting fixture 2D, the light source board 10A is first supported by the board support portion 32D, and then the circuit board 12A is supported on the light source board 10A. Thereby, when the light source board 10A, the circuit board 12A, and the instrument body 6D are fixed to each other with the screws 66, a member for holding the circuit board 12A can be omitted.

(Embodiment 2)
Next, the structure of the lighting fixture which concerns on Embodiment 2 is demonstrated, referring FIGS. 8-12. FIG. 8 is a plan view showing an extracted light source board and circuit board according to the second embodiment. 9 schematically shows the structure of the lighting fixture according to Embodiment 2, and FIG. 9 schematically shows the structure of the lighting fixture 2 according to Embodiment 2. FIG. It is sectional drawing of the lighting fixture 2 by. For convenience of explanation, FIG. 9 shows only main components of the lighting fixture 2. FIG. 10 is a cross-sectional view of the lighting fixture 2 taken along the line V-V in FIG. 8 schematically showing the structure of the lighting fixture 2 according to the second embodiment. FIG. 11 is a plan view schematically showing an example of an electrical connection terminal formed on the back surface side of the light source substrate 10 according to the second embodiment. FIG. 12 is a plan view schematically showing an example of the electrical connection terminals formed on the front surface side of the circuit board 12 according to the second embodiment. For convenience of explanation, FIG. 10 shows only main components of the lighting fixture 2. Similarly, FIG. 11 shows only the electrical connection terminals formed on the back surface side of the light source substrate 10, and FIG. 12 shows only the components necessary for explaining the electrical connection terminals formed on the front surface side of the circuit board 12. It is shown.

  In the second embodiment described below, the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted. Further, in the second embodiment described below, parts different from the first embodiment will be described.

[2-1. Light source board]
8, 10, and 11, the light source substrate 10 is provided with a through hole as compared with the light source substrate 10 </ b> A illustrated in FIGS. 3 and 5, and the first land 76 (electrical An example of the connection terminal is different in that it is formed on the back surface of the light source substrate 10. Further, the light source substrate 10 is arranged on the opposite side of the instrument body 6 from the circuit board 12 in the Z-axis direction (that is, the plus side of the Z-axis from the circuit board 12 in FIG. 10). Further, the protruding piece 42 of the light source substrate 10 overlaps a part of the outer peripheral portion on the surface side of the circuit board 12 (that is, a part of the inner peripheral portion on the surface side of the circuit board 12A) in the thickness direction (Z-axis direction). Are arranged as follows. A region 74 where the light source substrate 10 and the circuit substrate 12 overlap in the thickness direction is a region with a hatched pattern in FIG. Since others are the same as those described in the first embodiment, detailed description thereof is omitted.

[2-2. Circuit board]
As shown in FIGS. 8, 10, and 12, the circuit board 12 is the same as the circuit board 12A shown in FIGS. 3 and 6, but compared with the circuit board 12A shown in FIGS. It arrange | positions so that it may become a direction opposite to an axial direction. In the circuit board 12, the light source board 10 from the lighting circuit on the circuit board 12 is provided on the back surface in FIG. 8 (that is, the surface on the side facing the instrument body 6 and the surface on the negative side of the Z axis in FIG. 1). A wiring pattern 56 (not shown) is formed. A plurality of circuit components 58 (not shown) are mounted on the wiring pattern 56. The plurality of circuit components 58 are the surface of the circuit board 12A (that is, the surface opposite to the surface facing the instrument body 6) as in the case of the plurality of circuit components 58A of the first embodiment. In addition, a circuit component 58 of a type that is through-hole mounted on the positive side surface of the Z-axis) and a circuit component 58 of a type that is surface-mounted on the back surface of the circuit board 12 are included.

  As shown in FIG. 10, the circuit board 12 is fixed to the light source board 10 as described later, and is arranged in a ring shape so as to surround the periphery of the fixture mounting portion 8.

[2-3. Fixing of light source board and circuit board]
Next, a configuration for fixing the light source board 10 and the circuit board 12 to each other will be described with reference to FIGS. 8 and 9.

  As shown in FIG. 9, a through hole 68 for inserting a screw 66 (an example of a fixing member) is formed in the projecting piece 42 of the light source substrate 10. Further, a through hole 70 for inserting a screw 66 is formed in a portion corresponding to the through hole 68 in the outer peripheral portion of the circuit board 12.

  The screws 66 are inserted into the through holes 68 of the light source board 10 and the through holes 70 of the circuit board 12, respectively, and a nut 72 (an example of a fixing member) is screwed to the distal end portion of the screws 66, whereby the light source board 10. And the circuit board 12 are fixed to each other. That is, the light source board 10 and the circuit board 12 are fixed to each other by the screw 66 and the nut 72 in the region 74 where the light source board 10 and the circuit board 12 overlap in the thickness direction.

  By engaging with the glove attachment 22, the glove 20 is detachably attached to the instrument body 6.

[2-4. Electrical connection between light source board and circuit board]
Next, a configuration for electrically connecting the light source substrate 10 and the circuit substrate 12 will be described with reference to FIGS. 8, 10, 11, and 12.

  As shown in FIGS. 8, 10, and 11, a through hole 45 is formed in the projecting piece 42 of the light source substrate 10. The through hole 45 is formed with a conductive member 77 such as copper plating. The conductive member 77 formed in the through hole 45 and the wiring pattern 44 are electrically connected. Further, as shown in FIG. 11, on the back surface of the light source substrate 10, an annular first land 76 (patterned with a conductive member such as copper, for example, around the through hole 45 (region including the through hole 45). An example of an electrical connection terminal) is formed. In addition, the conductive member 77 formed in the through hole 45 and the first land 76 are electrically connected. In this way, the first land 76 is electrically connected to the LED 46 through the wiring pattern 44. In addition, the shape of the 1st land 76 is not restricted to the cyclic | annular form shown in FIG. The first land 76 only needs to have a shape that can contact each other with a second land 84 described later, and may be formed in a certain region having the through hole 45 in the center.

  As shown in FIGS. 8, 10, and 12, the end of the wiring pattern 56 formed on the outer peripheral portion of the surface of the circuit board 12 has, for example, a flat second land 84 (an example of an electrical connection terminal). ) Is provided. The second land 84 is electrically connected to the plurality of circuit components 58 via the wiring pattern 56. The shape of the second land 84 is not limited to the flat plate shape shown in FIG. The second land 84 may be in any shape that can contact the first land 76 and may be circular or annular.

  The light source board 10 and the circuit board 12 configured as described above are fixed to each other by the screws 66 and the nuts 72 as described above, so that the light source board 10 in the region 74 overlapped in the thickness direction as shown in FIG. The first land 76 and the second land 84 of the circuit board 12 can be brought into contact with each other. Thereby, the light source substrate 10 and the circuit board 12 are electrically connected to each other via the first land 76 and the second land 84 in the region 74 overlapping in the thickness direction.

[2-5. Effect]
As described above, the lighting fixture 2 according to the present embodiment includes the fixture main body 6 attached to the ceiling 4, the light source substrate 10 supported by the fixture main body 6, the LED 46 mounted on the light source substrate 10, and the light source substrate 10. The first land 76 electrically connected to the LED 46, the circuit board 12 disposed so as to overlap with a part of the light source board 10 in the thickness direction, and mounted on the circuit board 12 to light the LED 46. And a second land 84 provided on the circuit board 12 and electrically connected to the circuit component 58. The first land 76 and the second land 84 are electrically connected when the light source substrate 10 and the circuit substrate 12 are brought into contact with each other in a region 74 where they overlap each other in the thickness direction.

  Here, the light source substrate 10 is further provided with a through hole 45, and the LED 46 may be mounted on the main surface of the light source substrate 10 on the side opposite to the ceiling 4. In this case, the first land 76 may be provided in a region including the through hole 45 on the back surface opposite to the main surface of the light source substrate 10 and electrically connected to the light source via the through hole 45. Further, the circuit board 12 may be disposed at a position closer to the ceiling 4 than the light source board 10.

  According to these configurations, the first land 76 and the second land 84 can be electrically connected in the region 74 where the light source substrate 10 and the circuit substrate 12 overlap in the thickness direction. Thereby, when the lighting fixture 2 is assembled, the light source board 10 and the circuit board 12 can be electrically connected without performing a wiring operation for connecting the light source board 10 and the circuit board 12 with the lead wires. As a result, since the man-hours for assembling the lighting fixture 2 are reduced, the assembly efficiency of the lighting fixture 2 can be increased.

  The lighting fixture 2 may further include a screw 66 and a nut 72 that fix the light source board 10 and the circuit board 12 to each other in a region 74 where the light source board 10 and the circuit board 12 overlap in the thickness direction. .

  According to this configuration, the light source board 10 and the circuit board 12 are fixed to each other in the vicinity of the first land 76 and the second land 84 that are in contact with each other. Then, by tightening the screw 66 and the nut 72, the first land 76 and the second land 84 can be brought into contact with each other and maintained in contact with each other. Thereby, the light source board | substrate 10 and the circuit board 12 can be electrically connected stably. Further, the light source board 10 and the circuit board 12 are fixed to each other in a region 74 where the light source board 10 and the circuit board 12 overlap. Thereby, it is possible to suppress stress from being applied to each of the first land 76 and the second land 84 due to dimensional errors of the light source substrate 10 and the circuit substrate 12 and deformation due to aging.

  The lighting fixture 2 further includes a fixture attachment portion 8 for attaching the fixture body 6 to the ceiling 4. The circuit board 12 is arranged in a ring shape so as to surround the periphery of the instrument mounting portion 8. The light source board 10 is arranged in a ring shape so as to surround the circuit board 12, and a part of the outer peripheral part of the circuit board 12 and a part of the inner peripheral part of the light source board 10 overlap in the thickness direction. Has been placed.

  According to this structure, the lighting fixture 2 can be used as a ceiling light, for example.

  The lighting fixture 2 further includes a light source cover 18 that is disposed so as to cover the light source substrate 10 and has a light transmitting property, and an opaque circuit cover 16 that is disposed so as to cover the circuit board 12. The circuit cover 16 covers a region 74 where the light source substrate 10 and the circuit substrate 12 overlap in the thickness direction.

  According to this configuration, the first land 76 and the second land 84 arranged in the region 74 where the light source substrate 10 and the circuit substrate 12 overlap in the thickness direction are prevented from touching the user's eyes through the globe 20. It is possible to maintain the beauty of the lighting fixture 2.

(Modification 1)
Next, the structure of the lighting fixture 2B which concerns on the modification 1 is demonstrated, referring FIG. FIG. 13 is a cross-sectional view of the lighting fixture 2B schematically showing the structure of the lighting fixture 2B according to the first modification. In addition, in each modification shown below, the same code | symbol is attached | subjected to the component same as said embodiment, and the description is abbreviate | omitted.

  As shown in FIG. 13, in the lighting fixture 2B of this modification, the configuration of the fixture main body 6B is different from the fixture main body 6 shown in FIG. 10 described above, and the light source board 10 and the circuit board 12 are fixed to each other.

  Specifically, the instrument body 6B includes a ceiling mounting portion 28B, a first substrate support portion 32B, a second substrate support portion 94, a first tubular portion 96, and a second tubular portion 98. Yes. The first cylindrical portion 96 extends in a cylindrical shape while rising from the outer peripheral portion of the ceiling mounting portion 28B toward the light source substrate 10 side. The second substrate support portion 94 extends in a ring shape from the distal end portion of the first tubular portion 96 to the radially outer side of the instrument main body 6B. A screw hole 100 for screwing the screw 66 is formed in the second substrate support portion 94. The second cylindrical portion 98 extends in a cylindrical shape while rising from the outer peripheral portion of the second substrate support portion 94 toward the light source substrate 10 side. The first substrate support portion 32B extends in a ring shape from the distal end portion of the second cylindrical portion 98 further outward in the radial direction of the instrument body 6B. Each of the ceiling mounting portion 28B, the first substrate support portion 32B, and the second substrate support portion 94 is formed in a plane substantially parallel to the XY plane.

  As shown in FIG. 13, the outer peripheral portion of the circuit board 12 is supported by the second board support portion 94. That is, the outer peripheral portion on the back surface of the circuit board 12 is in surface contact with the second substrate support portion 94. In this state, the screws 66 are respectively inserted into the through holes 68 of the light source substrate 10 and the through holes 70 of the circuit board 12 and screwed into the screw holes 100 of the second substrate support portion 94, whereby the light source substrate. 10, the circuit board 12, and the instrument body 6B are fixed to each other. That is, in the region 74 where the light source board 10 and the circuit board 12 overlap in the thickness direction, the light source board 10, the circuit board 12, and the instrument body 6 </ b> B are fixed to each other by the screws 66.

  Thus, the screw 66 fixes the light source board 10, the circuit board 12, and the instrument body 6B to each other in the region 74 where the light source board 10 and the circuit board 12 overlap in the thickness direction.

  According to this configuration, when assembling the lighting fixture 2B, the fixing operation for fixing the light source board 10 and the circuit board 12 to each other and the fixing operation for fixing the light source board 10 and the circuit board 12 to the fixture body 6B are performed simultaneously. It can be carried out. As a result, the assembly efficiency of the lighting fixture 2B can be further increased.

(Modification 2)
Next, the configuration of a lighting fixture 2C according to Modification 2 will be described with reference to FIG. FIG. 14 is a cross-sectional view of a lighting fixture 2C schematically showing the structure of the lighting fixture 2C according to the second modification.

  As shown in FIG. 14, in the lighting fixture 2C of this modification, the structure of the fixture main body 6C is different from that of the first modification.

  Specifically, the arrangement interval in the Z-axis direction between the first substrate support portion 32B and the second substrate support portion 94C of the instrument body 6C is larger than the arrangement interval in the first modification. Furthermore, a holding portion 102 extending in a ring shape in the circumferential direction of the circuit board 12 is attached to the second substrate support portion 94C. The holding part 102 is made of an insulating material such as resin and has a screw hole 104. The circuit board 12 is supported by the second board support part 94 </ b> C via the holding part 102.

  The screws 66 are inserted into the through holes 68 of the light source board 10 and the through holes 70 of the circuit board 12 and are screwed into the screw holes 104 of the holding section 102, whereby the light source board 10, the circuit board 12, and the holding section. 102 are fixed to each other. That is, in the region 74 where the light source board 10 and the circuit board 12 overlap in the thickness direction, the light source board 10, the circuit board 12, and the holding unit 102 are fixed to each other by the screws 66. Note that the interval W between the surface of the first substrate support portion 32 </ b> B that is in surface contact with the light source substrate 10 and the surface of the holding portion 102 that is in surface contact with the circuit substrate 12 is substantially the same as the thickness of the circuit substrate 12.

  Thus, the lighting fixture 2 </ b> C further includes a holding unit 102 for holding the circuit board 12. The instrument body 6 </ b> C includes a first substrate support portion 32 </ b> B that supports the light source substrate 10, and a second substrate support portion 94 </ b> C that supports the circuit substrate 12 via the holding portion 102. The distance W between the surface of the first substrate support portion 32B that contacts the light source substrate 10 and the surface of the holding portion 102 that contacts the circuit substrate 12 is substantially the same as the thickness of the circuit substrate 12.

  According to this configuration, when the lighting fixture 2C is assembled, first, the circuit board 12 is supported by the second board support part 94C via the holding part 102, and then the light source board 10 is moved to the first board support part. 32B is supported. Thereby, the positioning in the Z-axis direction with respect to the instrument main body 6C of the light source board | substrate 10 and the circuit board 12 can be performed easily. As a result, the back surface of the light source substrate 10 can be brought into surface contact with the first substrate support portion 32B while securing the electrical connection between the light source substrate 10 and the circuit substrate 12.

  In this modification, the holding portion 102 is formed in a ring shape. However, the present invention is not limited to this. For example, a plurality of block-like holding portions 102 may be arranged at intervals in the circumferential direction of the circuit board 12. Good.

(Embodiment 3)
Next, the configuration of the lighting apparatus according to Embodiment 3 will be described with reference to FIG. FIG. 15 is a plan view showing a pair of light source substrate 10E and circuit substrate 12E extracted from the third embodiment.

  As shown in FIG. 15, in the lighting fixture of the present embodiment, the light source substrate 10 described in the first embodiment is divided into a pair of light source substrates 10E. Each of the pair of light source substrates 10E is formed in a semi-ring shape. A protruding piece 42E is formed on the inner peripheral portion 40E of each of the pair of light source substrates 10E so as to protrude radially inward of the light source substrate 10E.

  The pair of light source boards 10E are arranged in a ring shape so as to surround the circuit board 12E. Note that the pair of light source substrates 10E are disposed on substantially the same plane. The circuit board 12E includes a part of the outer peripheral part on the front surface side of the circuit board 12E and the protruding pieces 42E of each of the pair of light source boards 10E (that is, part of the inner peripheral part 40E on the back side of each of the pair of light source boards 10E). ) And are overlapped in the thickness direction. Accordingly, in the region 74E where the light source substrate 10E and the circuit board 12E overlap in the thickness direction, the light source substrate 10E and the circuit board 12E are fixed to each other by the screw 66 and the nut 72 (see FIG. 9), and the first The land 76 and the second land 84 are in contact with each other and are electrically connected.

  As described above, the lighting fixture further includes the fixture mounting portion 8 (see FIG. 1) for mounting the fixture body 6 (see FIG. 1) to the ceiling 4 (see FIG. 1). A pair of light source boards 10E are provided, and the circuit board 12E is arranged in a ring shape so as to surround the periphery of the fixture mounting portion 8. The pair of light source boards 10E are arranged in a ring shape so as to surround the periphery of the circuit board 12E, and a part of the outer peripheral part of the circuit board 12E and a part of the inner peripheral part of each of the pair of light source boards 10E. Are arranged so as to overlap each other in the thickness direction.

  According to this configuration, each of the pair of light source boards 10 </ b> E is electrically connected to the circuit board 12 </ b> E via the first land 76 and the second land 84. Accordingly, it is not necessary to overlap the pair of light source substrates 10E in the thickness direction, and the pair of light source substrates 10E can be arranged on substantially the same plane. As a result, each of the pair of light source substrates 10E can be brought into surface contact with the substrate support portion 32 (see FIG. 2), and a high heat dissipation effect can be obtained.

  Furthermore, the wiring pattern 44 of one light source board 10E is electrically connected to the wiring pattern 44 of the other light source board 10E via the wiring pattern 57 of the circuit board 12E. Thereby, the lead wire etc. for electrically connecting between a pair of light source substrates 10E can be omitted.

  Note that the same applies to the case where the light source substrate 10A described in the second embodiment is divided into a pair of light source substrates, and a description thereof will be omitted.

(Modification)
Next, the structure of the lighting fixture which concerns on this modification is demonstrated, referring FIG. FIG. 16 is a plan view showing a plurality of light source boards 10F and circuit boards 12F according to this modification.

  As shown in FIG. 16, in the lighting fixture of the present modification, the light source substrate 10 described in the first embodiment is divided into a plurality (four in the present modification) of light source substrates 10F. Each of the plurality of light source substrates 10F is formed in a substantially fan shape. Projection pieces 42F projecting radially inward of the light source substrate 10F are formed on the periphery of the inner peripheral portion 40F of each of the plurality of light source substrates 10F.

  The plurality of light source boards 10F are arranged in a ring shape so as to surround the circuit board 12F. The plurality of light source substrates 10F are arranged on substantially the same plane. The circuit board 12F includes a part of the outer peripheral part on the front surface side of the circuit board 12F and the protruding pieces 42F of each of the plurality of light source boards 10F (that is, a part of the inner peripheral part 40F on the back surface side of each of the plurality of light source boards 10F). ) And are overlapped in the thickness direction. Accordingly, the light source board 10F and the circuit board 12F are fixed to each other by the screw 66 and the nut 72 (see FIG. 9) in the region 74F where the light source board 10F and the circuit board 12F overlap each other, and the first land 76 is obtained. And the second land 84 are in contact with each other and are electrically connected. Therefore, also in the present modification, the same effect as described above can be obtained.

  Since the same applies to the case where the light source substrate 10A described in the second embodiment is divided into a plurality of light source substrates, the description thereof is omitted.

(Embodiment 4)
In the fourth embodiment, a procedure for manufacturing the light source substrate 10 and the circuit board 12 described in the first embodiment will be described with reference to FIGS. 17 and 18. The detailed configurations of the light source substrate 10 and the circuit substrate 12 are the same as those described in the first embodiment, and a description thereof will be omitted.

[4-1. Production of light source board and circuit board]
FIGS. 17 and 18 are diagrams for explaining a procedure for manufacturing the light source substrate 10 and the circuit substrate 12 according to the first embodiment.

  In the present embodiment, the light source substrate 10 and the circuit substrate 12 can be respectively produced from one square substrate 108 by the following procedure.

  First, as shown in FIG. 17, three cuts 110, 112 and 114 are formed in the substrate 108 by pressing the substrate 108.

  The notch 110 is formed in a circular shape in contact with each side of the substrate 108. The notch 112 is formed concentrically with the notch 110 and is formed in a circular shape having a diameter smaller than the diameter of the notch 110. The notch 114 is disposed between the notch 110 and the notch 112, and has an arcuate arc portion 114a and a U-shaped recess 114b.

  In the present embodiment, the notches 110 and 114 are formed in the substrate 108, the through holes 68G and the through holes 45G are formed, and unnecessary portions 116 on the outer peripheral portion of the substrate 108 are removed. The through holes 68G and the through holes 45G may be formed after pressing. Accordingly, as shown in FIG. 18, the outer periphery has a substantially circular shape, and the inner periphery has a substantially circular shape having a protrusion (projection piece 42G) having a shape corresponding to the recess 114b on the outer periphery of the circuit board 12G. The light source substrate 10G, that is, the ring-shaped light source substrate 10G can be manufactured. Next, a conductive member 77 (not shown) such as copper plating in the through hole 45G, a first land 76 (not shown) in a predetermined region including the through hole 45G on the back surface of the light source substrate 10G, and the surface of the light source substrate 10G A wiring pattern 44 (see FIG. 8) is formed on the wiring pattern 44, and electrical connection between the wiring pattern 44 and the first land 77 is formed. Then, a plurality of LEDs 46 (see FIG. 8) are mounted on the wiring pattern 44. In this way, the light source substrate 10 of the first embodiment is manufactured.

  Further, in this embodiment, the notches 112 and 114 are formed in the substrate 108, and the unnecessary portion 118 in the central portion of the substrate 108 is removed, thereby forming a recess in a part of the outer shape as shown in FIG. A circuit board 12 having a substantially circular shape having 114b (a recess corresponding to the recess 114b of the notch 114), that is, a ring-shaped circuit board 12 is manufactured. Next, after forming a wiring pattern (not shown) and a second land 84 (not shown) electrically connected to the wiring pattern on the surface of the circuit board 12G, a plurality of circuit components (not shown) are formed on the wiring pattern. Implement (not shown). In this way, the circuit board 12 of the first embodiment is manufactured.

  Since the light source board 10G and the circuit board 12G are cut out from a single board, at least one of the direction, interval, and thickness of the fibers constituting the light source board 10G and the circuit board 12G is substantially the same. It is. Moreover, the burr | flash at the time of cutting out from the one board | substrate 108 may remain in the end surface of the light source board | substrate 10G and the circuit board 12G at the time of planar view.

  When the light source board 10 and the circuit board 12 thus produced are arranged on the instrument body 6 (see FIG. 1), as shown in FIG. 18, the protrusions 42 of the light source board 10 and the outer periphery of the circuit board 12 The direction of each of the light source substrate 10 and the circuit substrate 12 is adjusted so that a portion of the portion where the recess 114b is not formed (a portion where the second land 84 is formed) overlaps in the thickness direction. In the present embodiment, as shown in FIG. 18, the protruding piece 42 of the light source substrate 10 is above the portion of the outer peripheral portion of the circuit board 12 where the second land 84 is formed (as viewed from the instrument body 6). Above, on the positive side of the Z-axis in the figure).

[4-2. Effect]
As described above, according to the present embodiment, the light source board 10 supported by the instrument body 6 and the circuit board 12 disposed so as to overlap a part of the light source board 10 in the thickness direction are provided. The shape of the outer periphery of the circuit board 12 when viewed in plan is substantially the same as the shape of the inner periphery of the light source board 10 when viewed in plan, and the light source board 10 and the circuit board 12 are cut out from a single board 108. Is formed.

  According to this configuration, the light source board 10 and the circuit board 12 can be formed from one board 108 at a time without waste, so that the number of assembling steps of the lighting fixture can be reduced and the assembling efficiency can only be increased. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Here, the shape of the outer periphery of the light source substrate 10 when viewed in plan is substantially circular, and the shape of the outer periphery of the circuit board 12 is substantially circular with a recess 114b in part, and the shape of the inner periphery of the light source substrate 10 May have a substantially circular shape having a protruding piece 42G having a shape corresponding to the concave portion 114b. In this case, the light source board 10 and the circuit board 12 overlap with the projecting piece 42 of the light source board 10 and the end of the outer peripheral part of the circuit board 12 that does not have the recess 11b, respectively. In such a case, the light source board 10G and the circuit board 12G include a region 74 that overlaps in the thickness direction.

  According to this configuration, the light source board 10 and the circuit board 12 can be formed from one board 108 at a time without waste, so that the number of assembling steps of the lighting fixture can be reduced and the assembling efficiency can only be increased. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  In addition, the LED 46 mounted on the light source board 10, the first land 76 provided on the light source board 10 G and electrically connected to the LED 46, and mounted on the circuit board 12, constitute a lighting circuit for lighting the LED 46. And a second land 84 provided on the circuit board 12 and electrically connected to the circuit component 58. The first land 76 and the second land 84 are electrically connected when the light source substrate 10 and the circuit substrate 12 are brought into contact with each other in a region 74 where they overlap each other in the thickness direction.

  Here, the fixture body 6 is attached to the ceiling 4, the light source substrate 10 is further provided with a through hole 45, and the LED 46 may be mounted on the main surface of the light source substrate 10 on the side opposite to the ceiling 4. In this case, the first land 76 is provided in a region including the through hole 45 on the back surface opposite to the main surface of the light source substrate 10, and may be electrically connected to the LED 46 through the through hole 45. Further, the circuit board 12 may be disposed at a position closer to the ceiling 4 than the light source board 10.

  According to these configurations, the first land 76 and the second land 84 can be electrically connected in a region where the light source substrate 10 and the circuit substrate 12 overlap in the thickness direction. Thereby, when the lighting fixture 2 is assembled, the light source board 10 and the circuit board 12 can be electrically connected without performing a wiring operation for connecting the light source board 10 and the circuit board 12 with the lead wires. As a result, since the man-hours for assembling the lighting fixture 2 are reduced, the assembly efficiency of the lighting fixture 2 can be increased.

  The lighting fixture 2 may further include a screw 66 and a nut 72 that fix the light source board 10 and the circuit board 12 to each other in a region 74 where the light source board 10 and the circuit board 12 overlap in the thickness direction. .

  According to this configuration, the light source board 10 and the circuit board 12 are fixed to each other in the vicinity of the first land 76 and the second land 84 that are in contact with each other. Then, by tightening the screw 66 and the nut 72, the first land 76 and the second land 84 can be brought into contact with each other and maintained in contact with each other. Thereby, the light source board | substrate 10 and the circuit board 12 can be electrically connected stably. Further, the light source board 10 and the circuit board 12 are fixed to each other in a region 74 where the light source board 10 and the circuit board 12 overlap. Thereby, it is possible to suppress stress from being applied to each of the first land 76 and the second land 84 due to dimensional errors of the light source substrate 10G and the circuit substrate 12G, deformation due to secular change, and the like.

  It should be noted that at least one of the direction, interval and thickness of the fibers constituting the light source board 10 and the circuit board 12 may be substantially the same, and the end faces of the light source board 10 and the circuit board 12 when viewed in plan view. In this case, burrs may remain when cut out from a single substrate 108.

  According to these configurations, it can be seen that the light source substrate 10 and the circuit substrate 12 are formed by being cut out from the single substrate 108.

  Note that the wiring pattern of the light source substrate 10G and the wiring pattern of the circuit substrate 12G may be collectively formed on the substrate 108 before dividing the square substrate 108 into the light source substrate 10G and the circuit substrate 12G. . Since the light source substrate 10G and the circuit board 12G have the wiring patterns arranged on the front and back sides, each wiring pattern may be designed so that one of the light source substrate 10G and the circuit board 12G can be used upside down. Thereby, each wiring pattern of the light source board | substrate 10G and the circuit board 12G can be collectively formed on the board | substrate 108. FIG.

(Modification)
In this modification, a procedure for manufacturing the light source substrate 10A and the circuit substrate 12A described in the second embodiment will be described with reference to FIGS. The detailed configuration of the light source board 10A and the circuit board 12A is as described above in the second embodiment, and thus description thereof is omitted.

[4-3. Production of light source board and circuit board]
FIG. 19 and FIG. 20 are diagrams for explaining a procedure for manufacturing the light source substrate 10A and the circuit substrate 12A according to the second embodiment, respectively. FIG. 19 is different from FIG. 17 in that the light source substrate 10H is not formed with a through hole as the light source substrate 10G has, and the other configurations are the same. 20, compared with FIG. 18, the protruding piece 42 of the light source substrate 10A is lower than the portion of the outer peripheral portion of the circuit board 12A where the recess 114b is not formed (below viewed from the instrument body 6, Z in the figure). It differs in that it is placed on the negative side of the shaft. The circuit board 12 has a second land 84 formed on the upper surface (the surface on the plus side of the Z axis shown in FIG. 18) in FIG. 18, and the circuit board 12A is formed on the lower surface (the Z axis shown in FIG. 20). The point that the second land 84A is formed on the negative surface is as described in the second embodiment.

  Also in this modification, the notches 110 and 114 are formed in the substrate 108, the through holes 68G are formed, and unnecessary portions 116 on the outer peripheral portion of the substrate 108 are removed. The through hole 68G may be formed after press working. As a result, as shown in FIG. 20, the outer periphery has a substantially circular shape, and the inner periphery has a substantially circular shape having a protrusion (projection piece 42G) having a shape corresponding to the outer periphery of the circuit board 12H. The light source substrate 10H, that is, the ring-shaped light source substrate 10H can be manufactured. Next, a first land 76A (not shown) is formed on the protruding piece 42G on the surface of the light source substrate 10H, and a wiring pattern 44 (see FIG. 8) is formed on the surface of the light source substrate 10H, and the wiring pattern 44 and the first land are formed. A plurality of LEDs 46 (see FIG. 8) are mounted on the wiring pattern 44 after the electrical connection with 77 is formed.

  Further, in this modification, the notches 112 and 114 are formed in the substrate 108, and the unnecessary portion 118 at the central portion of the substrate 108 is removed, thereby forming a recess 114b in a part of the outer shape as shown in FIG. A circuit board 12H having a substantially circular shape (that is, a recess corresponding to the recess 114b of the notch 114), that is, a ring-shaped circuit board 12H is manufactured. Next, after forming a wiring pattern (not shown) and a second land 84 electrically connected to the wiring pattern on the back surface of the circuit board 12H, a plurality of circuit components (not shown) are formed on the wiring pattern. Implement.

  When the light source board 10H and the circuit board 12H described above are arranged on the instrument main body 6 (see FIG. 1), as shown in FIG. 20, the protrusions 42H of the light source board 10H and the recesses in the outer peripheral part of the circuit board 12H. The orientation of each of the light source substrate 10H and the circuit substrate 12H is adjusted so that the portion where the 114b is not formed (the portion where the second land 84A is formed) overlaps in the thickness direction. In the present modification, as shown in FIG. 20, the portion of the outer peripheral portion of the circuit board 12H where the second land 84 is formed is above the protruding piece 42G of the light source board 10G (as viewed from the instrument body 6). , Arranged on the positive side of the Z-axis in the figure.

  Since the light source substrate 10H and the circuit board 12H are cut out from a single substrate, the front surface of the light source substrate 10H and the back surface of the circuit board 12H (or the back surface of the light source substrate 10H and the front surface of the circuit board 12H) are formed. At least one of the direction, interval, and thickness of the constituent fibers may be substantially the same. Further, burrs that are cut out from a single substrate 108 may remain on the end surfaces of the light source substrate 10H and the circuit substrate 12H in plan view.

[4-4. Effect]
As described above, according to the present embodiment, the light source board 10H supported by the instrument body 6 and the circuit board 12H arranged so as to overlap a part of the light source board 10H in the thickness direction are provided. The shape of the outer periphery of the circuit board 12H when viewed in plan is substantially the same as the shape of the inner periphery of the light source board 10H when viewed in plan, and the light source board 10H and the circuit board 12H are cut out from a single board 108. Is formed.

  According to this configuration, the light source board 10H and the circuit board 12H can be formed at a time from one board 108 without waste, so that it is possible to reduce the number of assembling steps of the lighting fixture and increase the assembling efficiency. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Here, the shape of the outer periphery of the light source substrate 10H when viewed in plan is substantially circular, and the shape of the outer periphery of the circuit board 12H is a substantially circular shape having a recess 114b in part, and the inner periphery of the light source substrate 10H. The shape may be a substantially circular shape having the protruding piece 42H having a shape corresponding to the concave portion 114b. In this case, the light source board 10H and the circuit board 12H overlap with the projecting piece 42H of the light source board 10H and the edge of the outer peripheral part of the circuit board 12H that is not provided with the recess 11b, respectively. In such a case, the light source substrate 10H and the circuit substrate 12H include a region (region 74) overlapping in the thickness direction.

  According to this configuration, the light source board 10H and the circuit board 12H can be formed at a time from one board 108 without waste, so that it is possible to reduce the number of assembling steps of the lighting fixture and increase the assembling efficiency. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Further, the LED 46 mounted on the light source board 10H, the first land 76 provided on the light source board 10H and electrically connected to the LED 46, and the circuit board 12H are mounted, and a lighting circuit for lighting the LED 46 is configured. And a second land 84 provided on the circuit board 12H and electrically connected to the circuit component 58. The first land 76 and the second land 84 are electrically connected to each other in the region 74 where the light source substrate 10H and the circuit substrate 12H are overlapped in the thickness direction.

  Here, the fixture body 6 is attached to the ceiling 4, the LED 46 is mounted on the main surface of the light source substrate 10H opposite to the ceiling 4, and the first land 76A is provided on the main surface of the light source substrate 10H. The LED 46 is electrically connected. In this case, the light source board 10H is disposed at a position closer to the ceiling 4 than the circuit board 12H.

  According to these configurations, the first land 76A and the second land 84A can be electrically connected in the region 74 where the light source substrate 10H and the circuit substrate 12H overlap in the thickness direction. Thereby, when assembling the lighting fixture 2A, the light source board 10H and the circuit board 12H can be electrically connected without performing a wiring operation for connecting the light source board 10H and the circuit board 12H with the lead wires. As a result, the number of assembling steps for the lighting fixture 2A is reduced, so that the assembly efficiency of the lighting fixture 2A can be increased.

  Other configurations and effects are the same as those described in the fourth embodiment, and a description thereof is omitted here.

(Embodiment 5)
In the fourth embodiment, the procedure for manufacturing the light source substrate 10 (10A) and the circuit board 12 (12A) of the first and second embodiments from one substrate 108 has been described. The shapes of the light source substrate and the circuit board to be manufactured are not limited to these. In the fifth embodiment, a procedure for manufacturing the light source substrate 10I and the circuit substrate 12I having different shapes from the light source substrate 10 and the circuit substrate 12 described in the first embodiment will be described with reference to FIGS. The light source board 10I and the circuit board 12I are the same as the light source board 10 and the circuit board 12 of the first embodiment except for the shape, and thus detailed description of the configuration is omitted.

[5-1. Production of light source board and circuit board]
FIG. 21 and FIG. 22 are diagrams for explaining a procedure for manufacturing the light source substrate 10I and the circuit substrate 12I according to the fifth embodiment, respectively.

  In the present embodiment, the light source substrate 10I and the circuit substrate 12I can be respectively produced from one square substrate 108 by the following procedure.

  First, as shown in FIG. 21, three cuts 110, 112, and 114I are formed in the substrate 108 by pressing the substrate 108.

  The notch 110 is formed in a circular shape in contact with each side of the substrate 108. The notch 112 is formed concentrically with the notch 110 and is formed in a circular shape having a diameter smaller than the diameter of the notch 110. The notch 114I is disposed between the notch 110 and the notch 112, and is formed in an elliptical shape having an arc portion 114c and a U-shaped recess 114d. In other words, the shape of the cut 114I is an ellipse having a recess 114d in a part of the outer peripheral portion in the minor axis direction.

  In the present embodiment, the notches 110 and 114I are formed in the substrate 108, the through holes 68I and the through holes 45I are further formed, and unnecessary portions 116 on the outer peripheral portion of the substrate 108 are removed. The through holes 68I and the through holes 45I may be formed after press working. As a result, as shown in FIG. 22, the outer periphery has a substantially circular shape, and the inner periphery has a substantially elliptical shape having a protrusion (projection piece 42I) having a shape corresponding to the recess 114b on the outer periphery of the circuit board 12G. A certain light source substrate 10I, that is, a ring-shaped light source substrate 10I can be manufactured. Next, a conductive member 77 (not shown) such as copper plating in the through hole 45I, a first land 76 (not shown) in a predetermined region including the through hole 45I on the back surface of the light source substrate 10I, and the surface of the light source substrate 10I A wiring pattern 44 (see FIG. 8) is formed on the wiring pattern 44, and electrical connection between the wiring pattern 44 and the first land 77 is formed. Then, a plurality of LEDs 46 (see FIG. 8) are mounted on the wiring pattern 44. In this way, the light source substrate 10I of the present embodiment is manufactured.

  Further, in this embodiment, the notches 112 and 114I are formed in the substrate 108, and unnecessary portions 118 in the central portion of the substrate 108 are removed, thereby forming a recess in a part of the outer shape as shown in FIG. A circuit board 12I having a substantially circular shape having 114d (a recess corresponding to the recess 114d of the notch 114), that is, a ring-shaped circuit board 12I is manufactured. Next, after forming a wiring pattern (not shown) and a second land 84 electrically connected to the wiring pattern on the surface of the circuit board 12I, a plurality of circuit components (not shown) are placed on the wiring pattern. Implement. In this way, the circuit board 12I of the present embodiment is manufactured.

  Since the light source board 10I and the circuit board 12I are cut out from a single board, at least one of the direction, interval and thickness of the fibers constituting the light source board 10I and the circuit board 12I is substantially the same. It is. Further, burrs that are cut out from a single substrate 108 may remain on the end surfaces of the light source substrate 10I and the circuit substrate 12I when viewed in plan.

  When the light source board 10I and the circuit board 12I thus manufactured are arranged on the instrument body 6 (see FIG. 1), as shown in FIG. 22, the protruding piece 42I of the light source board 10I and the outer periphery of the circuit board 12I. The direction of each of the light source substrate 10I and the circuit substrate 12I is adjusted so that a portion of the portion where the recess 114d is not formed (a portion where the second land 84 is formed) overlaps in the thickness direction. In the present embodiment, as shown in FIG. 22, the protruding piece 42I of the light source substrate 10I is above the portion of the outer periphery of the circuit substrate 12I where the second land 84 is formed (as viewed from the instrument body 6). Above, on the positive side of the Z-axis in the figure).

[5-2. Effect]
As described above, according to the present embodiment, the light source board 10 supported by the instrument body 6 and the circuit board 12I disposed so as to overlap a part of the light source board 10I in the thickness direction are provided. The shape of the outer periphery of the circuit board 12I when viewed in plan is substantially the same as the shape of the inner periphery of the light source board 10I when viewed in plan, and the light source board 10I and the circuit board 12I are cut out from a single board 108. Is formed.

  According to this configuration, the light source board 10I and the circuit board 12I can be formed from one board 108 at a time without waste, so that the number of assembling steps of the lighting fixture can be reduced and the assembling efficiency can be increased. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Here, the shape of the outer periphery of the light source substrate 10I when viewed in a plan view is substantially circular, and the shape of the outer periphery of the circuit board 12I is a substantially ellipse having a recess 114d in a part of the outer periphery in the minor axis direction. The shape of the inner periphery of the light source substrate 10I is a substantially ellipse having a protruding piece 42I having a shape corresponding to the recess 114d. In this case, the end of the outer peripheral portion in the major axis direction of the circuit board 12I and the protruding piece 42I of the light source board 10I are arranged so that the light source board 10I and the circuit board 12I overlap with each other. It includes a region where the circuit board 12I overlaps in the thickness direction.

  According to this configuration, the light source board 10I and the circuit board 12I can be formed from one board 108 at a time without waste, so that the number of assembling steps of the lighting fixture can be reduced and the assembling efficiency can be increased. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Other configurations and effects are the same as those described in the fourth embodiment, and a description thereof is omitted here.

(Modification)
In this modification, a procedure for manufacturing the light source substrate 10J and the circuit board 12J according to the modification of the fifth embodiment will be described with reference to FIGS. The detailed configuration of the light source board 10J and the circuit board 12J is the same as that of the light source board 10A and the circuit board 12A of the second embodiment except for the shape, and thus description thereof is omitted.

[5-3. Production of light source board and circuit board]
FIG. 23 and FIG. 24 are diagrams for explaining a procedure for manufacturing the light source substrate 10J and the circuit substrate 12J according to the modification of the fifth embodiment. FIG. 23 is different from FIG. 21 in that the light source substrate 10J is not formed with a through hole as the light source substrate 10I has, and the other configurations are the same. 24, compared with FIG. 22, the protruding piece 42I of the light source board 10J is below the portion of the outer peripheral part of the circuit board 12J where the recess 114d is not formed (below viewed from the instrument body 6, Z in the figure). It differs in that it is arranged on the positive side surface of the shaft. The circuit board 12I has a second land 84 formed on the upper surface (the surface on the plus side of the Z axis shown in FIG. 21) in FIG. 21, and the circuit board 12J is formed on the lower surface (the Z axis shown in FIG. 22). The point that the second land 84A is formed on the surface on the minus side is as described in the modification of the second embodiment and the fourth embodiment.

  Also in this modification, the notches 110 and 114I are formed in the substrate 108, the through holes 68I are further formed, and unnecessary portions 116 on the outer peripheral portion of the substrate 108 are removed. The through hole 68I may be formed after press working. As a result, as shown in FIG. 24, the outer periphery has a substantially circular shape, and the inner periphery has a substantially elliptical shape having a protrusion (projection piece 42I) having a shape corresponding to the recess 114d on the outer periphery of the circuit board 12J. A certain light source substrate 10J, that is, a ring-shaped light source substrate 10J can be manufactured. Next, a first land 76A (not shown) is formed on the protruding piece 42I on the surface of the light source substrate 10J, and a wiring pattern 44 (see FIG. 8) is formed on the surface of the light source substrate 10J, and the wiring pattern 44 and the first land are formed. After the conduction with 77A is formed, a plurality of LEDs 46 (see FIG. 8) are mounted on the wiring pattern 44.

  Further, in this modification, the notches 112 and 114I are formed in the substrate 108, and the unnecessary portion 118 in the central portion of the substrate 108 is removed, thereby forming a recess 114d in a part of the outer shape as shown in FIG. A circuit board 12J having a substantially oval shape, that is, a ring-shaped circuit board 12J is produced. Next, after forming a wiring pattern (not shown) and a second land 84A in electrical connection with the wiring pattern on the back surface of the circuit board 12J, a plurality of circuit components (not shown) are placed on the wiring pattern. Implement.

  When the light source board 10J and the circuit board 12J described above are arranged on the instrument main body 6 (see FIG. 1), as shown in FIG. 24, the protrusion 42I of the light source board 10J and the concave portion of the outer peripheral portion of the circuit board 12J. The orientation of each of the light source substrate 10J and the circuit substrate 12J is adjusted so that the portion where the 114d is not formed (the portion where the second land 84A is formed) overlaps in the thickness direction. In the present modification, as shown in FIG. 24, the portion of the outer peripheral portion of the circuit board 12J where the second land 84 is formed is above the protrusion 42I of the light source board 10J (as viewed from the instrument body 6). , Arranged on the positive side of the Z-axis in the figure.

  Since the light source board 10J and the circuit board 12J are cut out from a single board, the front surface of the light source board 10J, the back surface of the circuit board 12J (or the back surface of the light source board 10J), and the front surface of the circuit board 12J. ) At least one of the direction, the interval and the thickness of the fibers constituting the fiber is substantially the same. Moreover, the burr | flash at the time of cutting out from the one board | substrate 108 may remain in the end surface of the light source board | substrate 10J and the circuit board 12J at the time of planar view.

[5-4. Effect]
As described above, according to the present embodiment, the light source board 10J supported by the instrument body 6 and the circuit board 12J arranged so as to overlap a part of the light source board 10J in the thickness direction are provided. The shape of the outer periphery of the circuit board 12J when viewed in plan is substantially the same as the shape of the inner periphery of the light source board 10J when viewed in plan, and the light source board 10J and the circuit board 12J are cut out from a single board 108. Is formed.

  According to this configuration, the light source board 10J and the circuit board 12J can be formed at a time from one board 108 without waste, so that the number of assembling steps of the lighting fixture can be reduced and the assembling efficiency can be increased. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Here, the shape of the outer periphery of the light source substrate 10J when viewed in a plan view is substantially circular, and the shape of the outer periphery of the circuit board 12J is a substantially ellipse having a recess 114b in a part of the outer periphery in the minor axis direction. The shape of the inner periphery of the light source substrate 10J is a substantially ellipse having a protruding piece 42I having a shape corresponding to the recess 114d. In this case, the end of the outer peripheral portion in the major axis direction of the circuit board 12J and the protrusion 42I of the light source board 10J are arranged so that the light source board 10J and the circuit board 12J overlap each other. And a region where the circuit board 12J overlaps in the thickness direction.

  According to this configuration, the light source board 10J and the circuit board 12I can be formed from one board 108 at a time without waste, so that the number of man-hours for assembling the lighting fixture can be reduced and the assembling efficiency can be increased. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Since other configurations and effects are the same as those described in the modification of the fourth embodiment, description thereof is omitted here.

(Embodiment 6)
In the sixth embodiment, referring to FIGS. 25 and 26, the light source substrate 10 </ b> K and the circuit substrate 12 </ b> K that are different examples from the light source substrate 10 and the circuit substrate 12 described in the first embodiment are manufactured. Will be described. The light source board 10K and the circuit board 12K are the same as the light source board 10 and the circuit board 12 of the first embodiment except for the shape, and thus detailed description of the configuration is omitted.

[6-1. Production of light source board and circuit board]
FIG. 25 and FIG. 26 are diagrams for explaining a procedure for manufacturing the light source substrate 10K and the circuit substrate 12K according to the sixth embodiment, respectively.

  In the present embodiment, the light source substrate 10K and the circuit board 12K can be respectively produced from one square substrate 108 by the following procedure.

  First, as shown in FIG. 25, three cuts 110, 112, and 114 </ b> K are formed in the substrate 108 by pressing the substrate 108.

  The notch 110 is formed in a circular shape in contact with each side of the substrate 108. The notch 112 is formed concentrically with the notch 110 and is formed in a circular shape having a diameter smaller than the diameter of the notch 110. The notch 114K is disposed between the notch 110 and the notch 112, and has a substantially elliptical shape having a major-arc arc portion 114e and a minor-axis arc portion 114f.

  In the present embodiment, the notches 110 and 114K are formed in the substrate 108, the through holes 68K and the through holes 45K are formed, and unnecessary portions 116 on the outer peripheral portion of the substrate 108 are removed. The through holes 68K and the through holes 45K may be formed after press working. As a result, as shown in FIG. 26, it is possible to manufacture a light source substrate 10K, that is, a ring-shaped light source substrate 10I whose outer peripheral shape is substantially circular and whose inner peripheral shape is substantially oval. Next, a conductive member 77 (not shown) such as copper plating in the through hole 45K, a first land 76 (not shown) in a predetermined region including the through hole 45K on the back surface of the light source substrate 10K, and the surface of the light source substrate 10K. A wiring pattern 44 (see FIG. 8) is formed on the wiring pattern 44, and electrical connection between the wiring pattern 44 and the first land 77 is formed. Then, a plurality of LEDs 46 (see FIG. 8) are mounted on the wiring pattern 44. In this way, the light source substrate 10K of the present embodiment is manufactured.

  Further, in the present embodiment, by forming the notches 112 and 114K in the substrate 108 and removing the unnecessary portion 118 at the center of the substrate 108, as shown in FIG. A ring-shaped circuit board 12K is produced. Next, after forming a wiring pattern (not shown) and a second land 84 electrically connected to the wiring pattern on the surface of the circuit board 12K, a plurality of circuit components (not shown) are formed on the wiring pattern. Implement. In this way, the circuit board 12K of the present embodiment is manufactured.

  Since the light source board 10K and the circuit board 12K are cut out from a single board, at least one of the direction, interval and thickness of the fibers constituting the light source board 10K and the circuit board 12K is approximately Are the same. Further, burrs that are cut out from one substrate 108 may remain on the end surfaces of the light source substrate 10K and the circuit substrate 12K when viewed in plan.

  When the light source board 10K and the circuit board 12K thus manufactured are arranged on the instrument body 6 (see FIG. 1), as shown in FIG. 26, the end part in the short axis direction of the inner peripheral part of the light source board 10K. And the orientation of each of the light source substrate 10K and the circuit substrate 12K are adjusted so that the end in the major axis direction of the outer periphery of the circuit substrate 12K (the portion where the second land 84 is formed) overlaps in the thickness direction. To do. In the present embodiment, as shown in FIG. 26, the end portion in the short axis direction of the inner peripheral portion of the light source substrate 10K is the end portion in the long axis direction of the outer peripheral portion of the circuit board 12K (the second land 84 is formed). (The portion on the plus side of the Z-axis in the figure).

[6-2. Effect]
As described above, according to the present embodiment, the light source board 10K supported by the instrument body 6 and the circuit board 12K disposed so as to overlap a part of the light source board 10K in the thickness direction are provided. The shape of the outer periphery of the circuit board 12K when viewed in plan is substantially the same as the shape of the inner periphery of the light source board 10K when viewed in plan, and the light source board 10K and the circuit board 12K are cut out from a single board 108. Is formed.

  According to this configuration, the light source board 10K and the circuit board 12K can be formed at a time from one board 108 without waste, so that the number of assembling steps of the lighting fixture can be reduced and the assembling efficiency can be increased. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Here, the shape of the outer periphery of the light source substrate 10K when viewed in plan is substantially circular, and the shape of the outer periphery of the circuit board 12K and the shape of the inner periphery of the light source substrate 10K are substantially elliptical. In this case, the light source board 10K and the circuit board 12K are arranged so that the end part in the major axis direction of the outer peripheral part of the circuit board 12K and the end part of the inner peripheral part in the short axis direction of the light source board 10K overlap each other. In this case, the light source substrate 10K and the circuit substrate 12K include a region that overlaps in the thickness direction.

  According to this configuration, the light source board 10K and the circuit board 12K can be formed at a time from one board 108 without waste, so that the number of assembling steps of the lighting fixture can be reduced and the assembling efficiency can be increased. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Other configurations and effects are the same as those described in the fourth embodiment, and a description thereof is omitted here.

(Modification)
In this modification, a procedure for manufacturing the light source substrate 10L and the circuit board 12L according to the modification of the sixth embodiment will be described with reference to FIGS. The detailed configuration of the light source board 10L and the circuit board 12L is the same as that of the light source board 10A and the circuit board 12A of the second embodiment except for the shape, and thus detailed description of the configuration is omitted.

[6-3. Production of light source board and circuit board]
FIG. 27 and FIG. 28 are diagrams for explaining the procedure for manufacturing the light source substrate 10L and the circuit substrate 12L according to the modification of the sixth embodiment. Note that FIG. 27 differs from FIG. 25 in that the light source substrate 10L is not formed with a through-hole that the light source substrate 10K has, and the other configurations are the same. 28, compared with FIG. 26, the end of the inner peripheral portion in the short axis direction of the light source substrate 10L is the end portion in the long axis direction of the outer peripheral portion of the circuit board 12L (below viewed from the instrument body 6, It differs in that it is arranged on the negative side of the Z-axis). 26, the second land 84 is formed on the upper surface (the surface on the plus side of the Z axis shown in FIG. 26), and the circuit board 12L is formed on the lower surface (the Z axis shown in FIG. 28). The point that the second land 84A is formed on the surface on the minus side is as described in the modification of the second embodiment and the fourth embodiment.

  Also in this modification, the notches 110 and 114L are formed in the substrate 108, the through holes 68L are further formed, and unnecessary portions 116 on the outer peripheral portion of the substrate 108 are removed. The through hole 68L may be formed after press working. Thus, as shown in FIG. 28, the outer peripheral shape is substantially circular, and the inner peripheral shape is a light source substrate 10L that is an elliptical shape corresponding to the outer periphery of the circuit board 12L, that is, a ring-shaped light source substrate 10L. can do. Next, a first land 76A (not shown) is formed on the protruding piece 42I on the surface of the light source substrate 10L, and a wiring pattern 44 (see FIG. 8) is formed on the surface of the light source substrate 10L, and the wiring pattern 44 and the first land are formed. After the conduction with 77A is formed, a plurality of LEDs 46 (see FIG. 8) are mounted on the wiring pattern 44.

  Further, in this modification, by forming the notches 112 and 114L in the substrate 108 and removing the unnecessary portion 118 at the center of the substrate 108, as shown in FIG. A ring-shaped circuit board 12L is produced. Next, after forming a wiring pattern (not shown) and a second land 84A in electrical connection with the wiring pattern on the back surface of the circuit board 12L, a plurality of circuit components (not shown) are placed on the wiring pattern. Implement.

  When the light source board 10L and the circuit board 12L described above are arranged on the instrument main body 6 (see FIG. 1), as shown in FIG. 28, the end part in the short axis direction of the inner periphery of the light source board 10L, and the circuit board The orientation of each of the light source substrate 10L and the circuit substrate 12L is adjusted so that the end in the major axis direction of the outer peripheral portion of 12L (the portion where the second land 84 is formed) overlaps in the thickness direction. In this modification, as shown in FIG. 28, the end in the short axis direction of the inner peripheral portion of the light source substrate 10L is lower than the end in the long axis direction of the outer peripheral portion of the circuit board 12L (as viewed from the instrument body 6). Below, it is arranged on the negative side of the Z-axis in the figure.

  Since the light source board 10L and the circuit board 12L are cut out from a single board, the front surface of the light source board 10L and the back surface of the circuit board 12L (or the back surface of the light source board 10L and the front surface of the circuit board 12L) At least one of the direction, the interval and the thickness of the fibers constituting the fiber is substantially the same. Moreover, the burr | flash when it cuts out from the board | substrate 108 of the light source board | substrate 10L and the circuit board 12L at the time of planar view may remain.

[6-4. Effect]
As described above, according to the present embodiment, the light source board 10L supported by the instrument body 6 and the circuit board 12L arranged to overlap with a part of the light source board 10L in the thickness direction are provided. The shape of the outer periphery of the circuit board 12L when viewed in plan is substantially the same as the shape of the inner periphery of the light source board 10L when viewed in plan, and the light source board 10L and the circuit board 12L are cut out from a single board 108. Is formed.

  According to this configuration, the light source board 10L and the circuit board 12L can be formed at a time from one board 108 without waste, so that it is possible to reduce the man-hours for assembling the lighting fixture and increase the assembling efficiency. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Here, the shape of the outer periphery of the light source substrate 10L when viewed in plan is substantially circular, and the shape of the outer periphery of the circuit board 12L and the shape of the inner periphery of the light source substrate 10L are substantially elliptical. In this case, the light source board 10L and the circuit board 12L are arranged so that the end part in the major axis direction of the outer peripheral part of the circuit board 12L and the end part of the inner peripheral part in the minor axis direction of the light source board 10L overlap each other. In this case, the light source board 10L and the circuit board 12L include a region where they overlap in the thickness direction.

  According to this configuration, the light source board 10L and the circuit board 12L can be formed at a time from one board 108 without waste, so that it is possible to reduce the man-hours for assembling the lighting fixture and increase the assembling efficiency. Therefore, the substrate 108 can be used without waste, and the cost can be reduced.

  Since other configurations and effects are the same as those described in the modification of the fourth embodiment, description thereof is omitted here.

(Other embodiments, etc.)
While the present invention has been described based on the embodiments and their modifications, the present invention is not limited to the above-described embodiments and modifications. For example, you may combine each said embodiment and each modification suitably.

  For example, in Embodiments 4 to 6 described above, the case where there is one light source substrate has been described for the sake of simplicity, but the present invention is not limited thereto. As described in the third embodiment and the modification of the third embodiment, the light source substrate may be composed of a pair or a plurality of light source substrates. In this case, in addition to the notches 110, 112, 114 (114I, 114K), the light source substrate 12 (12A, 12I, 12J, 12K, 12L) and a circuit board can be formed by cutting out one substrate 108.

  Further, for example, in each of the above-described embodiments, the case where the construction material to which the lighting fixture 2 (2A, 2B, 2C, 2D) is attached is the ceiling 4, but is not limited thereto, and the construction material is, for example, You may comprise with an iron pillar etc. In this case, the lighting fixture 2 (2A, 2B, 2C, 2D) is comprised by a crime prevention light etc., for example.

  For example, in each of the above embodiments, the back surface of the light source substrate 10 (10A, 10E, 10F, 10G) is brought into surface contact with the substrate support portion 32 (first substrate support portion 32B). Instead, a heat conductive sheet, silicon grease, or the like may be interposed between the light source substrate 10 (2A, 10E, 10F, 10G) and the substrate support portion 32 (first substrate support portion 32B).

  For example, in each of the above embodiments, the fixing member that fixes the light source substrate 10 (10A, 10E, 10F, 10G) and the circuit substrate 12 (12A, 12E, 12F, 12G) to each other is the screw 66 and the nut 72. Although a certain case has been described, the present invention is not limited to this, and for example, the fixing member may be constituted by a rivet or a bolt.

  In each of the above-described embodiments and the like, the mounting structure of the light source substrate 10 (2A, 10E, 10F, 10G) is the SMD structure. However, the present invention is not limited to this, and for example, the LED chip is replaced with the light source substrate 10 (10A, 10E, 10F, It may be a COB (Chip On Board) structure directly mounted on 10G).

  In addition, it is realized by arbitrarily combining the components and functions in each embodiment without departing from the scope of the present invention, or the form obtained by making various modifications conceived by those skilled in the art to the above embodiment. Forms are also included in the present invention.

6 instrument body 10 light source substrate 12 circuit substrate 58 circuit component 74 area 108 substrate

Claims (11)

A light source substrate supported by the instrument body;
A circuit board disposed so as to overlap a part of the light source board in the thickness direction;
In the region where the light source board and the circuit board overlap in the thickness direction, the light source board and the circuit board are electrically connected,
The shape of the outer periphery of the circuit board when viewed in plan is substantially the same as the shape of the inner periphery of the light source substrate when viewed in plan.
lighting equipment. The light source board and the circuit board are formed by cutting out from one board.
The lighting fixture according to claim 1. The shape of the outer periphery of the light source substrate when viewed in plan is substantially circular,
The shape of the outer periphery of the circuit board is a substantially circular shape having a recess in part.
The shape of the inner periphery of the light source substrate is a substantially circular shape having a protruding portion having a shape corresponding to the concave portion,
The protruding portion of the light source substrate and the end portion of the outer peripheral portion of the circuit board that is the end portion of the circuit board that does not have the concave portion are arranged so as to overlap the light source substrate and the Including a region where the circuit board overlaps the thickness direction,
The lighting fixture according to claim 2. The shape of the outer periphery of the light source substrate when viewed in plan is substantially circular,
The shape of the outer periphery of the circuit board and the shape of the inner periphery of the light source substrate are substantially elliptical,
When the end portion of the outer peripheral portion in the major axis direction of the circuit board and the end portion in the minor axis direction of the inner peripheral portion of the light source substrate are arranged so as to overlap each other, the light source substrate and the circuit board Including a region overlapping in the thickness direction,
The lighting fixture according to claim 2. The shape of the outer periphery of the light source substrate when viewed in plan is substantially circular,
The shape of the outer periphery of the circuit board is a substantially oval having a recess in a part of the outer peripheral portion in the minor axis direction
The shape of the inner periphery of the light source substrate is a substantially ellipse having a protruding portion having a shape corresponding to the concave portion,
The end of the outer peripheral portion in the major axis direction of the circuit board and the protruding part of the light source board each include a region where the light source board and the circuit board overlap in the thickness direction when arranged so as to overlap each other. ,
The lighting fixture according to claim 2. A light source mounted on the light source substrate;
A first land provided on the light source substrate and electrically connected to the light source;
Circuit components mounted on the circuit board and constituting a lighting circuit for lighting the light source,
A second land provided on the circuit board and electrically connected to the circuit component;
The first land and the second land are electrically connected to each other in a region where the light source substrate and the circuit substrate overlap in the thickness direction.
The lighting fixture of any one of Claims 2-5. The lighting fixture further includes a fixing member that fixes the light source board and the circuit board to each other in the region where the light source board and the circuit board overlap in the thickness direction.
The lighting fixture according to claim 6. The instrument body is attached to a construction material,
The light source substrate is further provided with a through hole,
The light source is mounted on the main surface of the light source substrate opposite to the construction material,
The first land is provided in a region including the through hole on the back surface opposite to the main surface of the light source substrate, and is electrically connected to the light source through the through hole,
The circuit board is disposed at a position closer to the construction material than the light source board.
The lighting fixture according to claim 6 or 7. The instrument body is attached to a construction material,
The light source is mounted on the main surface of the light source substrate opposite to the construction material,
The first land is provided on the main surface of the light source substrate and is electrically connected to the light source,
The light source board is disposed at a position closer to the construction material than the circuit board.
The lighting fixture according to claim 6 or 7. At least one of the direction, interval and thickness of the fibers constituting the light source substrate and the circuit board is substantially the same.
The lighting fixture of any one of Claims 2-9. In the end face of the light source substrate and the circuit board when viewed in plan, burrs when cut out from the one substrate remain,
The lighting fixture of any one of Claims 2-10.

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