JP2020035622A - Power supply device, luminaire and lighting fixture - Google Patents

Abstract

To provide a power supply device capable of reducing interference between the power supply device and an external component in the case where the external component is arranged being overlapped with the power supply device.SOLUTION: A power supply device 1 includes a substrate 19 and a case 18. The case 18 stores the substrate 19. One main surface 19a of the substrate 19 has a first region 19c and a second region 19d. In the first region 19c, a tall component 29a is mounted. In the second region 19d, the tall component 29a is not mounted. The case 18 has an opposing wall part 51. The opposing wall part 51 opposes the one main surface 19a. The opposing wall part 51 has a first portion 54 and a second portion 55. The first portion 54 corresponds to the first region 19c. The second portion 55 corresponds to the second region 19d. An interval H5 from the substrate 19 to the first portion 54 is larger than an interval H6 from the substrate 19 to the second portion 55. The first region 19c and the second region 19d are arranged side by side in the shorter direction of the substrate 19, and extends along the longer direction of the substrate 19.SELECTED DRAWING: Figure 4

Description

  The present disclosure relates to a power supply device, a lighting device, and a lighting apparatus, and more particularly, to a power supply device having a substrate on which circuit components including high-profile components are mounted, a lighting device including the power supply device, and the lighting device. Lighting equipment.

  The lighting fixture described in Patent Literature 1 includes a lighting device and a fixture main body to which the lighting device is attached. The lighting device includes a power supply device. The fixture body has a connector for electrically connecting to the lighting device. The mounting direction of the lighting device to the fixture body is determined. For example, in the lighting device, in a state where the longitudinal direction of the lighting device and the longitudinal direction of the lighting device body are aligned with respect to the lighting device body, the direction in which the power supply device and the connector are arranged on the opposite sides in the longitudinal direction of the lighting device body ( Mounting direction). In a state where the lighting device is attached to the fixture body according to the attaching direction, the power supply device and the connector are arranged without interfering with each other.

JP-A-2006-51651

  In the lighting device described in Patent Literature 1, when the mounting direction is reversed and the lighting device is mounted on the lighting device main body, the connector (external component) is arranged to overlap the power supply device. For this reason, the power supply device and the connector interfered with each other.

  An object of the present disclosure is to provide a power supply device capable of reducing interference between the power supply device and the external component when the external component is arranged to overlap with the power supply device, a lighting device including the power supply device, and a lighting apparatus including the lighting device. It is to provide.

  A power supply device according to an aspect of the present disclosure includes a substrate and a case. The board has one main surface, and a circuit component including a tall component is mounted on the one main surface. The case houses the substrate. The one main surface of the substrate has a first region and a second region. The tall component is mounted in the first area. The tall component is not mounted in the second area. The case has an opposing wall. The facing wall portion faces the one main surface. The opposing wall has a first portion and a second portion. The first region corresponds to the first region. The second region corresponds to the second region. An interval between the one main surface and the first portion is larger than an interval between the one main surface and the second portion. The substrate has a longitudinal direction and a lateral direction. The first region and the second region are arranged in the lateral direction of the substrate and extend along the longitudinal direction of the substrate.

  A lighting device according to an embodiment of the present disclosure includes the power supply device according to the embodiment and a lamp. The lamp emits light with electric power supplied from the power supply device.

  A lighting device according to an embodiment of the present disclosure includes the lighting device according to the embodiment and a device main body. The fixture body supports the lighting device.

  The power supply device, the lighting device, and the lighting device according to an embodiment of the present disclosure have an effect that interference between the power supply device and the external component can be reduced even when the external component is arranged to overlap the power supply device.

FIG. 1 is an exploded perspective view showing the lighting fixture according to the first embodiment. FIG. 2 is a side view showing a light source unit included in the above lighting apparatus, viewed from the longitudinal direction with a part of a cover and a power supply device omitted. FIG. 3A is a plan view showing the lighting fixture in a case where the light source unit is attached to the fixture main body in a regular attaching direction, and is a perspective view of the inside from the upper side. FIG. 3B is a sectional view taken along line AA of FIG. 3A. FIG. 4 is a partially enlarged view of the light source unit of FIG. 3B. FIG. 5 is a partially enlarged view of the device main body of FIG. 3B. FIG. 6 is an exploded perspective view for explaining an attachment procedure for attaching the light source unit to the fixture body in a normal attachment direction. FIGS. 7A and 7B are cross-sectional views illustrating a procedure for attaching the light source unit to the fixture body in a regular attaching direction. FIG. 8 is an exploded perspective view illustrating an attachment procedure for attaching the light source unit to the appliance body in the opposite attachment direction. FIG. 9A and FIG. 9B are cross-sectional views illustrating an attachment procedure for attaching the light source unit to the appliance body in the opposite attachment direction. FIG. 10A is a plan view showing the lighting fixture when the light source unit is attached to the fixture main body in the opposite attaching direction, and the inside is seen through from above. FIG. 10B is a sectional view taken along line BB of FIG. 10A. FIG. 11A is an exploded cross-sectional view of the lighting apparatus according to Modification 1 as viewed in a cross section orthogonal to the longitudinal direction. FIG. 11B is a sectional view showing an assembled state of the lighting fixture. FIG. 12 is a cross-sectional view of a power supply case of a lighting apparatus according to Modification 2 as viewed in a cross section orthogonal to the longitudinal direction. FIG. 13A is a cross-sectional view of a power supply case of a lighting device according to Modification 3 as seen in a cross section orthogonal to the longitudinal direction. FIG. 13B is a cross-sectional view of the above lighting device in a cross section orthogonal to the longitudinal direction.

  Hereinafter, embodiments of a power supply device, a lighting device, and a lighting device according to an embodiment of the present disclosure will be described in detail with reference to the drawings. However, the drawings described in the following embodiments are schematic diagrams, and the ratio of the size and thickness of each component does not necessarily reflect the actual dimensional ratio. Note that the configuration described in the following embodiment is merely an example of the present disclosure. The present disclosure is not limited to the following embodiments, and various modifications can be made according to the design and the like as long as the effects of the present disclosure can be obtained.

(Embodiment 1)
As shown in FIG. 1, the lighting fixture 6 of the present embodiment includes a light source unit 2 (illumination device) and a fixture main body 4 that supports the light source unit 2. The light source unit 2 is detachably attached to an instrument body 4 which is directly attached to a ceiling 9 as shown in FIG. However, the appliance body 4 may be embedded in the ceiling 9, may be directly attached to a wall, or may be embedded in a wall. In the following description, up and down, left and right, and front and rear directions of the light source unit 2 and the instrument main body 4 are defined in the directions indicated by arrows in FIG.

  The appliance body 4 is fixed to the suspension bolt 90 by a nut 91 and is directly attached to the ceiling 9. The light source unit 2 is detachably attached to the instrument body 4.

  The light source unit 2 is attached to the fixture body 4 such that the longitudinal direction of the light source unit 2 and the longitudinal direction of the fixture body 4 match.

  The apparatus main body 4 is formed in a long box shape by bending a sheet metal to have a long and flat upper surface (a surface facing the ceiling 9). On the side (lower side) opposite to the ceiling 9 of the instrument body 4, a rectangular concave portion 40 for accommodating the light source unit 2 is provided over the entire length of the instrument body 4 in the longitudinal direction (left-right direction). Inclined portions 41 are provided on both sides of the concave portion 40 in the lateral direction (front-back direction) of the instrument body 4. The inclined portion 41 extends from the opening edge of the concave portion 40 in the short direction (front-back direction) of the instrument body 4 and is inclined upward and outward.

  The concave portion 40 has a bottom plate 42 formed in a long rectangular plate shape, and a pair of side plates 43 protruding downward from both ends (front end and rear end) along the longitudinal direction of the bottom plate 42. In the bottom plate 42 of the recess 40, a hole 420 for passing the power supply line 92 is provided substantially at the center in the longitudinal direction (left-right direction). Further, the bottom plate 42 is provided with holes 421 for passing the suspension bolts 90 at positions near both ends in the longitudinal direction (left-right direction). A terminal block 44 is provided on the lower surface of the bottom plate 42.

  The terminal block 44 is provided at a predetermined position (predetermined portion) on the lower surface of the bottom plate 42. In the present embodiment, the terminal block 44 is provided on the bottom plate 42 at a position displaced from a center position in the longitudinal direction (left-right direction) to one end (for example, a right end) of both ends in the longitudinal direction. ing. Terminal block 44 is electrically connected to power supply line 92. Three electric wires 440 including a ground wire are drawn from the terminal block 44. Further, a connector 441 is electrically connected to the ends of these three electric wires 440. The power supply line 92 is connected to an external AC power supply (for example, a commercial AC system). When the connector 441 is connected to the light source unit 2, AC power is supplied from the power supply line 92 to the light source unit 2 via the connector 411. Supplied.

  As shown in FIG. 5, the instrument body 4 has a pair of hook holes 430A, a pair of spring receiving members 431A, a pair of hook holes 430B, and a pair of spring receiving members 431B. FIG. 5 shows only one of the pair of hook holes 430A. Similarly, only one pair of spring receivers 431A, one pair of hook holes 430B, and one pair of spring receivers 431B are shown. The pair of hook holes 430 </ b> A are holes into which a pair of hooks 214 (see FIG. 1) of the light source unit 2, which will be described later, are hooked when the light source unit 2 is mounted in the concave portion 40 of the instrument main body 4 in a normal mounting direction. The pair of spring receivers 431B is a portion where the tips of the pair of hook springs 215 (see FIG. 1) of the light source unit 2 are hooked when the light source unit 2 is mounted in the concave portion 40 of the instrument body 4 in a proper mounting direction. is there. The pair of spring receivers 431A is a portion on which the distal ends of a pair of hook springs 215 described later of the light source unit 2 are hooked when the light source unit 2 is attached to the concave portion 40 of the instrument body 4 in the opposite attaching direction. The pair of hook holes 430 </ b> B are holes in which the pair of hooks 214 of the light source unit 2 are hooked when the light source unit 2 is attached to the concave portion 40 of the instrument body 4 in the opposite mounting direction. The opposite mounting direction is a mounting direction opposite to the normal mounting direction. The normal mounting direction means that the terminal block 44 of the appliance main body 4 and the power supply device 1 of the light source unit 2 are disposed on opposite sides of the center of the appliance main body 4 in the longitudinal direction (left-right direction) of the appliance main body 4. Mounting direction. The light source unit 2 includes a lamp 20 and a power supply device 1 as shown in FIGS. 1 and 2. The power supply device 1 is a device that converts AC power supplied from the connector 441 of the appliance body 4 into DC power and supplies the DC power to the lamp 20. The lamp 20 is a device that receives the power from the power supply device 1 and emits illumination light. The lighting device 20 includes a plurality (for example, two) of LED (Light Emitting Diode) modules 22, a mounting member 21, and a cover 23.

  The two LED modules 22 are arranged side by side in the longitudinal direction (lateral direction). Each LED module 22 has a substrate 221 formed in a rectangular plate shape that is long in the longitudinal direction (left-right direction) (see FIG. 2). A plurality of solid state light emitting devices (LEDs 220) are mounted on the surface (lower surface) of the substrate 221 along the longitudinal direction (lateral direction) and in a line.

  A pair of connectors 224 for power supply are mounted at ends of each LED module 22 facing the adjacent LED module 22 (see FIG. 2). Then, by electrically connecting the pair of connectors 224 of the two LED modules 22 adjacent to each other, the lighting power is relayed from one LED module 22 to the other LED module 22.

  The attachment member 21 includes a bottom plate 211 formed in a long rectangular flat plate shape, and a pair of side plates 212 formed in a long rectangular flat plate shape and protruding upward from both ends of the bottom plate 211 in the left-right direction. Have. In addition, as for the attachment member 21, it is preferable that the bottom plate 211 and the pair of side plates 212 are formed integrally by bending a metal plate such as a zinc steel plate. At the upper ends of the pair of side plates 212, hook portions 213 each having a substantially cylindrical shape are provided.

  The bottom plate 211 has a central portion in the front-rear direction recessed upward, and the LED module 22 is disposed in the central portion. The LED module 22 is fixed to the bottom plate 211 by a plurality of fixing pieces 216 cut and raised from the bottom plate 211.

  The attachment member 21 includes a pair of hooks 214 and a pair of hook springs 215 (see FIGS. 1 and 2). The pair of hooks 214 are formed of, for example, metal. The pair of hooks 214 have hook-like tips, and are provided near the left and right ends at the front end of the bottom plate 211 so that the tips cross over the front side plate 212. Note that the pair of hooks 214 may be provided on the front side plate 212 so as to protrude forward from the front side plate 212. The pair of hooks 214 are hooked into one of hook holes 430A and 430B (see FIG. 5) provided in the instrument body 4. Further, the pair of hook springs 215 is formed of a torsion coil spring (see FIG. 2). Each hook spring 215 is provided near the left and right ends at the rear end of the bottom plate 211 (see FIG. 1). One end of each of the pair of hook springs 215 is hooked on one of spring receiving members 431A and 431B (see FIG. 5) provided on the instrument body 4. That is, the attachment member 21 is detachably attached to the instrument body 4 by the pair of hooks 214 and the pair of hook springs 215.

  The cover 23 is formed of a light-diffusing material (for example, milky white acrylic resin) in the shape of a long box whose upper surface (the surface on the mounting member 21 side) is open. The cover 23 has a curved surface portion 231 such that the amount of downward projection increases from the both ends to the center in the front-rear direction (width direction) (see FIG. 2).

  At both ends in the front-rear direction of the cover 23, extending portions 232 are provided, respectively, which overlap the opening edges of the concave portions 40 of the instrument body 4 in the up-down direction in a state where the light source unit 2 is attached to the instrument body 4. . Inside the extension portion 232 in the short direction (front-rear direction) of the cover 23, a projecting wall portion 233 projecting upward is provided over the entire length. At the tip of each protruding wall portion 233, a hook portion 234 protruding inward is provided. Near the base of each protruding wall portion 233, a contact piece 235 protruding inward is protruded.

  The cover 23 is attached to the attachment member 21. That is, the pair of hook portions 234 are hooked on the hook portions 213 of the respective side plates 212 of the mounting member 21, and the respective contact pieces 235 are in contact with the lower surface of the bottom plate 211 of the mounting member 21. 21 (see FIG. 2).

  The power supply device 1 converts the AC power supplied through the connector 441 of the appliance main body 4 into DC power, and supplies the DC power to each LED module 22 of the light source unit 2 so that each LED module 22 emits light. (Lit).

  As shown in FIGS. 3 and 4, the power supply device 1 includes a circuit board 19 (substrate) and a power supply case 18 (case) that houses the circuit board 19.

  The circuit board 19 is a board on which a plurality of circuit components 29 are mounted. The circuit board 19 is, for example, a printed wiring board. The circuit board 19 has a wiring portion (for example, a copper foil) formed on at least one of the main surfaces 19a and 19b on both sides of the circuit board 19. The circuit board 19 has, for example, a rectangular plate shape, and has a longitudinal direction T1 and a lateral direction T2 that are orthogonal to each other when viewed in a plan view from above and below (see FIG. 3). The length of the circuit board 19 in the longitudinal direction T1 is longer than the length of the circuit board 19 in the short direction T2. The longitudinal direction T1 of the circuit board 19 matches the left-right direction of the lighting fixture 6, and the short direction T2 of the circuit board 19 matches the front-back direction of the lighting fixture 6.

  The plurality of circuit components 29 are various circuit components for converting AC power to DC power and supplying the converted power to each LED module 22. The plurality of circuit components 29 include a tall component 29a (for example, a capacitor and a coil) which is a component having a relatively high height among the plurality of circuit components 29. The tall component 29a is, for example, a circuit component whose height from one main surface 19a of the circuit board 19 is, for example, 10 mm or more. The plurality of circuit components 29 are mounted on one main surface 19 a (one main surface) of the main surfaces 19 a and 19 b on both sides of the circuit board 19. That is, one main surface 19a is a component surface on which the circuit component 29 is mounted.

  One main surface 19a of the circuit board 19 has a first region 19c and a second region 19d. In the first region 19c, a high-profile component 29a of the plurality of circuit components 29 is mounted. In the second region 19d, components other than the tall component 29a of the plurality of circuit components 29 are mounted. That is, the tall component 29a is not mounted in the second region 19d. Components other than the high-profile component 29a may include surface-mount components. The circuit component 29 may not be mounted on the second area 19d. In the example of FIG. 3, the circuit component 29 is not mounted on the second area 19d. The first region 19c and the second region 19d may or may not be provided with wiring for electrically connecting the circuit components 29.

  In this embodiment, the circuit component 29 is not mounted on the second area 19d. However, when the circuit component 29 other than the tall component 29a is mounted on the second region 19d, the tall component 29a is one of the main components of the circuit board 19 more than the circuit component 29 implemented in the second region 19d. This is a circuit component whose height from the surface 19a is high.

  The first region 19c and the second region 19d of the circuit board 19 extend on one main surface 19a along the longitudinal direction T1 of the circuit board 19 (see FIG. 3). In the present embodiment, the first region 19c and the second region 19d are formed on the one main surface 19a over the entire longitudinal direction T1 of the circuit board 19. The first region 19c and the second region 19d are arranged on one main surface 19a along the short direction T2 of the circuit board 19. That is, the first region 19c occupies the first half of the one main surface 19a in the short direction T2, and the second region 19d occupies the second half of the one main surface 19a in the short direction T2.

  The power supply case 18 is a case for housing a circuit board 19, as shown in FIGS. The power supply case 18 is formed of, for example, a metal member, and is formed by bending a plate-shaped metal plate.

  The power supply case 18 has, for example, a flat shape that is rectangular in a plan view (see FIG. 3). In the present embodiment, the power supply case 18 has a structure in which both end faces in the longitudinal direction (lateral direction) are open (see FIG. 6), but has a structure in which both end faces in the longitudinal direction are closed by walls. You may.

  As shown in FIG. 4, the power supply case 18 has a substrate part 25 and side wall parts 26 and 27 on both front and rear sides. The plane size of the board portion 25 is a rectangular plate shape that is the same as the plane size of the power supply case 18. The front side wall portion 26 extends downward from the front end of the substrate portion 25 and is provided over the entire left and right direction of the substrate portion 25. The rear side wall portion 27 extends upward from the rear end of the substrate portion 25 and is provided over the entire left and right direction of the substrate portion 25.

  The board part 25 has a first plate part 30, a second plate part 31, a third plate part 32, a fourth plate part 33, and a fifth plate part.

  Each of the first plate portion 30, the second plate portion 31, and the third plate portion 32 has a rectangular plate shape in a plan view, and extends over the entire length (left-right direction) of the power supply case 18. Each of the widths H1, H2, and H3 of the first plate 30, the second plate 31, and the third plate 32 in the front-rear direction is, for example, one-third of the width H4 of the power supply case 18 in the front-rear direction. The size may be one. The sum of the widths H1, H2, and H3 of the first plate portion 30, the second plate portion 31, and the third plate portion 32 is the same as the length H4 of the power supply case 18. is there. The front end of the first plate 30 is the front end of the substrate 25, and the rear end of the third plate 32 is the rear end of the substrate 25. The fourth plate part 33 connects the rear end of the first plate part 30 and the front end of the second plate part 31. The fourth plate portion 33 intersects (for example, intersects) both the first plate portion 30 and the second plate portion 31. The fifth plate 34 connects the rear end of the second plate 31 and the front end of the third plate 32. The fifth plate portion 34 intersects (for example, intersects) both the second plate portion 31 and the third plate portion 32.

  The power supply case 18 has a housing recess 37 and a recess 38. The housing recess 37 is a portion where the circuit board 19 is housed. The recess 38 is a portion where the terminal block 44 of the instrument main body 4 is housed.

  The housing recess 37 has a first bottom wall portion 51 (opposing wall portion) and side wall portions 52 and 53 on both front and rear sides. The first bottom wall 51 has a first wall 54, a second wall 55, and a third wall 56. The first wall portion 54 is constituted by the first plate portion 30, the second wall portion 55 is constituted by the second plate portion 31, and the third wall portion 56 is constituted by the fourth plate portion 33. The front side wall portion 52 is configured by the front side wall portion 26, and the rear side wall portion 53 is configured by the fifth plate portion 34.

  The housing recess 37 is provided on one main surface (for example, a lower main surface) 18a of the upper and lower main surfaces 18a and 18b of the power supply case 18. The housing recess 37 is formed over the entire length of the power supply case 18 (the left-right direction). Both ends in the longitudinal direction (left-right direction) of the housing recess 37 are open at both ends in the longitudinal direction T1 (left-right direction) of the power supply case 18. The housing recess 37 is formed from the front end 18c on one main surface 18a of the power supply case 18 to the center rearward portion 18d in the short direction T2 (front-back direction) of the power supply case 18. The center rearward portion 18d is a position displaced from the center position toward the rear end portion 18f in the lateral direction (front-back direction) of the power supply case 18. The plane size of the first bottom wall portion 51 is substantially the same as the plane size of the circuit board 19 (more specifically, a size one size larger than the plane size of the circuit board 19).

  When the circuit board 19 is housed in the housing recess 37, one main surface (component surface) 19 a of the circuit board 19 faces the first bottom wall 51 of the housing recess 37. That is, the first bottom wall 51 is a facing wall facing the one main surface 19a of the circuit board 19 in a state where the circuit board 19 is housed in the housing recess 37. Therefore, power supply case 18 has a facing wall portion (first bottom wall portion 51) facing one main surface 19a. When the circuit board 19 is housed in the housing recess 37, the one main surface 19 a is substantially parallel to the first wall 54 and the second wall 55 of the first bottom wall 51.

  The first wall portion 54 is a portion (first portion) facing (corresponding to) the first region 19c of the one main surface 19a of the circuit board 19 in the accommodation recess 37. The second wall portion 55 is a portion (second portion) facing (corresponding to) the second region 19d of the one main surface 19a of the circuit board 19 in the accommodation recess 37. That is, the first bottom wall portion 51 (opposing wall portion) has a first portion (first wall portion 54) facing (corresponding to) the first region 19c and a second portion facing (corresponding to) the second region 19d. (Second wall portion 55). The first wall portion 54 is, for example, a front portion of the first bottom wall portion 51, and the second wall portion 55 is a rear portion of the first bottom wall portion 51, for example. The second wall 55 is disposed closer to the opening of the housing recess 37 than the first wall 54 is. That is, the distance H5 between the first wall portion 54 and one main surface 19a of the circuit board 19 in the housing recess 37 is equal to the distance between the second wall portion 55 and one main surface 19a of the circuit board 19 in the housing recess 37. It is larger than the interval H6.

  The concave portion 38 has a second bottom wall portion 57 and side wall portions 58 and 59 on both front and rear sides. The second bottom wall 57 includes a fourth wall 60, a fifth wall 61, and a sixth wall 62. The front side wall portion 58 is configured by the fourth plate portion 33, and is also used as the third wall portion 56 of the housing recess 37. The rear side wall portion 59 is constituted by the rear side wall portion 27. The fourth wall portion 60 is configured by the second plate portion 31 and is also used as the second wall portion 55 of the accommodation recess 37. That is, at least a part (for example, the fourth wall 60) of the second bottom wall 57 of the recess 38 is also used as the second wall 55 of the first bottom wall 51 of the housing recess 37. The fifth wall portion 61 is configured by the third plate portion 32. The sixth wall portion 62 is configured by the fifth plate portion 34, and is also used as the side wall portion 53 on the rear side of the housing recess 37.

  When viewed from the up and down direction, the recess 38 has a part (for example, the fourth wall 60) of the second bottom wall 57 and a part (for example, the second wall 55) of the first bottom wall 51 of the housing recess 37. It is arranged so as to be shifted rearward from the accommodation recess 37 so as to overlap. In the present embodiment, a part of the second bottom wall 57 overlaps a part of the first bottom wall 51, but the entire second bottom wall 57 overlaps a part of the first bottom wall 51. You may.

  The concave portion 38 is provided on the other main surface (for example, upper main surface) 18b of the upper and lower main surfaces 18a and 18b of the power supply case 18. The concave portion 38 is formed over the entire lengthwise direction T1 (left-right direction) of the power supply case 18. Both ends in the longitudinal direction (left-right direction) of the recess 38 are opened at both ends in the longitudinal direction T1 (left-right direction) of the power supply case 18. The concave portion 38 is formed from the rear end portion 18g on the other main surface 18b of the power supply case 18 to the center front portion 18h in the short direction T2 (front-back direction) of the power supply case 18. The other main surface 18b is a surface opposite to the main surface 18a having the housing recess 37 in the power supply case 18. The center forward portion 18h is a position shifted from the center position on the other main surface 18b to the front end side in the short direction (front-back direction) of the power supply case 18.

  The fourth wall portion 60 is, for example, a front portion of the second bottom wall portion 57, and the fifth wall portion 61 is a rear portion of the second bottom wall portion 57. The fourth wall portion 60 is disposed closer to the opening of the recess 38 than the fifth wall portion 61 in the vertical direction.

  In the power supply case 18, in the first bottom wall portion 51 of the housing recess 37, the second wall portion 55 is disposed closer to the opening side of the housing recess 37 in the up-down direction than the first wall portion 54. Accordingly, a space S3 facing the outer side surface of the second wall portion 55 is newly secured as much as the internal space S1 of the housing recess 37 is reduced, and the internal space S2 of the recess 38 is increased by the space S3. I have.

  The circuit board 19 is housed in the housing recess 37 of the power supply case 18. In this housing state, one main surface (component surface) 19 a of the circuit board 19 faces the first bottom wall 51 of the housing recess 37. Of the one main surface 19a, the first region 19c faces the first wall portion 54 of the first bottom wall portion 51, and the second region 19d faces the second wall portion 55 of the first bottom wall portion 51. are doing.

  As shown in FIG. 4, the power supply device 1 is mounted on the upper surface of the mounting member 21 of the light source unit 2 so that the other main surface 18b of the power supply case 18 (therefore, the concave portion 38) faces upward. The power supply device 1 is mounted at a predetermined position on the upper surface of the mounting member 21 (see FIG. 1). More specifically, the power supply device 1 is located on the upper surface of the mounting member 21 at a position displaced from a center position in the longitudinal direction (left-right direction) to one end (for example, a left end) of both longitudinal ends. Attached to. The power supply device 1 is fixed to the mounting member 21 by screwing the side wall portions 26 and 27 on both front and rear sides of the power supply case 18 to the pair of side plates 212 on both front and rear sides of the mounting member 21. When attached to the mounting member 21, the opening of the housing recess 37 of the power supply case 18 is closed by the bottom plate 211 of the mounting member 21.

  Next, an attachment procedure (attachment method) for attaching the light source unit 2 to the fixture body 4 will be described with reference to FIGS. The light source unit 2 can be attached to the appliance main body 4 in either a regular attachment direction or an opposite attachment direction. The regular mounting direction is a mounting direction in which the terminal block 44 of the appliance main body 4 and the power supply device 1 of the light source unit 2 are arranged on opposite sides along the longitudinal direction (left-right direction) of the appliance main body 4. The opposite mounting direction is a mounting direction opposite to the normal mounting direction.

  First, an attachment procedure when the light source unit 2 is attached to the fixture main body 4 in a regular attachment direction will be described.

  As shown in FIG. 6, the light source unit 2 is disposed below the instrument main body 4. In this state, the longitudinal direction (left-right direction) of the light source unit 2 matches the longitudinal direction (left-right direction) of the instrument body 4. The power supply device 1 of the light source unit 2 is arranged on the upper side of the light source unit 2 and on the left end side of the central position in the longitudinal direction of the light source unit 2. The terminal block 44 of the appliance main body 4 is disposed closer to the right end than the center position in the longitudinal direction of the appliance main body 4. That is, the power supply device 1 is arranged so as not to overlap with the terminal block 44 in the vertical direction. The pair of hooks 214 of the light source unit 2 are arranged on the front side of the light source unit 2, and the pair of hook springs 215 of the light source unit 2 are arranged on the rear side of the light source unit 2.

  Then, as shown in FIG. 7A, the attitude of the light source unit 2 is inclined forward and obliquely upward. In this inclined posture, the pair of hooks 214 on the front side of the light source unit 2 are hooked on the pair of hook holes 430A of the side plate 43 on the front side of the concave portion 40 of the instrument body 4. Further, in this inclined posture, the distal ends of the pair of hook springs 215 on the rear side of the light source unit 2 are hooked on the pair of spring receiving members 431B of the side plate 43 on the rear side of the concave portion 40 of the instrument body 4.

  Then, as shown in FIG. 7B, a pair of side plates 212 on both front and rear sides of the light source unit 2 are fitted into the concave portions 40 of the instrument body 4. In this state, the extension 232 of the light source unit 2 comes into contact with the opening edge 45 of the recess 40. The rear side plate 212 of the light source unit 2 is pulled into the concave portion 40 of the instrument body 4 by the pulling force of the hook spring 215. Thereby, the light source unit 2 is held in the concave portion 40 of the instrument body 4. That is, the light source unit 2 is supported by the instrument body 4.

  In the state where the light source unit 2 is supported by the tool main body 4 in this manner, as shown in FIG. 3, the power supply device 1 of the light source unit 2 and the terminal block 44 of the tool main body 4 are moved in the longitudinal direction (left-right direction) of the tool main body 4. ) Are spaced apart from each other. For this reason, the power supply device 1 and the terminal block 44 are arranged without interfering with each other.

  Next, a description will be given of a mounting procedure in a case where the light source unit 2 is mounted on the appliance main body 4 in a reverse mounting direction.

  As shown in FIG. 8, the light source unit 2 is disposed below the instrument main body 4. In this state, the longitudinal direction (left-right direction) of the light source unit 2 matches the longitudinal direction (left-right direction) of the instrument body 4. The power supply device 1 of the light source unit 2 is arranged on the upper side of the light source unit 2 and on the right end side of the central position in the longitudinal direction of the light source unit 2. The terminal block 44 of the instrument main body 4 is arranged on the right side of the central position in the longitudinal direction of the instrument main body 4. That is, the power supply device 1 is disposed so as to overlap the terminal block 44 in the up-down direction. The pair of hooks 214 of the light source unit 2 are arranged on the rear side of the light source unit 2, and the pair of hook springs 215 of the light source unit 2 are arranged on the front side of the light source unit 2.

  Then, as shown in FIG. 9A, the posture of the light source unit 2 is inclined rearward and obliquely upward. In this inclined posture, the pair of hooks 214 on the rear side of the light source unit 2 are hooked on the pair of hook holes 430B of the side plate 43 on the rear side of the concave portion 40 of the instrument body 4. Further, in this inclined posture, the distal ends of the pair of hook springs 215 on the front side of the light source unit 2 are hooked on the pair of spring receiving members 431A on the front side of the concave portion 40 of the instrument body 4.

  Then, as shown in FIG. 9B, the side plates 212 of the pair of side plates 212 of the light source unit 2 are fitted into the concave portions 40 of the instrument body 4. In this state, the extension 232 of the light source unit 2 comes into contact with the opening edge 45 of the recess 40. Further, the front side plate 212 of the light source unit 2 is pulled into the recess 40 of the instrument body 4 by the pulling force of the hook spring 215. Thereby, the light source unit 2 is held in the concave portion 40 of the instrument body 4. That is, the light source unit 2 is supported by the instrument body 4.

  In the state where the light source unit 2 is supported by the appliance main body 4 as described above, the terminal block 44 of the appliance main body 4 is housed in the concave portion 38 of the power supply case 18 of the power supply device 1 as shown in FIGS. 10A and 10B. ing. In this housed state, the terminal block 44 is arranged so as to overlap the second region 19d of the circuit board 19 of the power supply device 1 in the up-down direction (FIG. 10A). At this time, as described above, the internal space S2 of the concave portion 38 has the second wall portion 55 of the housing concave portion 37 disposed closer to the opening side of the housing concave portion 37 than the first wall portion 54, so that the space S3 It is wider (see FIG. 4). For this reason, the terminal block 44 is accommodated in the concave portion 38 with reduced interference with the concave portion 38 (that is, interference with the power supply device 1). Further, since the first region 19c and the second region 19d of the circuit board 19 extend along the longitudinal direction T1 of the substrate 19, the relative positions of the power supply device 1 and the terminal block 44 are shifted in the longitudinal direction T1 of the substrate 19. Even so, interference between the power supply device 1 and the terminal block 44 can be reduced.

  Further, as shown in FIG. 10A, the terminal block 44 and the power supply device 1 are arranged on one side (for example, the right half in the longitudinal direction) of both sides in the longitudinal direction (left-right direction) of the concave portion 40 of the instrument body 4. You. Therefore, the space S4 can be secured on the other side in the longitudinal direction (for example, the left half in the longitudinal direction) in the concave portion 40. By using this space S4 as a wiring space, the wiring space can be increased. Further, by using the space S4 as a space for arranging the control blocks, the degree of freedom in the layout of the control blocks can be improved.

(Modification of First Embodiment)
A modification of the first embodiment will be described. The modifications described below may be used in combination.

(Modification 1)
In the first embodiment, a pair of hook holes 430A and 430B and a pair of spring receiving members 431A and 431B are provided in the front and rear side plates 43 of the instrument main body 4. A hook 214 and a hook spring 215 are provided on the front and rear side plates 212 of the light source unit 2. Then, the hook 214 is hooked on one of the pair of hook holes 430A, 430B, and the hook spring 215 is hooked on one of the pair of spring receivers 431AA, 431B. Thereby, the light source unit 2 can be attached to the fixture main body 4 in either the regular attachment direction or the opposite attachment direction. However, the mounting structure between the instrument body 4 and the light source unit 2 is not limited to the above mounting structure, and may be, for example, the mounting structure shown in FIGS. 11A and 11B.

  In the mounting structure shown in FIGS. 11A and 11B, the appliance body 4 has a pair of first protrusions 70A and 70B, and the light source unit 2 has a pair of second protrusions hooked on the pair of first protrusions 70A and 70B. It has parts 71A and 71B.

  One of the pair of first protrusions 70A, 70B is provided on the rear main surface of the side plate 43 on the front side of the recess 40 of the instrument body 4 and faces rearward inside the recess 40. Protruding. The other first protrusion 70 </ b> B is provided on the front main surface of the side plate 43 on the rear side of the recess 40, and protrudes toward the front inside the recess 40. The first protrusions 70A and 70B may be provided directly on the side plate 43, or may be formed of a separate member and arranged on the inner main surface of the side plate 43.

  One of the pair of second protrusions 71A, 71B is provided on the front main surface of the front side plate 212 of the mounting member 21 of the light source unit 2 and protrudes toward the front. The other second protrusion 71 </ b> B is provided on the rear main surface of the side plate 212 on the rear side of the mounting member 21 and protrudes rearward. The pair of first protrusions 70 </ b> A, 70 </ b> B are provided at positions symmetrical with respect to the instrument body 4. The pair of second protrusions 71 </ b> A and 71 </ b> B are also provided at symmetric positions with respect to the light source unit 2.

  A procedure for attaching the light source unit 2 to the appliance body 4 in this modified example will be described.

  First, a mounting procedure in a normal mounting direction will be described. As shown in FIG. 11A, the posture of the light source unit 2 is kept horizontal. In this state, as shown in FIG. 11B, the pair of side plates 212 of the light source unit 2 are fitted into the concave portions 40 of the instrument body 4 from below the instrument body 4. In this state, the extending portion 232 of the light source unit 2 comes into contact with the opening edge 45 of the concave portion 40 of the instrument body 4. Further, the second protrusion 71B on the rear side of the light source unit 2 gets over the first protrusion 70B on the rear side of the instrument body 4 and is hooked on the upper side of the first protrusion 70B. Similarly, the second projection 71A on the front side of the light source unit 2 gets over the first projection 70A on the front side of the instrument body 4 and is hooked on the upper side of the first projection 70A. Thereby, the light source unit 2 is held in the concave portion 40 of the instrument body 4. That is, the light source unit 2 is supported by the concave portion 40 of the instrument body 4. The arrangement relationship between the power supply device 1 and the terminal block 44 in this state is the same as the case of the mounting procedure in the normal mounting direction described in the first embodiment.

  As described above, the pair of first protrusions 70A, 70B are arranged symmetrically in the front-rear direction with respect to the appliance body 4, and the pair of second protrusions 71A, 71B are also arranged symmetrically in the front-rear direction with respect to the light source unit 2. . Therefore, the mounting procedure in the reverse mounting direction is the same as the mounting procedure in the normal mounting direction. The positional relationship between the power supply device 1 and the terminal block 44 in the mounted state is the same as the case of the mounting procedure in the reverse mounting direction described in the first embodiment.

  Also in this modified example, the same effect as that of the first embodiment can be obtained.

(Modification 2)
In the first embodiment, as shown in FIG. 12, the power supply device 1 may further include an insulating case 75. The insulating case 75 is formed of an insulating member having electrical insulation (for example, a resin member). The insulating case 75 is a case for housing the circuit board 19, and is housed in the housing recess 37 with the circuit board 19 housed. That is, the insulating case 75 is an insulating member disposed between the inner wall portion (that is, the first bottom wall portion 51 and the side wall portions 52 and 53) of the power supply case 18 surrounding the circuit board 19 and the circuit board 19. The insulating case 75 ensures electrical insulation between the power supply case 18 and the circuit board 19. Thus, the distance between the circuit board 19 and the inner wall of the power supply case 18 surrounding the circuit board 19 can be reduced, and the power supply device 1 can be downsized.

  The insulating case 75 has a case body 76 and a lid 77. The case body 76 is a case that is one size smaller than the housing recess 37. The lower surface of the case body 76 is open. The cover 77 is a member for closing the lower surface of the case body 76.

  The case body 76 has front and rear side walls 78, 79 and a bottom wall 80. The bottom wall 80 has a seventh wall 81, an eighth wall 82, and a ninth wall 83. The seventh wall 81 and the eighth wall 82 are parallel to each other. The eighth wall portion 82 is disposed closer to the opening side (lower surface side) of the case body 76 than the seventh wall portion 81 in the vertical direction. The ninth wall 83 connects the rear end of the seventh wall 81 and the front end of the eighth wall 82. The ninth wall 83 intersects (eg, is orthogonal to) the seventh wall 81 and the eighth wall 82. The side wall 78 extends downward from the front end of the seventh wall 81, and the side wall 79 extends downward from the rear end of the eighth wall 82.

  The lid 77 has a lid main body 86 and side walls 84 and 85 on both front and rear sides. The lid main body 86 is, for example, in a flat plate shape. The side walls 84 and 85 extend upward from both front and rear ends of the lid main body 86. The lid 77 closes the lower surface of the case body 76. In this state, the front and rear side walls 84 and 85 of the lid 77 fit outside the front and rear side walls 78 and 79 of the case body 76.

  The insulating case 75 is housed in the housing recess 37 with the circuit board 19 housed. When the insulating case 75 houses the circuit board 19, one main surface (component surface) 19 a of the circuit board 19 faces the bottom wall 80 of the case body 76. Of the one main surface 19a of the circuit board 19, the first region 19c faces the seventh wall portion 81 of the bottom wall portion 80, and the second region 19d faces the eighth wall portion 82 of the bottom wall portion 80. I have.

  When the insulating case 75 is accommodated in the accommodation recess 37, the case body 76 fits inside the accommodation recess 37. That is, the side walls 78 and 79 of the case body 76 are arranged adjacent to the inside of the side walls 52 and 53 of the housing recess 37. The seventh wall 81, the eighth wall 82, and the ninth wall 83 of the case body 76 are adjacent to the first wall 54, the second wall 55, and the third wall 56 of the housing recess 37. The lower surface of the case body 76 faces the opening of the housing recess 37.

(Modification 3)
In the first embodiment, the case where one main surface 19a of the circuit board 19 has one first region 19c is illustrated, but the one main surface 19a may have a plurality of first regions 19c. For example, when one main surface 19a has two first regions 19c, as shown in FIG. 13A, the two first regions 19c are in the short direction (front-back direction) of the circuit board 19, It is arranged on both sides of 19d. That is, the second region 19d is arranged between the two first regions 19c.

  More specifically, the first region 19c and the second region 19d extend along the longitudinal direction (left-right direction) of the circuit board 19. The second region 19d is arranged at the center of the circuit board 19 in the width direction (front-rear direction), and the two first regions 19c are arranged on both sides of the circuit board 19 in the width direction (front-rear direction).

  The power supply case 18 further includes a sixth plate portion 35 and a seventh plate portion 36 in the power supply case 18 of the first embodiment.

  The sixth plate portion 35 is, for example, parallel to the first plate portion 30. The seventh plate portion 36 connects the rear end portion of the second plate portion 31 and the front end portion of the sixth plate portion 35, and intersects (eg, is orthogonal to) the second plate portion 31 and the sixth plate portion 35. . In the present modification, the fifth plate portion 34 connects the front end portion of the third plate portion 32 and the rear end portion of the sixth plate portion 35, and intersects the third plate portion 32 and the sixth plate portion 35 (for example, Orthogonal).

  The distance H7 between the sixth plate portion 35 and one main surface 19a of the circuit board 19 in the housing recess 37 is one of the first plate portion 30 (the first wall portion 54) and the circuit board 19 in the housing recess 37. It is the same size as the distance H5 from the main surface 19a. The accommodation recess 37 of this modified example includes the side wall 26, the first plate 30, the second plate 31, the fourth plate 33, the fifth plate 34, the sixth plate 35, and the seventh plate 36. Have been. The bottom wall 51 of the accommodation recess 37 of this modified example includes the first plate 30, the second plate 31, the sixth plate 35, the fourth plate 33, and the seventh plate 36. The first plate portion 30 and the sixth plate portion 35 face the two first regions 19c. The second plate portion 31 faces the second region 19d. The interval H7 and the interval H5 are larger than the interval H6 between the second plate portion 31 and one main surface 19a of the circuit board 19 in the accommodation recess 37. That is, the second plate portion 31 is disposed closer to the opening side of the accommodation recess 37 than the first plate portion 30 and the sixth plate portion 35. Thereby, a space S5 (that is, a concave portion 38A described later) can be secured in front of the upper main surface of the second plate portion 31.

  In the present modification, the power supply case 18 has two concave portions 38A and 38B. One concave portion 38 </ b> A includes a fourth plate portion 33, a second plate portion 31, and a seventh plate portion 36. That is, the one concave portion 38 </ b> A is formed by disposing the second plate portion 31 on the opening side of the housing concave portion 37 with respect to the first plate portion 30 and the sixth plate portion 35. The other concave portion 38 </ b> B includes the fifth plate portion 34, the third plate portion 32, and the side wall portion 27.

  In this modification, when the light source unit 2 is attached to the fixture main body 4 in the opposite attachment direction, the terminal block 44 of the fixture main body 4 is housed in one of the recesses 38A as shown in FIG. 13B. Thereby, interference between the power supply device 1 and the terminal block 44 can be suppressed.

  In this modification, the terminal block 44 is housed in one of the recesses 38A, but the arrangement of the terminal block 44 or the power supply case 18 is adjusted so that the terminal block 44 is housed in the other recess 38B. Is also good. Also in this case, the interference between the power supply device 1 and the terminal block 44 can be suppressed by the concave portion 38B.

(Modification 4)
In the first embodiment, the power supply case 18 is formed of a metal member, but may be formed of a resin member. In this case, electrical insulation between the circuit board 19 and the power supply case 18 is ensured by the power supply case 18. Therefore, the distance between the circuit board 19 and the power supply case 18 can be reduced. As a result, the size of the power supply case 18 can be reduced.

(Summary)
As described above, the power supply device (1) according to the first aspect of the present disclosure includes the substrate (19) and the case (18). The substrate (19) has one main surface (19a), and the circuit component (29) including the high-profile component (29a) is mounted on the one main surface (19a). The case (18) houses the substrate (19). One main surface (19a) of the substrate (19) has a first region (19c) and a second region (19d). In the first area (19c), a high-profile component (29a) is mounted. The tall component (29a) is not mounted in the second area (19d). The case (18) has an opposing wall (51). The facing wall portion (51) faces the one main surface (19a). The opposing wall portion (51) has a first portion (54) and a second portion (55). The first portion (54) corresponds to the first region (19c). The second portion (55) corresponds to the second region (19d). An interval (H5) between the one main surface (19a) and the first portion (54) is larger than an interval (H6) between the one main surface (19a) and the second portion (55). The substrate (19) has a longitudinal direction (T1) and a lateral direction (T2). The first region (19c) and the second region (19d) are arranged in the lateral direction (T2) of the substrate (19) and extend along the longitudinal direction (T1) of the substrate (19).

  According to this configuration, the interval (H5) from the substrate (19) to the first portion (54) is larger than the interval (H6) from the substrate (19) to the second portion (55). Therefore, a space (S3) where the external component (44) can be arranged can be secured on the opposite side of the second portion (55) of the opposed wall portion (51) from the substrate (19). For this reason, the interference between the external component (44) disposed on the second portion (55) of the opposing wall portion (51) on the opposite side to the substrate (19) and the power supply device (1) can be reduced.

  The first region (19c) and the second region (19d) of the substrate (19) extend along the longitudinal direction (T1) of the substrate (19). Therefore, the first portion (54) and the second portion (55) of the opposing wall portion (51) can be secured along the longitudinal direction (T1) of the substrate (19). In particular, since the second portion (55) can be secured along the longitudinal direction (T1) of the board (19), the relative position between the power supply device (1) and the external component (44) is determined by the length of the board (19). Even if it shifts in the direction (T1), interference between the power supply device (1) and the external component (44) can be reduced.

  In the power supply device (1) according to the second aspect, in the first aspect, the case (18) has a housing recess (37) for housing the substrate (19). The opposing wall (51) is a bottom wall of the housing recess (37).

  According to this configuration, a space (S3) where the external component (44) can be arranged can be secured outside the second portion (55) of the bottom wall portion (51) of the housing recess (37). As a result, interference between the external component (44) disposed outside the second portion (55) of the bottom wall (51) of the housing recess (37) and the power supply device (1) can be reduced.

  In the power supply device (1) according to the third aspect, in the second aspect, the bottom wall (51) is the first bottom wall (51). The case (18) further has a recess (38) on the surface (18b) opposite to the surface (18a) having the housing recess (37). At least a part (60) of the second bottom wall portion (57) of the concave portion (38) is also used as the second portion (55) of the first bottom wall portion (51) of the housing concave portion (37).

  According to this configuration, a part (60) of the second bottom wall portion (57) of the concave portion (38) is also used as the second portion (55) of the first bottom wall portion (51) of the housing concave portion (37). You. Thereby, the space part facing the part (60) of the second bottom wall part (57) in the internal space (S2) of the concave part (38) can be secured more widely. As a result, in the concave portion (38), interference with the external component (44) housed in the space portion facing the portion (60) of the second bottom wall portion (57) can be reduced.

  In the power supply device (1) according to the fourth aspect, in any one of the first to third aspects, two first regions (19c) are provided. The two first regions (19c) are arranged on both sides of the second region (19d) in the lateral direction (T2) of the substrate (19).

  According to this configuration, there are two first portions (54), and the second portion (55) can be secured between the two first portions (54).

  In a power supply device (1) according to a fifth aspect, in any one of the first to fourth aspects, the case (18) is formed of a metal member.

  According to this configuration, mechanical strength and heat dissipation of the case (18) can be secured.

  In the power supply device (1) according to the sixth aspect, in the fifth aspect, the case (18) has inner wall portions (51, 52, 53) surrounding the substrate (19). The case (18) has an insulating member (75) between the inner wall (51, 52, 53) and the substrate (19).

  According to this configuration, insulation between the case (18) and the substrate (19) can be ensured by the insulating member (75). Therefore, the case (18) and the substrate (19) can be arranged close to each other. As a result, the power supply device (1) can be downsized. In particular, when the case (18) and the substrate (19) are close to each other in the thickness direction of the power supply device (1), the power supply device (1) can be made thinner.

  In the power supply device (1) according to the seventh aspect, in any one of the first to fourth aspects, the case (18) is formed of a resin member.

  According to this configuration, the case (18) can be reduced in weight. Further, since the resin member has insulating properties, the substrate (19) and the case (18) can be arranged close to each other, and the power supply device (1) can be downsized. In particular, when the case (18) and the substrate (19) are close to each other in the thickness direction of the power supply device (1), the power supply device (1) can be made thinner.

  An illumination device (2) according to an eighth aspect includes the power supply device (1) according to any one of the first to seventh aspects, and a lamp (20). The lamp (20) emits light with electric power supplied from the power supply device (1).

  According to this configuration, it is possible to provide a lighting device (2) that has the above-described effects of the power supply device (1).

  A lighting fixture (6) according to a ninth aspect includes the lighting device (2) according to the eighth aspect and a fixture main body (4). The fixture body (4) supports the lighting device (2).

  According to this configuration, it is possible to provide a lighting fixture (6) having the above-described effects of the power supply device (1).

1. Power supply unit 2. Light source unit (lighting unit)
4 Device body 6 Lighting device 18 Case 18b Main surface (surface on the side opposite to the side of housing recess)
Reference Signs List 19 substrate 19a one main surface 19c first region 19d second region 20 lamp 29 circuit component 29a high-profile component 37 housing recess 38 recess 51 first bottom wall (bottom wall, facing wall)
52, 53 Side wall (inner wall)
54 1st part 55 2nd part 57 2nd bottom wall part H5, H6 Interval T1 Longitudinal direction T2 Short direction

Claims (9)

A substrate having one main surface, and a circuit component including a high-profile component mounted on the one main surface;
And a case for housing the substrate,
The one main surface of the substrate,
A first area in which the high-profile component is mounted;
A second area where the high-profile component is not mounted,
The case,
Having an opposing wall portion opposing the one main surface,
The opposing wall portion,
A first portion corresponding to the first region, and a second portion corresponding to the second region,
An interval between the one main surface and the first portion is larger than an interval between the one main surface and the second portion,
The substrate has a longitudinal direction and a lateral direction,
The power supply device, wherein the first region and the second region are arranged in the short direction of the substrate and extend along the long direction of the substrate. The case has a housing recess for housing the substrate,
The opposite wall portion is a bottom wall portion of the housing recess.
The power supply device according to claim 1. The bottom wall is a first bottom wall,
The case further has a concave portion on a surface opposite to a surface having the housing concave portion,
The power supply device according to claim 2, wherein at least a part of the second bottom wall of the recess is also used as the second portion of the first bottom wall of the housing recess. The first region is provided in two,
The power supply device according to any one of claims 1 to 3, wherein the two first regions are arranged on both sides of the second region in the lateral direction of the substrate. The power supply according to any one of claims 1 to 4, wherein the case is formed of a metal member. The case has an inner wall surrounding the substrate,
The case has an insulating member between the inner wall portion and the substrate,
The power supply device according to claim 5. The power supply device according to claim 1, wherein the case is formed of a resin member. A power supply device according to any one of claims 1 to 7,
A lamp that emits light with electric power supplied from the power supply device,
Lighting equipment. A lighting device according to claim 8,
And a fixture main body that supports the lighting device.
lighting equipment.

Images