JP7019207B2 - Lighting equipment - Google Patents

Description

The present invention relates to a lighting device including an LED element and a power supply circuit unit.

In recent years, due to heightened environmental awareness, LED lighting devices that use LED elements with excellent power saving as a light source have been actively used, and a technology to provide LED modules in which LED elements are mounted on an LED substrate at low cost has been proposed. (For example, Patent Document 1).
The technique of Patent Document 1 is to insert a metal pin into a through hole of an LED board so as to be electrically connected to a wiring pattern on the LED board, and to electrically connect to the outside through the metal pin. Therefore, the manufacturing man-hours can be reduced.

Japanese Unexamined Patent Publication No. 2011-25806

In the above technology, the electrical connection between the external (for example, a power supply circuit unit, etc.) other than the LED module and the metal pin (conductor) is not specific, and the manufacturing man-hours depend on the form of the external terminal to be connected. May not be reduced.
An object of the present invention is to provide a lighting device that can reduce manufacturing man-hours by using a conductor.

The present invention comprises an LED module in which an LED element is mounted on an LED substrate, and a power supply circuit unit in which a plurality of circuit components are mounted on the circuit board and power is supplied to the LED element. A conductor that electrically connects the LED board and the circuit board is provided on one board of the LED board and the circuit board, and the conductor is provided on the other board of the LED board and the circuit board. A through hole through which the conductor is inserted and a conductive spring piece that closes the through hole and elastically deforms as the conductor passes through the through hole are provided, and the LED substrate and the circuit board are in a parallel state. A part of the conductor overlaps in the front and back directions, and the conductor provided on the one substrate is erected so as to pass through the through hole from a portion of the one substrate that overlaps with the other substrate in the front and back directions. By bringing the LED substrate close to the circuit board, the conductor passes through the through hole and is electrically connected to the conductive spring piece.

According to the above configuration, since the conductive spring piece is provided on the mating side that makes an electrical connection with the conductor, the conductive spring piece is relatively inserted through the through hole of the substrate on the mating side to ensure the electrical connection. Can be done.

It is a front view of the lighting apparatus which concerns on 1st Embodiment. It is sectional front view of the lighting apparatus which concerns on 1st Embodiment. In the first embodiment, (a) is a perspective view of a state in which the housing is removed from the lighting device from the front side, and (b) is a perspective view of a state in which the housing is removed from the lighting device from the back side. Is. In the first embodiment, (a) is a perspective view of a state in which the power supply circuit unit and the LED module are attached to the base member from the front side, and (b) is a state in which the power supply circuit unit and the LED module are attached to the base member. It is a perspective view which looked at the state which was attached from the back side. In the first embodiment, (a) is a perspective view of a cross section of a state in which the power supply circuit unit and the LED module are attached to the base member from the front side, and (b) is a perspective view of the power supply circuit unit and the LED attached to the base member. It is a perspective view which looked at the cross section in the state which a module is attached from the back side. (A) is a perspective view of the lighting device according to the second embodiment as viewed from the front side, and (b) is a perspective view of the lighting device according to the second embodiment as viewed from the back side. In the second embodiment, (a) is a perspective view of a state in which the translucent cover is removed from the lighting device from the front side, and (b) is a state in which the inner cover is removed from the state of (a) on the front side. It is a perspective view seen from. In the second embodiment, (a) is a perspective view of the lighting device as viewed from the back side, and (b) is a perspective view of the state in which the back cover is removed from the state of (a) as viewed from the back side. In the second embodiment, (a) is a view from the back side of the state in which the back cover is removed from the lighting device, and (b) is a state in which the translucent cover and the inner cover are removed from the lighting device from the front side. It is a figure that I saw. In the second embodiment, it is a figure explaining the electrical connection between a power supply circuit unit and an LED module. In the second embodiment, it is sectional drawing explaining the electrical connection between a power supply circuit unit and an LED module. It is sectional drawing explaining the fixing of the LED module in 2nd Embodiment. It is a front view of the lighting apparatus which concerns on 3rd Embodiment. It is an exploded perspective view of the lighting apparatus which concerns on 3rd Embodiment. It is sectional drawing of the lighting apparatus which concerns on 3rd Embodiment. In the third embodiment, (a) is a view of the cross section AA of FIG. 13 viewed from the direction of the arrow, and (b) is a view of the cross section BB of FIG. 13 viewed from the direction of the arrow. In the third embodiment, (a) is a perspective view of the tubular body seen from the translucent cover side, and (b) is a perspective view of the tubular body seen from the base side. It is an exploded perspective view of the lighting apparatus which concerns on 4th Embodiment. It is sectional drawing of the lighting apparatus which concerns on 4th Embodiment. In the fourth embodiment, (a) is a view of a cross section corresponding to the AA cross section of FIG. 13 viewed from the arrow direction, and (b) is a view of the cross section corresponding to the BB cross section of FIG. 13 in the arrow direction. It is a figure seen from. In the fourth embodiment, (a) is a perspective view of the tubular body seen from the translucent cover side, and (b) is a perspective view of the tubular body seen from the base side.

<Overview>
The lighting device according to one embodiment includes an LED module in which an LED element is mounted on an LED substrate, and a power supply circuit unit in which a plurality of circuit components are mounted on the circuit board and power is supplied to the LED element. In a lighting device including, a conductor for electrically connecting the LED board and the circuit board is provided on one board of the LED board and the circuit board, and the other of the LED board and the circuit board is provided. The substrate is provided with a through hole through which the conductor is inserted, and a conductive spring piece that closes the through hole and elastically deforms as the conductor passes through the through hole. The circuit boards are in a parallel state and partly overlap in the front and back directions, and the conductor provided on the one substrate passes through the through hole from the portion of the one substrate that overlaps with the other substrate in the front and back directions. By bringing the LED board and the circuit board close to each other, the conductor passes through the through hole and is electrically connected to the conductive spring piece.
In the lighting device according to another embodiment of the embodiment, the one substrate is the circuit board, the other substrate is the LED substrate, and the conductive spring piece is a surface of the LED substrate opposite to the circuit board. It is provided in.
In the lighting device according to another embodiment of the embodiment, the LED substrate is mounted on the front surface and the circuit board is mounted on the back surface. The LED substrate has a disk shape and the LED substrate is mounted. A portion close to the peripheral portion of the base member is fastened to the base member by a fastener.
In the lighting device according to another embodiment of the embodiment, the conductor has a plate shape or a rod shape, and the conductive spring piece is formed by bending one rectangular metal plate in the longitudinal direction of the metal plate. It has a hole for passing the conductor in the center, and both sides of the hole are curved in a "dogleg" shape.
The lighting device according to one aspect of the specification includes an LED module in which an LED element is mounted on an LED substrate, and a power supply circuit unit in which a plurality of circuit parts are mounted on a circuit board and power is supplied to the LED element. In a lighting device including, a conductor for electrically connecting the LED board and the circuit board is provided on one board of the LED board and the circuit board, and the other of the LED board and the circuit board is provided. The substrate is provided with a through hole through which the conductor is inserted and a conductive spring piece that closes the through hole and elastically deforms as the conductor passes through the through hole. , The surface on the side where one of the substrates is present abuts on the base member, and is fastened to the base member by a fastener.
In the lighting device according to another aspect of the specification, the one substrate is the circuit board and the other substrate is the LED substrate.
In the lighting device according to another aspect of the specification, the LED substrate has a disk shape, and a portion near the peripheral edge portion of the LED substrate is fastened to the base member by the fastener. As a result, it is possible to reduce the amount of blocking the light emitted from the LED element.
In the lighting device according to another aspect of the specification, the fastener is a screw body. As a result, the other substrate can be easily fixed to the base member.

<First Embodiment>
1. 1. Outline The first embodiment will be described with reference to FIGS. 1 to 5.
The lighting device 1 according to the first embodiment is a so-called spotlight that is attached to a duct rail (not shown) such as a ceiling and used.
As shown in FIG. 2, the lighting device 1 includes a base member 2, an LED module 3 on the front side of the base member 2, and a power supply circuit unit 4 on the back side of the base member 2. The power supply circuit unit 4 and the LED module 3 are electrically connected by a metal pin 45.
The lighting device 1 includes a lens member 5 that is mounted on the base member 2 and covers the LED module 3 from the front side, a housing 6 that houses the base member 2, the LED module 3, a power supply circuit unit 4, and the lens member 5, and a lighting device. Further, a plug box 7 for attaching 1 to the duct rail and an arm 8 for connecting the plug box 7 and the housing 6 are further provided.

2. 2. Configuration of each part (1) Base member Mainly, FIG. 4 will be used for explanation.
The base member 2 has a disk-shaped base portion 21, a fin portion 25 having a plurality of fins 23 extending from the back surface to the back side of the base portion 21, and a mounting portion 27 for attaching the base member 2 to the arm 8.
The base portion 21 has a pair of through holes 21a for the metal pins 45 in the central portion. There are a plurality of fins 23, and the fins 23 are erected in peripheral portions excluding the central portion of the base portion 21. The mounting portion 27 is provided on the stretched piece 27a, which is the back surface of the base portion 21 and extends from two portions sandwiching the center of the base portion 21 to the back side, and the central axis of the housing 6. It is composed of a screw hole 27b toward the surface. As shown in FIG. 2, a screw body 11 connected to the arm 8 is screwed into the screw hole 27b. As shown in FIGS. 2 and 3, a power supply circuit unit 4 is arranged in the space in the central portion on the back side of the base portion 21.

(2) LED module The description will be mainly made with reference to FIG. 4A and FIG. 5A.
The LED module 3 is composed of an LED substrate 31 and a plurality of LED elements 33. The LED substrate 31 has a through hole 31a for the metal pin 45. The LED module 3 has a metal spring piece 35 in contact with the metal pin 45 on the LED substrate 31. The metal spring piece 35 is formed by bending a thin rectangular metal plate at the center in the longitudinal direction. As shown in FIG. 5A, the metal spring piece 35 from the bent portion to one end portion is a fixed portion 35a fixed to the LED substrate 31. As shown in FIG. 5A, the metal spring piece 35 from the bent portion to the other end is a metal that closes the through hole 31a of the LED substrate 31 and elastically deforms in accordance with the insertion (passage) of the metal pin 45. It is a spring piece 35b.
As shown in FIG. 4A, the LED substrate 31 is fixed to the base portion 21 by the screw body 37 in a state where the back surface is in contact with the front surface of the base portion 21.

(3) Power Supply Circuit Unit A description will be given with reference to FIGS. 2 to 5.
As shown in FIG. 2, the power supply circuit unit 4 is housed in an insulating box 43 with circuit components mounted on a circuit board 41. As shown in FIG. 5, the power supply circuit unit 4 penetrates the insulating box 43 (not shown in FIG. 5), the through hole 21a of the base portion 21, and the through hole 31a of the LED substrate 31, and the LED module 3 has a through hole 31a. It has a metal pin 45 that comes into contact with the metal spring piece 35. The circuit board 41 here is supported in the insulating box 43 in a state orthogonal to the LED board 31. The insulating box 43 also has a function of blocking heat released from the fins 23 of the base member 2.

(4) Lens member This will be described with reference to FIGS. 2 and 3.
As shown in FIGS. 2 and 3, the lens member 5 includes a plurality of lenses 51 arranged to face each LED element 33, and a connecting plate 53 connecting the lenses 51 on the opposite side to the LED element 33. It has a tubular portion 55 extending in a cylindrical shape from the outer peripheral edge of the connecting plate 53 toward the base portion 21, and a fixing portion 57 for fixing the lens member 5 to the base member 2.
The inner diameter of the tubular portion 55 is larger than the outer diameter of the LED substrate 31. The fixing portion 57 is composed of a portion recessed from the cylinder portion 55 in the central axis direction of the cylinder portion 55, and a groove for a screw is provided in the recessed portion.
The lens member 5 is fixed to the base portion 21 in a state where the back surface of the fixing portion 57 is in contact with the peripheral edge portion of the front surface of the LED substrate 31. The height of the tubular portion 55 is set so that the distance between the lens 51 and the LED element 33 becomes a predetermined value. Further, as shown in FIG. 2, the inner flange portion 63b of the front side housing 63, which will be described later, fits into the gap between the tubular portion 55 of the lens member 5 and the base portion 21 of the base member 2.

(5) Housing The description will be mainly made with reference to FIGS. 1 and 2.
The housing 6 mainly has a back side housing 61 arranged on the back side of the base portion 21 of the base member 2, and a front side housing 63 arranged on the outside of the LED module 3 and the lens member 5.
The back side housing 61 has a bottomed cylindrical shape, and the opening side end portion is coupled to the front side housing 63. The back side housing 61 has a through hole 61c (see FIG. 1) in the peripheral wall 61a and the bottom wall 61b, and a through hole 61d (see FIG. 2) in the peripheral wall 61a. The through hole 61c is for heat dissipation. The through hole 61d is for mounting on the arm 8, and the screw body 11 screwed into the screw hole 27b of the mounting portion 27 of the base member 2 is inserted. As a result, the back side housing 61 is attached to the arm 8 together with the base member 2 so that the posture can be adjusted.
The front housing 63 has a tubular portion 63a and an inner flange portion 63b extending inward from the back opening end of the tubular portion 63a. As shown in FIG. 2, the inner flange portion 63b fits in the gap between the tubular portion 55 of the lens member 5 and the base portion 21 of the base member 2. As a result, the front side housing 63 is attached to the base member 2 side.

(6) Plug Box This will be described with reference to FIGS. 2 and 3.
The plug box 7 is housed in a housing 71, an electrode plug 73 with an operation lever provided on the back surface of the housing 71, a positioning portion 75 provided on the back surface of the housing 71, and the housing 71. It includes an arm coupling member 77.
The housing 71 has a long rectangular parallelepiped shape along the duct rail. The housing 71 has a housing body 71a having an opening on the back side, a lid 71b that closes the opening of the housing body 71a, and a protruding portion 71c that protrudes from the surface of the housing body 71a in a bottomed cylindrical shape. ing.
The lid body 71b has a rectangular plate shape, and has positioning portions 75 at both ends on the back side in the longitudinal direction. The positioning portion 75 extends to the back side and fits into the groove of the duct rail.
The electrode plug 73 includes a bottomed cylindrical portion 73a extending in a bottomed cylindrical shape from a through hole of the lid body 71b, and a pair of electrodes 73b and 73b provided on the tip end side of the bottomed tubular portion 73a. An operation lever 73c provided in the center of the bottom tubular portion 73a in the longitudinal direction is provided, and the front side portion of the bottom tubular portion 73a is rotatably supported around the central axis inside the housing 71.
The arm coupling member is composed of a nut body 77. The nut body 77 is screwed with a screw body 85 extending from the arm 8.
As shown in FIGS. 2 and 3B, the lid body 71b is formed into the housing body 71a by screwing the screw body 13 into the screw hole of the boss on the inner surface of the front wall of the housing body 71a. It is fixed. The electric cable connected to the electrode 73b passes from the inside of the bottomed tubular portion 73a to the inside of the nut body 77 and is guided to the inside of the arm 8.

(7) Arm This will be described mainly with reference to FIG.
The arm 8 has a hollow "U" shape, and a pair of end portions 81, 81 located on the opening side of the "U" shape rotatably sandwiches the back side housing 61 and the base member 2. The axis of rotation here is the direction connecting the pair of ends 81, 81. The arm 8 has a through hole 83 on the side opposite to the pair of end portions 81, 81 on the opening side, and the threaded body 85 arranged inside extends from the through hole 83 to extend the protrusion 71c of the plug box 7. It enters the inside through the through hole of the nut body 77 and is screwed.

3. 3. Connection between LED board and power supply circuit unit This will be described mainly with reference to FIG.
The power supply circuit unit 4 has a pair of metal pins 45 at the end of the circuit board 41 on the LED module 3 side, and the metal pins 45 insert the through hole 31a of the LED board 31 of the LED module 3. As the metal pin 45 passes through the through hole 31a, the metal spring piece 35 elastically deforms while maintaining contact with the metal pin 45. As a result, the LED board 31 and the circuit board 41 can be reliably and electrically connected.
As described above, the electrical connection between the LED module 3 and the power supply circuit unit 4 can be easily performed by simply inserting the metal pin 45 into the through hole 31a of the LED substrate 31.

4. Fixing the LED board In mounting the LED module 3, the LED board 31 is fixed to the base portion 21 of the base member 2 with a screw body 37 which is a fastener. At this time, since the LED board 31 is in contact with the base portion 21, it is possible to reduce an unreasonable load on the LED board 31 even when the screw body 37 is screwed into the screw hole of the base portion 21. In this way, the screw body 37 penetrating the contact portion of the LED substrate 31 with the base portion 21 can be firmly fastened, and the screw body 37 can be prevented from loosening due to the restoring force of the metal spring piece 35. ..
<Second embodiment>
1. 1. Outline The second embodiment will be described with reference to FIGS. 6 to 12.
The lighting device 201 according to the second embodiment is a so-called ceiling light that is attached to a ceiling or the like for use.
As shown in FIGS. 6, 7, and 8, the lighting device 201 includes a base member 202, and the LED module 203 (see (b) in FIG. 7) is placed on the front side of the base member 202 on the back side of the base member 202. Each has a power supply circuit unit 204 (see (b) in FIG. 8). The power supply circuit unit 204 and the LED module 203 are electrically connected by a metal pin 2045a (see FIGS. 10 and 11).
As shown in FIGS. 6, 7, and 8, the lighting device 201 has an outer cover 205 (see FIG. 6) that is mounted on the base member 202 and covers the LED module 203 from the front side, and an LED module inside the outer cover 205. The inner cover 206 covering the 203 (see (a) in FIG. 7), the hooking blade holding member 207 provided in the central through hole of the base member 202, and the power supply circuit unit 204 mounted on the base member 202 from the back side. It is further provided with a back cover 208 (see (a) in FIG. 8) to cover.

2. 2. Each part configuration (1) Base member This will be described mainly with reference to FIGS. 7 and 8.
The base member 202 has a through hole in the central portion, and has an annular surface flat portion 2021 around the through hole. The above-mentioned hook blade holding member 207 is attached to the through hole, and the through hole does not appear in FIG. 7. The LED module 203 is attached to the surface of the flat surface portion 2021 in close contact with the LED module 203.
The base member 202 has an inner cylindrical portion 2023 extending in a cylindrical shape from the outer peripheral edge of the front flat portion 2021 to the back side. A back cover 208 is attached to the inner cylinder portion 2023 to protect the power supply circuit unit 204 on the back surface of the front flat portion 2021. That is, as shown in FIG. 8, the front flat portion 2021, a part of the inner cylinder portion 2023, and the back cover 208 form an accommodation space for accommodating the power supply circuit unit 204.
The base member 202 has an annular back flat portion 2025 that is parallel to the front flat portion 2021 and extends outward from the inner cylinder portion 2023 from the back edge of the inner cylinder portion 2023. A cushioning material 2013 is attached to the back surface of the back flat portion 2025.
As shown in FIGS. 11 and 12, the base member 202 has an outer cylinder portion 2027 extending in a cylindrical shape from the outer peripheral edge of the back flat portion 2025 to the front side, and a radial outer side from the front end edge of the outer cylinder portion 2027. It has an outer flange portion 2029 that overhangs.

(2) LED module This will be described mainly with reference to FIG. 7B and FIG.
The LED module 203 has a plurality of LED elements 2031 and an LED substrate 2033 on which the plurality of LED elements 2031 are mounted. As the plurality of LED elements 2031 here, a plurality of types having different emission colors are used for toning and lighting. Here, there are three LED modules 203, and the three LED modules 203 are arranged in an annular shape around the central through hole of the base member 202 (not shown in FIG. 7B and FIG. 9). ing. The terminals 2033a of the three LED boards 2033 are connected to each other by an electric cable (not shown). Each LED board 2033 has a "he" shape, and LED elements 2031 are mounted in a row along the longitudinal direction of the LED board 2033. As a result, the plurality of LED elements 2031 are arranged in an annular shape or a hexagonal annular shape as a whole.

Of the three LED substrates 2033, at least one LED substrate 2033A has a through hole 2033b for the metal pin 2045a, and as shown in FIG. 10, the metal spring piece 2035 corresponds to the through hole 2033b and has an LED. It is provided on the substrate 2033A. The through hole 2033b is not shown in the figure because it is a metal spring piece 2035, but "2033b" is added to distinguish it from other through holes.
The metal spring piece 2035 closes the through hole 2033b of the LED substrate 2033A and elastically deforms as the metal pin 2045a passes through the through hole 2033b. The metal spring piece 2035 is connected to a wiring pattern (not shown) of the LED substrate 2033A.
As shown in FIG. 10, the metal spring piece 2035 is formed by bending a thin rectangular metal plate. The metal spring piece 2035 has a through hole 2035a for the metal pin 2045a in the center in the longitudinal direction of the metal plate, and has "dogleg" shaped portions 2035b curved in a "dogleg" shape on both sides of the through hole 2035a. The through hole 2035a is provided corresponding to the through hole 2033b of the LED substrate 2033A. In the "K" -shaped portion 2035b, the bent portion of the "K" shape is located inside (on the through hole 2035a). There are nine metal pins 2045a here. The metal pin 2045a is for dimming, toning, sensor and nightlight.

(3) Power supply circuit unit This will be described mainly using FIG. 8B and FIG. 9A.
The power supply circuit unit 204 includes a power conversion circuit for generating electric power supplied to the LED element 2031 from AC power, a dimming circuit for dimming lighting, a toning circuit for dimming lighting, and the like. The power supply circuit unit 204 includes a plurality of circuit components 2041, a circuit board 2043 on which the circuit components 2041 are mounted, and a connection portion 2045 for electrically connecting to the LED module 203. Needless to say, the circuit component is an electronic component constituting the circuit, and only one circuit component 2041 is described in FIG. 8B and FIG. 9A for convenience.
The circuit board 2043 has a wiring pattern (not shown) for connecting a plurality of circuit components 2041 so as to form the above circuit. The circuit board 2043 has a shape close to an “L” shape whose outer peripheral edge is arcuate as a whole, and is not shown in the figure because of the through hole (the hooking blade holding member 207) of the front flat portion 2021 of the base member 202. ) Is arranged. As shown in FIG. 12, the circuit board 2043 is fixed by the resin rivet 2015 in a state of being spaced from the surface flat portion 2021 of the base member 202. Thereby, even when the base member 202 is made of a metal material, the electrical safety can be improved.
The circuit board 2043 is connected to the pair of hook blades 2071 on the hook blade holding member 207 via an electric cable 2047.

The connection portion 2045 will be described with reference to FIG.
The connection portion 2045 has nine metal pins 2045a extending toward the LED substrate 2033 and a support 2045b for supporting the nine metal pins 2045a. The nine metal pins 2045a are supported by the support 2045b in an upright position with respect to the circuit board 2043 at intervals. The nine metal pins 2054a here are arranged in a row. The metal pin 2054a is provided at a portion where the circuit board 2043 and the LED board 2033 overlap each other in the front-back direction. The flat surface portion 2021 of the base member 202 has one through hole through which nine metal pins 2054a are inserted.

(4) Outer cover This will be described with reference to FIGS. 6 to 8.
The outer cover 205 has, here, a frame 2051 attached to the base member 202 side and a dome-shaped translucent cover 2053 attached to the frame 2051.
The frame 2051 has an annular shape having a through hole in the center, and the back side portion of the base member 202 fits into the through hole. The ring here is a ring. The frame 2051 includes an annular portion 2051a, an inner peripheral groove portion 2051b provided on the inner peripheral edge of the annular portion 2051a and an opening on the back side, and a tubular portion 2051c extending from the outer peripheral edge to the front side in a stepped tubular shape. Have.
In the frame 2051, in a state where the outer flange portion 2029 of the base member 202 is fitted in the inner peripheral groove portion 2051b, as shown in FIG. 7A, the engaging piece 2051d provided inside the inner peripheral groove portion 2051b is provided. By engaging with the engagement groove 2067 on the base member 202 side, it can be detachably attached to the base member 202 side. The engaging groove 2067 is formed between the frame mounting portion 2065 provided on the outer peripheral edge of the inner cover 206 and the back flat portion 2025 of the base member 202.
As shown in FIG. 7, engaging convex portions 2051e that engage with the engaging concave portions (not shown) of the translucent cover 2053 are provided on the inner peripheral surface of the tubular portion 2051c at intervals in the circumferential direction. , The engaging convex portion 2051e engages with the engaging concave portion, and the translucent cover 2053 is attached to the frame 2051.

(5) Inner cover This will be described with reference to FIG. 7 (a).
The inner cover 206 covers the LED module 203 in a state close to the LED module 203. This makes it possible to prevent the user from touching the LED element 2031 when, for example, the lighting device 201 is attached to a hook ceiling or the like on the installation surface with the translucent cover 2053 removed.
The inner cover 206 has a dome-shaped bulging portion 2061 that bulges to the front side, an annular portion 2063 that extends from the peripheral edge of the bulging portion 2061 in parallel with the back flat portion 2025, and a frame mounting portion 2065 for mounting the frame 2051. And have. The annular portion 2063 has a chipped portion at intervals in the circumferential direction, and a frame mounting portion 2065 is provided corresponding to the chipped portion. The frame mounting portion 2065 extends outward in the same manner as the annular portion 2063, but the extending position is on the front side of the annular portion 2063. As a result, an engaging groove 2067 is formed between the extended portion of the frame mounting portion 2065 and the back flat portion 2025 of the base member 202. The engaging piece 2051d of the frame 2051 engages with the engaging groove 2067. Note that FIG. 7 shows a state before engaging with the engaging groove 2067 so that the engaging piece 2051d of the frame 2051 can be seen.
The inner cover 206 is composed of two cover bodies 206A and 206B. The two cover bodies 206A and 206B are fixed to the base member 202 by a screw body.

(6) Hooking blade holding member This will be described mainly with reference to FIGS. 7 and 8.
The hook blade holding member 207 holds a pair of hook blades 2071 and 2071 attached to a hook ceiling or the like on the installation surface. The hooking blade holding member 207 is inserted from the front side into the through hole of the base member 202 and has an opening located on the front side from the bottomed tubular portion 2073 (see FIG. 8) and the bottomed tubular portion 2073 from the opening side edge. A flat portion 2075 (see (b) in FIG. 7) that extends outward and abuts on the peripheral portion of the through hole of the base member 202, and a hollow protrusion from the bottom portion of the bottomed tubular portion 2073 to the front side and inside. It has a protruding portion 2077 provided with hooking blades 2071 and 2071 in the space. The hooking blade holding member 207 is made of a highly transparent resin material. The protrusion 2077 is used by the user to grip the lighting device 201 when it is attached.

(7) Back cover This will be described mainly with reference to FIG. 8A and FIG.
The back cover 208 covers the back side of the inner cylinder portion 2023 of the base member 202 in a fan shape except for the bottom portion of the bottomed tubular portion 2073 of the hooking blade holding member 207. The back cover 208 extends from the plate portion 2081 having an opening corresponding to the bottom of the bottomed tubular portion 2073 to the front side through the inner cylinder portion 2023 of the base member 202 and abuts on the front flat portion 2021. It has a semi-cylindrical portion 2083 (see FIG. 11).

<Third embodiment>
1. 1. Overall Configuration The outline of the lighting device 4001 according to the present embodiment will be described mainly with reference to FIGS. 13 and 14.
The lighting device 4001 includes an LED module 4003 and a power supply circuit unit 4005 inside the enclosure 4007. The lighting device 4001 receives AC power, which is a commercial power source, from the base 4077 constituting a part of the enclosure 4007, and emits (lights) the LED element 4031 by the DC power converted by the power supply circuit unit 4005.
The outer enclosure 4007 here is composed of four members: a translucent cover 4071, a tubular body 4073, a base holder 4075, and a base 4077. The LED module 4003 is located on the translucent cover 4071 side, and the power supply circuit unit 4005 is located on the base 4077 side.

2. 2. Each part configuration (1) LED module This will be described with reference to FIG.
The LED module 4003 has one or a plurality of LED elements 4031, an LED substrate 4033 on which the LED element 4031 is mounted, and a connection portion 4035 for connecting to the power supply circuit unit 4005.
Six LED elements 4031 are mounted here. The LED substrate 4033 has a disk shape, and the six LED elements 4031 are arranged in an annular shape (for example, an annular shape) at equal intervals in the circumferential direction in a portion close to the peripheral edge portion of the LED substrate 4033. The LED substrate 4033 has a plurality of through holes 4033a (here, two) for fixing the LED module 4003 to the tubular body 4073.
The connection portion 4035 here is provided in the inner portion of the ring in which the LED element 4031 is arranged. The connection portion 4035 is electrically connected to a wiring pattern that supplies electric power to the LED element 4031. The connection portion 4035 is composed of a through hole 4035a provided in the LED board 4033 and a metal spring piece 4035b provided in the LED board 4033.

The metal spring piece 4035b is provided around the through hole 4035a so as to come into contact with the extending portion extending from the through hole 4035a in the metal pin 4055a. The metal spring piece 4035b is provided here for each through hole 4035a.
The metal spring piece 4035b closes the through hole 4035a of the LED substrate 4033 and elastically deforms with the passage of the metal pin 4055a. There is a pair of metal spring pieces 4035b, and the shape of the metal spring pieces 4035b is hook-shaped. The pair of metal spring pieces 4035b, 4035b are arranged so as to sandwich the through hole 4035a in a state where the portion is curved or bent and the portion is located on the through hole 4035a. The end of the metal spring piece 4035b on the opposite side to the curved or bent side is fixed to the LED substrate 4033.

(2) Power supply circuit unit This will be described mainly with reference to FIG.
The power supply circuit unit 4005 includes a power supply circuit for generating electric power supplied to the LED element 4031 from AC power. The power supply circuit unit 4005 includes a plurality of circuit components 4051, a circuit board 4053 on which the circuit components 4051 are mounted, and a connection portion 4055 for connecting to the LED module 4003.

The circuit component 4051 is an electronic component constituting the power supply circuit.
The circuit board 4053 has a wiring pattern for connecting a plurality of circuit components 4051 so as to form the power supply circuit. The circuit board 4053 has a rectangular shape as a whole and is arranged along the central axis of the tubular body 4073. The circuit board 4053 here is arranged parallel to the central axis of the tubular body 4073, and is arranged so as to be located on the central axis. Further, the circuit board may be arranged so as to be displaced from the central axis so as to be different from the present embodiment.
The circuit board 4053 has a pair of chipped portions 4053a on the base 4077 side. The chipped portion 4053a here has a rectangular shape. In other words, the circuit board 4053 has a pair of overhanging portions 4053b on the LED module 4003 side. The overhanging portion 4053b is inserted into the groove 4735a on the inner peripheral surface of the tubular body 4073 from the side where the LED module 4003 exists, and fits into the groove 4735a. The length of the overhanging portion 4053b and the groove 4735a of the circuit board 4053 is such that when the circuit board 4053 and the LED module 4003 are incorporated into the cylinder 4073, the edge of the circuit board 4053 on the LED module 4003 side is the LED board of the LED module 4003. It is configured to be in close proximity to or in contact with the 4033. Further, the edge of the circuit board 4053 on the base 4077 side is configured to be located inside the cylinder 4073 without extending to the inside of the base holder 4075.

The connection portion 4055 is provided at the end of the circuit board 4053 on the LED module 4003 side, and is electrically connected to the wiring pattern of the circuit board 4053. The connection portion 4055 is composed of a metal pin 4055a. The metal pin 4055a is fixed to the circuit board 4053 with the tip end extending from the circuit board 4053 to the LED module 4003 side. There are two metal pins 4055a, which are provided at intervals.

(3) Encloser (3-1) Translucent cover This will be described mainly with reference to FIGS. 14 and 15.
The translucent cover 4071 covers the LED module 4003 and transmits and emits the light emitted from the LED module 4003. The translucent cover 4071 has a shape, for example, a hollow ellipsoidal sphere having a short-axis side end cut in a plane. The translucent cover 4071 has a step 4071a, which is a mounting portion, at the open end. The step 4071a here is configured such that the inner peripheral side portion protrudes from the opening end surface. In other words, the step 4071a is recessed on the outer peripheral side of the open end portion of the translucent cover 4071.
The translucent cover 4071 is attached to the cylinder 4073 using, for example, an adhesive or the like in a state where the portion having the step 4071a is fitted to the step 4738a at the opening end on the LED module 4003 side of the cylinder 4073. There is. The translucent cover 4071 is made of, for example, a translucent resin material. If necessary, the translucent cover 4071 may have diffusion particles mixed in the resin material, or may be subjected to diffusion treatment on the inner peripheral surface and the outer peripheral surface.

(3-2) Cylindrical body FIGS. 14 to 17, especially FIG. 17, will be described.
The tubular body 4073 mainly has a function of mounting the LED module 4003 and the power supply circuit unit 4005. The tubular body 4073 here has a function of accommodating the power supply circuit unit 4005 inside and mounting the LED module 4003. The power supply circuit unit 4005 is mounted on the tubular body 4073 by using the LED module 4003.

The inner circumference of the cylinder 4073 is substantially constant except for the opening end on the LED module 4003 side. The outer peripheral diameter of the cylinder 4073 increases as it moves from the opening end on the base 4077 side to the opening end on the LED module 4003 side on the central axis, and the overall external shape of the cylinder 4073 is tapered.
The tubular body 4073 has a plurality of grooves 4731 provided at intervals in the circumferential direction on the outer peripheral surface, and the space between the grooves 4731 adjacent to each other in the circumferential direction is a fin portion 4732 for heat dissipation. With such a configuration, the tubular body 4073 has a function of a heat sink that discharges heat generated from the LED module 4003 and the power supply circuit unit 4005. The groove 4731 here is recessed toward the central axis and extends in parallel with the central axis. In FIGS. 14 and 17, the groove 4731 has an arrow at the tip of the lead wire to distinguish it from the fin portion 4732.

The inner diameter and outer diameter of the cylinder 4073 increase as the distance from the straight cylinder 4733 having a constant inner diameter and outer diameter and the end of the straight cylinder 4733 on the LED module 4003 side in the central axis direction from the straight cylinder 4733. A taper cylinder portion 4734, a fin portion 4732 provided on the outer periphery of the straight cylinder portion 4733 and the taper cylinder portion 4734, a mounting portion 4735 for mounting the power supply circuit unit 4005, and a fixing portion for fixing the LED module 4003. It has 4736 and.
As shown in FIGS. 14 to 17, the cylinder body 4073 includes a metal cylinder 4074 that is in close contact with the inner peripheral surface excluding the end portion on the LED module 4003 side, that is, the inner peripheral surface of the straight cylinder portion 4733.

The tubular body 4073 has a plurality of "L" -shaped ribs 4737 extending from the end portion of the tapered tubular portion 4734 on the straight tubular portion 4733 side toward the end portion on the base 4077 side at intervals in the circumferential direction (here). Then there are four.) I have. In other words, the tubular body 4073 has a stretched portion 4737a extending in parallel with the inner peripheral surface of the straight tubular portion 4733 at intervals in the radial direction with respect to the inner peripheral surface of the straight tubular portion 4733, and a taper in the stretched portion 4737a. A rib 4737 having a connecting portion 4737b for connecting an end portion on the tubular portion 4734 side and a tapered tubular portion 4734 is provided. The connecting portion 4737b is stretched in a direction orthogonal to the central axis of the tubular body 4073, and the stretched portion 4737a is stretched in parallel with the central axis.
The metal cylinder 4074 is incorporated between the extended portion 4737a of the rib 4737 and the inner peripheral surface of the straight cylinder portion 4733. Explaining in a state where the metal cylinder 4074 is incorporated, the rib 4737 extends from the end portion of the tapered cylinder portion 4734 on the straight cylinder portion 4733 side toward the central axis (it is a connecting portion 4737b), and the metal cylinder 4074 When it exceeds the inner peripheral surface, it is stretched toward the end portion on the base 4077 side (stretched portion 4737a). In other words, the rib 4737 is provided along the end surface and the inner peripheral surface of the metal cylinder 4074.

The mounting portion 4735 and the fixing portion 4736 are provided on the rib 4737. The mounting portion 4735 here is provided on a pair of ribs 4737 facing each other across the central axis of the tubular body 4073, and the fixing portion 4736 is provided on a pair of ribs 4737 that sandwich the central shaft and do not have a mounting portion 4735. ing.
As shown in FIGS. 14 and 17, the mounting portion 4735 is composed of a groove 4735a provided so as to extend from the connecting portion 4737b to the extending portion 4737a. The groove 4735a exists halfway through the end portion of the extended portion 4737a on the base 4077 side, and the length of the groove 4735a is substantially equal to the length of the overhanging portion 4053b of the circuit board 4053. As shown in FIGS. 14 and 17, the fixing portion 4736 is composed of a screw hole 4736a provided so as to extend from the connecting portion 4737b to the extending portion 4737a. The end faces of the four connecting portions 4737b on the tapered cylinder portion 4734 side have the same height with respect to the end portion on the base 4077 side.

As shown in FIG. 17, the tubular body 4073 has a cover mounting portion 4738 for mounting the translucent cover 4071 at the end portion of the tapered tubular portion 4734 on the translucent cover 4071 side. The cover mounting portion 4738 is composed of a step 4738a recessed from the inner peripheral side.
As shown in FIG. 17, the tubular body 4073 has a base fixing portion 4739 for fixing the base 4077 at the end on the base 4077 side. Here, since the base 4077 is fixed via the base holder 4075, to be precise, the base fixing portion 4739 is for fixing the base holder 4075. The base fixing portion 4739 is composed of a step 4739a provided at the end of the straight cylinder portion 4733 on the base 4077 side and a recess provided on the peripheral surface parallel to the central axis constituting the base 4739a. The outer peripheral side of the step 4739a is recessed. Here, the recess provided on the peripheral surface is composed of a peripheral groove 4739b extending in the circumferential direction.
The cylinder 4073 is made of a resin material. The metal cylinder 4074 may be arranged on the cylinder by insert molding, which is integrally molded at the time of molding the cylinder 4073, or the metal cylinder 4074 may be inserted after the cylinder 4073 is molded.

(3-3) Mouthpiece holder A description will be given with reference to FIGS. 14 and 15.
The base holder 4075 has a cylindrical shape. The base holder 4075 is a tapered cylinder portion 4755 that connects a large diameter cylinder portion 4751 located on the cylinder body 4073 side, a small diameter cylinder portion 4753 located on the base 4077 side, and a large diameter cylinder portion 4751 and a small diameter cylinder portion 4753. And have. The large diameter cylinder portion 4751 has a larger inner diameter and outer diameter than the small diameter cylinder portion 4753. The tapered cylinder portion 4755 is linearly reduced in diameter toward the small diameter cylinder portion 4753.
The base holding body 4075 has a cylinder side fixing portion 4757 fixed to the cylinder 4073 and a base side fixing portion to which the base 4077 is fixed. The cylinder-side fixing portion 4757 is composed of a convex portion 4757a that fits into the peripheral groove 4739b, which is a recess of the base fixing portion 4739 of the cylinder body 4073. A plurality of convex portions 4757a (here, four) are provided on the inner peripheral surface of the end portion of the large-diameter tubular portion 4751 at intervals in the circumferential direction. The base-side fixing portion is composed of the outer peripheral surface of the small-diameter cylinder portion 4753, and the base 4077 is fixed by the base-side fixing portion, for example, via an adhesive.

(3-4) Base The description will be made with reference to FIGS. 14 and 15.
The base 4077 has the same configuration as the base used for a conventional light bulb, has a shell portion and an eyelet portion, and the eyelet portion is attached to the shell portion via an insulating portion.

3. 3. Connection between LED Board and Power Supply Circuit Unit The power supply circuit unit 4005 has a pair of metal pins 4055a at the end of the circuit board 4053 on the LED module 4003 side, and the metal pins 4055a are through holes of the LED board 4033 of the LED module 4003. 4035a is inserted. As the metal pin 4055a passes through the through hole 4035a, the metal spring piece 4035b is elastically deformed while maintaining contact with the metal pin 4055a. As a result, the LED board 4033 and the circuit board 4053 can be reliably and electrically connected.
As described above, the electrical connection between the LED module 4003 and the power supply circuit unit 4005 can be easily performed by simply inserting the metal pin 4055a into the through hole 4035a of the LED substrate 4033.

4. Fixing the power supply circuit unit and the LED module This will be described mainly with reference to FIG.
When mounting the power supply circuit unit 4005, the side where the chipped portion 4053a of the circuit board 4053 exists is set to the tapered tubular portion 4734 side of the tubular body 4073, and the edge of the overhanging portion 4053b of the circuit board 4053 on the chipped portion 4053a side is a groove. The circuit board 4053 is inserted into the cylinder 4073 until it abuts on the end of the 4735a.
The LED board 4033 is placed on the connecting portion 4737b of the rib 4737 of the cylinder 4073 so that the through hole 4035a of the LED module 4003 fits into the metal pin 4055a of the circuit board 4053 inserted in the groove 4735a. In this state, the threaded portion of the threaded body 4004 is screwed into the threaded hole 4736a of the tubular body 4073 by inserting the through hole 4033a of the LED substrate 4033. As a result, the power supply circuit unit 4005 is housed in the tubular body 4073, and the LED module 4003 is fixed to the tubular body 4073. At the same time, the power supply circuit unit 4005 and the LED module 4003 are electrically connected.

Since the LED module 4003 can be mounted in a state where the LED substrate 4033 is in contact with the end surface of the connecting portion 4737b, the screw body 4004 penetrating the contact portion can be firmly fastened. This makes it possible to prevent the screw body 4004 from loosening due to the restoring force of the metal spring piece 4035b.
The power supply circuit unit 4005 is mounted on the extended portion 4737a of the rib 4737 of the tubular body 4073. Therefore, there is no possibility of contact with the metal cylinder 4074 in the cylinder 4073, and no special insulation measures are required. The LED module 4003 is fixed in a state of being in contact with the surface of the tubular body 4073 on the translucent cover 4071 side of the connecting portion 4737b of the rib 4737. Therefore, there is no possibility of contact with the metal cylinder 4074 in the cylinder 4073, and no special insulation measures are required.
Further, since the power supply circuit unit 4005 is located between the pair of ribs 4737 (stretched portion 4737a) and the overhanging portion 4053b is inserted into the groove 4735a, the position of the circuit board 4053 with respect to the pair of ribs 4737 (stretched portion 4737a). Misalignment can be prevented. As a result, for example, even if the stretched portion 4737a tries to separate from the metal cylinder 4074 due to long-term use, it is prevented from the circuit board 4053, and as a result, the insulation between the power supply circuit unit 4005 and the metal cylinder 4074 can be ensured for a long period of time.
With the circuit board 4053 incorporated in the cylinder 4073, the LED module 4003 is fixed to the cylinder 4073 so that the LED board 4033 is close to or abuts on the edge of the circuit board 4053. Therefore, a new configuration for fixing the circuit board 4053 is not required.

5. Heat dissipation during lighting When the lighting device 4001 is turned on, heat is generated from the LED module 4003 and the power supply circuit unit 4005. This heat is transferred to the fin portion 4732 of the cylinder body 4073 via the metal cylinder 4074 and dissipated.
The metal cylinder 4074 is arranged on the inner peripheral side of the straight cylinder portion 4733, and most of the inner peripheral surface of the metal cylinder 4074 faces the internal space except for the portion where the four ribs 4737 exist. As a result, the amount of heat transferred to the metal cylinder 4074 can be increased.

<Fourth Embodiment>
1. 1. Schematic The fourth embodiment will be described with reference to FIGS. 18 to 21.
The lighting device 5001 according to the fourth embodiment is also a so-called light bulb type lamp. Here, the same reference numerals are used for the same components as the components of the lighting device 4001 according to the third embodiment, and the description thereof will be omitted. The same components may be described only in the drawings.
As shown in FIG. 19, the lighting device 5001 houses the LED module 4003 and the power supply circuit unit 4005 in the enclosure 5007. As shown in FIG. 18, the outer enclosure 5007 is composed of a translucent cover 4071, a cylinder 5073, a base holder 4075, and a base 4077, and the inside of the cylinder 5073 is the same as in the third embodiment. Is provided with a metal cylinder 4074.
The illuminating device 5001 has a different tubular body 5073 as compared with the illuminating device 4001 of the third embodiment. Therefore, the tubular body 5073 will be described below.

2. 2. Cylindrical body The inner peripheral diameter of the tubular body 5073 is substantially constant except for the opening end on the LED module 4003 side. The outer peripheral diameter of the cylinder 4073 increases as it moves from the opening end on the base 4077 side to the opening end on the LED module 4003 side on the central axis, and the overall external shape of the cylinder 5073 is tapered.
As shown in FIGS. 19 and 21, the cylinder 5073 has a straight cylinder portion 5731 having a constant inner diameter and outer diameter, and a straight cylinder portion 5731 from the end portion of the straight cylinder portion 5731 on the LED module 4003 side in the central axis direction from the straight cylinder portion 5731. A tapered cylinder portion 5732 whose inner diameter and outer diameter increase as the distance increases, an inner flange portion 5733 protruding from the end of the straight cylinder portion 5731 on the base 4077 side in the central axis direction, and a straight cylinder portion 5731 and a tapered cylinder portion 5732. It has a fin portion 5734 provided on the outer periphery, a mounting portion 5735 for mounting the power supply circuit unit 4005, and a fixing portion 5736 for fixing the LED module 4003.

The tapered cylinder portion 5732 is provided so as to extend from the outer peripheral surface of the end portion of the straight cylinder portion 5731, leaving the end surface of the straight cylinder portion 5731.
Similar to the third embodiment, the fin portion 5734 is configured by utilizing a plurality of grooves 5737 provided at intervals in the circumferential direction. In FIGS. 18, 20, and 21, the groove 5737 has an arrow at the tip of the lead wire in order to distinguish it from the fin portion 5734, the straight tubular portion 5731, the tapered tubular portion 5732, and the like.
As shown in FIGS. 18, 20, and 21, the tubular body 5073 has an inner peripheral surface excluding the end on the LED module 4003 side, that is, a metal cylinder 4074 that is in close contact with the inner peripheral surface of the straight tubular portion 5731. Prepare for. Here, the end face of the metal cylinder 4074 on the tapered cylinder portion 5732 side is exposed.

As shown in FIG. 19, the tubular body 5073 has a plurality of extending portions 5738 extending from the inner flange portion 5733 toward the tapered tubular portion 5732. Here, there are four stretched portions 5738, and the four stretched portions 5738 are provided at equal intervals in the circumferential direction. In other words, the tubular body 5073 includes a stretched portion 5738 extending in parallel with the inner peripheral surface of the straight tubular portion 5731 at intervals in the radial direction with respect to the inner peripheral surface of the straight tubular portion 5731. The stretched portion 5738 here is stretched in parallel with the central axis.
The metal cylinder 4074 is incorporated between the stretched portion 5738 and the straight cylinder portion 5731. Explaining with the metal cylinder 4074 incorporated, the stretched portion 5738 is provided along the inner peripheral surface of the metal cylinder 4074 from the inner flange portion 5733 of the cylinder body 4073, as shown in FIG.
The mounting portion 5735 and the fixing portion 5736 are provided in the extending portion 5738. As shown in FIG. 21, the mounting portion 5735 here is provided on a pair of extending portions 5738 that face each other with the central axis of the tubular body 5073 interposed therebetween. As shown in FIG. 21, the fixing portion 5736 is provided in a pair of extending portions 5738 that sandwich the central axis and are not provided with the mounting portion 5735.

As shown in FIG. 21, the mounting portion 5735 is composed of a groove 5735a provided in the extending portion 5738. The groove 5735a exists halfway through the end portion of the extended portion 5738 on the base 4077 side. The length of the groove 5735a is slightly shorter than the length of the overhanging portion 4053b of the circuit board 4053. The overhanging portion 4053b of the circuit board 4053 is inserted into the groove 5735a. The fixing portion 5736 is composed of a screw hole 5736a provided on the end surface of the extending portion 5738 on the tapered cylinder portion 5732 side.

The tubular body 5073 has a cover mounting portion 5739 for mounting the translucent cover 4071 at an end portion of the tapered tubular portion 5732 on the translucent cover 4071 side. The cover mounting portion 5739 is composed of a step 5739a recessed from the inner peripheral side.
The tubular body 5073 has a base fixing portion 5740 for fixing the base 4077 at the end on the base 4077 side. The base fixing portion 5740 is formed by a recess provided on the outer peripheral surface of the end portion of the straight cylinder portion 5731 on the base 4077 side, and the recess here is formed by a peripheral groove 5740a extending in the circumferential direction.

Although each embodiment has been described above, the present embodiment is not limited to this embodiment, and for example, the following modifications may be used. Further, the embodiment, the modified example, and the modified example may be combined.
Further, the present invention includes examples not described in the embodiments and modifications, and design changes within a range not deviating from the gist.

<Modification example>
1. 1. The base members 2 and 202 according to the first and second embodiments are made of metal, but may be made of a resin material as in the case of the tubular body 4073 in the third embodiment, for example. In this case, it becomes easy to secure the insulation property with the LED boards 31, 2033 and the circuit boards 41, 2043.
The base member may have a structure that supports a portion where the substrate provided with the metal spring piece is fixed by the fastener, and the shape of the base member is not particularly limited, and functions other than the function of mounting the substrate are not particularly limited. May have.
For example, the base member may be made of a thin metal plate as in the first embodiment, or may be made of metal and have a thick portion (base portion 4021) as in the second embodiment. It may be made of a material, or it may be made of a tubular resin material as in the third embodiment.
Further, the base member may be composed of two or more materials, that is, a metal material and a resin material. For example, as in the third embodiment, the cylinder body 4073 integrally provided with the metal cylinder 4074 may be used as the base member, or a resin material (for example, an insulating resin) with respect to the base member of the first embodiment. ) May be applied as a base member.
The base member may have a structure that comes into contact with the LED substrate via an insulating sheet or a heat sheet.

2. 2. Conductor and Conductive Spring Piece (1) Conductor The conductor in the embodiment uses metal pins 45, 2045a, 4055a having a circular or square cross section, and for example, a metal pin whose cross-sectional shape changes in the longitudinal direction. (For example, a tapered shape may be used), a metal plate having a rectangular cross section may be used, or a metal screw (including a tapping screw) may be used. good.

(2) Conductive spring piece The conductive spring piece closes the through hole of the substrate on which the conductive spring piece is provided, elastically deforms as the conductor passes through the through hole, and is elastically deformed by its restoring force to form a conductor. The shape, size, and number are not particularly limited as long as the structure is such that the contact between the two is maintained and energization is possible. However, in the case of a structure in which the conductor is sandwiched from both sides, it is possible to prevent the conductor from coming off. Both sides here are directions parallel to the surface of the substrate and orthogonal to the insertion direction of the conductor.
The amount of the conductive spring piece that closes the through hole may be an amount that allows the conductive spring piece to reliably contact the conductor when the conductor passes through the through hole, and it is not always necessary to close all of the through hole. It should be noted that "closed" here is a state when viewed from the tip side of the insertion direction of the through hole of the conductor, and is not a state when viewed from a direction orthogonal to the insertion direction.

(3) Substrate In the substrate embodiment, the substrate provided with the conductive spring pieces (metal spring pieces) 35,203,4035b was the LED substrate 31,2033,4033, but the conductor is provided on the LED substrate and the conductive spring pieces are circuited. It may be provided on the substrate.
In the embodiment, the conductive spring pieces (metal spring pieces) 35, 2035, 4035b are provided on the mounting surface of the LED elements 33, 2031, 4031 in the LED substrates 31, 2033, 4033, but for example, the third and fourth. In the case of the embodiment, the conductive spring piece may be provided on the surface of the LED substrate opposite to the mounting surface of the LED element.

3. 3. Fasteners In the first and third embodiments, screw bodies 374,4004 are used for fixing the LED substrates 31, 4033, but rivets may be used, for example. By fastening the fastener, the LED substrate 31, 2033, 4033 provided with the conductive spring pieces (metal spring pieces) 35, 2035, 4035b is fixed so as to be pressed against the base member. From this point of view, it suffices if the substrate can be fixed to the base member in the pressed state, and for example, it may be a locking piece that locks the peripheral edge of the LED substrate 31 in the pressed state.

1 Lighting device 2 Base member 3 LED module 4 Power supply circuit unit 31 LED board 31a Through hole 33 LED element 35 Metal spring piece (conductive spring piece)
37 Screw body (fastener)
41 Circuit board 45 Metal pin (conductor)

Claims (3)

An LED module in which an LED element is mounted on an LED board ,
A power supply circuit unit in which a plurality of circuit components are mounted on a circuit board and power is supplied to the LED element.
A lighting device that accommodates the power supply circuit unit and includes a cylinder whose cylinder axis is orthogonal to the LED substrate .
The direction parallel to the cylinder axis is the front and back directions, and the side on which the LED element is mounted on the LED substrate is the front side.
The power supply circuit unit is inserted through an opening on the front side of the cylinder, and the circuit board is housed in the cylinder in a state parallel to the front and back directions.
A pair of metal pins that electrically connect the LED board and the circuit board are provided on the circuit board.
The LED substrate is provided with a through hole for inserting the metal pin and a conductive spring piece that closes the through hole and elastically deforms as the metal pin passes through the through hole.
The LED board and the circuit board are in a vertical state, and a part of the LED board and the circuit board overlap in the front and back directions.
The pair of metal pins provided on the circuit board has a through hole extending from a portion of the circuit board that overlaps the LED board in the front-back direction with the tip end side in the front-back direction and extending toward the LED board side. Provided to pass through
By penetrating the threaded body through the through hole for the threaded body of the LED board from the front side and screwing it into the threaded hole of the tubular body, the LED board and the circuit board are brought closer to each other, and the metal pin is moved to the metal pin. The LED substrate is fixed to the front side of the cylinder in a contact state while passing through the through hole and electrically connected to the conductive spring piece.
Lighting equipment. A plurality of the LED elements are arranged in an annular shape on the LED substrate, and the LED elements are arranged in an annular shape.
The screw body is arranged along the LED element arranged in the annular shape, and the screw body is arranged along the LED element.
The lighting device according to claim 1 , wherein the electrically connected metal pin and the conductive spring piece are arranged inside the LED substrate with respect to the LED element and the screw body arranged in an annular shape. The metal pin has a rod shape and has a rod shape.
The conductive spring piece is formed by bending one rectangular metal plate, has a hole for passing the metal pin in the center in the longitudinal direction of the metal plate, and both sides of the hole are "dogleg" shaped. The lighting device according to claim 1 or 2 , which is curved in.

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