JP2019057480A - Lamp device and lighting device - Google Patents

Abstract

To provide a lamp device which enables a transparent material to be arranged having a certain physical relationship with a globe and a light emitting part.SOLUTION: A light emitting part 30 is provided at one end side of a housing 11. A globe 17 covers one end side of the housing 11. A transparent material 15 has: a light guide pillar 36 in which one end side protrudes into the globe 17 and the other end side faces the light emitting part 30; and an attachment part 37 protruding from the other end side peripheral surface of the light guide pillar 36. A support medium 16 has: a cover part 42 in which an insertion hole 43, into which the light guide pillar 36 of the transparent material 15 is inserted, is provided at one end side; a first positioning part 51 which is provided at the other end side of the cover part 42 and positions one end side of the attachment part 37 of the transparent material 15; and a second positioning part 52 which is provided at the other end side of the cover part 42 and positions the other end side of the attachment part 37. The support medium 16 holds the transparent material 15 and is attached to the one end side of the housing 11. A power supply part is provided at the other end side of the housing 11.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a lamp device using a light guide and an illumination device using the lamp device.

  Conventionally, in a lamp device using a light guide, a columnar light guide is supported by a support, and the support is attached to one end of the housing, so that the light emitting unit is on one side of the light guide. Is placed at a predetermined position in the globe provided on one end side of the housing, and the incident portion side, which is the other end side of the light guide, is placed at a predetermined position facing the light emitting portion provided on one end side of the housing. It is arranged.

  However, since the light guide is cylindrical, even if the light guide is supported by the support and attached to the housing, the axial position of the light guide varies with respect to the globe and the light emitting unit. That is, there are variations in the position of the light guide on the emitting portion side in the globe, and variations in the distance between the incident portion side of the light guide and the light emitting portion, which may affect the optical characteristics.

JP-A-2006-219326

  The problem to be solved by the present invention is to provide a lamp device and an illuminating device in which the light guide can be arranged in a fixed positional relationship with respect to the globe and the light emitting unit.

  The lamp device of the embodiment includes a housing, a light emitting unit, a globe, a light guide, a support, and a power feeding unit. The light emitting unit is provided on one end side of the housing. The globe covers one end side of the housing. The light guide has a light guide column having one end protruding into the globe and the other end facing the light emitting portion, and a mounting portion protruding from the other peripheral surface of the light guide column. The support has a cover portion provided with an insertion hole through which the light guide column of the light guide is inserted on one end side, and a first positioning portion that is provided on the other end side of the cover portion and positions one end side of the light guide attachment portion. And a second positioning portion that is provided on the other end side of the cover portion and positions the other end side of the mounting portion. The support body holds the light guide and is attached to one end side of the housing. The power feeding unit is provided on the other end side of the housing.

  According to the present invention, it can be expected that the light guide is arranged in a certain positional relationship with respect to the globe and the light emitting unit.

It is sectional drawing of a part of lamp device which shows one Embodiment. It is a perspective view of the decomposition | disassembly state of a lamp device same as the above. It is a perspective view of a lamp device same as the above. It is a perspective view explaining the assembly procedure of the light guide and support body of a lamp device same as the above. It is a perspective view explaining the assembly procedure following FIG. 4 of a lamp device same as the above. It is a perspective view explaining the assembly procedure following FIG. 5 of a lamp device same as the above. It is sectional drawing explaining the assembly procedure to the housing | casing of the support body of a lamp device same as the above. It is the top view which assembled the support body of the lamp device same as the above to the case. It is a schematic front view of the illuminating device using a lamp apparatus same as the above.

  Hereinafter, an embodiment will be described with reference to the drawings.

  A lamp device 10 is shown in FIGS. The lamp device 10 is a light bulb shaped lamp that can be used by connecting to a socket for an incandescent light bulb used for general illumination. The lamp device 10 is formed in a size and a shape corresponding to, for example, a mini-krypton using an E17 type base.

  The lamp device 10 includes a housing 11. On one end side of the housing 11, a heat radiating plate 12, a light emitting module 13, a light guide 15 and a support 16 of the optical unit 14, and a globe 17 are disposed. A power supply unit 19 is disposed, and a power feeding unit 20 is disposed on the other end side of the housing 11. The lamp device 10 has an imaginary lamp center axis z extending from the globe 17 to the power feeding unit 20, and in the direction along the lamp center axis z, the globe 17 side is one end side, and the power feeding unit 20 side. Will be referred to as the other end side. FIG. 3 shows a state where the light passes through the globe 17.

  The housing 11 is made of a metal material. For example, the housing 11 is made of aluminum die casting. The casing 11 is formed in a cylindrical shape having a diameter on one end side larger than a diameter on the other end side and a diameter decreasing from the one end side toward the other end side. Inside the housing 11, a hollow portion that opens to one end and the other end is formed. A mounting surface 23 on which the peripheral part of the heat sink 12 is placed is formed on one end surface of the housing 11, and a plurality of heat sinks 12 and the light emitting modules 13 are integrally fastened and fixed to the mounting surface 23. A plurality of boss portions having screw holes into which the screws 24 are screwed are formed. On one end side of the housing 11, an annular annular portion 25 protrudes from the peripheral portion of the mounting surface 23, and an annular locking edge portion 26 protrudes from the inner periphery of the tip of the annular portion 25. A notch 27 for positioning the support 16 is formed in a part of the locking edge 26.

  Further, the heat radiating plate 12 is formed in a substantially disc shape by a metal material such as aluminum. The light emitting module 13 is brought into contact with one end face of the heat radiating plate 12 so as to be able to conduct heat, and the peripheral portion of the other end face of the heat radiating plate 12 is placed on the placement surface 23 of the housing 11 so as to be able to conduct heat.

  The light emitting module 13 includes a substrate 29 and a light emitting unit 30 formed on a surface on one end side of the substrate 29.

  The substrate 29 is formed in a substantially disk shape from an insulating material or a metal material, and a wiring pattern is formed on the surface on one end side. When the substrate 29 is made of a metal material, an insulating film is formed on the surface on one end side of the substrate 29, and a wiring pattern is formed on the insulating film. A light emitting unit 30 is mounted at the center of the surface on one end side of the substrate 29, and electrical components such as a connector 31 for connection to the power supply unit 19 and a capacitor 32 for noise suppression are mounted on the peripheral portion. In addition, a plurality of insertion holes through which the screws 24 are inserted are formed in the peripheral portion of the substrate 29, and notches 33 for wiring between the light emitting module 13 and the power supply unit 19 are formed.

  The light emitting unit 30 uses a light emitting element. The surface of the light emitting unit 30 is configured as a planar light emitting surface. The light emitting unit 30 uses an SMD (Surface Mount Device) package using LEDs as light emitting elements. The light emitting module 13 may be a COB (Chip On Board) module, and the light emitting unit 30 may be an organic EL other than LEDs.

  As shown in FIGS. 1 to 8, the optical unit 14 is constructed by assembling a light guide 15 and a support 16 integrally.

  The light guide 15 of the optical unit 14 is formed of, for example, a transparent resin such as a silicone resin, or glass. The light guide 15 has a cylindrical light guide column 36 having one end protruding into the globe 17 and the other end facing the light emitting unit 30, and a pair of mounting portions 37 protruding from the other peripheral surface of the light guide column 36. have.

  The diameter of the light guide column 36 is, for example, about 4 to 9 mm. The light guide column 36 is formed in a shape in which the diameter on one end side is smaller than the diameter on the other end side and tapers toward the one end side. One end side of the light guide column 36 protrudes in a central region in the globe 17 in the axial direction. The axial central area in the globe 17 includes the axial center in the globe 17 and the vicinity of the center.

  On the surface on the other end side of the light guide column 36, an incident surface 38 on which light emitted from the light emitting unit 30 enters is formed. The incident surface 38 is formed on the same surface as the surface on the other end side of the mounting portion 37. The size (diameter) of the incident surface 38 is larger than the outer shape of the light emitting surface of the light emitting unit 30.

  On one end side of the light guide column 36, a light radiating portion 39 that radiates light incident from the incident surface 38 and guided through the light guide column 36 to the outside of the light guide column 36 is formed. The light emitting portion 39 is a prism 40 for radiating light guided in the light guide column 36 toward a wide range extending from the front which is one end side of the light guide column 36 to the diagonally rear side which is the other end side. Is formed. Then, by emitting strong light from the light emitting portion 39 of the light guide column 36, a glittering feeling as if the incandescent clear light bulb is lit is reproduced.

  A pair of mounting portions 37 of the light guide 15 are provided so as to project in opposite directions from the other peripheral surface of the light guide column 36. The attachment portion 37 is formed in a flat plate shape with a width slightly wider than the diameter of the other end side of the light guide column 36. The outer end surface of the attachment portion 37 is formed in an arc shape with the central axis of the light guide 15 as the center. A concave portion 41 for positioning with the support 16 is formed on the surface of the other mounting portion 37 on the other end side.

  The support 16 of the optical unit 14 holds the light guide 15 and is attached to one end side of the housing 11. The support 16 is made of an insulating resin material. The support 16 has a conical cover part 42 whose center projects toward one end. The cover part 42 is attached to one end side of the casing 11, and covers the one end side of the casing 11, the light emitting module 13, and the like. On the surface which is the one end side surface of the cover part 42, a reflective surface having a high reflectance is formed by, for example, plating.

  An insertion hole 43 through which the light guide column 36 is inserted is formed at the central top portion of the cover portion 42. A pair of groove portions 44 for punching at the time of molding are formed in communication with each other in the circumferentially symmetrical position around the insertion hole 43. The width of the groove 44 in the circumferential direction is narrower than the width of the mounting portion 37 of the light guide 15.

  On the inner side, which is the surface on the other end side of the cover portion 42, a base portion 45 projects from the periphery of each groove portion 44 including both sides in the circumferential direction and the outer diameter side. Inclined surfaces 46 are formed at corners on both sides in the circumferential direction of the base 45 located inside the groove 44. A peripheral wall portion 47 protrudes from the outer diameter side of each pedestal portion 45, and a locking portion 48 that faces the groove portion 44 protrudes from the tip of the peripheral wall portion 47. A hemispherical convex portion 49 that protrudes from the concave portion 41 provided in one attachment portion 37 of the light guide 15 is provided on the surface on one end side of the one locking portion 48.

  The pair of pedestal portions 45 facing each other has a minimum interval on the outer sides on both sides in the circumferential direction, and the minimum interval is formed narrower than the width of the mounting portion 37 of the light guide 15. The distance between the pair of peripheral wall portions 47 facing each other is formed wider than the maximum length dimension (diameter dimension) of the pair of attachment portions 37 of the light guide 15. The locking part 48 has the same width as the groove part 44 and is formed narrower than the width dimension of the mounting part 37 of the light guide 15. The interval between the pair of locking portions 48 facing each other is formed wider than the width of the mounting portion 37 of the light guide 15. A holding groove 50 in which the mounting portion 37 of the light guide 15 is press-fitted and disposed is formed between the surface on one end side of the locking portion 48 and the surface on the other end side of the base portion 45. The groove dimension of the holding groove 50 is the same as or slightly narrower than the thickness dimension of the mounting portion 37 of the light guide 15. 4 and 5, the light guide column 36 of the light guide 15 is inserted into the insertion hole 43 from the other end side of the support 16, and the mounting portion 37 of the light guide 15 is attached. A pair of base portions 45 are brought into contact with each other through a pair of locking portions 48 of the support 16, and the light guide 15 is rotated 90 ° around the axis of the light guide column 36 as shown in FIGS. By moving, the mounting portion 37 can be press-fitted between the base portion 45 and the locking portion 48, and the light guide 15 can be attached to the support 16.

  A first positioning portion 51 that positions the surface on one end side of the attachment portion 37 of the light guide 15 is formed on the surface on the other end side of the base portion 45. A second positioning portion 52 for positioning the surface on the other end side of the mounting portion 37 of the light guide 15 is formed on the surface on one end side of the locking portion 48.

  A bulging portion 53 protruding to one end side is formed in the peripheral portion of the cover portion. Inside the bulging portion 53, a connector 31, a capacitor 32, and the like mounted on the substrate 29 of the light emitting module 13 are accommodated. The outer peripheral surface of the bulging portion 53 is constituted by a peripheral wall that is substantially vertical along the lamp central axis z.

  In the peripheral part of the cover part 42, a recessed relief part 54 for avoiding interference with the screw 24 that attaches the substrate 29 of the light emitting module 13 to the housing 11 is formed.

  An abutting portion 55 that abuts against the substrate 29 of the light emitting module 13 is provided in the periphery of the surface on the other end side of the cover portion.

  From the peripheral part of the cover part 42, a protruding part 56 is provided so as to pass through the notch part 27 of the housing 11 and to position the circumferential position of the support 16 combined with the housing 11. Further, a pair of claw portions 57 and 58 for attaching the support body 16 to the housing 11 are projected from the peripheral portion of the cover portion 42. Unlike the position of the protrusion 56, the pair of claw portions 57 and 58 are provided at symmetrical positions that are 180 ° opposite to the center of the support 16. One claw portion 57 is a fixed claw that is hooked and fixed to the locking edge portion 26 from the inside of the housing 11. Further, the other claw portion 58 uses a fixing method such as a snap fit method, and after the one claw portion 57 is hooked on the locking edge portion 26 of the housing 11, the other claw portion 58 side is placed on the housing. By approaching 11, the other claw portion 58 comes into contact with the locking edge 26 of the housing 11 and elastically deforms, and when it gets over the locking edge 26, it catches on the locking edge 26. It is configured.

  The globe 17 is made of, for example, a transparent material. As the transparent material, resin or glass is used. The globe 17 is hollow, one end side is formed in a hemispherical shape, and the other end side is opened. On the other end side of the globe 17, a fitting edge 61 that is fitted inside the locking edge portion 26 of the housing 11 is projected. The fitting edge 61 is provided with a plurality of locking claws 62 that are locked to the locking edge portion 26. A light emitting portion 39 at the tip of the light guide 15 is disposed in the central region in the axial direction of the globe 17.

  The insulating case 18 is formed in a cylindrical shape from an insulating resin material. The insulating case 18 is inserted into the housing 11 from one end side, and the insulating case 18 is fixed to the housing 11 by attaching a fixing ring 64 to the other end side of the insulating case 18 protruding from the other end side of the housing 11. Has been. A power feeding unit 20 is attached to the other end side of the insulating case 18. A pair of substrate holding portions 65 are formed along the central axis at two opposing locations in the insulating case 18.

  The power source unit 19 converts an external power source such as an AC power source input from the power feeding unit 20 into a lighting power source such as a DC power source and supplies the light source module 13 with the lighting power source. The power supply unit 19 includes a circuit board 68 and a plurality of circuit components 69 mounted on the circuit board 68. The circuit board 68 is inserted between the pair of board holding portions 65 from one end side of the insulating case 18 and is held by the insulating case 18. And the input part of the external power supply of the power supply part 19 is electrically connected to the power supply part 20 by wiring, and the output part of the lighting power supply of the power supply part 19 is electrically connected to the connector 31 of the light emitting module 13 by wiring. .

  The power supply unit 20 uses a base that can be connected to a socket for an E17 type general illumination incandescent bulb, for example. The power feeding unit 20 may use a base such as an E26 type in accordance with the lamp type. Further, the power feeding unit 20 is not limited to the base, and may be a pair of pins depending on the lamp type.

  Next, FIG. 9 shows a schematic front view of an illumination device 80 that uses the lamp device 10. The lighting device 80 is, for example, a wall mounting tool, and a transparent translucent cover 82, for example, is disposed on the upper surface of the pedestal 81, and a socket 83 faces the lamp connection direction upward inside the translucent cover 82. Arranged.

  The lamp device 10 is mounted in a state in which the top of the globe 17 is directed upward by connecting the power feeding unit 20 to the socket 83.

  And the effect | action of this embodiment is demonstrated.

  First, the assembly of the lamp device 10 will be described.

  An insulating case 18 is assembled from one end side of the housing 11 and fixed with a fixing ring 64. The power supply unit 19 is incorporated from one end side of the insulating case 18, the heat sink 12 and the light emitting module 13 are arranged on one end side of the housing 11, and the substrate 29 and the heat sink 12 of the light emitting module 13 are mounted to the housing with a plurality of screws 24. The substrate 29 and the heat radiating plate 12 are thermally coupled to the housing 11 by being fastened to 11 together. The power supply unit 19 and the connector 31 of the light emitting module 13 are connected by wiring.

  Thereafter, the optical unit 14 in which the light guide 15 and the support 16 are integrally assembled is attached to one end side of the housing 11.

  To assemble the light guide 15 and the support 16 of the optical unit 14, the light guide column 36 of the light guide 15 is inserted into the insertion hole 43 from the other end of the support 16 as shown in FIGS. 4 and 5. Then, the attachment portion 37 of the light guide 15 is brought into contact with the pair of base portions 45 through the pair of locking portions 48 of the support 16. Further, as shown in FIGS. 5 and 6, the light guide 15 is rotated 90 ° about the axis of the light guide column 36, and the attachment portion 37 is press-fitted between the base portion 45 and the locking portion 48. At this time, it is possible to confirm that the light guide 15 is attached to a predetermined position of the support 16 with the touch by fitting the concave portion 41 of the attachment portion 37 to the convex portion 49 of the locking portion 48. In addition, it is possible to prevent the light guide 15 from being turned too much.

  Then, in a state where the light guide 15 and the support 16 are assembled, both side portions of the one end side surface of the attachment portion 37 of the light guide 15 abut on the base portion 45 of the support 16 and the light guide 15 is attached. The central portion of the other end surface of the portion 37 abuts on the locking portion 48 of the support body 16, and the mounting portion 37 of the light guide 15 is sandwiched between the base portion 45 and the locking portion 48 of the support body 16. In this state, the light guide 15 is held by the support 16.

  Further, the light guide column 36 of the light guide 15 is inserted into the insertion hole 43 of the support 16 so that the radial position of the light guide 15 with respect to the support 16 is positioned. The mounting portion 37 is sandwiched between the base portion 45 and the locking portion 48, that is, by the first positioning portion 51 and the second positioning portion 52, the axial direction of the light guide 15 with respect to the support body 16. The position is positioned, and the concave portion 41 of the mounting portion 37 is fitted into the convex portion 49 of the locking portion 48, whereby the circumferential position of the light guide 15 with respect to the support 16 is positioned.

  Then, in order to attach the optical unit 14 to one end side of the casing 11, as shown in FIG. 8, the protrusion 56 of the support 16 is aligned with the position of the notch 27 of the casing 11, and as shown in FIG. The one claw portion 57 is hooked on the locking edge portion 26 from the inside of the housing 11. In a state where the one claw portion 57 is hooked on the locking edge portion 26 of the housing 11, the other claw portion 58 is brought close to the housing 11 so that the other claw portion 58 is brought into contact with the housing 11. The claw portion 58 is elastically deformed, and the claw portion 58 is locked when the contact portion 55 in the peripheral portion of the support 16 is pressed against the substrate 29 of the light emitting module 13. Get over the edge 26 and get caught on the locking edge 26.

  Therefore, when the pair of claw portions 57 and 58 of the support body 16 are hooked on the locking edge portion 26 of the housing 11, as shown in FIG. The optical unit 14 is attached to the housing 11 without rattling.

  Thereafter, the globe 17 is attached to one end side of the casing 11, and the power feeding unit 20 is attached to the other end side of the casing 11 (insulating case 18).

  Note that the assembly order of the lamp device 10 is not limited to such an order, and the assembly order may be changed as appropriate.

  In the lighting device 80 to which the lamp device 10 is mounted, when external power is supplied to the lamp device 10 through the socket 83, the power supply unit 19 converts the external power into a predetermined lighting power and supplies it to the light emitting module 13. Thereby, light is emitted from the light emitting unit 30 of the light emitting module 13.

  The light emitted from the light emitting unit 30 enters the light guide column 36 from the incident surface 38 of the light guide 15 and is guided in the light guide column 36 toward the light emitting unit 39. The light guided to the light emitting portion 39 is radiated toward a wide range from the front side which is one end side of the light guide column 36 to the oblique rear side which is the other end side by the action of the prism 40. The light emitted from the light emitting portion 39 of the light guide column 36 passes through the globe 17 and is irradiated to the illumination space.

  When the lamp device 10 is lit, strong light is emitted from the tip of the light guide column 36 of the light guide 15, that is, the light emitting portion 39, so that it is possible to reproduce the glittering feeling that an incandescent clear light bulb is lit. .

  Since the reflection surface having a high reflectance is formed on the surface of the cover portion 42 of the support 16, a part of the light directed toward the surface of the cover portion 42 is reflected outside the globe 17, and the lamp efficiency is improved.

  And since the light guide 15 of the lamp device 10 is positioned and held by the support 16 and this support 16 is attached to one end side of the housing 11, the positions of the light guide 15, the globe 17, and the light emitting unit 30 The relationship is kept constant and stable optical characteristics can be obtained.

  That is, since the attachment portion 37 of the light guide 15 is positioned by contacting the first positioning portion 51 (the base portion 45) of the support 16, the amount of protrusion on the tip side of the light guide column 36 protruding from the support 16 is reduced. Kept constant. Thereby, the light emitting portion 39 of the light guide column 36 can be arranged at a certain position in the globe 17.

  Since the mounting portion 37 of the light guide 15 is positioned in contact with the second positioning portion 52 (locking portion 48) of the support 16, the distance between the incident surface 38 of the light guide column 36 and the light emitting portion 30 is constant. Kept. Thereby, the incident amount of light from the light emitting unit 30 to the light guide column 36 can be made constant.

  Since the light guide column 36 of the light guide 15 is positioned through the insertion hole 43 of the support 16, the position in the surface direction between the incident surface 38 of the light guide column 36 and the light emitting unit 30 is kept constant. Thereby, the light emitting portion 39 of the light guide column 36 can be arranged at a fixed position in the globe 17, and the amount of light incident from the light emitting portion 30 to the light guide column 36 can be fixed.

  Thus, in the lamp device 10 of the present embodiment, in addition to being able to position the radial position of the light guide 15 that is inserted through the insertion hole 43 of the support 16, the first positioning portion 51 and the first position of the support 16 2 Since the position of the light guide 15 in the axial direction can be determined by the positioning portion 52, the light guide 15 can be arranged in a fixed positional relationship with respect to the globe 17 and the light emitting portion 30, and stable optical characteristics are obtained. be able to.

  Furthermore, since the distance between the light guide 15 and the light emitting unit 30 can be made constant, the optical characteristics are stabilized, and light emission is performed as if the distance between the light guide 15 and the light emitting unit 30 is too close due to variations in the distance. It is possible to prevent the light guide 15 from being abnormally deteriorated by the heat from the section 30.

  In addition, after the light guide column 36 of the light guide 15 is inserted into the insertion hole 43 of the support 16, the light guide 15 is rotated, and the mounting portion 37 of the light guide 15 is moved to the first positioning portion 51 of the support 16. Since the light guide 15 and the support 16 can be securely fixed, for example, an adhesive that bonds the light guide 15 and the support 16 and The coating process can be made unnecessary.

  Further, since the support 16 can be attached to the housing 11 by the claw portions 57 and 58, another attachment component such as a metal screw can be dispensed with. Thus, by not using a metal screw having a large thermal expansion coefficient, it is possible to prevent the support 16 from being damaged due to thermal expansion and contraction of the metal screw.

  Further, since the claw portions 57 and 58 of the support 16 are provided in the bulged portion 53 having higher strength than other portions in the peripheral portion of the cover portion 42, the claw portions 57 and 58 at the time of assembly are provided. While being able to prevent damage, the attachment strength to the housing | casing 11 by the nail | claw parts 57 and 58 can be improved.

  The lamp device 10 does not have to include the power supply unit 19. In this case, a lighting power source necessary for the light emitting module 13 may be supplied to the lamp device 10 from a power source unit disposed on the appliance side, or a power source unit is not provided on the appliance side, and the lighting power source is provided via the power feeding unit 20. May be directly supplied to the light emitting module 13.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

10 Lamp device
11 Enclosure
15 Light guide
16 Support
17 Globe
20 Power supply unit
30 Light emitter
36 Light guide column
37 Mounting part
42 Cover
43 Insertion hole
51 First positioning part
52 Second positioning part
53 bulge
57, 58 Nail
80 Lighting equipment
83 socket

Claims (3)

A housing;
A light emitting part provided on one end side of the housing;
A glove covering one end of the housing;
A light guide having one end projecting into the globe and the other end facing the light emitting portion, and a mounting portion projecting from the other circumferential surface of the light guide post;
A cover portion provided with an insertion hole through which the light guide column of the light guide is inserted on one end side, and a first positioning for positioning one end side of the attachment portion provided on the other end side of the cover portion. And a support body that is provided on the other end side of the cover portion and positions the other end side of the attachment portion, holds the light guide, and is attached to one end side of the housing When;
A power feeding unit provided on the other end of the housing;
A lamp device comprising: The cover part is provided in a conical shape with the insertion hole as a top part,
The support includes a bulging portion projecting from the peripheral portion of the cover portion toward one end side, and a plurality of claw portions projecting from a peripheral portion of the bulging portion and locked to the housing. The lamp device according to claim 1, comprising: A lamp device according to claim 1 or 2;
A socket for connecting the power feeding unit of the lamp device;
An illumination device comprising:

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