JP7419105B2 - Lighting equipment and lighting equipment - Google Patents

Description

The present disclosure relates to lamps and lighting devices, and particularly relates to control of light distribution.

Conventionally, methods for improving illuminance in a specific direction, such as directly below the light source, include attaching a reflective member for light distribution control to the fixture body to which the lamp is attached, or arranging a condenser lens to cover the light source. Methods are known. However, such a method may increase costs due to light distribution control, and may also become a factor that prevents common use of parts.

Therefore, in order to solve these problems, a lamp that can be easily manufactured and manufactured at low cost has been proposed, which uses a reflector to increase the amount of light radiated forward and concentrate the light energy. (For example, see Patent Document 1).

International Publication No. 2018/146781

However, in some of the lamps disclosed in Patent Document 1, the reflecting plate extends from a part of the light-transmitting cover so as to contact or be close to the electronic board. In the lighting fixture with this configuration, the orientation such as the rotational direction angle of the main body base inside the transparent cover is determined by the relationship between the tip of the reflector and the electronic board, the relationship between the tip of the reflector and the LED line light source, It is also determined by the relationship between the base of the main body and the inner circumferential surface of the translucent cover. Therefore, when the lamp of Patent Document 1 is assembled or used, there is a risk that the electronic board and the LED line light source may be damaged due to contact with, for example, a reflective plate.

The present disclosure solves the above-mentioned problems, and provides a lamp and a lighting device that do not cause damage to the light source during assembly or use.

A lamp according to the present disclosure includes a light source having a light emitting element and a substrate on which the light emitting element is mounted, a pedestal on which the light source is placed, and a housing part that houses the light source inside, and the housing part is transparent. an outer shell that is attached to a pedestal while covering the light source so as to intersect with the optical axis of the light source; a pair of light distribution control units arranged in parallel with the optical axis of the light source in between, the pair of light distribution control units distributing light emitted from the light source toward the emission unit by reflection; Each of the light distribution control parts extends from the outer shell toward the pedestal, and has one end, a base end that forms the peripheral edge of the emission part, and the other end, which is placed apart from the light source. and a distal end portion facing the pedestal , the distal end portion being disposed closer to the formation side of the light emitting portion than the light emitting element in the direction along the optical axis .

A lighting device according to the present disclosure includes a lamp having the above configuration and a fixture to which the lamp is attached.

The lamp of the present disclosure is configured such that the peripheral edge of the emission part stands up from the outer shell toward the pedestal as the base end, and the distal end opposite to the base end is spaced apart from the light source and is disposed facing the pedestal. This device includes a pair of light distribution control units arranged in parallel with the optical axis in between. Therefore, the lamp according to the present disclosure can prevent the tip of the light distribution control section from coming into contact with the light source during assembly or use, and there is no risk of damaging the light source.

1 is a perspective view illustrating a lighting device according to Embodiment 1. FIG. FIG. 2 is an exploded perspective view illustrating main parts of the lamp according to the first embodiment. FIG. 2 is a first cross-sectional view illustrating the main parts of the lamp according to the first embodiment. FIG. 2 is a perspective view showing a accommodating portion of the lamp according to the first embodiment. FIG. 3 is a second sectional view illustrating the main parts of the lamp according to the first embodiment. FIG. 3 is a third sectional view illustrating the main parts of the lamp according to the first embodiment. 1 is a perspective view showing a pedestal of a lamp according to Embodiment 1. FIG. FIG. 3 is a cross-sectional view illustrating the main parts of a lamp according to a second embodiment. FIG. 7 is a cross-sectional view illustrating a main part of a lamp according to a third embodiment. FIG. 7 is a first cross-sectional view illustrating a main part of a lamp according to a fourth embodiment. FIG. 7 is a second sectional view illustrating the main parts of the lamp according to Embodiment 4; FIG. 7 is a cross-sectional view illustrating the main parts of a lamp according to a fifth embodiment. FIG. 7 is a sectional view illustrating a main part of a lamp according to a sixth embodiment. FIG. 7 is a cross-sectional view illustrating the main parts of a lamp according to Embodiment 7. FIG. 7 is a sectional view illustrating the main parts of a lamp according to an eighth embodiment. FIG. 7 is a perspective view illustrating a lighting device according to a ninth embodiment. FIG. 7 is a cross-sectional view illustrating the main parts of a lamp according to a ninth embodiment.

Hereinafter, a lamp 3, a lighting device 1, etc. according to an embodiment will be described with reference to the drawings and the like. Note that in the following drawings including FIG. 1, the relative dimensional relationships, shapes, etc. of each component may differ from the actual ones. In addition, in the following drawings, parts with the same reference numerals are the same or equivalent, and this is common throughout the entire specification. In addition, terms indicating directions (for example, top, bottom, left, right, front, back, front, back, etc.) are used as appropriate to facilitate understanding, but these notations are for convenience of explanation only. , the arrangement, direction, and orientation of devices, instruments, parts, etc. are not limited.

Embodiment 1.
[Lighting device 1]
FIG. 1 is a perspective view illustrating a lighting device 1 according to the first embodiment. The lighting device 1 is installed at a position where it can illuminate the lighting space, and illuminates the lighting space. The lighting space is a space in which the lighting device 1 is installed, such as a living space, a space such as a warehouse, a space such as a building or public facility, a shared space such as an elevator or a hallway, or the inside of a vehicle such as a train or ship. It means the space etc.

The lighting device 1 includes a fixture 2 and a long lamp 3 that is detachably attached to the fixture 2. The lighting device 1 is attached to a construction part 9 such as a ceiling or a wall surface with the lamp 3 facing indoors. The lighting device 1 lights up the lamp 3 to emit light from the lamp 3, thereby illuminating the illumination space.

The lighting device 1, the fixture 2, and the lamp 3 are all elongated. In the following description, the longitudinal direction of the illumination device 1 is the X-axis direction, the lateral direction with respect to the longitudinal direction is the Y-axis direction, and the direction orthogonal to each of the longitudinal direction and the lateral direction is the Z-axis direction. Further, the side of the structure 9 such as the ceiling to which the lighting device 1 is attached is defined as an upward direction Z1, and the side opposite to the upward direction Z1 and onto which the lighting device 1 irradiates light is defined as a downward direction Z2. The downward direction Z2 is, for example, the direction of gravity.

[Apparatus 2]
The fixture 2 holds the light fixture 3 attached thereto, and supplies power to the light fixture 3 attached to the fixture 2. The appliance 2 includes an appliance body 20, a pair of sockets 21, and a lighting device 22.

The appliance main body 20 is attached to a construction part 9 such as a ceiling using, for example, a fixture such as a bolt. The instrument main body 20 is formed in an elongated box shape and is hollow inside. The fixture main body 20 is provided with a pair of sockets 21 on the side opposite to the side facing the construction part 9 and to which the lamp 3 is attached. The pair of sockets 21 each protrude from the instrument body 20.

One socket 21 is provided near one end of the instrument body 20 in the longitudinal direction (X-axis direction), and the other socket 21 is provided at the other end of the instrument body 20 in the longitudinal direction (X-axis direction). It is located near the department. The distance between the pair of sockets 21 is approximately equal to the length of the lamp 3 in the longitudinal direction. By attaching the lamp 3 between the pair of sockets 21, the lamp 3 is held by the pair of sockets 21. The socket 21 is a connector on the fixture 2 side for holding the lamp 3. Further, the socket 21 is electrically connected to the lamp 3 held therein. The socket 21 is also a power supply end for supplying power to the lamp 3 attached to the fixture 2.

A lighting device 22 is housed inside the appliance main body 20. The lighting device 22 is a power supply device that converts power supplied from an external power source into a voltage or current suitable for the lamp 3. That is, the lighting device 22 generates lighting power to be supplied to the light source 60 (see FIG. 2) such as the light emitting element 61. The lighting device 22 is electrically connected to the socket 21 and supplies power to the lamp 3 via the socket 21.

[Lighting 3]
FIG. 2 is an exploded perspective view illustrating main parts of the lamp 3 according to the first embodiment. FIG. 3 is a first sectional view illustrating the main parts of the lamp 3 according to the first embodiment. The lamp 3 is lit by power supplied from the fixture 2. The lamp 3 includes a housing portion 13, a base 40, a pedestal 50, and a light source 60. The lamp 3 according to the first embodiment is, for example, a straight tube LED lamp equipped with a G13 type base 40. The lamp 3 can be used not only for general lighting purposes, but also for showcase purposes, under-shelf purposes, and the like.

The lamp 3 is attached to the fixture 2 so as to face the fixture body 20. Note that in the direction (Z-axis direction) perpendicular to the longitudinal direction (X-axis direction) and transverse direction (Y-axis direction) of the lamp 3, the side of the lamp 3 from which light is emitted from the light source 60 is the side of the lamp 3. The side of the lamp 3 that is opposite to the emission side and faces the appliance main body 20 is referred to as the appliance side of the lamp 3.

(Accommodation part 13)
FIG. 4 is a perspective view showing the accommodating portion 13 of the lamp 3 according to the first embodiment. The housing portion 13 is a cover for a light source 60, which will be described later. The accommodating portion 13 is formed in an elongated and hollow cylindrical shape, and both ends in the longitudinal direction (X-axis direction) are open. The accommodating portion 13 is attached to a pedestal 50, which will be described later. The accommodating portion 13 accommodates the light source 60 and the pedestal 50 therein in a state where it is attached to the pedestal 50. Note that the housing section 13 may be referred to as a case housing the light source 60 or a tube housing the light source 60 in addition to the cover. The housing section 13 has an outer shell 30, a light distribution control section 31, and a mounting section 33.

(Outer shell 30)
The outer shell 30 of the accommodating portion 13 is a portion of the accommodating portion 13 that is formed in a cylindrical shape. As shown in FIGS. 2 to 4, the outer shell 30 is formed into an elongated and hollow cylindrical shape. However, the shape of the outer shell 30 is not limited to a cylindrical shape. For example, the outer shell 30 may be a cylinder formed in a polygonal shape in a cross section perpendicular to the longitudinal direction (X-axis direction). The outer shell 30 formed in a cylindrical shape may be formed in a perfect circular shape in a vertical cross section with respect to the longitudinal direction (X-axis direction), or may have a shape other than a perfect circle, such as an egg shape, an oval shape, or an elliptical shape. It may also be formed into other shapes.

The outer shell 30 of the accommodating portion 13 accommodates the light source 60 and the pedestal 50 therein. The inner peripheral portion 300 of the outer shell 30 constitutes a surface facing the light source 60 disposed inside the outer shell 30 . The outer peripheral part 301 of the outer shell 30 is a surface facing the illumination space and constitutes a surface not facing the light source 60. The outer shell 30 has end openings 302 at both ends in the longitudinal direction (X-axis direction). The end opening 302 is an opening that communicates the inside and outside of the outer shell 30.

The outer shell 30 of the housing portion 13 has translucency. The outer shell 30 may be formed of a transparent material, for example, or may be formed of a material that diffuses the light that passes through the outer shell 30. The outer shell 30 is attached to the pedestal 50 while covering the light source 60 so as to intersect with the optical axis of the light source 60.

The outer shell 30 of the housing section 13 has a light emitting section 32 . The emitting portion 32 is a portion of the outer shell 30 from which light emitted from the light source 60 is emitted. The emission section 32 is formed in the outer shell 30 between a pair of light distribution control sections 31, which will be described later. The emission section 32 is formed on the emission side of the lamp 3.

In a cross section perpendicular to the longitudinal direction of the outer shell 30, an imaginary line LA connecting the geometric center O of the outer shell 30 and one end 32a of the output section 32, and a virtual line LA connecting the geometric center O of the outer shell 30 and the output section 32 The angle between the virtual line LB and the other end 32b is defined as the light distribution angle θ. The light distribution angle θ is defined to be smaller than the irradiation angle of the light source 60 itself.

The reflectance of the emission part 32 is lower than the reflectance of the inner surface part 312 of the light distribution control part 31. Note that the reflectance is an optical reflectance in the visible band. The emission section 32 has a higher light transmittance than at least the inner surface section 312 of the light distribution control section 31 . Note that the light transmittance is an optical transmittance in the visible band. The emitting section 32 transmits the light emitted from the light source 60 and directly emits it, and also transmits the light emitted from the light source 60 and whose distribution is controlled by the light distribution control section 31 and emits it. That is, the light emitted from the light source 60 and whose distribution is controlled by the light distribution control section 31 is irradiated from the emission section 32 into the illumination space.

The material of the light emitting section 32 is a light-transmitting material. As the material for the emission part 32, for example, a translucent resin such as polycarbonate or acrylic resin can be used. Further, the material of the emission part 32 may be a highly light-diffusing resin material in which a light-transmitting resin such as polycarbonate is used as a base material, and a diffusing agent having a different refractive index from that of the base material is mixed at a predetermined weight ratio. When the emission part 32 is formed of a highly light-diffusing resin material, it has a light-diffusing property to diffuse light. In addition, the material of the emission part 32 mentioned above is an example, and the material of the emission part 32 is not limited to the material mentioned above.

(Light distribution control section 31)
The lamp 3 employs a light distribution control section 31 integrated with the outer shell 30 as light distribution control in place of conventional control for improving illuminance in a specific direction. Conventional control to improve illuminance in a specific direction includes, for example, a method of attaching a reflective member for light distribution control to the fixture body 20 to which a lamp is attached, or a method of concentrating light for narrow light distribution so as to cover the light source. This includes methods of arranging lenses and the like.

The light distribution control unit 31 controls the light distribution of light emitted from the light source 60 in the lamp 3. The light distribution control section 31 controls the direction of the light emitted from the light source 60 so that the light emitted from the light source 60 is emitted from the emission section 32 . That is, the pair of light distribution control units 31 distributes the light emitted from the light source 60 toward the emission unit 32 by reflection, with the light distribution angle θ being defined to be smaller than the irradiation angle of the light source 60. The light is emitted from the emitting section 32.

The light distribution control units 31 stand up from the outer shell 30 and are arranged in parallel in pairs with the optical axis of the light source 60 in between. The light distribution control unit 31 stands up with the inner peripheral portion 300 of the outer shell 30 serving as a base end portion 310 . The light distribution control unit 31 extends from the outer shell 30 toward the inside of the outer shell 30 in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30. More specifically, each of the pair of light distribution control units 31 extends from the outer shell 30 toward the pedestal 50 in a cross section perpendicular to the longitudinal direction (X-axis direction) of the outer shell 30.

The light distribution control unit 31 has a base end 310 at one end and a tip end 311 at the other end in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30.

The base end portion 310 is one end portion of the light distribution control portion 31 and constitutes a peripheral portion of the emission portion 32. Note that, in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30, the peripheral edge of the emission section 32 is defined as one end 32a of the emission section 32 in the transverse direction (Y-axis direction) and the other end 32a of the emission section 32 in the transverse direction (Y-axis direction). This is the end portion 32b. A peripheral portion of the emission part 32 extends along the longitudinal direction (X-axis direction) of the outer shell 30. The base end portion 310 is a connection portion between the light distribution control portion 31 and the inner peripheral portion 300 of the outer shell 30, and is an end portion on the outer shell 30 side. The base end portion 310 is also the root portion of the light distribution control section 31.

The tip portion 311 is the other end of the light distribution control portion 31 and is disposed within the housing portion 13 apart from the light source 60 and faces the pedestal 50 . The tip portion 311 is an end portion of the light distribution control unit 31 on the pedestal 50 side. The tip portion 311 faces the pedestal 50 in a direction (Z-axis direction) perpendicular to the longitudinal direction (X-axis direction) and lateral direction (Y-axis direction) of the lamp 3. The tip portion 311 may be in contact with the pedestal 50 or may be separated from the pedestal 50. The tip portion 311 restricts movement of the base 50 in the rotational direction.

The tip portion 311 of the light distribution control portion 31 is arranged to face any portion of the pedestal main portion 51 other than the light source attachment portion 510, which will be described later. That is, the tip portion 311 of the light distribution control unit 31 is arranged outside the light source 60 in the direction intersecting the optical axis (in the lateral direction), and is arranged outside the substrate 62.

Considering the purpose of increasing the illuminance directly under the light source 60 and the lamp 3, in the transverse direction (Y-axis direction), the tip portion 311 is located outside of the reference line passing through the base portion 310 along the optical axis. Not placed.

Note that in the case of attenuating the light emitted from the light source 60 so as to spread to the periphery and selectively utilizing light close to the optical axis of the light source 60, the tip portion 311 in the transverse direction (Y-axis direction) It is arranged outside a reference line passing through the base end 310 along the optical axis.

The light distribution control section 31 is formed to extend over the entire longitudinal direction of the housing section 13 . The light distribution control section 31 is formed in a plate shape so as to extend along the longitudinal direction (X-axis direction) of the outer shell 30. The light distribution control section 31 has an inner surface section 312 and an outer surface section 313. The inner surface portion 312 constitutes a surface inside the outer shell 30 on which the optical axis is formed. The inner surface portion 312 may be a flat surface, a curved surface, or a combination of a flat surface and a curved surface. The outer surface portion 313 constitutes a surface inside the outer shell 30 on the opposite side to the side where the optical axis is formed.

The light distribution control section 31 is formed such that at least the reflectance of the inner surface 312 of the light distribution control section 31 is higher than the reflectance of the output section 32 of the outer shell 30. That is, the light distribution control section 31 is formed such that at least the light transmittance of the inner surface 312 of the light distribution control section 31 is lower than the light transmittance of the output section 32 of the outer shell 30.

As the material for the inner surface portion 312, for example, a high-reflection resin material may be used, in which a resin such as polycarbonate, acrylic resin, or polybutylene terephthalate is used as a base material, and a material that improves reflectance, such as titanium dioxide, is mixed at a predetermined weight ratio. I can do it. In addition, the material of the inner surface part 312 mentioned above is an example, and the material of the inner surface part 312 is not limited to the material mentioned above.

Specifically, the lamp 3 makes the thickness of the light distribution control section 31 larger than the thickness of the emission section 32 to make it difficult for the light emitted from the light source 60 to pass through the light distribution control section 31. Good too. Alternatively, the lamp 3 may use a highly reflective resin mixed with a highly reflective material as the material of the light distribution control section 31 to efficiently reflect the light emitted from the light source 60.

The accommodating portion 13 may have a laminated structure consisting of a plurality of layers using different materials. The laminated structure may be formed by multicolor molding using different materials of two or more colors. As the material for the light distribution control section 31, in order to further increase the reflectance and light distribution control, it is preferable to use a highly reflective resin having a thickness that does not easily transmit light. However, if you want to keep the cost low or the control angle can be low, you can use the same resin as the light-transmitting part for the light distribution control section 31 and let the light distribution control section 31 control the light distribution. good.

Further, the light distribution control section 31 can further increase the effect of light distribution control by applying a mirror finish to the surface of the inner surface 312 of the light distribution control section 31. Therefore, by mirror-finishing the surface of the inner surface 312 of the lamp 3, the illuminance immediately below the light source 60 and the lamp 3 can be further increased.

Note that the light distribution control section 31 and the emission section 32 may be formed using a material that is not completely transparent. For example, by using a diffusely transparent material for the light distribution control section 31 and the light emitting section 32, the lamp 3 can transmit some of the light emitted from the light source 60 and reflected by the light distribution control section 31 to the light emission section. It is possible to control the light distribution to emit light from 32 into the illumination space. The lamp 3 can be manufactured at low cost by forming the light distribution control section 31 and the emission section 32 using a common material.

FIG. 5 is a second sectional view illustrating the main parts of the lamp 3 according to the first embodiment. FIG. 6 is a third sectional view illustrating the main parts of the lamp 3 according to the first embodiment. FIG. 3 shows a lamp 3 with a light distribution angle θ of 140°. FIG. 5 shows a lamp 3 with a light distribution angle θ of 90°. FIG. 6 shows a lamp 3 with a light distribution angle θ of 45°. The relationship between the light distribution control section 31 and the light distribution angle θ will be explained using FIGS. 3, 5, and 6.

The light distribution control section 31 is formed integrally with the outer shell 30 so as to satisfy a light distribution angle θ determined according to product specifications. The light distribution angle θ is also defined as the angle between the geometric center O of the outer shell 30 and the base end portions 310 of the pair of light distribution control units 31 on the output unit 32 side. For the purpose of increasing the illuminance immediately below the light source 60 and the lamp 3, it is desirable that the light distribution angle θ is defined in the angle range of 45°≦θ≦140°.

The angle between the light distribution control section 31 and the inner peripheral part 300 of the outer shell 30 is arbitrary. The angle between the light distribution control section 31 and the inner peripheral part 300 of the outer shell 30 may be an acute angle, a right angle, or an obtuse angle. Further, the base end portion 310 of the light distribution control section 31 may be provided with a hem-like, that is, a reverse tapered, reinforcing portion. The reinforcing portion may be finished with a flat surface, a curved surface (fillet shape), or a combination of a flat surface and a curved surface.

(Mounting part 33)
The attachment portion 33 is engaged with an engaging portion 53 formed on the pedestal 50 in a state where the outer shell 30 is attached to the pedestal 50. The attachment portion 33 restricts movement of the engaged base 50 in the rotational direction in a state where the attachment portion 33 and the engagement portion 53 are engaged.

The attachment portion 33 is formed to extend over the entire longitudinal direction of the housing portion 13 . The attachment portion 33 is formed at a position that is biased toward the instrument side with respect to the axis of the center O that is parallel to the longitudinal direction of the housing portion 13. The attachment portion 33 is formed on the opposite side of the base end portion 310 of the light distribution control portion 31 with respect to the geometric center along the optical axis direction.

The mounting portion 33 has a first mounting piece 330 and a second mounting piece 331. The first attachment piece 330 is engaged with the first engagement piece 530 of the engagement portion 53 formed on the pedestal 50 in a state where the outer shell 30 is attached to the pedestal 50. The first attachment piece 330 restricts movement of the engaged pedestal 50 in the rotational direction by coming into contact with the first engagement piece 530 in a state where the attachment portion 33 and the engagement portion 53 are engaged. The second attachment piece 331 is engaged with the second engagement piece 531 of the engagement portion 53 formed on the pedestal 50 in a state where the outer shell 30 is attached to the pedestal 50. The second attachment piece 331 restricts movement of the engaged base 50 in the rotational direction by coming into contact with the second engagement piece 531 in a state where the attachment portion 33 and the engagement portion 53 are engaged.

(Base 40)
Next, the base 40 will be explained using FIG. 2. The caps 40 are attached to both ends of the accommodating portion 13, as shown in FIG. Note that the cap 40 can be selected from the G13 type, the GX16-t5 type, the type without the cap terminal 42 and having an output wire, etc., depending on the intended use. The cap 40 includes a cap housing 41 and a cap terminal 42.

The base housing 41 is made of, for example, an insulating resin material. Note that if insulation between the base housing 41 and the base terminal 42 is ensured, the base housing 41 may be made of metal. The base housing 41 is attached to the outer shell 30 so as to cover the end opening 302 of the outer shell 30. That is, the cap 40 is a lid provided at both ends of the accommodating portion 13.

The base housing 41 is formed into a cylindrical shape with a bottom. The cap housing 41 includes a peripheral portion 411 that fits into the end of the outer shell 30 and a bottom portion 410 that closes the end of the outer shell 30. The bottom portion 410 forms side surfaces of both ends of the lamp 3 . The peripheral portion 411 stands up from the peripheral edge of the bottom portion 410 and forms a side wall.

A screw insertion hole 412, which is a through hole, is formed in the bottom portion 410 of the base housing 41. The base 40 is fixed to the pedestal 50 by inserting the shaft portion of the screw 81 with a thread groove into the screw insertion hole 412 and into a screw fixing hole 540 of the pedestal 50, which will be described later. Note that the cap 40 may be fixed to the base 50 using a fixing member other than screws such as a rivet instead of the screw 81, or the cap 40 may be fixed to the base 50 by fitting or screwing without using a fixing member. 40 may be fixed to the base 50.

The cap terminal 42 is made of, for example, a conductive metal. The cap terminal 42 may be subjected to a plating treatment or the like to prevent oxidation. The cap terminal 42 protrudes from the bottom 410 of the cap 40. The cap terminals 42 protrude from both ends of the lamp 3 in the longitudinal direction (X-axis direction) and extend in the longitudinal direction (X-axis direction) of the lamp 3. The base terminal 42 is inserted into the socket 21 shown in FIG. When the base terminal 42 of the base 40 is inserted into the socket 21, the lamp 3 is mechanically supported by the fixture 2 and electrically connected to the fixture 2. In other words, the cap terminal 42 is a connector on the lamp 3 side, and is also a power receiving end on the lamp 3 side.

(Pedestal 50)
FIG. 7 is a perspective view showing the pedestal 50 of the lamp 3 according to the first embodiment. The pedestal 50 will be explained using FIGS. 2 and 7. The pedestal 50 is a member to which the light source 60 is attached, and is a heat radiating member that radiates heat emitted from the light source 60. Further, the pedestal 50 is a member for holding the light source 60 within the housing portion 13.

The pedestal 50 is formed in an elongated shape along the longitudinal direction (X-axis direction) of the accommodating portion 13, and includes a pedestal main portion 51, a pair of pedestal side portions 52, a pair of engaging portions 53, It has a pair of screw fixing parts 54, and these parts are integrated. Furthermore, the pedestal main portion 51, the pedestal side portion 52, the engaging portion 53, and the screw fixing portion 54 are formed to extend over the entire length of the pedestal 50 (X-axis direction).

The pedestal 50 functions as a heat sink that radiates heat generated from the light source 60 to the outside of the lamp 3 via the outer shell 30. Therefore, as the material for the pedestal 50, it is desirable to use a metal material that has excellent thermal conductivity and rigidity, and has a small coefficient of linear thermal expansion. The pedestal 50 is formed using aluminum, for example. Furthermore, a highly reflective film having a higher reflectance than the material of the pedestal 50 may be formed on the surface of the pedestal 50. The high reflection film is, for example, a layer of white colored alumite.

The main pedestal part 51 includes a light source mounting part 510 to which the board 62 of the light source 60 is attached, and overhang parts 511 formed at both ends of the light source mounting part 510 in the transverse direction (Y-axis direction) of the main pedestal part 51. and has. In other words, the pedestal main portion 51 has the light source attachment portion 510 formed between the two projecting portions 511 .

The light source attachment portion 510 is a concave portion of the pedestal main portion 51 . The light source attachment portion 510 is formed to extend over the entire length of the pedestal 50 in the longitudinal direction (X-axis direction). The light source attachment portion 510 is formed to be recessed with respect to the light emission side surface of the overhang portion 511. The installation surface of the board 62 in the light source attachment part 510 is formed into a flat shape. In the pedestal main part 51, a step is formed between the installation surface of the substrate 62 in the light source mounting part 510 and the light emission side surface of the overhang part 511.

When the pedestal 50 is fixed inside the outer shell 30, a substrate 62 is installed on the surface of the light source attachment part 510 located on the emission side, as shown in FIGS. 2 and 7. When the substrate 62 is placed in the light source mounting portion 510, the light emitting element 61 of the light source 60 faces the emission side. As a method for installing the substrate 62 on the pedestal 50, there is a method of adhesively fixing the substrate 62 and the pedestal 50 using an adhesive member such as an adhesive or double-sided tape. Alternatively, as a method for installing the substrate 62 on the pedestal 50, there is a method of forming screw holes in the pedestal 50 and screwing the substrate 62 and the pedestal 50 together using screws. Note that the method of fixing the substrate 62 and the pedestal 50 is not limited to the above method.

As shown in FIG. 3, at both ends of the light source attachment portion 510 in the transverse direction (Y-axis direction), projecting portions 511 that protrude outward in the transverse direction are provided. The projecting portion 511 is formed to extend over the entire longitudinal direction of the pedestal 50.

When the pedestal 50 is fixed inside the outer shell 30 , the tip of the projecting portion 511 in the protruding direction faces the inner peripheral portion 300 of the outer shell 30 . In addition, when the pedestal 50 is fixed inside the outer shell 30, the instrument side surface of the overhang 511 faces the second attachment piece 331, and the output side surface of the overhang 511 faces the instrument side. It faces the tip 311 of the light control section 31 . In the thickness direction (Z-axis direction) of the base 50, a gap is formed between the projecting portion 511 and a second engagement piece 531 of the engagement portion 53, which will be described later.

At both ends of the light source mounting portion 510 in the transverse direction (Y-axis direction), pedestal side portions 52 that protrude toward the instrument side are provided. An engaging portion 53 is provided at the tip of the base side portion 52 . The engaging portion 53 is engaged with the attachment portion 33 formed in the housing portion 13 when the outer shell 30 is attached to the pedestal 50 . The engaging portion 53 restricts movement of the engaged base 50 in the rotational direction in a state where the mounting portion 33 and the engaging portion 53 are engaged.

The engaging portion 53 is formed in an area of the pedestal 50 where the light source 60 is not placed. The engaging portion 53 is formed on the side where the light source 60 is not disposed, that is, on the instrument side of the pedestal 50. The engaging portion 53 is formed to extend over the entire longitudinal direction of the pedestal 50.

When the pedestal 50 is fixed inside the outer shell 30, the engaging portion 53 is arranged at a position biased toward the instrument side with respect to the axis of the center O of the accommodating portion 13. Furthermore, in a state where the pedestal 50 is fixed inside the outer shell 30 , the engaging portion 53 is arranged along the inner peripheral portion 300 of the outer shell 30 .

The engaging portion 53 includes a first engaging piece 530 and a second engaging piece 531. The tip of the first engagement piece 530 is shaped to engage with the first attachment piece 330 of the attachment portion 33 . Therefore, the first engagement piece 530 is engaged with the first attachment piece 330 of the attachment part 33 formed in the accommodating part 13 in a state where the outer shell 30 is attached to the pedestal 50. The first engagement piece 530 restricts movement of the engaged base 50 in the rotational direction by coming into contact with the first attachment piece 330 in a state where the attachment part 33 and the engagement part 53 are engaged.

The tip of the second engagement piece 531 is shaped to engage with the second attachment piece 331 of the attachment portion 33 . Therefore, the second engagement piece 531 is engaged with the second attachment piece 331 of the attachment part 33 formed in the accommodating part 13 in a state where the outer shell 30 is attached to the pedestal 50. The second engagement piece 531 restricts movement of the engaged base 50 in the rotational direction by coming into contact with the second attachment piece 331 in a state where the attachment part 33 and the engagement part 53 are engaged.

A pair of screw fixing parts 54 are provided on the surface of the light source attachment part 510 located on the instrument side, protruding toward the instrument side. A screw fixing hole 540 is formed between the screw fixing parts 54. The base 50 and the base 40 are fixed by the screw 81 inserted into the screw insertion hole 412 formed in the bottom 410 of the base housing 41 being inserted into the screw fixing hole 540. Further, when the base 40 is fixed to the base 50 while the base 50 is fixed inside the outer shell 30, the base 40 is fixed so as to cover the end of the outer shell 30.

When the caps 40 are attached to both ends of the outer shell 30 as shown in FIGS. 2 and 3, a lamp interior space 24 surrounded by the outer shell 30 and the caps 40 is formed inside the outer shell 30. Further, when the pedestal 50 is fixed inside the outer shell 30 , the lamp interior space 24 is divided into four spaces by the light distribution control section 31 and the pedestal 50 . Of these four spaces, the space that the light source 60 faces is referred to as the exit side space 25, and the remaining three spaces that the light source 60 does not face are collectively referred to as the instrument side space 26. The emission side space 25 is surrounded by the inner peripheral part 300 of the outer shell 30, the inner surface part 312 of the light distribution control section 31, the pedestal 50, and the base 40.

(Light source 60)
Next, the light source 60 will be explained using FIGS. 2 and 3. As shown in FIGS. 2 and 3, the light source 60 includes a light emitting element 61 that emits light, and a long flat board 62 on which the light emitting element 61 is mounted. The light source 60 is arranged on the side opposite to the emission part 32 with respect to the center O of the housing part 13 in the direction along the optical axis. Note that the distance between the light source 60 and the emission section 32 may be greater than the distance between the base end sections 310 of the pair of light distribution control sections 31 .

The light emitting elements 61 are elements that emit light from a light emitting surface, and are arranged in plural along the longitudinal direction (X-axis direction) of the substrate 62. The light emitting element 61 is an LED (Light Emitting Diode). The light-emitting element 61 is, for example, a pseudo-white LED packaged by disposing a phosphor that converts the wavelength of blue light into yellow light on an LED chip that emits blue light with a wavelength of 440 to 480 nm.

Note that the number, arrangement position, and type of the light emitting elements 61 are determined depending on the usage of the lamp 3, so the number, arrangement position, and type of the light emitting elements 61 are not limited. For example, the light source 60 uses, as the light emitting element 61, one elongated organic electroluminescence element (hereinafter referred to as an organic EL element) whose length in the longitudinal direction is approximately equal to the length in the longitudinal direction of the substrate 62. Good too. In this case, the light source 60 may be arranged so that the longitudinal direction of the light emitting element 61 of the organic EL element and the longitudinal direction of the substrate 62 are parallel to each other.

The light emitting element 61 is mounted on the mounting surface 620 of the substrate 62. Further, electronic components (not shown) such as diodes, capacitors, fuses, or resistors are mounted on the mounting surface 620 of the substrate 62, and wiring for electrically connecting each light emitting element 61 and each electronic component is mounted. A pattern (not shown) may be provided. The light emitting element 61 and each electronic component are electrically connected to the cap terminal 42 via a wiring pattern. The light emitting element 61 lights up when power is supplied to the light emitting element 61 from the lighting device 22 of the fixture 2 via the socket 21 and the base terminal 42.

An adhesive member is applied to the non-mounting surface 621 of the board 62. The board 62 is adhered and fixed to the light source attachment part 510 of the pedestal 50 using an adhesive applied to the non-mounting surface 621. The non-mounting surface 621 of the substrate 62 constitutes the surface opposite to the mounting surface 620. The non-mounting surface 621 of the board 62 is a surface fixed to the light source attachment part 510 of the pedestal 50, and is also a heat transfer surface that transfers the operating heat emitted from the light source 60 to the pedestal 50.

A glass epoxy material, a paper phenol material, a composite material, a ceramic material, or a metal material such as aluminum is selected as the material for the substrate 62 in consideration of material cost, design specifications, and the like. Further, the mounting surface 620 of the substrate 62 may be coated with a resist having a reflectance higher than that of the material of the substrate 62. The mounting surface 620 of the substrate 62 reflects the light generated from the light source 60.

Next, the light emitted from the light source 60 will be explained using FIGS. 3, 5, and 6. FIG. 3 shows a lamp 3 with a light distribution angle θ of 140°. In FIG. 3, of the light emitted from the light emitting element 61 of the light source 60, the path of the light reflected once by the light distribution control section 31 and emitted from the emission section 32 is indicated by an arrow a.

First, the light emitted from the light emitting element 61 of the light source 60 passes through the emission side space 25 and reaches the inner surface 312 of the light distribution control section 31 . Since the inner surface 312 of the light distribution control section 31 is made of a reflective material, most of the light that reaches the inner surface 312 of the light distribution control section 31 is directed to the emission section 32 side by the inner surface 312 of the light distribution control section 31. reflect to. A part of the light reflected by the inner surface 312 of the light distribution control section 31 reaches the emission section 32 of the outer shell 30, as indicated by arrow a in FIG.

Since the emission part 32 of the outer shell 30 is formed of a material having translucency, most of the light that reaches the emission part 32 is irradiated light that passes through the emission part 32 and is irradiated from the outer shell 30 to the outside of the lamp 3. becomes. The light fixture 3 further increases the amount of light directly below the light source 60 and the light fixture 3 by having the light reflected by the light distribution control unit 31 reach the light output unit 32 in addition to the light that directly reaches the light output unit 32 from the light source 60. Thus, the illumination directly below the light source 60 and the lamp 3 can be improved. Note that when the emission part 32 of the outer shell 30 is formed using a highly light-diffusing resin material, the irradiated light is diffused at various angles, but illustration thereof is omitted in FIG. 3.

FIG. 5 shows a lamp 3 with a light distribution angle θ of 90°. In FIG. 5, the path of light emitted from the light emitting element 61 of the light source 60, which is reflected once by the light distribution control section 31 and emitted from the emission section 32, is indicated by an arrow b.

First, the light emitted from the light emitting element 61 of the light source 60 passes through the emission side space 25 and reaches the inner surface 312 of the light distribution control section 31 . Since the inner surface 312 of the light distribution control section 31 is formed of a reflective material, most of the light that reaches the inner surface 312 of the light distribution control section 31 is directed to the emission section 32 side by the inner surface 312 of the light distribution control section 31. reflect to. A part of the light reflected by the inner surface 312 of the light distribution control section 31 reaches the emission section 32 of the outer shell 30, as indicated by arrow b in FIG.

Since the emission part 32 of the outer shell 30 is formed of a material having translucency, most of the light that reaches the emission part 32 is irradiated light that passes through the emission part 32 and is irradiated from the outer shell 30 to the outside of the lamp 3. becomes. In the lamp 3 shown in FIG. 5, light converges on the center side of the emission part 32 in the transverse direction (Y-axis direction), compared to the lamp 3 shown in FIG. 3, as shown by arrow b. Therefore, the lamp 3 shown in FIG. 5 can increase the amount of light directly below the light source 60 and the lamp 3 compared to the lamp 3 shown in FIG. 3, and can improve the illuminance directly below the light source 60 and the lamp 3.

FIG. 6 shows a lamp 3 with a light distribution angle θ of 45°. In FIG. 6, the path of the light emitted from the light emitting element 61 of the light source 60, which is reflected once by the light distribution control section 31 and emitted from the emission section 32, is indicated by an arrow c.

First, the light emitted from the light emitting element 61 of the light source 60 passes through the emission side space 25 and reaches the inner surface 312 of the light distribution control section 31 . Since the inner surface 312 of the light distribution control section 31 is formed of a reflective material, most of the light that reaches the inner surface 312 of the light distribution control section 31 is reflected by the inner surface 312 of the light distribution control section 31 . The light reflected by the inner surface 312 of the light distribution control section 31 reaches the inner surface 312 of the light distribution control section 31 disposed on the opposite side of the light distribution control section 31 from which the light was reflected. A portion of the light reflected multiple times between the inner surfaces 312 of the pair of light distribution control sections 31 reaches the output section 32 of the outer shell 30 .

Since the emission part 32 of the outer shell 30 is formed of a material having translucency, most of the light that reaches the emission part 32 is irradiated light that passes through the emission part 32 and is irradiated from the outer shell 30 to the outside of the lamp 3. becomes. In the lamp 3 shown in FIG. 6, the light is further converged toward the center of the emission part 32 in the lateral direction (Y-axis direction) compared to the lamp 3 shown in FIG. 5, as shown by arrow c. Therefore, the lamp 3 shown in FIG. 6 can further increase the amount of light directly below the light source 60 and the lamp 3 compared to the lamp 3 shown in FIG. 5, and improve the illuminance directly below the light source 60 and the lamp 3.

[Operations and effects of the lamp 3 and the lighting device 1]
The lamp 3 stands up from the outer shell 30 toward the pedestal 50 with the peripheral edge of the emission part 32 as the base end 310, and the distal end 311 opposite to the base end 310 is separated from the light source 60 and faces the pedestal 50. The light distribution control unit 31 includes a pair of light distribution control units 31 that are arranged in parallel with the optical axis in between. Therefore, when the lamp 3 is assembled or used, it is possible to prevent the tip 311 of the light distribution control section 31 from coming into contact with the light source 60, and there is no risk of damaging the light source 60. Therefore, the lamp 3 is not restricted by the environment in which it is used, and its long-term quality can be improved.

The lamp 3 also has a pair of light distribution control sections 31 that stand up from the outer shell 30 and are arranged in parallel with the optical axis of the light source 60 in between. The light distribution control section 31 distributes the light emitted from the light source 60 toward the emission section 32 by reflection, and causes the light to be emitted from the emission section 32 at an angle smaller than the irradiation angle of the light source 60. be. In addition to the light that directly reaches the output section 32 from the light source 60 , the light reflected by the light distribution control section 31 reaches the output section 32 , so that the lamp 3 is different from the lamp without the light distribution control section 31 . In comparison, the amount of light in a specific direction such as directly below the light source 60 and the lamp 3 can be increased. Therefore, the lamp 3 can improve the illuminance in a specific direction, such as directly below the light source 60 and the lamp 3. The lamp 3 can control light distribution without relying on a reflective member for light distribution control attached to the fixture body or a condensing lens for narrow light distribution. Since the lamp 3 does not use a reflective member for controlling light distribution attached to the main body of the lamp or a condensing lens for narrow light distribution, it can be manufactured at a lower cost than when these are used.

Furthermore, for example, a light fixture in which a reflector plate provided between the outer shell and the light source is attached to the substrate of the light source requires a manufacturing process to ensure the integrity of the reflector plate and the substrate, making it difficult to assemble. Extremely low and not suitable for mass production. The tip portion 311 of the light distribution control section 31 of the lamp 3 is arranged apart from the light source 60. Therefore, the lamp 3 does not require a manufacturing process to ensure the integrity of the light source 60 and the light distribution control section 31, is easy to assemble, and is suitable for mass production.

Furthermore, the emission section 32 is formed between the pair of light distribution control sections 31 in the outer shell 30 . In addition to the light that directly reaches the output section 32 from the light source 60 , the light reflected by the light distribution control section 31 reaches the output section 32 , so that the lamp 3 is different from the lamp without the light distribution control section 31 . In comparison, the amount of light in a specific direction such as directly below the light source 60 and the lamp 3 can be increased. Therefore, the lamp 3 can improve the illuminance in a specific direction, such as directly below the light source 60 and the lamp 3.

Further, in the pair of light distribution control sections 31, at least the reflectance of the inner surface section 312 on the optical axis side is higher than the reflectance of the output section 32. In the lamp 3, in addition to the light that directly reaches the emission part 32 from the light source 60, the light reflected by the light distribution control part 31 reaches the emission part 32. As a result, the amount of light in a specific direction, such as directly below the light source 60 and the lamp 3, can be increased. Therefore, the lamp 3 can improve the illuminance in a specific direction, such as directly below the light source 60 and the lamp 3.

Further, in the pair of light distribution control sections 31, the transmittance of at least the inner surface section 312 on the optical axis side is lower than the transmittance of the output section 32. In the lamp 3, in addition to the light that directly reaches the emission part 32 from the light source 60, the light reflected by the light distribution control part 31 reaches the emission part 32. Thus, the amount of light in a specific direction such as directly below the light source 60 and the lamp 3 can be increased. Therefore, the lamp 3 can improve the illuminance in a specific direction, such as directly below the light source 60 and the lamp 3.

Further, the tip portion 311 of the light distribution control unit 31 is disposed outside the substrate 62 in the direction intersecting the optical axis (lateral direction). By arranging the tip portion 311 of the light distribution control unit 31 in this way, the light-emitting element 61 and the board are controlled by the light distribution control unit 31 when assembling the lamp 3 or when using the lamp 3. There is no risk of damaging the 62.

Moreover, the light source 60 is arranged on the opposite side to the emission part 32 with respect to the center O of the accommodation part 13 in the direction along the optical axis. Therefore, the lamp 3 can increase the distance between the emission part 32 and the light source 60 inside the housing part 13, thereby reducing the granularity of the light emitted by the light emitting element 61 that appears in the emission part 32 of the outer shell 30h. Can be suppressed.

Further, the distance between the light source 60 and the emission section 32 may be greater than the distance between the base end sections 310 of the pair of light distribution control sections 31 . In this case, the lamp 3 can increase the distance between the light emitting part 32 and the light source 60 inside the housing part 13, thereby making it possible to increase the granularity of the light emitted by the light emitting element 61 that appears in the light emitting part 32 of the outer shell 30h. can be suppressed.

Further, since the lighting device 1 includes the lamp 3, the above-described effects of the lamp 3 can be exhibited.

Embodiment 2.
FIG. 8 is a cross-sectional view illustrating the main parts of the lamp 3a according to the second embodiment. Note that components having the same functions and actions as those of the lamp 3 of Embodiment 1 are given the same reference numerals, and the description thereof will be omitted. The lamp 3a according to the second embodiment differs from the lamp 3 in that the configurations of the light distribution control section 31a and the pedestal 50a are different from the configurations of the light distribution control section 31 and the pedestal 50 of the lamp 3 according to the first embodiment. Therefore, in the following description, the configurations of the light distribution control section 31a and the pedestal 50a will be mainly described.

The lamp 3a includes a housing portion 13a, a base 40, a base 50a, and a light source 60. The housing section 13a has an outer shell 30, a light distribution control section 31a, and a mounting section 33.

(Pedestal 50a)
The pedestal 50a is a member to which the light source 60 is attached, and is a heat radiating member that radiates heat emitted from the light source 60. Furthermore, the pedestal 50a is a member for holding the light source 60 within the housing portion 13a.

The pedestal 50a is formed in an elongated shape along the longitudinal direction (X-axis direction) of the accommodating portion 13a, and includes a pedestal main portion 51, a pair of pedestal side portions 52, a pair of engaging portions 53, It has a pair of screw fixing parts 54 and a pair of pedestal lid parts 55, which are integrated. Moreover, the pedestal main part 51, the pedestal side part 52, the engaging part 53, the screw fixing part 54, and the pedestal lid part 55 are formed to extend over the entire lengthwise direction (X-axis direction) of the pedestal 50a. There is. The pedestal 50a is different from the pedestal 50 of the first embodiment in that it includes a pedestal lid portion 55. The basic structure of the pedestal 50a other than the pedestal lid portion 55 is the same as that of the pedestal 50 of the first embodiment.

The pedestal lid part 55 protrudes from the projecting part 511 side toward the light source attachment part 510 side, and covers a part of the light source attachment part 510 on the emission part 32 side. A pair of pedestal lid parts 55 arranged in parallel in the transverse direction (Y-axis direction) are formed so that their tips in the protruding direction face each other. A gap is formed between the pedestal lid part 55 and the mounting surface of the substrate 62 of the light source mounting part 510.

The pedestal lid part 55 faces a part of the mounting surface 620 of the board 62 and covers a part of the mounting surface 620 of the board 62 when the board 62 is attached to the light source mounting part 510 . When the substrate 62 is attached to the light source mounting part 510, the pair of pedestal cover parts 55 arranged in parallel in the transverse direction (Y-axis direction) are arranged such that the tips in the protruding direction face the light emitting element 61. It is formed. Since the pedestal lid part 55 covers a part of the mounting surface 620 of the board 62, there is no risk that the board 62 placed on the light source mounting part 510 will fall from the pedestal 50a. Note that the substrate 62 of the light source 60 is slidably attached to the light source mounting portion 510. It is optional whether or not to use an adhesive between the substrate 62 and the light source attachment part 510 for fixing the substrate 62 and the light source attachment part 510.

When the substrate 62 is attached to the light source mounting part 510, the light emitting element 61 is not covered by the pedestal lid part 55, and is exposed from between the pair of pedestal lid parts 55 arranged in parallel in the transverse direction (Y-axis direction). be exposed. The pedestal lid part 55 does not obstruct the light emitted from the light emitting element 61. The pedestal lid portion 55 receives the operating heat of the light emitting element 61 from the mounting surface 620 of the board 62 .

(Light distribution control section 31a)
The light distribution control unit 31a controls the distribution of light emitted from the light source 60 in the lamp 3a. The light distribution control section 31a controls the direction of the light emitted from the light source 60 so that the light emitted from the light source 60 is emitted from the emission section 32. That is, the pair of light distribution control units 31a distributes the light emitted from the light source 60 toward the emission unit 32 by reflection, and causes the light to be emitted from the emission unit 32 at an angle smaller than the irradiation angle of the light source 60. let In one aspect of the lamp 3a according to the second embodiment illustrated in FIG. 8, the light distribution control section 31a is formed so that the light distribution angle θ, which is the light distribution control range, is 140°.

The light distribution control parts 31a stand up from the outer shell 30 and are arranged in parallel in a pair with the optical axis of the light source 60 in between. The light distribution control unit 31a stands up with the inner circumferential portion 300 of the outer shell 30 serving as a base end portion 310. Each of the pair of light distribution control parts 31a extends from the outer shell 30 toward the pedestal 50a in a cross section perpendicular to the longitudinal direction (X-axis direction) of the outer shell 30. More specifically, each of the pair of light distribution control parts 31a extends from the outer shell 30 toward the pedestal lid part 55 of the pedestal 50a in a cross section perpendicular to the longitudinal direction (X-axis direction) of the outer shell 30.

The light distribution control unit 31a has a base end 310 at one end and a tip end 311a at the other end in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30.

The tip portion 311a is the other end portion of the light distribution control portion 31a, and is disposed within the housing portion 13a to be spaced apart from the light source 60, and faces the pedestal 50a. The tip portion 311a is the end portion of the light distribution control unit 31a on the pedestal 50a side. The tip portion 311a faces the pedestal lid portion 55 of the pedestal 50a in a direction (Z-axis direction) perpendicular to the longitudinal direction (X-axis direction) and lateral direction (Y-axis direction) of the lamp 3a. Note that the tip portion 311a may be brought into contact with the pedestal lid portion 55 of the pedestal 50a, or may be separated from the pedestal lid portion 55. The tip portion 311a restricts movement of the base 50a in the rotational direction.

In the direction along the optical axis of the light source 60, the tip portion 311a of the light distribution control portion 31a is arranged to overlap the substrate 62 of the light source 60 with the pedestal lid portion 55 interposed therebetween. In other words, the pedestal 50a has a pedestal lid portion 55 disposed between the substrate 62 of the light source 60 and the tip portion 311a of the light distribution control portion 31a. The tip portion 311a of the light distribution control portion 31a is disposed closer to the formation side of the light emitting portion 32 than the light emitting element 61 in the direction along the optical axis.

The tip portion 311a of the light distribution control unit 31a is disposed outside the substrate 62 in the direction intersecting the optical axis (lateral direction). Considering the purpose of increasing the illuminance directly under the light source 60 and the lamp 3a, in the transverse direction (Y-axis direction), the distal end 311a is located outside of the reference line passing through the proximal end 310 along the optical axis. Not placed.

Note that in the case of attenuating the light emitted from the light source 60 so as to spread to the periphery and selectively utilizing light close to the optical axis of the light source 60, in the transverse direction (Y-axis direction), the tip portion 311a is It is arranged outside a reference line passing through the base end 310 along the optical axis.

The light distribution control section 31a is formed to extend over the entire longitudinal direction of the housing section 13a. The light distribution control section 31a is formed in a plate shape so as to extend along the longitudinal direction (X-axis direction) of the outer shell 30. The light distribution control section 31a has an inner surface section 312a and an outer surface section 313a. The configurations of the inner surface part 312a and the outer surface part 313a are the same as those of the inner surface part 312 and the outer surface part 313 of the light distribution control section 31a.

[Operations and effects of the lamp 3a and the lighting device 1]
The tip portion 311a of the light distribution control portion 31a is arranged closer to the formation side of the light emitting portion 32 than the light emitting element 61 in the direction along the optical axis. Therefore, when assembling the lamp 3a or using the lamp 3a, there is no risk that the light emitting element 61 and the substrate 62 will be damaged by the tip portion 311a of the light distribution control section 31a.

Furthermore, the pedestal 50a includes a pedestal lid portion 55 disposed between the substrate 62 of the light source 60 and the tip portion 311a of the light distribution control portion 31a. In the lamp 3a, there is no risk of damaging the light emitting element 61 and the substrate 62 by the tip portion 311a when assembling the lamp 3a or using the lamp 3a. Since the lamp 3a can be arranged with the tip 311a of the light distribution control section 31a close to the light emitting element 61 of the light source 60, the light distribution can be efficiently controlled.

Further, the lamp 3a can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Furthermore, since the lighting device 1 includes the lamp 3a, it is possible to exhibit the effects of the lamp 3a described above.

Embodiment 3.
FIG. 9 is a sectional view illustrating the main parts of the lamp 3b according to the third embodiment. Note that components having the same functions and actions as those of the lamp 3 of Embodiment 1 are given the same reference numerals, and the description thereof will be omitted. The lamp 3b according to the third embodiment differs from the lamp 3 in that the configurations of the light distribution control section 31b and the pedestal 50b are different from the configurations of the light distribution control section 31 and the pedestal 50 of the lamp 3 according to the first embodiment. Therefore, in the following description, the configurations of the light distribution control section 31b and the pedestal 50b will be mainly described.

The lamp 3b includes a housing portion 13b, a cap 40, a base 50b, and a light source 60. The housing portion 13b includes an outer shell 30, a light distribution control portion 31b, and a mounting portion 33.

(Pedestal 50b)
The pedestal 50b is a member to which the light source 60 is attached, and is a heat radiating member that radiates heat emitted from the light source 60. Furthermore, the pedestal 50b is a member for holding the light source 60 within the housing portion 13b.

The pedestal 50b is formed in an elongated shape along the longitudinal direction (X-axis direction) of the accommodating portion 13b, and includes a pedestal main portion 51b, a pair of pedestal side portions 52, a pair of engaging portions 53, It has a pair of screw fixing parts 54, and these parts are integrated. Further, the pedestal main portion 51b, the pedestal side portion 52, the engaging portion 53, and the screw fixing portion 54 are formed to extend over the entire length of the pedestal 50b (X-axis direction). The pedestal 50b is different from the pedestal 50 of the first embodiment in the configuration of the pedestal main portion 51b. The basic structure of the pedestal 50b other than the pedestal main portion 51b is the same as that of the pedestal 50 of the first embodiment.

The pedestal main part 51b includes a light source mounting part 510b to which the board 62 of the light source 60 is attached, and an overhang part 511 formed at both ends of the light source mounting part 510b in the transverse direction (Y-axis direction) of the pedestal main part 51b. and has. In the base main portion 51b, a light source attachment portion 510b is formed between two projecting portions 511. Furthermore, the pedestal main portion 51b includes a groove portion 512 into which the tip portion 311b of the light distribution control portion 31b is fitted, and a partition wall 513 that separates the light source attachment portion 510b and the groove portion 512.

The light source attachment portion 510b is a concave portion of the pedestal main portion 51b. The light source attaching portion 510b is formed to extend over the entire longitudinal direction (X-axis direction) of the pedestal 50b. The light source attachment portion 510b is formed to be recessed with respect to the light emission side surface of the overhang portion 511. The installation surface of the board 62 in the light source attachment part 510b is formed into a flat shape. The pedestal main portion 51b has a step formed between the installation surface of the substrate 62 in the light source mounting portion 510b and the exit side surface of the overhang portion 511. Note that in the short direction (Y-axis direction) of the pedestal 50b, the width dimension of the light source mounting portion 510b is smaller than the width dimension of the light source mounting portion 510 of the first embodiment.

When the pedestal 50b is fixed inside the outer shell 30, a substrate 62 is installed on the surface of the light source attachment part 510b located on the emission side. In a state where the substrate 62 is placed in the light source attachment part 510b, the light emitting element 61 of the light source 60 faces the emission part 32 side. Note that the width of the substrate 62 in the short direction (Y-axis direction) of the pedestal 50b is smaller than the width of the substrate 62 in the first embodiment.

The groove portion 512 is a portion formed in a concave shape in the pedestal main portion 51b. The groove portion 512 is formed to extend over the entire longitudinal direction (X-axis direction) of the pedestal 50b. The groove portion 512 is formed to be recessed with respect to the light emission side surface of the overhang portion 511 . In the pedestal main portion 51b, a step is formed between the bottom of the groove portion 512 and the output side surface of the overhang portion 511. The groove portion 512 is formed along the light source attachment portion 510b in the longitudinal direction (X-axis direction) of the pedestal 50b. The groove portions 512 are formed on both sides of the light source attachment portion 510b in the transverse direction (Y-axis direction) of the pedestal 50b. The pedestal 50b differs from the pedestal 50 according to the first embodiment in that a groove portion 512 is formed in the pedestal main portion 51b.

The partition wall 513 is a wall portion that separates the light source mounting portion 510b and the groove portion 512. The partition wall 513 is provided between the light source mounting portion 510b and the groove portion 512. The partition wall 513 is formed in a convex shape with respect to the installation surface of the substrate 62 in the light source mounting portion 510b and the bottom of the groove portion 512. The partition wall 513 forms a side wall of the light source mounting portion 510b formed in a concave shape and a side wall of the groove portion 512 formed in a concave shape. The surface of the partition 513 forming the side wall of the light source mounting portion 510b faces the substrate 62, and the surface of the partition 513 forming the side wall of the groove portion 512 faces the tip portion 311b of the light distribution control portion 31b. The partition wall 513 is formed to extend over the entire longitudinal direction (X-axis direction) of the pedestal 50b. The partition wall 513 is formed along the light source attachment portion 510b and the groove portion 512 in the longitudinal direction (X-axis direction) of the pedestal 50b.

(Light distribution control section 31b)
The light distribution control unit 31b controls the light distribution of light emitted from the light source 60 in the lamp 3b. The light distribution control section 31b controls the direction of the light emitted from the light source 60 so that the light emitted from the light source 60 is emitted from the emission section 32. That is, the pair of light distribution control sections 31b distributes the light emitted from the light source 60 toward the emission section 32 by reflection, and causes the light to be emitted from the emission section 32 at an angle smaller than the irradiation angle of the light source 60. let In one aspect of the lamp 3b according to the second embodiment illustrated in FIG. 9, the light distribution control section 31b is formed so that the light distribution angle θ, which is the light distribution control range, is 140°.

The light distribution control parts 31b stand up from the outer shell 30 and are arranged in parallel in a pair with the optical axis of the light source 60 in between. The light distribution control unit 31b stands up with the inner circumferential portion 300 of the outer shell 30 serving as a base end portion 310. Each of the pair of light distribution control sections 31b extends from the outer shell 30 toward the pedestal 50b in a cross section perpendicular to the longitudinal direction (X-axis direction) of the outer shell 30. More specifically, each of the pair of light distribution control sections 31b extends from the outer shell 30 toward the groove 512 of the pedestal 50b in a cross section perpendicular to the longitudinal direction (X-axis direction) of the outer shell 30.

The light distribution control unit 31b has a base end 310 at one end and a tip end 311b at the other end in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30.

The tip portion 311b is the other end portion of the light distribution control portion 31b, and is disposed within the accommodation portion 13b to be spaced apart from the light source 60, and faces the pedestal 50b. The tip portion 311b is the end portion of the light distribution control portion 31b on the pedestal 50b side. The tip portion 311b faces the pedestal 50b in a direction (Z-axis direction) perpendicular to the longitudinal direction (X-axis direction) and lateral direction (Y-axis direction) of the lamp 3b.

In a state where the pedestal 50b is attached to the accommodating portion 13b, the tip portion 311b of the light distribution control portion 31b is fitted into the groove portion 512. In the lateral direction (Y-axis direction) of the pedestal 50b, the tip portion 311b of the light distribution control section 31b is arranged to overlap the substrate 62 of the light source 60 with the partition 513 interposed therebetween. In other words, the pedestal 50b has a partition 513 arranged between the substrate 62 of the light source 60 and the tip 311b of the light distribution control section 31b. The distal end portion 311b of the light distribution control section 31b is disposed on the side opposite to the light emitting section 32 from the light emitting element 61 in the direction along the optical axis. That is, the tip portion 311b of the light distribution control unit 31b is arranged on the opposite side to the optical axis with respect to the edge of the light source 60 in the lateral direction intersecting the optical axis.

The light distribution control section 31b is formed in such a length that the tip end 311b of the light distribution control section 31b fits into the groove 512 and is arranged inside the groove 512. Therefore, if the positions and sizes of the members constituting the lamp 3 and the lamp 3b are the same, the length of the light distribution control section 31b of the third embodiment is the same as the length of the light distribution control section 31 of the first embodiment. are of different lengths.

[Operations and effects of the lamp 3b and the lighting device 1]
In a state where the pedestal 50b is attached to the accommodating portion 13b, the tip portion 311b of the light distribution control portion 31b is fitted into the groove portion 512. By fitting the distal end portion 311b of the light distribution control section 31b into the groove portion 512, movement of the pedestal 50b in the rotational direction is regulated. Further, by fitting the tip portion 311b of the light distribution control section 31b into the groove portion 512, interference between the tip portion 311b and the light source 60 is prevented. Therefore, when assembling the lamp 3b or using the lamp 3b, there is no risk that the light-emitting element 61 and the substrate 62 will be damaged by the light distribution control section 31b.

Further, the tip portion 311b is disposed on the side opposite to the light emitting portion 32 from the light emitting element 61 in the direction along the optical axis. Therefore, when assembling the lamp 3b or using the lamp 3b, there is no risk that the light emitting element 61 and the substrate 62 will be damaged by the tip portion 311b of the light distribution control section 31b.

In the lamp 3b, a partition wall 513 is provided between the light source mounting portion 510b and the groove portion 512. Therefore, when assembling the lamp 3b or using the lamp 3b, there is no risk that the light emitting element 61 and the substrate 62 will be damaged by the tip portion 311b of the light distribution control section 31b. Further, since the lamp 3b can be disposed with the tip end 311b of the light distribution control section 31b close to the light emitting element 61 of the light source 60, the light distribution can be efficiently controlled.

Further, the lamp 3b can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Furthermore, since the lighting device 1 includes the lamp 3b, it is possible to exhibit the effects of the lamp 3b described above.

Embodiment 4.
FIG. 10 is a first sectional view illustrating a main part of a lamp 3c according to the fourth embodiment. Note that components having the same functions and actions as those of the lamp 3 of Embodiment 1 are given the same reference numerals, and the description thereof will be omitted. In the lamp 3c according to the fourth embodiment, the shape of the outer shell 30c of the housing portion 13c is further specified. Therefore, in the following description, the configuration of the outer shell 30c will be mainly explained. Note that configurations other than the shapes of the accommodating portion 13c, the outer shell 30c, and the cap 40c described below are the same as the accommodating portion 13, the outer shell 30, and the cap 40.

The outer shell 30c of the housing portion 13c is an elliptical cylinder. The outer shell 30c of the housing portion 13c is formed into an elliptical shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3c. In a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3c, the outer shell 30c has the short direction (Y-axis direction) of the lamp 3c as the long axis direction of the ellipse, and the longitudinal direction (X-axis direction) and the short side of the lamp 3c. The direction (Z-axis direction) perpendicular to the hand direction (Y-axis direction) is the short axis direction of the ellipse. The short axis direction of the outer shell 30c is the first direction of the outer shell 30c, and the long axis direction of the outer shell 30c is the second direction of the outer shell 30c. Note that the first direction is also a direction perpendicular to the substrate 62, and the second direction is also the lateral direction of the substrate 62.

Similarly, the base 40c is formed in an elliptical shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3c. In a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3c, the cap 40c has the short direction (Y-axis direction) of the lamp 3c as the long axis direction of the ellipse, and the long direction (X-axis direction) and the short side of the lamp 3c. The direction (Z-axis direction) perpendicular to the hand direction (Y-axis direction) is the short axis direction of the ellipse. The short axis direction of the cap 40c is the first direction of the outer shell 30c described above, and the long axis direction of the cap 40c is the second direction of the outer shell 30c.

Here, the outer diameter of the cap 40c in the first direction is defined as the outer diameter Lz1. The outer diameter Lz1 is the distance between the outer peripheral surfaces of the cap housing 41 in the short axis direction. The outer diameter of the cap 40c in the second direction is defined as outer diameter Ly1. The outer diameter Ly1 is the distance between the outer peripheral surfaces of the cap housing 41 in the major axis direction. Similarly, the outer diameter of the outer shell 30c in the first direction is defined as the outer diameter Lz2. The outer diameter Lz2 is the distance between the outer peripheral surfaces of the outer shell 30c in the short axis direction. The outer diameter of the outer shell 30c in the second direction is defined as an outer diameter Ly2. The outer diameter Ly2 is the distance between the outer peripheral surfaces of the outer shell 30c in the major axis direction.

The lamp 3c has an outer diameter Ly1 larger than the outer diameter Lz1 (outer diameter Ly1>outer diameter Lz1), and an outer diameter Ly2 larger than the outer diameter Lz2 (outer diameter Ly2>outer diameter Lz1). Diameter Lz2). The lamp 3c has a longer dimension along the transverse direction (Y-axis direction) than the lamp 3 of Embodiment 1, and has the same structure as the lamp 3 except for the light source 60 and the screw fixing part 54. It has a form in which it is extended along the transverse direction. That is, the outer shell 30c of the lamp 3c is relatively short in the direction along the optical axis of the light source 60 in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30c, and is relatively short in the direction along the optical axis of the light source 60, and is shorter in the short direction of the outer shell 30c perpendicular to the optical axis. It is formed in the shape of a flat ellipse that is long in the direction along the Y-axis (Y-axis direction).

In one aspect of the lamp 3c according to the fourth embodiment illustrated in FIG. 10, the light distribution control section 31 is formed so that the light distribution angle θ, which is the light distribution control range, is 120°. Note that the lamp 3c is provided with two screw fixing parts 54 along the lateral direction (Y-axis direction) of the pedestal 50, and correspondingly screw fixing parts 54 are provided along the lateral direction (Y-axis direction) of the base 40c. Two screw insertion holes 412 may be provided and the cap 40c may be fixed to the base 50 using two screws 81.

In addition, when installing the lamp 3c so that the optical axis is along the vertical direction (direction of gravity), in order to prevent the influence of warpage due to its own weight, in addition to holding the cap 40c in the socket 21, it is necessary to It is preferable to hold 30c.

[Operations and effects of the lamp 3c and the lighting device 1]
The outer shell 30c of the lamp 3c has a flat shape that is relatively short in the direction along the optical axis of the light source 60 and long in the direction along the lateral direction of the lamp 3c perpendicular to the optical axis. In other words, the lamp 3c is arranged along the optical axis direction with respect to the lamp 3 of Embodiment 1 in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the lamp 3c, while taking into account the graininess directly under the light source 60 and the lamp 3c. The dimensions can be shortened. Therefore, the light source 60 and the lamp 3c can be made smaller and lighter. In particular, the lamp 3c can suppress the height of the lamp 3c and the lighting device 1, and is therefore effective in an installation environment where the height dimension is small, such as under a shelf.

The lamp 3c has an outer diameter Ly1 larger than the outer diameter Lz1 (outer diameter Ly1>outer diameter Lz1), and an outer diameter Ly2 larger than the outer diameter Lz2 (outer diameter Ly2>outer diameter Lz1). Diameter Lz2). Further, in the lamp 3c, the light distribution control section 31 is formed so that the light distribution angle θ, which is the light distribution control range, is 120°. Therefore, by increasing the area of the light emitting part 32, the lamp 3c can improve the light extraction efficiency, and while increasing the illuminance immediately below the light source 60 and the lamp 3c, the area around the light source 60 and the lamp 3c can be improved. The illuminance can also be increased.

Further, the lamp 3c can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Furthermore, since the lighting device 1 includes the lamp 3c, it is possible to exhibit the effects of the lamp 3c described above.

FIG. 11 is a second sectional view illustrating the main parts of the lamp 3d according to the fourth embodiment. Note that the lamp 3d according to the fourth embodiment is a modification of the lamp 3c according to the fourth embodiment. Note that the configurations other than the shapes of the accommodating portion 13d, the outer shell 30d, and the cap 40d described below are the same as those of the accommodating portion 13, the outer shell 30, and the cap 40.

The outer shell 30d of the housing portion 13d is an elliptical cylinder. The outer shell 30d of the housing portion 13d is formed into an elliptical shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3d. In a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 30d, the outer shell 30d has the short axis direction (Y-axis direction) of the lamp 3d as the short axis direction of the ellipse, and the longitudinal direction (X-axis direction) and the short side of the lamp 3d. The direction (Z-axis direction) perpendicular to the hand direction (Y-axis direction) is the long axis direction of the ellipse. The major axis direction of the outer shell 30d is the first direction of the outer shell 30d, and the short axis direction of the outer shell 30d is the second direction of the outer shell 30d. Note that the first direction is also a direction perpendicular to the substrate 62, and the second direction is also the lateral direction of the substrate 62.

Similarly, the base 40d is formed in an elliptical shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3d. In the cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3d, the cap 40d has the short direction (Y-axis direction) of the lamp 3d as the short axis direction of the ellipse, and the long direction (X-axis direction) and the short side of the lamp 3d. The direction (Z-axis direction) perpendicular to the hand direction (Y-axis direction) is the long axis direction of the ellipse. The long axis direction of the cap 40d is the first direction of the outer shell 30d described above, and the short axis direction of the cap 40d is the second direction of the outer shell 30d.

Here, the outer diameter of the cap 40d in the first direction is defined as the outer diameter Lz1. The outer diameter Lz1 is the distance between the outer peripheral surfaces of the cap housing 41 in the longitudinal direction. The outer diameter of the cap 40d in the second direction is defined as an outer diameter Ly1. The outer diameter Ly1 is the distance between the outer peripheral surfaces of the cap housing 41 in the short axis direction. Similarly, the outer diameter of the outer shell 30d in the first direction is defined as the outer diameter Lz2. The outer diameter Lz2 is the distance between the outer peripheral surfaces of the outer shell 30d in the major axis direction. The outer diameter of the outer shell 30d in the second direction is defined as an outer diameter Ly2. The outer diameter Ly2 is the distance between the outer peripheral surfaces of the outer shell 30d in the minor axis direction.

The lamp 3d has an outer diameter Lz1 larger than the outer diameter Ly1 (outer diameter Ly1<outer diameter Lz1), and an outer diameter Lz2 larger than the outer diameter Ly2 (outer diameter Ly2<outer diameter Lz1). Diameter Lz2). The lamp 3 d has a longer dimension along the optical axis direction (Z-axis direction) of the lamp 3 compared to the lamp 3 of Embodiment 1, and has a configuration of the lamp 3 excluding the light source 60 and the screw fixing part 54. is extended along the optical axis direction. That is, the outer shell 30d of the lamp 3d is relatively long in the direction along the optical axis of the light source 60 in the vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30d, and is relatively long in the short direction of the outer shell 30d perpendicular to the optical axis. It is formed in the shape of a flat ellipse that is short in the direction along the (Y-axis direction).

In one aspect of the lamp 3d according to the fourth embodiment illustrated in FIG. 11, the light distribution control section 31 is formed so that the light distribution angle θ, which is the light distribution control range, is 90°.

[Operations and effects of the lamp 3d and the lighting device 1]
The outer shell 30d of the lamp 3d has a flat shape that is relatively long in the direction along the optical axis of the light source 60 and short in the direction along the lateral direction of the lamp 3d perpendicular to the optical axis. That is, the lamp 3d can have a shorter dimension along the transverse direction (Y-axis direction) than the lamp 3 of Embodiment 1 in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the lamp 3d. Therefore, in the lamp 3d, the light source 60 and the lamp 3d can be made smaller and lighter. In particular, the light fixture 3d can suppress the width dimension of the light fixture 3d and the lighting device 1, so it is effective in installation environments where the width dimension is small, such as the peripheral edge (corner) of a construction part or a slit-like gap. Demonstrate.

The lamp 3d has an outer diameter Lz1 larger than the outer diameter Ly1 (outer diameter Ly1<outer diameter Lz1), and an outer diameter Lz2 larger than the outer diameter Ly2 (outer diameter Ly2<outer diameter Lz1). Diameter Lz2). Further, in the lamp 3d, the light distribution control section 31 is formed so that the light distribution angle θ, which is the light distribution control range, is 90°. Therefore, in the lamp 3d, by increasing the distance dimension between the light source 60 and the emission part 32, the graininess can be suppressed, and the light emitted from the emission part 32 can be increased while increasing the illuminance directly below the light source 60 and the lamp 3d. uniformity can be improved.

Further, the lamp 3d has an outer diameter Lz1 larger than the outer diameter Ly1 (outer diameter Ly1<outer diameter Lz1), and an outer diameter Lz2 larger than the outer diameter Ly2 (outer diameter Ly2 <Outer diameter Lz2). Therefore, the lamp 3d is not easily affected by warpage due to its own weight even when the lamp 3d is installed so that its optical axis is along the vertical direction (direction of gravity).

Further, the lamp 3d can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Furthermore, since the lighting device 1 includes the lamp 3d, it is possible to exhibit the effects of the lamp 3d described above.

Embodiment 5.
FIG. 12 is a sectional view illustrating a main part of a lamp 3e according to the fifth embodiment. Note that components having the same functions and actions as those of the lamp 3 of Embodiment 1 are given the same reference numerals, and the description thereof will be omitted. The lamp 3e according to the fifth embodiment differs from the lamp 3 mainly in that the configurations of the accommodating part 13e and the pedestal 50e are different from the configurations of the accommodating part 13 and the pedestal 50 of the lamp 3 according to the first embodiment. Therefore, in the following description, the configurations of the accommodating portion 13e and the pedestal 50e will be mainly described. Note that the configurations and functions of the accommodating portion 13e and the pedestal 50e other than those described below are, in principle, the same as those of the accommodating portion 13 and the pedestal 50 of the first embodiment.

[Lamp 3e]
As shown in FIG. 12, the lamp 3e of the fifth embodiment is relatively short in the direction along the optical axis (Z-axis direction) and relatively short in the short direction (Y-axis direction) perpendicular to the optical axis. It is formed into a long flat shape. The lamp 3e is not limited to this, but may have a flat shape that is relatively long in the direction along the optical axis (Z-axis direction) and short in the short direction (Y-axis direction) perpendicular to the optical axis. You can. Alternatively, the lamp 3e has a shape in which the dimension in the direction along the optical axis (Z-axis direction) and the dimension in the transverse direction (Y-axis direction) perpendicular to the optical axis are approximately the same, that is, a shape that is not flat. It may be.

The lamp 3e is lit by power supplied from the fixture 2. The lamp 3e includes a housing portion 13e, a cap 40e, a base 50e, and a light source 60.

(Accommodating part 13e)
The accommodating portion 13e is formed into an elongated and hollow cylindrical shape, and both ends in the longitudinal direction (X-axis direction) are open. The accommodating portion 13e is attached to the pedestal 50e. The accommodating portion 13e accommodates the light source 60 and the pedestal 50e therein in a state where it is attached to the pedestal 50e. The housing portion 13e includes an outer shell 30e, a light distribution control portion 31, and a mounting portion 33e.

(Outer shell 30e)
The outer shell 30e of the accommodating portion 13e is a cylindrical portion of the accommodating portion 13e. The outer shell 30e has an octagonal cross-sectional shape in a vertical cross-section with respect to the longitudinal direction (X-axis direction). Therefore, the accommodating portion 13e is formed into an octagonal cylinder shape. Note that the outer shell 30e is not limited to an octagonal cross-sectional shape in a vertical cross-section with respect to the longitudinal direction (X-axis direction), but may be formed in a polygonal shape of a triangle or more. The accommodating portion 13e can have a polygonal cylindrical shape that corresponds to the installation environment.

The outer shell 30e of the accommodating part 13e has an emitting part 32e. The emitting portion 32e is a portion of the outer shell 30e from which light emitted from the light source 60 is emitted. The emission part 32e is formed between the pair of light distribution control parts 31 in the outer shell 30e. The emission part 32e is formed into a flat plate shape. The inner peripheral part 300 and the outer peripheral part 301 of the emission part 32e are formed into a planar shape. Note that the inner peripheral part 300 and the outer peripheral part 301 of the emission part 32e are not limited to a planar configuration. For example, unevenness may be formed on one or both of the inner peripheral part 300 and the outer peripheral part 301 of the emission part 32e.

The outer shell 30e has an output portion 32e as a wall on the output side of the lamp 3e, and a bottom portion 34e as a wall on the appliance side of the lamp 3e. The bottom portion 34e is formed into a flat plate shape.

(Light distribution control section 31)
In one aspect of the lamp 3e according to the fifth embodiment illustrated in FIG. 12, the light distribution control section 31 is formed so that the light distribution angle θ, which is the light distribution control range, is 135°.

(Mounting part 33e)
The attachment portion 33e is engaged with an engaging portion 53e formed on the pedestal 50e when the outer shell 30e is attached to the pedestal 50e. The mounting portions 33e are formed in pairs so as to be located on both sides of the substrate 62 of the light source 60 in the lateral direction (Y-axis direction) of the lamp 3e.

In a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3e, the pair of mounting portions 33e protrude from the outer shell 30e toward the cylindrical space formed by the outer shell 30e such that their tips are opposed to each other. In a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3e, the pair of mounting portions 33e each extend in the lateral direction (Y-axis direction) of the lamp 3e.

The attachment portion 33e is formed to extend over the entire longitudinal direction of the housing portion 13e. The attachment portion 33e is formed at a position that is biased toward the instrument side with respect to the axis of the center O that is parallel to the longitudinal direction of the housing portion 13e. The attachment portion 33e is formed on the opposite side of the base end portion 310 of the light distribution control portion 31 with respect to the geometric center in the direction along the optical axis in the housing portion 13e.

(Base 40e)
The caps 40e are attached to both ends of the housing portion 13e in the longitudinal direction (X-axis direction). The cap 40e includes a cap housing 41e and a cap terminal 42.

The base housing 41e is formed into a cylindrical shape with a bottom. The cap housing 41e has an octagonal cross-sectional shape in a vertical cross-section with respect to the longitudinal direction (X-axis direction). Note that the cross-sectional shape of the cap casing 41e in a vertical cross section with respect to the longitudinal direction (X-axis direction) is not limited to an octagon, but may be formed in a polygon of triangular or more. The cross-sectional shape of the base housing 41e may be any shape as long as it fits into the outer shell 30e.

(pedestal 50e)
The pedestal 50e is a member to which the light source 60 is attached, and is a heat radiating member that radiates heat emitted from the light source 60. Furthermore, the pedestal 50e is a member for holding the light source 60 within the housing portion 13e.

The pedestal 50e is formed into a long plate shape along the longitudinal direction (X-axis direction) of the accommodating portion 13e. The pedestal 50e has a pedestal main portion 51e and a pair of engaging portions 53e, which are integrally configured. Furthermore, the pedestal main portion 51e and the engaging portion 53e are formed to extend over the entire longitudinal direction (X-axis direction) of the pedestal 50e. Note that the pedestal 50e does not include the pedestal side portion 52 that the pedestal 50 of the first embodiment has.

In a state where the outer shell 30e is attached to the pedestal 50e, the pedestal main portion 51e faces and abuts the bottom portion 34e of the outer shell 30e. The pedestal main part 51e includes a light source mounting part 510 to which the board 62 of the light source 60 is attached, and an overhang part 511e formed at both ends of the light source mounting part 510 in the transverse direction (Y-axis direction) of the pedestal main part 51e. and has.

As shown in FIG. 12, at both ends of the light source mounting portion 510 in the transverse direction (Y-axis direction), projecting portions 511e that protrude outward in the transverse direction are provided. The projecting portion 511e is formed to extend over the entire longitudinal direction of the base 50e.

An engaging portion 53e is provided at the tip of the projecting portion 511e in the lateral direction (Y-axis direction) of the pedestal main portion 51e. The engaging portion 53e is a cutout portion provided on the side edge of the overhang portion 511e, and is recessed from the surface of the pedestal main portion 51e on which the board 62 is installed to the side facing the bottom portion 34e. It is formed in a round shape. The engaging portion 53e is a stepped portion formed at the end of the overhang portion 511e in the transverse direction (Y-axis direction) of the pedestal main portion 51e.

The engaging portion 53e is formed in a region of the pedestal 50e where the light source 60 is not placed. The engaging portion 53e is formed to extend over the entire longitudinal direction of the base 50e. In a state where the base 50e is fixed inside the outer shell 30e, the engaging portion 53e is arranged at a position biased toward the instrument side with respect to the axis of the center O of the housing portion 13e.

The engaging portion 53e is engaged with a mounting portion 33e formed on the outer shell 30e when the outer shell 30e is attached to the pedestal 50e. The engaging portion 53e restricts movement of the base 50e in a state where the mounting portion 33e and the engaging portion 53e are engaged. In the direction along the optical axis, both ends of the pedestal 50e in the short direction (Y-axis direction) are held between the bottom portion 34e and the attachment portion 33e.

The lamp 3e shown in FIG. 12 exemplifies a mode in which the screw fixing portion 54 is not provided on the pedestal 50e. However, the lamp 3e is configured such that a screw fixing part 54 is provided on the pedestal 50e, a screw insertion hole 412 is provided in the cap 40e correspondingly, and the cap 40e is fixed to the pedestal 50e using a screw 81. Good too.

[Operations and effects of the lamp 3e and the lighting device 1]
The lamp 3e stands up from the outer shell 30e toward the pedestal 50e with the peripheral edge of the emission part 32 as the base end 310, and the distal end 311 opposite to the base end 310 is separated from the light source 60 and faces the pedestal 50e. The light distribution control unit 31 is provided with a pair of light distribution control units 31 arranged at the same time. Therefore, when the lamp 3e is assembled or used, it is possible to prevent the tip 311 of the light distribution control section 31 from coming into contact with the light source 60, and there is no risk of damaging the light source 60. Therefore, the lamp 3e is not restricted by the usage environment and can improve long-term quality.

Furthermore, the pedestal 50e of the lamp 3e includes an engaging portion 53e formed in an area where the light source 60 is not placed. The accommodating portion 13e of the lamp 3e is formed on the opposite side of the base end portion 310 with respect to the geometric center in the direction along the optical axis, and includes a mounting portion 33e to which the engaging portion 53e is engaged. ing. The lamp 3e can ensure the length of the light distribution control section 31 with this configuration. In the lamp 3e, in addition to the light that directly reaches the emission part 32 from the light source 60, the light reflected by the light distribution control part 31 reaches the emission part 32. By doing so, it is possible to increase the amount of light in a specific direction, such as directly below the light source 60 and the lamp 3e. Therefore, the lamp 3e can improve the illuminance in a specific direction, such as directly below the light source 60 and the lamp 3e.

Further, the lamp 3e can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Furthermore, since the lighting device 1 includes the lamp 3e, it is possible to exhibit the effects of the lamp 3e described above.

Embodiment 6.
FIG. 13 is a sectional view illustrating a main part of a lamp 3f according to the sixth embodiment. Note that components having the same functions and actions as those of the lamp 3 of Embodiment 1 are given the same reference numerals, and the description thereof will be omitted. The lamp 3f according to the sixth embodiment differs from the lamp 3 mainly in that the configuration of the housing section 13f is different from the configuration of the housing section 13 of the lamp 3 according to the first embodiment. Therefore, in the following description, the configuration of the accommodating portion 13f will be mainly described. The configuration and functions of the accommodating section 13f other than those described below are, in principle, the same as those of the accommodating section 13 of the first embodiment.

[Lighting 3f]
The lamp 3f is lit by power supplied from the fixture 2. The lamp 3f includes a housing portion 13f, a base 40f, a pedestal 50, and a light source 60.

(Accommodation part 13f)
The housing portion 13f is a cover for the light source 60. The accommodating portion 13f is formed in an elongated and hollow cylindrical shape, and both ends in the longitudinal direction (X-axis direction) are open. The accommodating portion 13f is attached to the pedestal 50. The accommodating portion 13f accommodates the light source 60 and the pedestal 50 therein in a state where it is attached to the pedestal 50. The housing section 13f has an outer shell 30f, a light distribution control section 31f, a mounting section 33 shown in FIG. 4, and a light source holding section 35.

(Outer enclosure 30f)
The outer shell 30f is attached to the pedestal 50 while covering the light source 60 so as to intersect with the optical axis of the light source 60. The outer shell 30f of the housing section 13f is provided at both ends of the light distribution control section 31f in the direction along the optical axis of the light source 60. More specifically, the outer shell 30f includes a first outer shell 30f1, which is provided so as to connect tips 311f of a pair of light distribution control parts 31f via a light source holding part 35, which will be described later, and a pair of light distribution control parts. 31f, and a second outer shell 30f2 provided between the base end portions 310 of the second outer shell 30f.

The first outer shell 30f1 and the second outer shell 30f2 are formed in an arc shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3f. The first outer shell 30f1 is formed in an arc shape so as to be convex toward the appliance side of the lamp 3f, as shown in FIG. 13, in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the lamp 3f. The second outer shell 30f2 is formed in an arc shape so as to be convex toward the emission side of the lamp 3f. Note that the first outer shell 30f1 and the second outer shell 30f2 are not limited to having an arc shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3f.

A first outer shell 30f1 provided to connect the tip portions 311f of the pair of light distribution control portions 31f engages with the attachment portion 33, and accommodates the light source 60 and the pedestal 50 therein. The second outer shell 30f2 provided between the base end portions 310 of the pair of light distribution control portions 31f constitutes the emission portion 32.

(Light distribution control section 31f)
The light distribution control unit 31f controls the light distribution of light emitted from the light source 60 in the lamp 3f. The light distribution control parts 31f stand up from the second outer shell 30f2 and are arranged in parallel in a pair with the optical axis of the light source 60 in between. The light distribution control unit 31f stands up with the inner circumferential portion 300 of the second outer shell 30f2 as the base end portion 310. Each of the pair of light distribution control parts 31f extends from the second outer shell 30f2 toward the pedestal 50 in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30f.

In one aspect of the lamp 3f according to the sixth embodiment illustrated in FIG. 13, the light distribution control section 31f is formed such that the light distribution angle θ, which is the light distribution control range, is 140°. The light distribution control section 31f distributes the light emitted from the light source 60 toward the emission section 32 by reflection, and causes the light to be emitted from the emission section 32 at an angle smaller than the irradiation angle of the light source 60.

The light distribution control unit 31f has a base end 310 that forms the peripheral edge of the emission unit 32 at one end in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30f, and a light source at the other end. It has a tip portion 311f connected to the holding portion 35.

The distal end portion 311f is the other end of the light distribution control portion 31f, is disposed within the housing portion 13f, and is spaced apart from the light source 60, and faces the pedestal 50. The tip portion 311f is the end portion of the light distribution control portion 31f on the pedestal 50 side. The tip portion 311f faces the pedestal 50 in a direction (Z-axis direction) perpendicular to the longitudinal direction (X-axis direction) and lateral direction (Y-axis direction) of the lamp 3f. The tip portion 311f may be brought into contact with the pedestal 50, or may be separated from the pedestal 50. The tip portion 311f restricts movement of the base 50 in the rotational direction.

The tip portion 311f of the light distribution control portion 31f is arranged to face any portion of the pedestal main portion 51 other than the light source attachment portion 510. That is, the tip portion 311f of the light distribution control unit 31f is disposed outside the light source 60 in the direction intersecting the optical axis (in the lateral direction), and is disposed outside the substrate 62.

A light source holding portion 35 is provided between the tip portion 311f of the light distribution control portion 31f and the first outer shell 30f1 provided on the fixture side of the lamp 3f.

(Light source holding part 35)
The housing portion 13f includes a light source holding portion 35 formed to extend toward the first outer shell 30f1 with the distal end portion 311f of the light distribution control portion 31f serving as a base end portion 350. The light source holding portion 35 is provided at the inner peripheral portion of the housing portion 13f to hold the light source 60. The light source holding part 35 comes into contact with the pedestal 50 and holds the light source 60.

A distal end portion 351 of the light source holding portion 35 is connected to the first outer shell 30f1. The light source holding portion 35 is formed along the lateral direction (Y-axis direction) of the lamp 3f in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the lamp 3f, and extends from the light emitting side of the lamp 3f to the overhang of the pedestal 50. 511 is supported.

The housing portion 13f includes an outer shell 30f, a light distribution control portion 31f, and a light source holding portion 35 that are integrally formed. In a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3f, the light distribution control section 31f and the light source holding section 35 are formed in a V-shape such that the side surface of the lamp 3f is open. That is, in the housing portion 13f, the outer shell 30f is not formed in a portion between the base end portion 310 of the light distribution control portion 31f and the distal end portion 351 of the light source holding portion 35.

In the portion of the accommodating portion 13f where the outer shell 30f is not formed, the outer surface portion 313f of the light distribution control portion 31f forms an outer wall of the accommodating portion 13f and the lamp 3f, and faces the illumination space. Moreover, in this part, the outer surface part 35f of the light source holding part 35 forms the outer wall of the accommodating part 13f and the lamp 3f, and faces the illumination space. In the housing portion 13f, the outer surface portion 313f of the light distribution control portion 31f and the outer surface portion 35f of the light source holding portion 35 face each other in the direction along the optical axis of the light source 60, and form a slope with each other.

In the lamp 3f, the area of the outer peripheral wall of the imaginary outer shell 30f between the base end 310 of the light distribution controller 31f and the tip end 351 of the light source holder 35 is larger than the area of the outer surface 35f of the light source holder 35. big. That is, in the accommodating part 13f, a part of the outer shell 30 is deleted compared to the accommodating part 13 of the first embodiment, and the outer peripheral wall of the deleted part of the outer shell 30 is the outer surface of the light source holding part 35. It has a larger area than the portion 35f.

(Base 40f)
The cap 40f includes a cap housing 41f corresponding to the cross-sectional shape of the accommodating portion 13f. Therefore, the base 40f that constitutes the lamp 3f of the sixth embodiment is different from the base 40 of the first embodiment in which the cross-sectional shape of the base housing 41 is circular.

[Operations and effects of the lamp 3f and the lighting device 1]
In the lamp 3f, the light source holding section 35 and the light distribution control section 31f constitute a part of the outer wall of the housing section 13f. Therefore, the outer surface portion 313f of the light distribution control portion 31f and the outer surface portion 35f of the light source holding portion 35 face the illumination space that is the external space, so that the heat dissipation of the lamp 3f is improved. Note that the light distribution control section 31f and the light source holding section 35 may be formed using a material that promotes heat conduction, and in this case, the lamp 3f can be expected to further improve heat dissipation performance.

In addition, in the accommodating portion 13f of the lamp 3f, the outer shell 30f between the base end 310 of the light distribution control portion 31f and the tip portion 351 of the light source holder 35, which constitutes a larger area than the outer wall of the light source holder 35, is removed. has been done. Therefore, compared to the cylindrical lamp 3 of Embodiment 1, the lamp 3f of Embodiment 6 can reduce the amount of material used, thereby reducing the material cost of the housing portion 13f and the lamp 3f. can.

Further, the lamp 3f can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Furthermore, since the lighting device 1 includes the lamp 3f, it is possible to exhibit the effects of the lamp 3f described above.

Although the base 40f in the sixth embodiment has been described as having the base housing 41f corresponding to the cross-sectional shape of the housing portion 13f, the base housing 41f is not limited to this. It is sufficient that the base housing 41f is attached to the outer shell 30f so as to cover the base housing 41f, and the cross-sectional shape of the base housing 41f may be circular like the base housing 41 of the first embodiment.

Embodiment 7.
FIG. 14 is a sectional view illustrating a main part of a lamp 3g according to the seventh embodiment. Note that components having the same functions and actions as those of the lamp 3 of Embodiment 1 are given the same reference numerals, and the description thereof will be omitted. The lamp 3g according to the seventh embodiment differs from the lamp 3 mainly in that the configuration of the housing section 13g is different from the configuration of the housing section 13 of the lamp 3 according to the first embodiment. Therefore, in the following description, the configuration of the accommodating portion 13g will be mainly explained. The configuration and functions of the accommodating portion 13g other than those described below are, in principle, the same as those of the accommodating portion 13 of the first embodiment.

[Lighting 3g]
The lamp 3g is lit by power supplied from the fixture 2. The lamp 3g includes a housing portion 13g, a base 40g, a pedestal 50g, and a light source 60.

(Accommodating part 13g)
The housing portion 13g is a cover for the light source 60. The accommodating portion 13g is formed in an elongated and hollow cylindrical shape, and both ends in the longitudinal direction (X-axis direction) are open. The accommodating portion 13g is attached to the pedestal 50g. The accommodating portion 13g accommodates the light source 60 therein together with the pedestal 50g in a state where the outer shell 30g of the accommodating portion 13g is attached to the pedestal 50g. The housing section 13g has an outer shell 30g, a light distribution control section 31, and a mounting section 33g.

(Outer shell 30g)
The outer shell 30g of the accommodating portion 13g is a portion that constitutes a part of the outer peripheral wall of the cylindrical accommodating portion 13g. The outer shell 30g of the seventh embodiment is not cylindrical. The outer shell 30g is formed along the longitudinal direction (X-axis direction), and is formed in the shape of a gutter with a longitudinal opening formed on the appliance side of the lamp 3g. As shown in FIG. 14, the outer shell 30g is formed into a horseshoe shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3g. In other words, the outer shell 30g is formed into a U-shape or an arc shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3g.

The outer shell 30g of the housing portion 13g accommodates the light source 60 therein. The inner peripheral portion 300 of the outer shell 30g constitutes a surface facing the light source 60 arranged inside the outer shell 30g. The outer peripheral part 301 of the outer shell 30g is a surface facing the illumination space and constitutes a surface not facing the light source 60.

The outer shell 30g of the housing portion 13g has translucency. The outer shell 30g is attached to the pedestal 50g while covering the light source 60 so as to intersect with the optical axis of the light source 60. A longitudinal opening formed on the instrument side of the outer shell 30g is closed by a pedestal 50g. The outer shell 30g of the housing portion 13g has an emitting portion 32.

(Light distribution control section 31)
The light distribution control unit 31 controls the light distribution of light emitted from the light source 60 in the lamp 3g. The light distribution control unit 31 has a base end 310 at one end and a tip end 311 at the other end in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30g. The tip portion 311 of the light distribution control unit 31 regulates movement of the pedestal main portion 51 in the rotational direction. In one aspect of the lamp 3g according to the seventh embodiment illustrated in FIG. 14, the light distribution control section 31 is formed so that the light distribution angle θ, which is the light distribution control range, is 140°.

(Mounting part 33g)
The attachment portion 33g is engaged with an engaging portion 53g formed on the pedestal 50g when the outer shell 30g is attached to the pedestal 50g. The outer shell 30g of the accommodating portion 13g is attached to the pedestal 50g by engaging the engagement portion 53g of the pedestal 50g with the attachment portion 33g, which is the open end of the outer shell 30g. The mounting portions 33g are formed in pairs so as to be located on both sides of the substrate 62 of the light source 60 in the lateral direction (Y-axis direction) of the lamp 3g. The attachment portion 33g restricts movement of the engaged base 50g in the rotational direction in a state where the attachment portion 33g and the engagement portion 53g are engaged.

In a cross section perpendicular to the longitudinal direction (X-axis direction) of the housing portion 13g, the pair of attachment portions 33g protrudes from both ends of the outer shell 30g. In a cross section perpendicular to the longitudinal direction (X-axis direction) of the accommodating portion 13g, the pair of attachment portions 33g protrude from the outer shell 30g so that their tips are opposed to each other. In a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3g, the pair of mounting portions 33g each extend in the lateral direction (Y-axis direction) of the lamp 3g. In a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3g, the pair of attachment parts 33g each protrude from the end of the outer shell 30g toward the pedestal side 52g of the pedestal 50g.

The attachment portion 33g is formed to extend over the entire longitudinal direction of the housing portion 13g. The attachment portion 33g is formed at a position that is biased toward the instrument side with respect to the axis of the center O that is parallel to the longitudinal direction of the housing portion 13g. The attachment portion 33g is formed on the opposite side of the base end portion 310 of the light distribution control portion 31 with respect to the geometric center in the direction along the optical axis in the housing portion 13g.

(Base 40g)
The cap 40g includes a cap housing 41g corresponding to the cross-sectional shape of the accommodating portion 13g. That is, the cap 40g includes a cap housing 41g corresponding to the cross-sectional shape of the outer shell 30g and the pedestal 50g. The cap 40f that constitutes the lamp 3g of the seventh embodiment is formed in a shape that fits into the outer circumferential wall of the housing portion 13g that is constituted by the outer shell 30g and the pedestal 50g.

(Pedestal 50g)
The pedestal 50g is a member to which the light source 60 is attached, and is a heat radiating member that radiates heat emitted from the light source 60. Furthermore, the pedestal 50g is a member for holding the light source 60 within the housing portion 13g.

The pedestal 50g is formed in an elongated shape along the longitudinal direction (X-axis direction) of the accommodating portion 13g. The pedestal 50g includes a pedestal main portion 51, a pair of pedestal side portions 52g, a pair of engaging portions 53g, a pair of screw fixing portions 54, and a pedestal connecting portion 57 provided between the pair of engaging portions 53g. These are integrated and configured. Furthermore, the pedestal main portion 51, the pedestal side portion 52g, the engaging portion 53g, the screw fixing portion 54, and the pedestal connecting portion 57 are formed to extend over the entire length of the pedestal 50g (X-axis direction). There is.

The main pedestal part 51 includes a light source mounting part 510 to which the board 62 of the light source 60 is attached, and overhang parts 511 formed at both ends of the light source mounting part 510 in the transverse direction (Y-axis direction) of the main pedestal part 51. and has.

When the pedestal 50g and the outer shell 30g are fixed to each other, the tip of the projecting portion 511 in the protruding direction faces the inner circumference 300 of the outer shell 30g. In addition, when the pedestal 50g and the outer shell 30g are fixed to each other, the instrument side surface of the overhang 511 faces the output side surface of the attachment section 33, and the output side surface of the overhang 511 faces the output side surface of the attachment section 33. is opposed to the tip 311 of the light distribution control section 31 . In the thickness direction (Z-axis direction) of the base 50g, a gap is formed between the projecting portion 511 and the engaging portion 53g.

At both ends of the light source mounting portion 510 in the transverse direction (Y-axis direction), pedestal side portions 52g that protrude toward the instrument side are provided. An engaging portion 53g is provided at the tip of the base side portion 52g. The engaging portion 53g is engaged with a mounting portion 33g formed on the outer shell 30g when the outer shell 30g is attached to the pedestal 50g. The engaging portion 53g restricts movement of the engaged base 50g in the rotational direction in a state where the attachment portion 33g and the engaging portion 53g are engaged.

The engaging portion 53g is formed in a region of the pedestal 50g where the light source 60 is not placed. The engaging portion 53g is formed on the side where the light source 60 is not arranged, that is, on the instrument side of the pedestal 50g. The engaging portion 53g is formed to extend over the entire longitudinal direction of the pedestal 50g.

In a state where the base 50g and the outer shell 30g are fixed, the engaging portion 53g is arranged at a position biased toward the instrument side with respect to the axis of the center O of the accommodating portion 13g. Further, in a state where the pedestal 50g and the outer shell 30g are fixed, the engaging portion 53g is arranged along the inner peripheral part 300 of the outer shell 30g.

A pair of screw fixing parts 54 are provided on the surface of the light source attachment part 510 located on the instrument side, protruding toward the instrument side. A screw fixing hole 540 is formed between the screw fixing parts 54.

A pedestal connecting portion 57 is provided between the pair of engaging portions 53g. The pedestal connecting portion 57 is provided to connect the pair of engaging portions 53g, respectively. In other words, the pedestal connecting portion 57 is formed to connect the tips of the pair of pedestal side portions 52g. The pedestal connection portion 57 constitutes a wall portion of the lighting device 1 that faces the fixture 2 .

The pedestal connection portion 57 is formed in an arc shape in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the lamp 3g. The pedestal connecting portion 57 is formed in an arc shape so as to be convex toward the appliance side of the lamp 3g, as shown in FIG. 14, in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the lamp 3g. Note that the pedestal connection portion 57 is not limited to a configuration in which it is formed in an arc shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3g.

The pedestal 50g and the outer shell 30g constitute an outer peripheral wall of the cylindrical lamp 3g. When the caps 40g are attached to both ends of the outer shell 30g, a lamp interior space 24 surrounded by the outer shell 30g, the pedestal 50g, and the cap 40g is formed inside the accommodating portion 13g, as shown in FIG. Further, the lamp interior space 24 is divided into four spaces by the light distribution control section 31 and the pedestal 50g. Among these four spaces, the space facing the light source 60 is referred to as the emission side space 25, the space formed within the pedestal 50g is referred to as the internal space 56, and the remaining two spaces together are referred to as the instrument side space 26. .

The internal space 56 of the pedestal 50g is formed into a cylindrical shape by the pedestal main portion 51, the pair of pedestal side portions 52g, and the pedestal connecting portion 57. A screw fixing portion 54 projects into the internal space 56 . Furthermore, as shown in FIG. 14, devices constituting additional functions such as a lighting device 70 may be arranged in the internal space 56. The lighting device 70 is a power supply device that converts power supplied from an external power source into a voltage or current suitable for the lamp 3g. That is, the lighting device 70 generates lighting power to be supplied to the light source 60 such as the light emitting element 61.

[Operations and effects of the lamp 3g and the lighting device 1]
The lamp 3g stands up from the outer shell 30g toward the pedestal 50g with the peripheral edge of the emission part 32 as the base end 310, and the tip 311 opposite to the base end 310 is separated from the light source 60 and faces the pedestal 50. It is provided with a pair of light distribution control sections 31. Therefore, when the lamp 3g is assembled or used, it is possible to prevent the tip 311 of the light distribution control section 31 from coming into contact with the light source 60, and there is no risk of damaging the light source 60. Therefore, the lamp 3g is not restricted by the environment in which it is used, and its long-term quality can be improved.

Furthermore, the emission section 32 is formed between the pair of light distribution control sections 31 in the outer shell 30g. In the lamp 3g, in addition to the light that directly reaches the emission section 32 from the light source 60, the light that is reflected by the light distribution control section 31 reaches the emission section 32. Therefore, the light fixture 3g can increase the amount of light in a specific direction, such as directly below the light source 60 and the light fixture 3g, compared to a light fixture that does not have the light distribution control unit 31. It is possible to improve the illuminance in a specific direction such as a direction.

Further, the outer shell 30g of the housing portion 13g is attached to the pedestal 50g by engaging the engagement portion 53g of the pedestal 50g with the attachment portion 33g, which is the open end of the outer shell 30g. Therefore, since the outer shell 30g and the pedestal 50g of the lamp 3g are easily assembled, the lamp 3g and the lighting device 1 can be easily manufactured, and the productivity of the lamp 3g and the lighting device 1 can be improved.

Further, the lamp 3g can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Furthermore, since the lighting device 1 includes the lamp 3g, it is possible to exhibit the effects of the lamp 3g described above.

Embodiment 8.
FIG. 15 is a sectional view illustrating a main part of a lamp 3h according to the eighth embodiment. Note that components having the same functions and actions as those of the lamp 3 of Embodiment 1 are given the same reference numerals, and the description thereof will be omitted. The lamp 3h according to the eighth embodiment differs from the lamp 3 mainly in that the configuration of the housing section 13h is different from the configuration of the housing section 13 of the lamp 3 according to the first embodiment, and the lamp 3h does not include the pedestal 50. different. Therefore, in the following description, the configuration of the accommodating portion 13h will be mainly described. The configuration and functions of the accommodating portion 13h other than those described below are, in principle, the same as those of the accommodating portion 13 of the first embodiment.

[Lighting 3h]
The lamp 3h is lit by power supplied from the fixture 2. The lamp 3h includes a housing portion 13h, a base 40h, and a light source 60h.

(Accommodation part 13h)
The housing portion 13h is a cover for the light source 60h. The accommodating portion 13h is formed entirely into an elongated and hollow cylindrical shape, and both ends in the longitudinal direction (X-axis direction) are open. The housing portion 13h is attached to the substrate 62h of the light source 60h. The light source 60h is disposed inside the accommodating portion 13h in a state where it is attached to the substrate 62h. The housing section 13h includes an outer shell 30h, a light distribution control section 31h, and a light source holding section 35.

(Outer shell 30h)
The outer shell 30h covers the light source 60h so as to intersect with the optical axis of the light source 60h. The outer shell 30h is provided between the base end portions 310 of the pair of light distribution control sections 31h. The outer shell 30h has an emitting section 32 from which light emitted from the light source 60h is emitted.

The outer shell 30h is formed in an arc shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3h. For example, as shown in FIG. 15, the outer shell 30h is formed in an arc shape so as to be convex toward the emission side of the lamp 3h. Note that the outer shell 30h is not limited to having an arc shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3h.

(Light distribution control section 31h)
The light distribution control unit 31h controls the light distribution of light emitted from the light source 60h in the lamp 3h. The light distribution control parts 31h stand up from both ends of the outer shell 30h, and are arranged in parallel in a pair with the optical axis of the light source 60h in between. The light distribution control unit 31h stands up with the inner circumferential portion 300 of the outer shell 30h serving as a base end portion 310. Each of the pair of light distribution control sections 31h extends from the outer shell 30h toward the light source holding section 35 in a cross section perpendicular to the longitudinal direction (X-axis direction) of the outer shell 30h. Further, each of the pair of light distribution control units 31h extends from the outer shell 30h toward the substrate 62h in a cross section perpendicular to the longitudinal direction (X-axis direction) of the outer shell 30h.

In one aspect of the lamp 3h according to the eighth embodiment illustrated in FIG. 15, the light distribution control section 31h is formed so that the light distribution angle θ, which is the light distribution control range, is 140°. The light distribution control section 31h distributes the light emitted from the light source 60h toward the emission section 32 by reflection, and causes the light to be emitted from the emission section 32 at an angle smaller than the irradiation angle of the light source 60h.

The light distribution control section 31h has a base end 310 forming the peripheral edge of the emission section 32 at one end in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the housing section 13h, and a base end 310 forming the peripheral edge of the emission section 32 at the other end. It has a tip portion 311h connected to the light source holding portion 35. The distal end portion 311h is an end portion on the opposite side to the base end portion 310 in the light distribution control portion 31h.

The tip portion 311h is the other end of the light distribution control portion 31h, and is disposed within the housing portion 13h apart from the light emitting element 61 of the light source 60h. The tip portion 311h is an end portion of the light distribution control portion 31h on the light source 60h side. In the direction (Z-axis direction) perpendicular to the longitudinal direction (X-axis direction) and lateral direction (Y-axis direction) of the lamp 3h, a substrate 62h is arranged on an extension of the tip portion 311h. A tip portion 311h of the light distribution control portion 31h is connected to the light source holding portion 35 and is formed integrally with the light source holding portion 35.

(Light source holding part 35)
The light source holding section 35 holds the substrate 62h of the light source 60h in the housing section 13h. The light source holding portion 35 has a bottom portion 35h1 that constitutes a wall portion on the fixture side, and a pair of side portions 35h2 that stand up from both ends of the bottom portion 35h1, in a cross section perpendicular to the longitudinal direction of the lamp 3h. Further, the light source holding portion 35 has a support portion 35h3 extending from the tip of the pair of side portions 35h2 in the upright direction in a direction in which the pair of side portions 35h2 approach each other. The pair of support portions 35h3 are formed such that their tips face each other.

In the light source holding part 35, an opening part 35h4 is formed between a pair of support parts 35h3. In the light source holding part 35, a gap is formed between the pair of support parts 35h3 and the bottom part 35h1 in the direction along the optical axis of the light source 60h. A light source 60h is arranged in the gap between the pair of support parts 35h3 and the bottom part 35h1, and a substrate 62h of the light source 60h is held between the support part 35h3 and the bottom part 35h1. The light emitting element 61 is exposed to the emission side space 25 through an opening 35h4 formed between a pair of support parts 35h3. The light source holding portion 35 is formed into a gutter shape by a bottom portion 35h1, a side portion 35h2, and a support portion 35h3.

The support portion 35h3 of the light source holding portion 35 is formed along the lateral direction (Y-axis direction) of the lamp 3h in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the lamp 3h, and is configured to support the light source from the emission side of the lamp 3h. 60h of substrates 62h are supported. A tip end 311h of the light distribution control section 31h is connected to a support section 35h3 of the light source holding section 35.

The housing portion 13h includes an outer shell 30h, a light distribution control portion 31h, and a light source holding portion 35 that are integrally formed. The accommodating portion 13h is formed in a drop shape in a cross section perpendicular to the longitudinal direction (X-axis direction) of the lamp 3h. Note that the accommodating portion 13h is not limited to this shape. The outer shell 30h, the light distribution control section 31h, and the light source holding section 35 constitute an outer wall of the housing section 13h, and face the illumination space.

(Base 40h)
The cap 40h includes a cap housing 41h that corresponds to the cross-sectional shape of the accommodating portion 13h. Therefore, the base 40h constituting the lamp 3h of the eighth embodiment is different from the base 40 of the first embodiment in which the cross-sectional shape of the base housing 41 is circular.

(Light source 60h)
The light source 60h includes a light emitting element 61 and a substrate 62h on which the light emitting element 61 is mounted. The light source 60h is arranged inside the accommodating part 13h, and is held by the light source holding part 35. The substrate 62h of the lamp 3h according to the eighth embodiment is formed so that its width in the transverse direction (Y-axis direction) is smaller than the width of the substrate 62h of the lamp 3 according to the first embodiment. ing.

[Operations and effects of the lamp 3h and the lighting device 1]
Since the lamp 3h according to the eighth embodiment does not include the pedestal 50, the material cost of the lamp 3h can be suppressed, and the assembly process is simplified, so that the manufacturing cost can be suppressed. Further, since the lamp 3h does not include the pedestal 50, which is generally formed using a metal material, the lamp 3h can be made lighter.

Furthermore, by not including the pedestal 50, the lamp 3h can increase the distance between the light emitting part 32 and the light source 60h inside the housing part 13h, thereby allowing the light emitting element to appear on the light emitting part 32 of the outer shell 30h. The graininess of the light emitted by the light source 61 can be suppressed.

Since the lamp 3h does not include the pedestal 50 that serves as a heat sink, it is suitable for a lamp with low output and suppressed heat generation, or a lamp suitable for an installation environment that does not require a high heat capacity, such as a low-temperature environment.

Further, the lamp 3h can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Furthermore, since the lighting device 1 includes the lamp 3h, it is possible to exhibit the effects of the lamp 3h described above.

Although the cap 40h in the eighth embodiment has been described as having the cap housing 41h corresponding to the cross-sectional shape of the housing portion 13h, the cap housing 41h is not limited to this. It is sufficient that the cap housing 41h is attached to the outer shell 30h so as to cover the base housing 41h, and the cross-sectional shape of the base housing 41h may be circular like the base housing 41 of the first embodiment.

Embodiment 9.
FIG. 16 is a perspective view illustrating a lighting device 1j according to the ninth embodiment. FIG. 17 is a sectional view illustrating a main part of a lamp 3j according to the ninth embodiment. Note that components having the same functions and actions as those of the lighting device 1 and the lamp 3 of Embodiment 1 are designated by the same reference numerals, and the description thereof will be omitted.

[Lighting device 1j]
The lighting device 1j is a long lighting device, is installed at a position where it can illuminate the lighting space, and illuminates the lighting space. The lighting device 1j includes a fixture 2j that is attached to a construction part 9 such as a ceiling, and a lamp 3j that is detachably attached to the fixture 2j.

[Apparatus 2j]
The fixture 2j holds the light fixture 3j attached thereto, and supplies power to the light fixture 3j attached to the fixture 2j. The instrument 2j has an elongated instrument body 20j extending in the longitudinal direction (X-axis direction), and instrument ends 21j attached to both ends of the instrument body 20j.

A device outer surface portion 202j that is inclined with respect to a horizontal surface such as a ceiling is provided on a side surface of the device main body 20j located in the lateral direction (Y-axis direction). The instrument outer surface portion 202j extends along the longitudinal direction (X-axis direction) of the instrument main body 20j.

A knockout portion 210j is provided at the instrument end 21j. The knockout portion 210j is formed so that an insertion port for a power line (not shown) to be inserted into the appliance 2j from the construction portion 9 side can be selected.

As shown in FIG. 16, a lamp mounting portion 200, which is a space for accommodating a lamp 3j, is formed in the fixture 2j. The lamp mounting portion 200 is provided with a connection spring 27, a terminal block 28, and a fixture-side electric wire 23 including a power supply line and a control signal line. The appliance side electric wire 23 is electrically connected to a lamp side electric wire (not shown) provided in the lamp 3j. The lamp side electric wire includes a power supply line and a control signal line.

[Lighting 3j]
The lamp 3j is lit by power supplied from the fixture 2j. The lamp 3j is attached to the fixture 2j so as to face the fixture main body 20j. By connecting the connection spring 27 of the fixture 2j and the spring receiver 71 of the lamp 3j, the lamp 3j is fixed to the fixture 2j. The connection spring 27 is a connection tool on the fixture side, and the spring receiver fitting 71 is a connection tool on the lamp side. The lamp 3j includes a housing portion 13j, an end cover 43, a pedestal 50j, and a light source 60j. The lamp 3j is formed into a cylindrical shape by the accommodating portion 13j and the pedestal 50j.

(Accommodation part 13j)
The accommodating portion 13j is formed in the shape of a long gutter, and is open on the instrument 2j side and at both ends in the longitudinal direction (X-axis direction). The opening of the accommodating part 13j on the instrument 2j side is a longitudinal opening 34j formed along the longitudinal direction (X-axis direction) of the accommodating part 13j. A pedestal 50j, which will be described later, is placed in the longitudinal opening 34j, and the pedestal 50j covers the longitudinal opening 34j. The housing section 13j has an outer shell 30j, a light distribution control section 31j, and a mounting section 33j.

(Outer enclosure 30j)
The outer shell 30j of the accommodating portion 13j is a part of the accommodating portion 13j that is formed in the shape of a gutter. The outer shell 30j is formed in the shape of a portion of an ellipse in a cross section perpendicular to the longitudinal direction (X-axis direction) of the housing portion 13j. However, the shape of the outer shell 30j is not limited to this shape, and may be formed in other shapes such as a circular arc shape or a polygonal shape, for example.

The outer shell 30j of the accommodating portion 13j accommodates the light source 60j therein in a state where it is attached to the pedestal 50j. The inner peripheral portion 300j of the outer shell 30j constitutes a surface facing the light source 60j arranged inside the outer shell 30j. The outer peripheral portion 301j of the outer shell 30j is a surface facing the illumination space and constitutes a surface not facing the light source 60j.

The outer shell 30j of the housing portion 13j has translucency. The outer shell 30j may be made of, for example, a transparent material, or a material that diffuses light passing through the outer shell 30j. The outer shell 30j is attached to the pedestal 50j while covering the light source 60j so as to intersect with the optical axis of the light source 60j.

The outer shell 30j of the accommodating part 13j has a light emitting part 32j. The emitting portion 32j is a portion of the outer shell 30j from which light emitted from the light source 60j is emitted. The emission part 32j is formed between the pair of light distribution control parts 31j in the outer shell 30j. The emission section 32j is formed on the emission side of the lamp 3j.

In a cross section perpendicular to the longitudinal direction of the outer shell 30j, an imaginary line LA connecting the geometric center O of the outer shell 30j and one end 32a of the output section 32j, and a line between the geometric center O of the outer shell 30j and the output section 32 The angle between the virtual line LB and the other end 32b is defined as the light distribution angle θ. The light distribution angle θ is defined as an angle smaller than the irradiation angle of the light source 60j itself.

The reflectance of the emission part 32j is lower than the reflectance of the inner surface part 312j of the light distribution control part 31j. The emission part 32j has a higher light transmittance than at least the inner surface part 312j of the light distribution control part 31j. The emitting section 32j transmits and directly emits the light emitted from the light source 60j, and also transmits and emits the light that is emitted from the light source 60j and whose distribution is controlled by the light distribution control section 31j. That is, the light emitted from the light source 60j and whose distribution is controlled by the light distribution control section 31j is irradiated into the illumination space from the emission section 32j. The material of the emission part 32j is the same as that of the emission part 32 of the lamp 3 according to the first embodiment.

(Light distribution control section 31j)
The light distribution control unit 31j controls the distribution of light emitted from the light source 60j in the lamp 3j. The light distribution control section 31j controls the direction of the light emitted from the light source 60j so that the light emitted from the light source 60j is emitted from the emission section 32j. That is, the pair of light distribution control sections 31j distributes the light emitted from the light source 60j toward the emission section 32j by reflection, and causes the light to be emitted from the emission section 32j at an angle smaller than the irradiation angle of the light source 60j. let

The light distribution control units 31j stand up from the outer shell 30j and are arranged in parallel in a pair with the optical axis of the light source 60j in between. The light distribution control unit 31j stands up with the inner circumferential portion 300j of the outer shell 30j serving as a base end portion 310j. The light distribution control section 31j extends from the outer shell 30j toward the inside of the outer shell 30j in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30j. More specifically, each of the pair of light distribution control sections 31j extends from the outer shell 30j toward the pedestal 50j in a vertical cross section with respect to the longitudinal direction (X-axis direction) of the outer shell 30j.

The light distribution control unit 31j has a base end 310j at one end and a tip 311j at the other end in a cross section perpendicular to the longitudinal direction (X-axis direction) of the outer shell 30j.

The base end portion 310j is one end portion of the light distribution control portion 31j and constitutes a peripheral portion of the emission portion 32j. The base end portion 310j is a connection portion between the light distribution control portion 31j and the inner peripheral portion 300j of the outer shell 30j, and is an end portion on the outer shell 30j side. The base end portion 310j is also the root portion of the light distribution control portion 31j.

The distal end portion 311j is the other end portion of the light distribution control portion 31j, is disposed within the housing portion 13j, and is spaced apart from the light source 60j, and faces the pedestal 50j. The tip portion 311j is an end portion of the light distribution control portion 31j on the pedestal 50j side. The tip portion 311j faces the pedestal 50j in a direction (Z-axis direction) perpendicular to the longitudinal direction (X-axis direction) and lateral direction (Y-axis direction) of the lamp 3j. The tip portion 311j may be in contact with the pedestal 50j, or may be spaced apart from the pedestal 50j. The tip portion 311j restricts movement of the base 50j in the rotational direction.

The tip portion 311j of the light distribution control portion 31j is arranged to face any portion of the pedestal main portion 51j other than the light source attachment portion 510j. In other words, the tip 311j of the light distribution control section 31j is disposed on the outside of the light source 60j in the direction intersecting the optical axis (the lateral direction), and is disposed on the outside of the substrate 62j.

Considering the purpose of increasing the illuminance directly under the light source 60j and the lamp 3j, in the transverse direction (Y-axis direction), the distal end 311j is located outside of the reference line passing through the proximal end 310j along the optical axis. Not placed.

Note that in the case of attenuating the light emitted from the light source 60j so as to spread to the periphery and selectively utilizing the light close to the optical axis of the light source 60j, the tip portion 311j in the transverse direction (Y-axis direction) It is arranged outside the reference line passing through the base end 310j along the optical axis.

The light distribution control section 31j is formed to extend over the entire longitudinal direction of the housing section 13j. The light distribution control section 31j is formed in a plate shape so as to extend along the longitudinal direction (X-axis direction) of the outer shell 30j. The light distribution control section 31j has an inner surface section 312j and an outer surface section 313j. The inner surface portion 312j constitutes a surface on the side where the optical axis is formed inside the outer shell 30j. The inner surface 312j may be a flat surface, a curved surface, or a combination of a flat surface and a curved surface. The outer surface portion 313j constitutes a surface inside the outer shell 30j on the opposite side to the side where the optical axis is formed.

The light distribution control section 31j is formed such that at least the reflectance of the inner surface 312j of the light distribution control section 31j is higher than the reflectance of the output section 32j of the outer shell 30j. That is, the light distribution control section 31j is formed such that at least the light transmittance of the inner surface 312j of the light distribution control section 31j is lower than the light transmittance of the output section 32j of the outer shell 30j. The material of the inner surface 312j is the same as that of the inner surface 312 of the lamp 3 according to the first embodiment.

The light distribution control section 31j is formed integrally with the outer shell 30j so as to satisfy a light distribution angle θ determined according to product specifications. The light distribution angle θ is also defined as the angle between the geometrical center O of the outer shell 30j and the base end portions 310j of the pair of light distribution control portions 31j on the side of the output portion 32. For the purpose of increasing the illuminance directly under the light source 60j and the lamp 3j, it is desirable that the light distribution angle θ is defined in the angle range of 45°≦θ≦140°.

The angle between the light distribution control section 31j and the inner peripheral portion 300j of the outer shell 30j is arbitrary. The angle between the light distribution control section 31j and the inner peripheral portion 300j of the outer shell 30j may be an acute angle, a right angle, or an obtuse angle. Further, the base end portion 310j of the light distribution control portion 31j may be provided with a hem-like, ie, inversely tapered, reinforcing portion.

(Mounting part 33j)
The attachment portion 33j is engaged with an engaging portion 53j formed on the pedestal 50j when the accommodating portion 13j is attached to the pedestal 50j. The attachment portion 33j restricts movement of the engaged base 50j in the rotational direction in a state where the attachment portion 33j and the engagement portion 53j are engaged.

The attachment portion 33j is provided on the side edge 30j1 of the outer shell 30j. The side edge 30j1 is the end of the outer shell 30j on the instrument 2j side. The side edge portion 30j1 is provided along the longitudinal direction (X-axis direction) of the outer shell 30j.

The attachment portion 33j is formed to extend over the entire longitudinal direction of the housing portion 13j. The attachment portion 33j is formed at a position that is biased toward the instrument side with respect to the axis of the center O that is parallel to the longitudinal direction of the housing portion 13j. The attachment portion 33j is formed on the opposite side of the base end portion 310j of the light distribution control portion 31j with respect to the geometric center along the optical axis direction.

The attachment portion 33 engages with both ends of the pedestal 50j in the transverse direction (Y-axis direction). The attachment portion 33j has a first attachment piece 330j and a second attachment piece 331j. In the attachment portion 33j, the first attachment piece 330j and the second attachment piece 331j are formed to face each other.

The first attachment piece 330j is engaged with a base end 52j1 of a pedestal side portion 52j formed on the pedestal 50j in a state where the accommodating portion 13j is attached to the pedestal 50j. The second attachment piece 331j is engaged with an engaging portion 53j formed on the pedestal 50j when the accommodating portion 13j is attached to the pedestal 50j. The first attachment piece 330j and the second attachment piece 331j of the attachment part 33j sandwich the area from the base end 52j1 of the pedestal 50j to the engagement part 53j. That is, the pedestal side portion 52j of the pedestal 50j is held between the first mounting piece 330j and the second mounting piece 331j.

(End lid 43)
The end lids 43 are attached to both ends of the accommodating portion 13j. More specifically, the end caps 43 are attached to both ends of the outer shell 30j. The end lid 43 covers openings formed at both ends of the outer shell 30j. The end cover 43 is made of, for example, an insulating resin material. Note that if insulation is ensured, the end cover 43 may be made of metal.

(Pedestal 50j)
The pedestal 50j is a member to which the light source 60j is attached, and is a heat radiating member that radiates heat emitted from the light source 60j. Furthermore, the pedestal 50j is a member for holding the light source 60j within the housing portion 13j.

The pedestal 50j is formed in an elongated shape along the longitudinal direction (X-axis direction) of the accommodating portion 13j, and includes a pedestal main portion 51j, a pair of pedestal side portions 52j, and a pair of engaging portions 53j. These components are integrated. Furthermore, the pedestal main portion 51j, the pedestal side portion 52j, and the engaging portion 53j are formed to extend throughout the longitudinal direction (X-axis direction) of the pedestal 50j.

The pedestal 50j functions as a heat sink that radiates heat generated from the light source 60j to the outside of the lamp 3j via the outer shell 30j. Therefore, it is desirable that the material of the pedestal 50j be a metal material that has excellent thermal conductivity and rigidity, and has a small coefficient of linear thermal expansion. The pedestal 50j is formed using, for example, a metal plate. Furthermore, a highly reflective film having a higher reflectance than the material of the pedestal 50j may be formed on the light output side surface of the pedestal 50j.

The pedestal main portion 51j has a light source attachment portion 510j and an overhang portion 511j formed at both ends of the light source attachment portion 510j in the lateral direction (Y-axis direction) of the pedestal main portion 51j. In other words, in the pedestal main portion 51j, the light source attachment portion 510j is formed between the two overhang portions 511j.

A substrate 62j of the light source 60j is attached to the light source attachment portion 510j. The light source attachment portion 510j is a concave portion of the pedestal main portion 51j. The light source attachment portion 510j is formed to bulge toward the instrument side with respect to the overhang portion 511j. The light source attachment portion 510j is formed by, for example, bending a member. The light source attachment portion 510j is formed to be recessed with respect to the light emission side surface of the overhang portion 511j.

The installation surface of the substrate 62j in the light source attachment portion 510j is formed into a flat shape. In the pedestal main portion 51j, a step is formed between the installation surface of the substrate 62j in the light source mounting portion 510j and the exit side surface of the overhang portion 511j. The light source attachment portion 510 is formed to extend over the entire length of the pedestal 50j (X-axis direction).

When the pedestal 50j is fixed to the outer shell 30j, a substrate 62j is installed on the surface of the light source attachment part 510j located on the emission side. As a method for installing the substrate 62j on the pedestal 50j, there is a method of adhesively fixing the substrate 62j and the pedestal 50j using an adhesive member such as adhesive or double-sided tape. Alternatively, as a method for installing the board 62j on the pedestal 50j, there is a method of forming a screw hole in the pedestal 50j and screwing the board 62j and the pedestal 50j using screws. Note that the method of fixing the substrate 62j and the pedestal 50j is not limited to the above method.

As shown in FIG. 17, a lighting device 70j may be disposed on the surface of the light source mounting portion 510j opposite to the surface on which the board 62j is installed. The lighting device 70j is arranged inside the lamp mounting section 200 in the lighting device 1j. The lighting device 70j is a power supply device that converts power supplied from an external power source into a voltage or current suitable for the lamp 3j. That is, the lighting device 70j generates lighting power to be supplied to the light source 60j such as the light emitting element 61.

As shown in FIG. 17, projecting portions 511j that protrude outward in the lateral direction are provided at both ends of the light source attachment portion 510j in the lateral direction (Y-axis direction). The projecting portion 511j is formed to extend over the entire longitudinal direction of the base 50j.

At both ends of the pedestal main portion 51j in the transverse direction (Y-axis direction), pedestal side portions 52j that stand up toward the instrument side are provided. The pedestal side portion 52j is a wall portion extending from the pedestal main portion 51j toward the instrument side, and is also a wall portion extending in the longitudinal direction (X-axis direction) of the pedestal 50j. The pedestal side portion 52j is formed at the side edge of the overhang portion 511j. The side edges of the overhanging portion 511j are the ends of the overhanging portion 511j in a cross section perpendicular to the longitudinal direction (X-axis direction) of the pedestal 50j. The end of the projecting portion 511j is the end of the projecting portion 511j on the opposite side to the side where the light source attachment portion 510j is formed.

The base end portion 52j1 of the pedestal side portion 52j is a portion where the pedestal side portion 52j stands up with respect to the pedestal main portion 51j. The base end portion 52j1 is a corner portion formed by the pedestal main portion 51j and the pedestal side portion 52j. The pedestal main portion 51j and the pedestal side portion 52j may be formed by being bent. The base end portion 52j1 is engaged with the first attachment piece 330j of the attachment portion 33j formed on the accommodation portion 13j when the accommodation portion 13j is attached to the pedestal 50j.

An engaging portion 53j is provided at the tip of the base side portion 52j. The engaging portion 53j is engaged with the second attachment piece 331j of the attachment portion 33j formed on the accommodation portion 13j when the accommodation portion 13j is attached to the pedestal 50j. The engaging portion 53j is formed by bending the tip of the pedestal side portion 52j toward the pedestal main portion 51j. The engaging portion 53j restricts movement of the engaged base 50j in the rotational direction in a state where the mounting portion 33j and the engaging portion 53j are engaged.

The engaging portion 53j is formed in a region of the accommodating portion 13j where the light source 60j is not arranged. The engaging portion 53j is formed on the side where the light source 60j is not disposed, that is, on the instrument side of the pedestal 50j. The engaging portion 53j is formed to extend over the entire longitudinal direction of the pedestal 50j. The engaging portion 53j is disposed in the lamp 3j at a position that is biased toward the appliance side with respect to the axis of the center O of the accommodating portion 13j. The engaging portion 53j is disposed within the lamp mounting portion 200 in a state where the lamp 3j is attached to the fixture 2j.

The engaging portion 53j, the pedestal side portion 52j, and the base end portion 52j1 of the pedestal 50j are held by the attachment portion 33 of the accommodating portion 13j. The pedestal 50j and the accommodating portion 13j are fixed to each other by holding the engaging portion 53j, the pedestal side portion 52j, and the base end portion 52j1 by the attachment portion 33j of the accommodating portion 13j.

(Light source 60j)
The light source 60j includes a light emitting element 61 that emits light, and a long flat board 62j on which the light emitting element 61 is mounted. The light source 60j is arranged on the side opposite to the emission part 32j with respect to the center O of the accommodation part 13j in the direction along the optical axis. Note that the distance between the light source 60j and the emission section 32j may be greater than the distance between the base end sections 310j of the pair of light distribution control sections 31j. The basic configuration of the substrate 62j other than the dimensions is the same as the substrate 62 of the light source 60 according to the first embodiment.

[Operations and effects of the lamp 3j and the lighting device 1j]
The lamp 3j exhibits the same effects as the lamp 3 of the first embodiment described above. For example, the lamp 3j stands up from the outer shell 30j toward the pedestal 50j with the peripheral edge of the emission part 32j as the base end 310j, and the distal end 311j, which is opposite to the base end 310j, is separated from the light source 60j and is separated from the pedestal 50j. It is provided with a pair of light distribution control sections 31j arranged opposite to each other. Therefore, when the lamp 3j is assembled or used, it is possible to prevent the tip 311j of the light distribution control section 31j from coming into contact with the light source 60j, and there is no risk of damaging the light source 60j.

The lamp 3j also has a pair of light distribution control units 31j that stand up from the outer shell 30j and are arranged in parallel with the optical axis of the light source 60j in between. The light distribution control section 31j distributes the light emitted from the light source 60j toward the emission section 32j by reflection, and causes the light to be emitted from the emission section 32j at an angle smaller than the irradiation angle of the light source 60j. be. In addition to the light that directly reaches the output section 32j from the light source 60j, the lamp 3j allows the light reflected by the light distribution control section 31j to reach the output section 32j, thereby emitting light in a specific direction such as directly below the light source 60j and the lamp 3j. can increase the amount of light. Therefore, the lamp 3j can improve the illuminance in a specific direction such as directly below the light source 60j and the lamp 3j.

Further, the lamp 3j can exhibit the same effects as the lamp 3 of Embodiment 1 in addition to the above. Further, since the lighting device 1j includes the lamp 3j, it is possible to exhibit the effects of the lamp 3j described above.

Although the embodiments and modifications have been described above, two or more of these embodiments and modifications may be implemented in combination. Alternatively, one of these embodiments and modifications may be partially implemented. Alternatively, two or more of these embodiments and modifications may be partially combined and implemented. Note that the present disclosure is not limited to these embodiments and modifications, and various modifications can be made as necessary.

1 lighting device, 1j lighting device, 2 fixture, 2j fixture, 3 light fixture, 3a light fixture, 3b light fixture, 3c light fixture, 3d light fixture, 3e light fixture, 3f light fixture, 3g light fixture, 3h light fixture, 3j light fixture, 9 construction department, 13 accommodation part, 13a accommodation part, 13b accommodation part, 13c accommodation part, 13d accommodation part, 13e accommodation part, 13f accommodation part, 13g accommodation part, 13h accommodation part, 13j accommodation part, 20 instrument main body, 20j instrument main body, 21 socket, 21j Appliance end, 22 lighting device, 23 appliance side electric wire, 24 lamp interior space, 25 emission side space, 26 appliance side space, 27 connection spring, 28 terminal block, 30 outer shell, 30c outer shell, 30d outer shell, 30e outer shell, 30f outer shell , 30f1 first outer shell, 30f2 second outer shell, 30g outer shell, 30h outer shell, 30j outer shell, 30j1 side edge, 31 light distribution control section, 31a light distribution control section, 31b light distribution control section, 31f light distribution control section, 31h Light distribution control section, 31j Light distribution control section, 32 Emitting section, 32a End, 32b End, 32e Emitting section, 32j Emitting section, 33 Attachment section, 33e Attachment section, 33g Attachment section, 33j Attachment section, 34e Bottom, 34j longitudinal opening, 35 light source holder, 35f outer surface, 35h1 bottom, 35h2 side, 35h3 support, 35h4 opening, 40 cap, 40c cap, 40d cap, 40e cap, 40f cap, 40g cap, 40h cap, 41 Base housing, 41e Base housing, 41f Base housing, 41g Base housing, 41h Base housing, 42 Base terminal, 43 End cover, 50 Base, 50a Base, 50b Base, 50e Base, 50g Base, 50j Base , 51 pedestal main part, 51b pedestal main part, 51e pedestal main part, 51j pedestal main part, 52 pedestal side part, 52g pedestal side part, 52j pedestal side part, 52j1 base end part, 53 engaging part, 53e engaging part , 53g engaging portion, 53j engaging portion, 54 screw fixing portion, 55 pedestal lid portion, 56 internal space, 57 pedestal connection portion, 60 light source, 60h light source, 60j light source, 61 light emitting element, 62 substrate, 62h substrate, 62j board, 70 lighting device, 70j lighting device, 71 spring holder, 81 screw, 200 lamp attachment part, 202j fixture outer surface part, 210j knockout part, 300 inner peripheral part, 300j inner peripheral part, 301 outer peripheral part, 301j outer peripheral part, 302 end opening, 310 base end, 310j base end, 311 distal end, 311a distal end, 311b distal end, 311f distal end, 311h distal end, 311j distal end, 312 inner surface, 312a inner surface, 312j inner surface , 313 outer surface part, 313a outer surface part, 313f outer surface part, 313j outer surface part, 330 first mounting piece, 330j first mounting piece, 331 second mounting piece, 331j second mounting piece, 350 base end part, 351 distal end part, 410 bottom part, 411 peripheral part, 412 screw insertion hole, 510 light source attachment part, 510b light source attachment part, 510j light source attachment part, 511 overhang part, 511e overhang part, 511j overhang part, 512 groove part, 513 partition wall, 530 No. 1 engaging piece, 531 2nd engaging piece, 540 screw fixing hole, 620 mounting surface, 621 non-mounting surface.

Claims (21)

a light source having a light emitting element and a substrate on which the light emitting element is mounted;
a pedestal on which the light source is placed;
an accommodating section that accommodates the light source therein;
Equipped with
The accommodating part is
an outer shell that has translucency and is attached to the pedestal in a state that covers the light source so as to intersect with the optical axis of the light source, the outer shell having an emitting part from which light emitted from the light source is emitted; ,
a pair of light distribution control parts that stand up from the outer shell and are arranged in parallel with the optical axis of the light source in between; A light distribution control section;
has
Each of the pair of light distribution control units includes:
extending from the outer shell toward the pedestal,
a base end portion that is one end portion and constitutes a peripheral edge portion of the emission portion;
a tip that is the other end and is located apart from the light source and faces the pedestal;
has
The tip portion is
A lamp that is disposed closer to the formation side of the light emitting section than the light emitting element in a direction along the optical axis . a light source having a light emitting element and a substrate on which the light emitting element is mounted;
a pedestal on which the light source is placed;
an accommodating section that accommodates the light source therein;
Equipped with
The accommodating part is
an outer shell that has translucency and is attached to the pedestal in a state that covers the light source so as to intersect with the optical axis of the light source, the outer shell having an emitting part from which light emitted from the light source is emitted; ,
a pair of light distribution control parts that stand up from the outer shell and are arranged in parallel with the optical axis of the light source in between; A light distribution control section;
has
Each of the pair of light distribution control units includes:
extending from the outer shell toward the pedestal,
a base end portion that is one end portion and constitutes a peripheral edge portion of the emission portion;
a tip that is the other end and is located apart from the light source and faces the pedestal;
has
The pedestal is
A lamp having a pedestal cover disposed between the substrate and the tip . a light source having a light emitting element and a substrate on which the light emitting element is mounted;
a pedestal on which the light source is placed;
an accommodating section that accommodates the light source therein;
Equipped with
The accommodating part is
an outer shell that has translucency and is attached to the pedestal in a state that covers the light source so as to intersect with the optical axis of the light source, the outer shell having an emitting part from which light emitted from the light source is emitted; ,
a pair of light distribution control parts that stand up from the outer shell and are arranged in parallel with the optical axis of the light source in between; A light distribution control section;
has
Each of the pair of light distribution control units includes:
extending from the outer shell toward the pedestal,
a base end portion that is one end portion and constitutes a peripheral edge portion of the emission portion;
a tip that is the other end and is located apart from the light source and faces the pedestal;
has
The accommodating part is
further comprising a light source holding part that holds the light source in contact with the pedestal,
The tip portion is
connected to the light source holder,
The light source holder and the light distribution control section constitute a part of an outer wall of the accommodating section . The emission part is
The lamp according to any one of claims 1 to 3, wherein the lamp is formed between the pair of light distribution control parts in the outer shell. The pair of light distribution control units include:
The lamp according to any one of claims 1 to 4, wherein the reflectance of at least the inner surface on the optical axis side is higher than the reflectance of the emission part. The pair of light distribution control units include:
The lamp according to any one of claims 1 to 5 , wherein the transmittance of at least the inner surface on the optical axis side is lower than the transmittance of the emission part. The tip portion is
The lamp according to any one of claims 1 to 6 , wherein the lamp is arranged outside the light emitting element in a direction intersecting the optical axis. The pedestal is
The lamp according to claim 1 , further comprising a pedestal cover disposed between the substrate and the tip. The outer shell is
The light source is formed into an elongated shape, and in a cross section perpendicular to the longitudinal direction, is formed into a flat elliptical shape that is shorter in the direction along the optical axis of the light source and longer in the direction perpendicular to the optical axis. The lamp according to any one of claims 1 to 8. The outer shell is
The light source is formed into an elongated shape, and in a cross section perpendicular to the longitudinal direction, is formed into a flat ellipse shape that is long in the direction along the optical axis of the light source and short in the direction perpendicular to the optical axis. The lamp according to any one of claims 1 to 8. The pedestal is
comprising an engaging portion formed in an area where the light source is not placed,
The accommodating part is
a mounting portion to which the engaging portion is engaged;
The mounting part is
The lamp according to any one of claims 1 to 10, wherein the lamp is formed on a side opposite to the base end with reference to a geometric center in a direction along the optical axis. The light source is
The lamp according to any one of claims 1 to 11, wherein the lamp is arranged on a side opposite to the emission part with respect to a center of the outer shell in a direction along the optical axis. The distance between the light source and the emission section is
The lamp according to any one of claims 1 to 12, wherein the distance between the base end portions of the pair of light distribution control portions is longer than that. The accommodating part is
further comprising a light source holding part that holds the light source in contact with the pedestal,
The tip portion is
connected to the light source holder,
The lamp according to claim 1 or 2, wherein the light source holding section and the light distribution control section constitute a part of an outer wall of the accommodating section. The pedestal and the outer shell are
The lamp according to claim 1 or 2, comprising an outer circumferential wall formed in a cylindrical shape. a light source having a light emitting element and a substrate on which the light emitting element is mounted;
an accommodating part formed in a cylindrical shape and in which the light source is disposed;
Equipped with
The accommodating part is
a light source holding part that holds the substrate;
an outer shell that covers the light source and has an emission part from which light emitted from the light source is emitted;
a pair of light distribution control parts that stand up from the outer shell and are arranged in parallel with the optical axis of the light source in between; A light distribution control section;
has
Each of the pair of light distribution control units includes:
Extending from the outer shell toward the light source holding part,
a base end portion that is one end portion and constitutes a peripheral edge portion of the emission portion;
a tip portion that is the other end and is disposed apart from the light emitting element, and is connected to the light source holder;
has
The light source holding portion, the outer shell, and the light distribution control portion constitute an outer wall of the housing portion. The pair of light distribution control units include:
17. The lamp according to claim 16, wherein the reflectance of at least the inner surface on the optical axis side is higher than the reflectance of the emission part. The pair of light distribution control units include:
18. The lamp according to claim 16, wherein the transmittance of at least the inner surface on the optical axis side is lower than the transmittance of the emission part. a light source having a light emitting element and a substrate on which the light emitting element is mounted;
a pedestal on which the light source is placed;
an accommodating part in which the light source is housed; the accommodating part has an outer shell that is attached to the pedestal while covering the light source and from which light emitted from the light source is emitted;
a pair of light distribution control units that are arranged in parallel between the substrate and the outer shell in the housing part, with the optical axis of the light source in between, and distribute light emitted from the light source toward the outer shell by reflection; ,
Equipped with
The pair of light distribution control units include:
In the direction along the optical axis of the light source, the end portion on the pedestal side is arranged so as to overlap with the substrate, and the end portion on the outer shell side is arranged so as not to overlap with the substrate. The pedestal is
The lamp according to claim 19, further comprising a pedestal lid portion disposed between the substrate and ends of the pair of light distribution control portions on the pedestal side. The lamp according to any one of claims 1 to 20,
a fixture to which the light fixture is attached;
Lighting device with.

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