JP6741986B2 - lighting equipment - Google Patents

Description

The present invention relates to a lighting fixture.

Conventionally, a lighting fixture may be attached to a building material such as a wall.

As a lighting fixture of this type, a structure including a fixture main body, a substrate on which a plurality of light emitting elements are mounted, a main body cover, and an end cover is known (for example, Patent Document 1).

The instrument body is formed in a long shape. In the instrument body, a substrate on which a plurality of light emitting elements are mounted is arranged along the longitudinal direction. The body cover is translucent. The main body cover is attached to the instrument main body so as to cover the plurality of light emitting elements. The end cover is attached to the instrument body in the longitudinal direction of the instrument body. The end cover is not transparent.

Utility model registration No. 3186404

By the way, in the lighting equipment, it may be desired to emit light from the end portion in the longitudinal direction. In the luminaire, when the light is emitted from the end in the longitudinal direction, a structure with less uneven brightness and good assembling workability is required even in the end in the longitudinal direction. Therefore, only the configuration of Patent Document 1 described above is required. Is not sufficient, and further improvement is required.

An object of the present invention is to provide a luminaire that has less unevenness in brightness and can improve assembly workability.

The lighting fixture according to one aspect of the present invention includes a light source module, a support member, a cover, an outer shell portion, and a fixture body. The support member supports the light source module. The cover is supported by the support member so as to cover the light source module. The cover has a long outer shape. The outer shell portion has a cylindrical outer shape with both ends closed. The outer shell portion internally houses the light source module, the support member, and the cover. The instrument body supports the support member and is attached to the building material. The light source module includes the light emitting element and the mounting substrate. The light emitting element is mounted on the mounting board. The mounting board has a long outer shape. The cover and the outer shell have a light diffusing property of diffusing transmitted light. The cover has a light diffusing portion having a light diffusing property and a light projecting property at both ends in the longitudinal direction. The light diffusing unit has a hooking unit and a support base. The hooking portion is hooked on an end portion of the support member. The support base supports the end portion of the support member hooked by the hook portion by sandwiching the end portion with the hook portion. The cover has a hole at one end in the longitudinal direction. The light diffusing unit includes a protrusion. The light diffusing portion and the supporting member are fixed by fitting the protruding portion into the hole portion.

The lighting fixture of the present invention has less unevenness in brightness and can be improved in assembling workability.

FIG. 1 is a vertical cross-sectional view showing a lighting fixture according to an embodiment of the present invention. FIG. 2 is an exploded perspective view on the back side showing the above lighting equipment. FIG. 3 is a partially cutaway front view showing a main part of the above lighting fixture. FIG. 4 is an exploded perspective view on the back side showing another main part of the same lighting fixture. FIG. 5: is an external view of the front side which shows a lighting fixture same as the above. FIG. 6 is a rear view showing the lighting fixture of the above. FIG. 7: is a side view which shows a lighting fixture same as the above. FIG. 8: is a perspective view which shows another main part of the lighting fixture same as the above. FIG. 9 is a partially cutaway cross-sectional view showing still another main part of the above lighting equipment. FIG. 10 is a partially cutaway cross-sectional view showing still another main part of the above lighting fixture.

Below, the lighting fixture 30 of this embodiment is demonstrated with reference to FIGS. In the drawings, the same reference numerals are given to the same members, and duplicate description will be omitted. The sizes and positional relationships of members shown in each drawing may be exaggerated for clarity of explanation. In the following description, each element included in the present embodiment may have a configuration in which a plurality of elements are configured by one member and one member also serves as a plurality of elements. You may implement|achieve by sharing with a member.

As shown in FIGS. 1 to 4, the lighting fixture 30 of the present embodiment includes a light source module 1, a support member 2, a cover 3, an outer shell portion 7, and a fixture main body 31. The support member 2 supports the light source module 1. The cover 3 is supported by the support member 2 so as to cover the light source module 1. The cover 3 has a long outer shape. The outer shell portion 7 has a cylindrical outer shape with both ends closed. The outer shell part 7 accommodates the light source module 1, the support member 2, and the cover 3 inside. The light source module 1 has a light emitting element 1a and a mounting substrate 1b. The light emitting element 1a is mounted on the mounting substrate 1b. The mounting board 1b has a long outer shape. The cover 3 and the outer shell portion 7 have a light diffusing property of diffusing transmitted light. The cover 3 is provided with light diffusing portions 4 having light diffusing properties at both ends in the longitudinal direction. The light diffusion part 4 has a hooking part 4c and a support base 4b. The hook portion 4c is hooked on the end portion of the support member 2. The support base 4b supports the end portion of the support member 2 hooked by the hook portion 4c by sandwiching the end portion between the hook 4 and the hook portion 4c.

In the lighting fixture 30 of the present embodiment, the light diffusing portions 4 having light diffusing properties are arranged at both ends of the cover 3 in the longitudinal direction, so that the uneven brightness can be further reduced. The lighting fixture 30 of the present embodiment supports the hook portion 4c hooked on the end portion of the support member 2 and the end portion of the support member 2 hooked by the hook portion 4c between the hook portion 4c. Assembling workability can be improved with the support base 4b.

Below, the lighting fixture 30 of this embodiment is demonstrated in detail.

The lighting fixture 30 of the present embodiment includes a light source unit 10 and a fixture body 31, as shown in FIGS. 5 to 7. The light source unit 10 has a long outer shape. The light source unit 10 has moisture proof and rain proof properties. The instrument body 31 supports the light source unit 10. The instrument body 31 has a long outer shape. The instrument body 31 is attached to the building wall 50 such as the outer wall of the building or the eaves. The instrument body 31 is attached, for example, with the longitudinal direction being horizontal. The instrument body 31 may be attached with the longitudinal direction being the vertical direction. In other words, the lighting fixture 30 of the present embodiment constitutes a wall light that is attached to the outer wall of the building or the like.

As shown in FIGS. 1 to 3, the light source unit 10 includes a plurality of light source modules 1, a supporting member 2, a cover 3, a light diffusing portion 4, and an outer shell portion 7, and further, a power supply device 5 shown in FIG. And a fixture 6 and a fixture 8.

As shown in FIG. 3, the light source module 1 has a connector 1c in addition to the plurality of light emitting elements 1a and the mounting substrate 1b. The light emitting element 1a is an LED (Light Emitting Diode). The light emitting element 1a is electrically connected to a conductor provided on the mounting substrate 1b by solder.

The LED has, for example, an LED chip, a package provided with a recess for housing the LED chip, and a translucent sealing material for sealing the recess. The LED chip is, for example, a blue LED chip capable of emitting blue light. The sealing material is made of a translucent material. As the translucent material of the sealing material, for example, silicone resin or epoxy resin is preferable. A phosphor is mixed with the translucent material of the sealing material. The phosphor is, for example, a yellow phosphor that emits yellow light when excited by blue light emitted from a blue LED chip. The LED can emit mixed color light of blue light emitted from the blue LED chip and yellow light emitted from the yellow phosphor. The LED emits, for example, neutral white light as mixed color light. In the LED, the translucent material of the encapsulant may not be mixed with the phosphor. The LED may be, for example, a surface-mounted light emitting diode including an LED chip, a package, and a sealing material, or may be a single LED chip. The light source module 1 is not limited to the configuration in which LEDs are used for the light emitting elements 1a. The light emitting element 1a may be an organic electroluminescence element.

As shown in FIGS. 1 and 3, the mounting substrate 1b has a long rectangular flat plate-like outer shape. The mounting substrate 1b has a conductor that is electrically connected to the light emitting element 1a. The conductor electrically connects the plurality of light emitting elements 1a in series. The plurality of light emitting elements 1a are linearly arranged along the longitudinal direction of the mounting board 1b in the central portion of the mounting board 1b in the lateral direction. Each of the plurality of light emitting elements 1a is electrically connected to the conductor by solder. The mounting substrate 1b is a glass epoxy resin substrate. The mounting substrate 1b is not limited to the glass epoxy resin substrate, and may be, for example, a ceramic substrate or a metal-based printed wiring board. The connector 1c is mounted on both ends of the mounting board 1b in the longitudinal direction. The connector 1c is arranged on one side in the lateral direction of the mounting substrate 1b.

The connector 1c is electrically connected to the conductor of the mounting substrate 1b so as to supply power to the light emitting element 1a. In the light source modules 1 adjacent to each other, the connectors 1c are electrically connected to each other by the electric wire 1i. The power source line connected to the connector 1c is electrically connected to the power supply device 5 on the mounting boards 1b at both ends in the longitudinal direction of the light source unit 10 among the plurality of mounting boards 1b. In the light source unit 10, the plurality of light source modules 1 are electrically connected in series by electrically connecting the connector 1c and the power supply device 5.

The support member 2 has a long outer shape as shown in FIGS. The support member 2 has a main portion 2a and a side surface portion 2b. The main portion 2a has a long rectangular flat plate-like outer shape. The main portion 2a is provided with rectangular insertion grooves 2d at both ends in the longitudinal direction along the lateral direction. The side surface portion 2b projects in the thickness direction of the main portion 2a from both ends in the lateral direction of the main portion 2a along the longitudinal direction of the main portion 2a. Each of the pair of side surface portions 2b has a long rectangular flat plate-like outer shape. The distance between the pair of side surface portions 2b increases with increasing distance from the main portion 2a. Each of the pair of side surface portions 2b has a first screw hole 2ba penetrating in the thickness direction at both ends in the longitudinal direction.

The support member 2 includes a main portion 2a and a pair of side surface portions 2b that are integrally formed. The support member 2 is formed of, for example, a stainless steel plate. The material of the support member 2 is not limited to the stainless steel plate, but may be a metal plate such as aluminum or copper. The support member 2 is formed by punching and bending a metal plate. In the light source unit 10, since the mounting substrate 1b is arranged so as to contact the supporting member 2 made of a metal plate, the supporting member 2 can be used as a heat dissipation plate. When the support member 2 is formed of a metal plate having higher thermal conductivity than resin, the heat generated in the light emitting element 1a can be efficiently radiated to the outside.

As shown in FIG. 3, the support member 2 has a plurality of holders 2c attached thereto. The plurality of holders 2c are provided at both ends in the longitudinal direction of each of the plurality of mounting boards 1b. The holder 2c is fixed to the main portion 2a while sandwiching the mounting board 1b in the lateral direction. The holder 2c holds the mounting board 1b so that the mounting board 1b contacts the main portion 2a. The plurality of light source modules 1 are linearly attached to the main portion 2a of the support member 2 by the holder 2c along the longitudinal direction of the support member 2. The holder 2c is made of, for example, a synthetic resin.

The cover 3 has a long outer shape. As shown in FIGS. 1 and 4, the cover 3 has a light emitting portion 3a and a protruding plate piece 3b. The light emitting portion 3a has a semi-elliptical cylindrical outer shape. The light emitting portion 3a covers the main portion 2a of the support member 2 that supports the light source module 1. In the light source module 1, the light emitted from the light emitting element 1 a is diffused when passing through the cover 3. The light emitting portion 3a has a central portion 3aa arranged to face the light emitting element 1a, and a peripheral portion 3ab formed on the light emitting portion 3a excluding the central portion 3aa.

The central portion 3aa is formed so that the light transmittance is lower than that of the peripheral portion 3ab. As shown in FIG. 1, the central portion 3aa is, for example, in a sectional view orthogonal to the longitudinal direction of the cover 3, a line segment connecting both ends of the outer shell portion 7 facing the light emitting element 1a and the light emitting element 1a, and the cover 3. It is located in the area where and intersect. The central portion 3aa and the peripheral portion 3ab are made of a resin material containing a light diffusing material. When the same light diffusing material is used, the central portion 3aa and the peripheral portion 3ab differ in the concentration of the light diffusing material contained in the resin material. Since the central portion 3aa has a higher concentration of the light diffusing material contained in the resin material than the peripheral portion 3ab, the light transmittance is lower than that of the peripheral portion 3ab. The light emitting portion 3a may have a smooth curved surface, or may have an uneven surface. The light emitting portion 3a can be used for collecting or diverging light from the light emitting element 1a due to the unevenness of the surface. In other words, the light emitting portion 3a may have a lens function. As shown in FIGS. 4 and 9, the light emitting portion 3a has a hole portion 3cc penetrating in the thickness direction at one end portion in the longitudinal direction.

The projecting plate piece 3b has a rectangular flat plate-like outer shape. The projecting plate pieces 3b are provided at both ends in the lateral direction of the light emitting portion 3a along the longitudinal direction of the light emitting portion 3a. The pair of projecting plate pieces 3b protrude so as to be further apart from each other as they are separated from both ends in the lateral direction of the light emitting portion 3a. The protruding plate piece 3b is formed to have the same light transmittance as that of the peripheral portion 3ab.

In the cover 3, the light emitting portion 3a and the protruding plate piece 3b are integrally formed. The cover 3 preferably has a configuration capable of efficiently transmitting the light emitted from the light emitting element 1a. As a material of the cover 3, for example, a translucent resin material such as a polycarbonate resin or an acrylic resin is preferable. The cover 3 is formed by extrusion molding, for example. In the cover 3, the light emitting portion 3a is integrally formed by two-color molding in which the central portion 3aa and the peripheral portion 3ab have different light diffusing material content concentrations. The cover 3 has a light diffusion element content concentration in the resin material of the central portion 3aa as compared with the peripheral portion 3ab even when an LED having relatively high light straightness is used for the light emitting element 1a. Is high, it reduces the light that travels straight without being diffused when light is transmitted. By reducing the light transmittance of the central portion 3aa of the cover 3 as compared with the peripheral portion 3ab, it is possible to reduce glare that causes discomfort and glare to the viewer.

The light diffusion portions 4 are provided at both ends in the longitudinal direction of the cover 3. The pair of light diffusion portions 4 are arranged so as to face each other at both ends in the longitudinal direction of the light emitting portion 3a. As shown in FIGS. 1, 4, and 8, the light diffusing unit 4 has a diffusing plate 4a, a support base 4b, a hooking unit 4c, a pressing unit 4d, and a connecting unit 4e. The light diffusion portion 4 has a spacer 4f, a guide portion 4g, a pushing portion 4h, a reinforcing portion 4j, and a business trip portion 4t. Of the pair of light diffusing sections 4, one light diffusing section 4 further has a protrusion 4k, as shown in FIGS. 8 and 9. The other light diffusing portion 4 of the pair of light diffusing portions 4 does not have the protruding portion 4k as shown in FIGS. 4 and 10. The other light diffusing section 4 is formed in the same shape as the one light diffusing section 4 except that it does not have the protrusion 4k.

The diffusion plate 4a is formed in a rectangular flat plate shape. The diffusion plate 4a is diffused when light passes through the diffusion plate 4a. In the diffusion plate 4a, the support bases 4b are arranged at both ends along the longitudinal direction on one side in the lateral direction. On the other side of the diffusion plate 4a opposite to the one in the lateral direction, the business trip portions 4t are arranged at both ends along the longitudinal direction. The support base 4b projects in the thickness direction of the diffusion plate 4a. Each of the pair of support bases 4b has a U-shaped outer shape when viewed from the direction along the lateral direction of the diffusion plate 4a. The support base 4b is provided with a hooking portion 4c at a tip thereof separated from the diffusion plate 4a. The hooking portion 4c has an L-shaped outer shape when viewed in the longitudinal direction of the diffusion plate 4a.

The diffusing plate 4a has pressing portions 4d arranged at both ends in the longitudinal direction on one side in the lateral direction. The pressing portion 4d is spaced apart from the support base 4b by a predetermined distance and protrudes from the diffusion plate 4a so as to close the U-shaped interior. The pressing portion 4d has a rectangular plate-like outer shape. The pressing portion 4d can bend in the thickness direction and can provide an elastic force. The pressing portion 4d has a tip protruding from the support base 4b in the thickness direction.

Between the pair of support bases 4b, a connecting portion 4e for connecting the ends of the support bases 4b apart from the diffusion plate 4a is arranged. The connecting portion 4e projects from the tip portion 4ea of the support base 4b. The light diffusion portion 4 sandwiches the main portion 2a of the support member 2 between the tip portion 4ea and the hook portion 4c. In the light diffusion portion 4, the pressing portion 4d applies an elastic force to the main portion 2a so that the main portion 2a faces the hook portion 4c with the main portion 2a being sandwiched between the tip portion 4ea and the hook portion 4c. Give. The light diffusion portion 4 has an opening 4aa surrounded by the connecting portion 4e and the diffusion plate 4a. The connecting portion 4e has a holding portion 4eb at a tip thereof which is separated from the diffusion plate 4a. Adjacent sandwiching portions 4eb have sandwiching pieces 4ec that project toward each other. The pair of holding pieces 4ec are formed so that the power supply line inserted into the opening 4aa can be held by the gap 4ed of the pair of holding pieces 4ec. In other words, the light diffusing section 4 has the tension stopping portion 4s for stopping the tension of the power supply line.

The spacers 4f are provided at both ends in the longitudinal direction of the diffuser plate 4a on one side in the lateral direction. The spacer 4f projects in the same direction as the support base 4b in the thickness direction of the diffusion plate 4a. The spacer 4f has a polygonal columnar outer shape. The pair of spacers 4f are arranged so as to extend from the end of the diffusion plate 4a toward the central portion along the diagonal of the rectangular diffusion plate 4a when viewed from the thickness direction of the diffusion plate 4a.

The guide portion 4g is provided at the center of the diffusion plate 4a. The guide portion 4g has a plate-like outer shape. The guide portion 4g is arranged along the lateral direction of the rectangular flat diffusion plate 4a. The guide portion 4g projects in the same direction as the support base 4b along the thickness direction of the diffusion plate 4a. The pair of guide portions 4g are arranged at a predetermined interval. In the light diffusion part 4, a pair of guide parts 4g are arranged in parallel to each other.

The pressing portion 4h is arranged on the other side in the lateral direction of the diffusion plate 4a than the central portion of the diffusion plate 4a. The pushing portion 4h has a plate-like outer shape. The pushing portion 4h projects in the same direction as the support base 4b along the thickness direction of the diffusion plate 4a. The pushing portion 4h is arranged in a direction orthogonal to the guide portion 4g. The space between the pair of guide portions 4g and the pressing portion 4h is slightly wider than the thickness dimension of the light emitting portion 3a so that the light emitting portion 3a can be inserted. The pushing portion 4h has a reinforcing portion 4j arranged on the other side in the lateral direction of the diffusion plate 4a. The reinforcing portion 4j projects in the same direction as the support 4b along the thickness direction of the diffusion plate 4a. The reinforcing portion 4j has a trapezoidal flat plate outer shape when viewed in the longitudinal direction of the diffusion plate 4a. The reinforcing portion 4j suppresses the push portion 4h from being deformed by a force applied in a direction away from the guide portion 4g.

In one of the pair of light diffusing sections 4, a projecting section 4k that projects from the pressing section 4h toward the guide section 4g is arranged in one of the light diffusing sections 4. The protrusion 4k has a columnar outer shape. The protruding portion 4k is formed with an inclined surface so that the distance from the pressing portion 4h increases as the tip moves away from the diffusion plate 4a. The guide portion 4g has an end surface parallel to the inclined surface of the protrusion 4k.

As a material of the light diffusion portion 4, for example, a polycarbonate resin is preferable. The light diffusion portion 4 may be made of the same material as the cover 3 or may be made of a different material. The light diffusion portion 4 contains the light diffusion material at the same content concentration as that of the peripheral portion 3ab of the light emission portion 3a. The light diffusion portion 4 may contain the light diffusion material at the same content concentration as that of the central portion 3aa of the light emission portion 3a.

As shown in FIG. 4, the power supply device 5 is attached to the second surface 2ab of the support member 2 opposite to the mounting substrate 1b. The power supply device 5 has a housing 5a. The housing 5a has the shape of a long rectangular box with one surface open. The housing 5 a is arranged so that the opening is closed by the support member 2. The housing 5a is attached to the support member 2 with the attachment screw 5b, for example. The housing 5a is formed of a metal plate material. The housing 5a is formed by punching and bending a metal plate material. The housing 5a accommodates a power supply board inside.

The power supply board is provided with a circuit for supplying a predetermined lighting power to the mounting board 1b to light the light emitting element 1a. A plurality of types of electrical components are mounted on the power board. Examples of the plurality of types of electrical components include a transformer, a diode, a capacitor, a switching element, and a drive IC (Integrated Circuit) that controls switching of the switching element. The plurality of types of electrical components are appropriately electrically connected to each other to form a power supply circuit for generating lighting power for the light emitting element 1a. The power supply circuit includes, for example, a step-up chopper circuit and a step-down chopper circuit. The power supply circuit rectifies an AC voltage from an external power supply such as a commercial AC power supply into a DC voltage. The power supply circuit steps up and down the rectified DC voltage and outputs a current that matches a predetermined target value. The power supply device 5 has an input terminal and an output terminal arranged on one end side in the longitudinal direction of the housing 5a. The power line of the power supply device 5 is electrically connected to the input terminal. The output terminal of the power supply device 5 and the light source module 1 are electrically connected by a power supply line.

As shown in FIG. 4, the pair of fixtures 6 has a base plate 6a, a pair of inclined pieces 6b, and standing pieces 6c. The base plate 6a has a rectangular flat plate-like outer shape. The base plate 6a is provided with a first insertion hole 6aa penetrating in the thickness direction at the center thereof. The base plate 6a is formed with a recess 6ab that is recessed from the periphery around the first insertion hole 6aa. The base plate 6a is provided with second screw holes 6ac on both sides of the first insertion hole 6aa along the lateral direction.

The power line is inserted into one of the pair of fixtures 6 through the first insertion hole 6aa provided in the center of the recess 6ab. The inclined piece 6b has a rectangular flat plate-like outer shape. The inclined pieces 6b project outward from both ends of the base plate 6a in the longitudinal direction so as to be separated from each other. The inclined piece 6b is provided such that a circular third screw hole 6ba and an elliptical elongated hole 6bb whose longitudinal direction is the longitudinal direction are arranged side by side along the longitudinal direction. The standing piece 6c has a trapezoidal flat plate-like outer shape. The upright piece 6c is provided with fourth screw holes 6ca at both ends along parallel trapezoidal opposite sides in the central portion of the trapezoid. The fourth screw hole 6ca penetrates in the thickness direction of the standing piece 6c.

The fixture 6 includes a base plate 6a, an inclined piece 6b, and a standing piece 6c, which are integrally formed. The fixture 6 is made of a metal plate material. The fixture 6 is formed by punching and bending a metal plate material.

One of the pair of fixtures 6 is attached to the support member 2 by screwing the screw 2e inserted into the first screw hole 2ba of the support member 2 into the third screw hole 6ba of the inclined piece 6b. It is attached. In the other fixture 6 of the pair of fixtures 6, the screw 2e that is inserted into the first screw hole 2ba of the support member 2 is inserted into the long hole 6bb of the inclined piece 6b, so that the side face 2b It is attached to the support member 2 so as to be movable along the longitudinal direction.

As shown in FIG. 2, the outer shell portion 7 has a long outer shape. The outer shell portion 7 houses the light source module 1, the support member 2, the cover 3, and the light diffusing portion 4, as well as the power supply device 5 and the fixture 6 inside. The outer shell portion 7 has an outer shell body 7a, an outer shell end portion 7b, and a packing 7c. The outer shell body 7a has a rectangular tubular outer shape. The outer shell body 7a has a main wall 7d, a pair of side walls 7e, and a sub wall 7f. The main wall 7d has a rectangular flat plate-like outer shape. The pair of side walls 7e are arranged at both ends in the lateral direction of the main wall 7d. Each of the pair of side walls 7e has a rectangular flat plate-like outer shape. As shown in FIG. 1, the pair of side walls 7e are formed such that the distance between the side walls 7e increases with increasing distance from the main wall 7d. The sub-wall 7f is arranged so as to be continuous with the pair of side walls 7e and to face the main wall 7d. The sub wall 7f is formed to be long.

The sub-wall 7f has a recess 7fa in which the central portion in the lateral direction is depressed along the longitudinal direction. The recess 7fa has an inner bottom portion 7g and a pair of standing pieces 7h. The inner bottom portion 7g has a rectangular flat plate-like outer shape. The inner bottom portion 7g is arranged so as to be parallel to the main wall 7d. Each of the pair of standing pieces 7h has a rectangular flat plate-like outer shape. The pair of standing pieces 7h are provided at both ends in the lateral direction of the inner bottom portion 7g along the longitudinal direction of the inner bottom portion 7g. The pair of standing pieces 7h protrude in the thickness direction of the inner bottom portion 7g. The distance between the upright pieces 7h increases with increasing distance from the inner bottom portion 7g.

The inner bottom portion 7g is provided with two screw holes at both ends in the longitudinal direction, into which the fixing screws 7ga are screwed, at predetermined intervals along the longitudinal direction. The inner bottom portion 7g has an insertion hole provided between the two screw holes at one end. The first cable gland 7gb shown in FIG. 10 is fitted into the insertion hole. In FIG. 10, the outer shell portion 7 is omitted. In the light source unit 10, a power line for supplying power to the power supply device 5 is inserted through the first cable gland 7gb fitted in the insertion hole.

The outer shell body 7a has a main wall 7d, a side wall 7e, and a sub wall 7f that are integrally formed. The outer shell body 7a is formed of, for example, a translucent resin material. As a resin material for the outer shell body 7a, for example, a polycarbonate resin or an acrylic resin is preferable. The outer shell body 7a is formed by, for example, extrusion molding.

As shown in FIGS. 1, 2 and 7, the outer shell end portion 7b is provided so as to close both ends of the rectangular tubular outer shell body 7a. The outer shell end portion 7b has a bottom wall 7j, an outer peripheral wall 7k, and an inner peripheral wall 7m. The bottom wall 7j has a trapezoidal plate-like outer shape. The bottom wall 7j has an exposed portion 7p provided in a rectangular notch at the center of the base of the trapezoid. The bottom wall 7j is provided with two cylindrical recesses 7q at the center, which are recessed from the outer surface toward the inside. A circular hole is formed in the bottom of the two recesses 7q. The cap 7s shown in FIG. 7 is inserted into the recess 7q.

The outer peripheral wall 7k projects in the thickness direction of the bottom wall 7j so as to surround the outer periphery of the bottom wall 7j. The outer peripheral wall 7k has a cylindrical outer shape. The inner peripheral wall 7m projects in the same direction as the outer peripheral wall 7k along the thickness direction of the bottom wall 7j. The inner peripheral wall 7m is formed slightly smaller than the outer periphery of the outer peripheral wall 7k. The inner peripheral wall 7m has a tubular outer shape. In other words, each of the outer peripheral wall 7k and the inner peripheral wall 7m is formed with an external shape similar to the shape of the cross section orthogonal to the longitudinal direction of the outer shell body 7a with a predetermined gap.

The outer shell end portion 7b is formed of a resin material having a light-transmitting property. As a resin material for the outer shell end portion 7b, for example, a polycarbonate resin or an acrylic resin is preferable. The outer shell end portion 7b is formed of the same translucent material as the outer shell body 7a. The outer shell end portion 7b is not limited to being formed of the same material as the outer shell body 7a. The outer shell end portion 7b may be formed of a material different from that of the outer shell body 7a.

The packing 7c has an annular outer shape. The packing 7c is formed in an outer shape similar to the outer peripheral wall 7k and the inner peripheral wall 7m of the outer shell end portion 7b. The packing 7c is fitted in the gap between the outer peripheral wall 7k and the inner peripheral wall 7m. The longitudinal end of the outer shell body 7a is fitted into the gap between the outer peripheral wall 7k and the inner peripheral wall 7m via the packing 7c. The packing 7c is made of an elastic material. For example, a silicone resin is preferable as the elastic material of the packing 7c. The packing 7c suppresses entry of moisture and dust into the inside of the outer shell 7.

As shown in FIGS. 4, 9 and 10, the attachments 8 are provided at both ends of the outer shell body 7a in the longitudinal direction. In FIGS. 4 and 9, the outer shell portion 7 is omitted as in FIG. 10. Each of the pair of fixtures 8 has a bottom wall piece 8a, a standing wall piece 8b, and a pair of side wall pieces 8c. One of the pair of fittings 8 has an elastic portion 8d in addition to the bottom wall piece 8a, the standing wall piece 8b, and the pair of side wall pieces 8c. The other mounting tool 8 of the pair of mounting tools 8 does not have the elastic portion 8d. The other fixture 8 is formed in the same shape as the one fixture 8 except that it does not have the elastic portion 8d.

The bottom wall piece 8a is formed in a rectangular flat plate shape. The bottom wall piece 8a has a second insertion hole 8aa and a fifth screw hole 8ab. The second insertion hole 8aa penetrates in the thickness direction of the bottom wall piece 8a. The second insertion hole 8aa is provided at the center of the bottom wall piece 8a in the longitudinal direction. The second insertion hole 8aa has a circular outer shape. The fifth screw holes 8ab are provided on both sides of the second insertion hole 8aa along the longitudinal direction of the bottom wall piece 8a.

The bottom wall piece 8a is provided with a truncated cone-shaped projection 8ac around the two fifth screw holes 8ab. The standing wall piece 8b has an outer shape of a rectangular flat plate. The standing wall piece 8b projects in the thickness direction of the bottom wall piece 8a from one end in the longitudinal direction of the bottom wall piece 8a along the lateral direction of the bottom wall piece 8a. The standing wall piece 8b is provided with an opening hole 8ba in the center thereof. The side wall piece 8c has a rectangular flat plate-like outer shape. The side wall piece 8c has a protrusion 8e at the center in the longitudinal direction on the side opposite to the bottom wall piece 8a in the lateral direction. The protruding portion 8e has an L-shaped outer shape when viewed in the longitudinal direction of the side wall piece 8c. The protrusions 8e provided on each of the pair of side wall pieces 8c project in directions away from each other.

The fixture 8 is formed by integrally forming a bottom wall piece 8a, a standing wall piece 8b, and a side wall piece 8c. The fixture 8 is formed by punching and bending a metal plate. As the metal plate of the fixture 8, a stainless steel plate is preferable.

As shown in FIGS. 4 and 9, the elastic portion 8d has a mounting piece 8h, a spring piece 8j, a restraining piece 8k, and a bending piece 8m. The mounting piece 8h has a rectangular flat plate-like outer shape. The mounting piece 8h has a through hole 8ha penetrating in the thickness direction. The attachment piece 8h is provided with a spring piece 8j along the lateral direction at one end in the longitudinal direction. The spring piece 8j has a rectangular flat plate outer shape. The spring piece 8j projects so that the height along the thickness direction of the mounting piece 8h becomes higher as it separates from the mounting piece 8h. The spring piece 8j is provided with a restraining piece 8k on the side opposite to the mounting piece 8h in the longitudinal direction.

The restraining piece 8k has a first flat plate 8ka and a second flat plate 8kb. The first flat plate 8ka has an outer shape of a long rectangular flat plate. The first flat plate 8ka projects from the spring piece 8j along the direction parallel to the mounting piece 8h. The first flat plate 8ka is provided with a penetrating groove 8kc at the center in the longitudinal direction along the lateral direction. The first flat plate 8ka has a second flat plate 8kb protruding in the thickness direction. The 1st flat plate 8ka is provided with the 2nd flat plate 8kb along the longitudinal direction on the opposite side to the spring piece 8j in the lateral direction. The second flat plate 8 kb has an outer shape of a long rectangular flat plate. The second flat plate 8kb is provided with a bending piece 8m in parallel with the first flat plate 8ka on the side opposite to the first flat plate 8ka in the lateral direction.

The elastic portion 8d is integrally formed with a mounting piece 8h, a spring piece 8j, a restraining piece 8k, and a bending piece 8m. The elastic portion 8d is formed by punching and bending a metal plate. The elastic portion 8d is fixed to the fixture 6 by the fixing screw 7ga, and the attachment piece 8h is attached via the bottom wall piece 8a of the attachment tool 8. In the elastic portion 8d, with the attachment piece 8h fixed to the bottom wall piece 8a, a spring piece 8j projects along the longitudinal direction of the bottom wall piece 8a and away from the bottom wall piece 8a. The elastic portion 8d applies an elastic force in a direction in which the spring piece 8j moves away from the bottom wall piece 8a. In other words, the elastic portion 8d constitutes a leaf spring.

As shown in FIG. 2, the instrument body 31 has a mounting base 32, a fixing portion 33, a second cable gland 34, and a mounting screw 35. The mounting base 32 has a long outer shape. The fixing portions 33 are provided at both ends of the attachment base 32 in the longitudinal direction. A power line is inserted through the second cable gland 34. The mounting screw 35 fixes the fixing portion 33 to the mounting base 32.

The mounting base 32 has a bottom plate 32a and a pair of side wall portions 32b. The bottom plate 32a has a long rectangular flat plate-like outer shape. The bottom plate 32a has a fifth insertion hole 32c penetrating in the thickness direction at the center in the longitudinal direction. The bottom plate 32a is provided with a second cable gland 34 so as to cover the inner edge of the fifth insertion hole 32c. The bottom plate 32a has a plurality of bolt insertion holes 32d on both sides of the fifth insertion hole 32c along the longitudinal direction. Each of the plurality of bolt insertion holes 32d has a polygonal outer shape with the longitudinal direction of the bottom plate 32a as the major axis direction. The bolt for fixing the construction material 50 is inserted into the bolt insertion hole 32d. The bottom plate 32a has insertion holes 32e penetrating in the thickness direction at both edges in the longitudinal direction. The insertion holes 32e are provided on both sides along the lateral direction of the bottom plate 32a. The bottom plate 32a has a boss 32f protruding from the other surface opposite to the one surface to which the fixing portion 33 is fixed. As shown in FIG. 7, the boss 32f projects so as to hit the construction material 50. The bosses 32f are provided on both sides of the bottom plate 32a in the longitudinal direction. The bosses 32f are provided on both sides in the lateral direction of the bottom plate 32a on both sides in the longitudinal direction of the bottom plate 32a.

The side wall portions 32b are provided at both ends in the lateral direction of the bottom plate 32a and along the longitudinal direction of the bottom plate 32a. The side wall portion 32b has a C-shaped outer shape in a cross section orthogonal to the longitudinal direction of the bottom plate 32a. The bottom plate 32a and the pair of side wall portions 32b are integrally formed, for example, by bending a metal plate such as a stainless steel plate. The pair of side wall portions 32b can improve the strength of the bottom plate 32a.

As shown in FIGS. 1, 2 and 6, the fixing portion 33 has a base portion 33a, a regulating portion 33b, a side standing portion 33c, and a protruding portion 33d. The base portion 33a has a long rectangular plate-like outer shape. The base portion 33a has a through hole 33g penetrating in the thickness direction. The base portion 33a is provided with a plurality of through holes 33g along the longitudinal direction at the center portion in the lateral direction.

The base portion 33a has an insertion piece 33f protruding in the longitudinal direction at the other end opposite to the one end in the longitudinal direction. The insertion pieces 33f are provided at both ends in the lateral direction of the base portion 33a. The insertion piece 33f projects outward so as to form a step on the side opposite to the side portion 33c in the thickness direction of the base portion 33a. In other words, the insertion piece 33f has an L-shaped outer shape in a cross-sectional view orthogonal to the lateral direction of the base portion 33a. The regulation portion 33b is provided at one end of the base portion 33a in the longitudinal direction. The regulation portion 33b has a flat outer shape.

The side portions 33c are provided at both ends in the lateral direction of the base portion 33a. The side standing portion 33c has a first side piece 33ca and a second side piece 33cb. The first side pieces 33ca are provided along the longitudinal direction of the base portion 33a at both ends in the lateral direction of the base portion 33a. Each of the pair of first side pieces 33ca has a rectangular flat plate-like outer shape. Each of the pair of first side pieces 33ca projects in the thickness direction of the base portion 33a. The pair of first side pieces 33ca are arranged in parallel with each other. Each of the pair of first side pieces 33ca is provided with a groove 33k along the longitudinal direction at the center in the lateral direction. The groove portion 33k penetrates in the thickness direction of the first side piece 33ca. The first side piece 33ca has a second side piece 33cb arranged along the longitudinal direction on the side opposite to the base portion 33a in the lateral direction.

The second side piece 33cb has a rectangular flat plate-like outer shape. The second side pieces 33cb project in a direction away from each other as they move away from the base portion 33a. The second side piece 33cb has an opening 33m that opens at one end in the longitudinal direction so as to be continuous with the groove 33k of the first side piece 33ca. In the side standing portion 33c, the first side piece 33ca and the second side piece 33cb have a V-shaped outer shape in a cross-sectional view orthogonal to the longitudinal direction of the base portion 33a. The second side piece 33cb has a protruding portion 33d arranged along the longitudinal direction on the side opposite to the first side piece 33ca in the lateral direction.

The protruding portion 33d has a rectangular flat plate-like outer shape. The tip of the protruding portion 33d protrudes outward from the base portion 33a along the thickness direction of the base portion 33a on the side opposite to the direction in which the restricting portion 33b protrudes. The second side piece 33cb and the protruding portion 33d have a V-shaped outer shape in a cross-sectional view orthogonal to the longitudinal direction of the base portion 33a.

The fixed portion 33 is formed of a metal plate such as a stainless steel plate. As shown in FIGS. 2 and 6, the fixing portion 33 is attached to the base portion 33a by the mounting screw 35 in a state where the insertion piece 33f of the base portion 33a is inserted into the insertion hole 32e of the mounting base 32. The bottom plate 32a is screwed to the longitudinal end portion. Each of the pair of fixing portions 33 is inserted into the insertion hole 32e of the mounting base 32 so that the insertion piece 33f of the base portion 33a projects in the same direction.

In the fixing portion 33, the protrusion 8e of the fixture 8 is inserted into the opening 33m of the first side piece 33ca. In the fixture 8, when the light source unit 10 is moved relative to the instrument body 31, the protrusion 8e inserted into the opening 33m moves along the groove 33k. The fixture 8 is fixed to the fixing portion 33 in a state where the groove portion 33k sandwiches the protrusion 8e by moving the protrusion 8e along the groove 33k.

Hereinafter, it will be described that the lighting fixture 30 of the present embodiment has less brightness unevenness and can improve the assembling workability as compared with the lighting fixture of the comparative example. The lighting fixture of the comparative example has the same configuration except that the light diffusing unit 4 of the lighting fixture 30 of the present embodiment is not provided.

In the luminaire, the light from the light emitting element may be guided not only in the thickness direction of the cover but also in the longitudinal direction of the cover. In the lighting device of the comparative example, the light guided in the longitudinal direction may cause uneven brightness at the end of the outer shell along the outer shape of the cover. In particular, when the concentration of the light diffusing material in the central portion of the cover is higher than that in the peripheral portion, there is a possibility that the light unevenness may be noticeable due to the light guided through the central portion.

If the light diffusing portions having light diffusing properties are fixed to both ends of the cover in the longitudinal direction of the luminaire, it is possible to reduce the uneven brightness along the outer shape of the cover that appears at the end of the outer shell. However, if the light diffusing portion is fixed by screws or the like separately from the cover, the assembly workability may be deteriorated.

In the luminaire 30 of the present embodiment, the light diffusing section 4 is fixed by being fitted into the support member 2 with the end portion of the support member 2 interposed therebetween, so that the assembling workability can be improved.

Further, in the lighting equipment, the cover may be thermally expanded due to the heat generated in the light source module. In the luminaire, when both ends of the cover in the longitudinal direction are screwed with the light diffusion portions, it is possible that the cover is deformed due to thermal expansion in the longitudinal direction of the cover.

In the lighting device 30 of the present embodiment, one of the pair of light diffusing sections 4 is fixed so that the light diffusing section 4 sandwiches the support member 2 and the cover 3 and is caught by the projecting section 4k. In the lighting fixture 30, the other light diffusing portion 4 of the pair of light diffusing portions 4 does not have the protruding portion 4k, so that the light diffusing portion 4 covers the support member 2 and the cover 3 while covering the cover. Even if 3 extends in the longitudinal direction of the cover 3 by thermal expansion, it can move. In the luminaire 30, even if the cover 3 extends in the longitudinal direction of the cover 3, the other light diffusing portion 4 can move, so that the cover 3 has a structure in which the longitudinal direction of the cover 3 is screwed. Deformation can be suppressed.

That is, in the lighting device 30 of the present embodiment, the cover 3 has the hole 3cc at one end in the longitudinal direction. The light diffusing unit 4 includes a protrusion 4k. The light diffusion portion 4 and the support member 2 are preferably fixed by fitting the protrusion 4k into the hole 3cc.

In the lighting device 30 of the present embodiment, the light diffusing portion 4 and the supporting member 2 can be positioned with a relatively simple structure in which the projecting portion 4k is fitted into the hole portion 3cc. ..

In the lighting device 30 of the present embodiment, the light diffusing unit 4 has the pressing unit 4h and the guide unit 4g. The pushing portion 4h is formed so that the end portion of the cover 3 can be pushed. The guide portion 4g guides the movement of the end portion of the cover 3. The light diffusing unit 4 preferably fixes the cover 3 to the support member 2 with the end portion of the cover 3 sandwiched between the pressing unit 4h and the guide unit 4g.

In the lighting device 30 of the present embodiment, the light diffusing portion 4 is fixed to the support member 2 with the end portion of the cover 3 sandwiched therebetween, so that the light diffusing portion 4 can be fitted relatively easily as compared with screwing. The cover 3 can be fixed to the support member 2.

In the lighting device 30 of the present embodiment, the light diffusion portion 4 has the tension stop portion 4s. It is preferable that the tension stopping portion 4s stops the tension of the power supply line that supplies power to the light source module 1.

In the luminaire 30 of the present embodiment, the light diffusing unit 4 has the tension stopping unit 4s that stops the tension of the power supply line that feeds the light source module 1, so that the number of components can be increased without separately providing a tension stopping device. Can be reduced.

Below, the assembly process of the light source unit 10 is demonstrated.

In the assembly process of the light source unit 10, the light source module 1 is attached to the main portion 2a of the support member 2 by the holder 2c. In the light source module 1, the light emitting element 1a is mounted in advance on the mounting board 1b. In the light source unit 10, the power supply device 5 is attached to the second surface 2ab opposite to the first surface 2aa of the main portion 2a to which the mounting substrate 1b is attached. The power supply device 5 is fixed to the support member 2 with a mounting screw 5b.

Next, in the assembly process, the cover 3 is attached to the support member 2 so as to cover the mounting substrate 1b. In the light source unit 10, the cover 3 and the support member 2 are fixed by sandwiching the end portion of the cover 3 and the end portion of the support member 2 by the light diffusion portion 4.

The light diffusing section 4 is rotated from the hooking section 4c as a starting point in a state where the hooking section 4c is hooked on the peripheral portion of the insertion groove 2d, and is sandwiched so as to press the cover 3 toward the guide section 4g by the pressing section 4h. To have. In FIG. 9, the inserting direction of the light diffusing portion 4 with respect to the support member 2 and the cover 3 is illustrated by a white arrow. The light diffusing unit 4 moves in parallel along the longitudinal direction of the cover 3 so that the end of the cover 3 is inserted between the pressing unit 4h and the guide unit 4g. The light diffusion portion 4 sandwiches the end portion of the cover 3 between the guide portion 4g and the pushing portion 4h while the main portion 2a of the support member 2 is sandwiched between the tip portion 4ea and the hook portion 4c. The light diffusing unit 4 is attached to the support member 2 by the pressing unit 4h pressing the cover 3 in the direction toward the spacer 4f and the guide unit 4g to apply force. In one light diffusion portion 4 of the pair of light diffusion portions 4, the protrusion 4k is fitted into the hole 3cc. The light source unit 10 is assembled by attaching the light diffusion portions 4 to both ends of the cover 3 and the support member 2 in the longitudinal direction.

Next, in the light source unit 10, the support member 2 to which the light source module 1, the cover 3, the fixture 6, and the power supply device 5 are attached is inserted inside from one end side in the longitudinal direction of the outer shell body 7a. Since the light source unit 10 has the business trip portion 4t, it is possible to prevent the inside of the outer shell body 7a from being scratched when the support member 2 is inserted into the outer shell body 7a. In the assembling process, the fixing screw 7ga is inserted through the fifth screw hole 8ab of the fixture 8 and the screw hole provided in the inner bottom portion 7g of the outer shell body 7a, and is fixed to the sixth screw hole 6ac of the fixture 6. The screw 7ga is screwed in.

In the light source unit 10, as shown in FIGS. 4, 9 and 10, the washer 7gc having elasticity is housed between the protrusion 8ac of the bottom wall piece 8a and the base plate 6a of the fixture 6, and the washer 7gc is accommodated. The fixing screw 7ga is screwed into the sixth screw hole 6ac via. A rubber washer is used as the washer 7gc, for example. The outer shell body 7a and the attachment 8 are fixed to the pair of fixtures 6.

As shown in FIG. 2, the light source unit 10 is mounted via the inner bottom portion 7g of the sub-wall 7f of the outer shell body 7a such that the recess 7fa of the outer shell body 7a is housed between the pair of side surface portions 2b. The tool 8 is attached to the fixture 6.

Then, the outer shell end portions 7b are respectively covered on the longitudinal end portions of the outer shell body 7a. The outer shell end 7b is preliminarily fitted with packing 7c between the outer peripheral wall 7k and the inner peripheral wall 7m. In the assembling process, the outer shell body 7a is press-fitted into the space surrounded by the outer peripheral wall 7k, the packing 7c, and the inner peripheral wall 7m so that the outer shell end portion 7b is located at both ends in the longitudinal direction of the outer shell body 7a. Attach to.

In the light source unit 10, the screw 7r is inserted into the hole at the bottom of the recess 7q and screwed into the fourth screw hole 6ca of the fixture 6. The pair of outer shell end portions 7b are screwed to the fixture 6 by two screws 7r, respectively. The light source unit 10 is assembled by inserting the cap 7s into the recess 7q of the outer shell end 7b so as to hide the screw 7r. In the light source unit 10, the outer shell end portion 7b is attached to the outer shell main body 7a, as shown in FIG. 4, through the exposed portion 7p of the outer shell end portion 7b, the opening hole of the standing wall piece 8b in the fixture 8. 8ba and the spring piece 8j are exposed.

Next, a construction process in the lighting fixture 30 will be briefly described.

In the lighting fixture 30, the fixture main body 31 is attached to, for example, a bolt embedded in the construction material 50. In the instrument body 31, the boss 32f provided on the bottom plate 32a hits the construction material 50. In the instrument body 31, the side wall portion 32b provided on the bottom plate 32a does not hit the building material 50. In the instrument body 31, in addition to the boss 32f provided on the bottom plate 32a, the projecting portion 33d of the instrument body 31 hits the construction material 50.

Then, the power line from the construction material 50 is electrically connected to the light source unit 10. The lighting fixture 30 covers the assembled light source unit 10 on the fixture body 31 so that the fixture body 31 is housed in the recess 7fa of the outer shell 7 after the power line and the light source unit 10 are electrically connected. To be When the light source unit 10 is put on the instrument body 31, the protrusion 8e of the fixture 8 is pressed so as to be inserted into the opening 33m of the fixing portion 33. The light source unit 10 is moved so that the protrusion 8e of the fixture 8 is along the groove 33k of the fixing portion 33 while being pressed against the instrument body 31.

By moving the light source unit 10 relative to the instrument body 31 along the groove 33k, the spring portion 8j of the elastic portion 8d corresponding to the regulating portion 33b is deformed until it gets over the regulating portion 33b. When the spring piece 8j gets over the restriction portion 33b, the light source unit 10 is elastically restored so that the spring piece 8j returns to its original shape. When the spring piece 8j returns so that the light source unit 10 returns to the original shape, the second flat plate 8kb of the elastic portion 8d is caught by the regulating portion 33b and stops. The light source unit 10 and the instrument body 31 move in the longitudinal direction because the second flat plate 8kb is caught by the restriction portion 33b and stopped in the state where the protrusion 8e of the fixture 8 is at one end of the groove 33k of the fixing portion 33. Regulated. In the lighting fixture 30, the light source unit 10 is moved in the longitudinal direction of the fixture body 31 with respect to the fixture body 31, and the light source unit 10 is attached to the fixture body 31, as shown in FIGS. To do.

The luminaire 30 is not limited to the structure having a moisture-proof and rain-proof property. The lighting fixture 30 can be appropriately used for a lighting fixture having another structure as long as the fixture main body 31 can hold the light source unit 10.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the technical idea of the present invention.

DESCRIPTION OF SYMBOLS 1 light source module 1a light emitting element 1b mounting substrate 2 supporting member 3 cover 3cc hole part 4 light diffusing part 4g guide part 4h pushing part 4k protruding part 4s tension stop part 7 outer shell part 10 light source unit 30 lighting fixture 31 fixture main body

Claims (3)

An elongated light source module, a support member for supporting the light source module, an elongated cover supported by the support member so as to cover the light source module, the light source module, the support member, and the cover. A tubular outer shell part that is housed in and closed at both ends, and an instrument body that supports the support member and is attached to a construction material,
The light source module has a light emitting element and a long mounting substrate on which the light emitting element is mounted,
The cover and the outer shell have a light diffusing property for diffusing transmitted light,
The cover has a light diffusing portion having a light diffusing property and a light transmitting property at both ends in the longitudinal direction,
The light diffusing portion is a hooking portion hooked on an end portion of the support member, and a support base that sandwiches and supports the end portion of the support member hooked by the hooking portion between the hooking portion, have a, the cover has a hole at one end portion in the longitudinal direction,
The light diffusion portion includes a protrusion,
The lighting device, wherein the light diffusing portion and the support member are fixed by fitting the protruding portion into the hole portion . The light diffusing portion is a pushing portion that pushes an end portion of the cover, and a guide portion that guides movement of the end portion of the cover along the longitudinal direction of the cover when fixing the cover to the support member, Have
The lighting device according to claim 1 , wherein the light diffusing unit fixes the cover to the support member with the end of the cover sandwiched between the pushing unit and the guide unit. .. The lighting device according to claim 1 or 2 , wherein the light diffusing unit has a tension stopping unit that stops tension of a power supply line that supplies power to the light source module .

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