JP2021057215A - Lighting device - Google Patents

Abstract

To provide a lighting device which achieves high light extraction efficiency.SOLUTION: A lighting device includes a device body having an opening formed continuously in a longitudinal direction and a recessed part formed at the inner side of the opening. The lighting device further includes a light source unit having a cylindrical cover member including a non-translucent part, which is housed in the recessed part so as to cover the opening, and a translucent part, which is formed at the outer side of the opening and has higher transmissivity than that of the non-translucent part, and further having a light source module including light emitting elements and housed inside the cover member so that light emitted by the light emitting elements is extracted from the translucent part to the outside, the light source unit attached to the device body so as to cover the opening.SELECTED DRAWING: Figure 1

Description

An embodiment of the present invention relates to a lighting device.

Conventionally, a transparent tubular cover has been used, and a chassis provided with a light source module is inserted into the cover, and a light source unit having caps provided at both ends of the cover exists. Then, there is known a lighting device configured by attaching this light source unit to an instrument main body arranged on an installation surface such as a ceiling surface.

In such a lighting device, there is a problem that the light generated from the light source module is reflected by the cover, so that the light enters the main body of the fixture and the light extraction efficiency from the lighting device is lowered. ..

Japanese Unexamined Patent Publication No. 2016-58266

An object to be solved by the present invention is to provide a lighting device having high light extraction efficiency.

The illuminating device of the embodiment includes an instrument body having an opening continuously formed in the longitudinal direction and a recess formed inside the opening. Further, a tubular cover member including a non-transmissive portion housed in a recess so as to cover the opening and a translucent portion formed outside the opening and having a higher transmittance than the non-transmissive portion. A light source unit including a light emitting element, having a light source module housed inside a cover member so that light emitted from the light emitting element can be taken out from a translucent part, and attached to an instrument body so as to cover the opening. To be equipped with.

According to the embodiment, it can be expected to provide a lighting device having high light extraction efficiency.

It is a perspective view which shows the lighting apparatus of one Embodiment. It is a perspective view which shows the fixture main body of the lighting apparatus of one Embodiment. It is sectional drawing which shows the fixture main body of the lighting apparatus of one Embodiment. It is a perspective view which shows the light source unit of the lighting apparatus of one Embodiment. It is sectional drawing which shows the light source unit of the lighting apparatus of one Embodiment. It is a perspective view which shows the structure of the end part of the light source unit of the lighting apparatus of one Embodiment. It is sectional drawing which shows the lighting apparatus of one Embodiment. It is sectional drawing which shows the positional relationship of the non-transmissive part and the translucent part of the cover of the lighting apparatus of one Embodiment. It is sectional drawing which shows the lighting apparatus of the 1st modification. It is sectional drawing which shows the lighting apparatus of the 2nd modification.

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

FIG. 1 shows the lighting device 10. The lighting device 10 is a ceiling-mounted lighting device. Further, the lighting device 10 is an outdoor lighting device having a waterproof structure. In the following, the lighting device 10 will be described as being installed on an installation surface such as a ceiling surface, with the front side in the light irradiation direction as the lower side and the back side opposite to the light irradiation direction as the upper side.

The lighting device 10 includes an instrument main body 11 installed on the installation surface, and a light source unit 12 detachably attached to the lower side of the instrument main body 11. The lighting device 10 is formed in a long length together with the fixture main body 11 and the light source unit 12.

The instrument main body 11 will be described with reference to FIGS. 2 and 3. The instrument main body 11 includes a long main body portion 15, end plates 16 provided at both ends of the main body portion 15 in the longitudinal direction, and an opening 17 provided between the main body portion 15 and the end plate 16 that opens downward. have. The opening 17 is continuously formed along the longitudinal direction of the long main body 15.

The main body portion 15 has a top plate portion 18 and side plate portions 19 provided on both sides of the top plate 18 intersecting in the longitudinal direction, and has a substantially U-shaped (concave shape) cross section that is opened downward by the opening 17. Is formed in. Therefore, a recess is formed inside the instrument main body 11 from the opening 17. The top plate portion 18 is provided with a mounting hole (not shown) for mounting on the installation surface, a wiring hole (not shown) for drawing in the power cable, and the like.

The main body portion 15 has a reflective surface portion 20 bent diagonally downward from the lower side of the side plate portion 19 toward the inside of the opening 17, and upward from the tip end side of the reflective surface portion 20 toward the inner surface side of the side plate portion 19. It has a folded-back portion 21 that is folded back. The point where the reflective surface portion 20 and the folded-back portion 21 intersect is the tip portion 27. The tip portion 27 is also a downward protruding portion that connects the reflective surface portion 20 and the folded-back portion 21 with a curved surface and protrudes to the lowermost side of the instrument main body 11.

The angle A, which is the bending angle of the reflecting surface portion 20 with respect to the side plate portion 19, is smaller than 90 °, and the angle B formed by the side plate portion 19 and the inner surface side of the reflecting surface portion 20 is larger than 90 °. That is, the angle A is formed to be an acute angle, and the angle B is formed to be an obtuse angle. The angle A corresponds to the angle formed by the virtual surface on which the side plate portion 19 is virtually extended downward and the surface on the outer surface side of the reflective surface portion 20. Then, the sum of the angle A and the angle B is 180 degrees. In the present embodiment, the angle B is formed to be about 110 degrees, but there is an angle variation of about ± 5 degrees.

The surface of the reflective surface portion 20 on the outer surface side is provided so as to face diagonally outward, which is downward and opposite to the opening 17 side. Further, the angle C, which is the bending angle of the folded portion 21 with respect to the reflecting surface portion 20, is larger than 90 °, and the angle D formed by the reflecting surface portion 20 and the inner surface side of the folded portion 21 is smaller than 90 °. That is, the angle C is formed to be an obtuse angle, and the angle D is formed to be an acute angle. The angle C corresponds to the angle formed by the virtual surface virtually extending diagonally downward of the reflecting surface portion 20 and the outer surface side of the folded-back portion 21. Then, the sum of the angle C and the angle D is 180 degrees. In the present embodiment, the angle D is formed to be about 45 degrees, but there is an angle variation of about ± 5 degrees.

On both ends of the main body 15, notches 22 into which a part of the light source unit 12 enters are provided from both ends of the reflecting surface portion 20 and the folded-back portion 21 toward both ends of the main body 15.

The end plate 16 has an end plate portion 23 that covers the end surface of the main body portion 15, and an attachment portion 24 for attaching the light source unit 12. The end plate portion 23 is attached to the end portion of the main body portion 15. The mounting portion 24 is integrally formed with the end plate portion 23, is bent from the lower side of the end plate portion 23 toward the main body portion 15, and is arranged on the end side of the opening 17. The mounting portion 24 is provided with a mounting hole 25 for screwing the light source unit 12 and a hooking portion 26 for temporarily suspending the light source unit 12.

Next, the light source unit 12 will be described with reference to FIGS. 4, 5, and 6. The light source unit 12 has a waterproof structure composed of the light source unit 12 alone. The light source unit 12 has an insertion region 12a in which the upper side, which is one side intersecting in the longitudinal direction, is inserted into the opening 17 of the fixture body, and a protruding region 12b, in which the lower side, which is the other side, is arranged outside the fixture body 11. And consists of. Further, the light source unit 12 includes a tubular cover 30, a chassis 31 which is a support member inserted and arranged in the cover 30, connecting members 32 attached to both ends of the chassis 31, a light source module 33 attached to the chassis 31 and the like. It includes a power supply unit 34, packings 35 attached to both ends of the cover, a cap 36, and the like.

The cover 30 is long and is formed in a tubular shape having the same shape in the longitudinal direction. The cover 30 is provided with a non-transmissive portion 30a, which is a non-transmissive portion that does not easily transmit light, on the upper side corresponding to the insertion region 12a, and is a transmissive portion that easily transmits light on the lower side corresponding to the protruding region 12b. A translucent portion 30b is provided.

The non-transmissive portion 30a is made of a material having a low transmittance and difficult to transmit light, or a material having a transmittance of 0 and not transmitting light. In other words, the non-transmissive portion 30a is made of a material having high reflectance and absorption. The non-transmissive portion 30a of the present embodiment is made of a resin material having low transmittance and high reflectance. The non-transmissive portion 30a includes a top surface portion 40, a side surface portion 41 protruding downward from both sides of the top surface portion 40, and a bent portion 42 protruding inward of the cover 30 between the side surface portion 41 and the translucent portion 30b. Have. The bent portion 42 is bent from both sides of the translucent portion 30b on the back surface side of the translucent portion 30b and abuts on both sides of the chassis 31. The bent portion 42 includes an upper step portion 43 projecting from the lower side of the side surface portion 41 to the inner side of the cover 30, a lower step portion 44 protruding from the translucent portion 30b to the inner side of the cover 30, and these upper step portions 43. An inner protruding surface portion 45 projecting inward of the cover 30 is provided between the lower step portions 44. By the bent portion 42, recesses 46 are formed on both sides of the cover 30 along the longitudinal direction. Then, the chassis 31 and the power supply unit 34 are arranged inside the non-transmissive unit 30a. A partially bent portion 42 of the chassis 31 arranged inside the non-transmissive portion 30a is brought into contact with the chassis 31.

The light transmitting portion 30b is made of a material having high transmittance and easily transmitting light. The translucent portion 30b of the present embodiment is made of a resin material having a high transmittance. The light transmitting portion 30b is formed in a convex curved shape whose center protrudes downward, and both sides are continuous with the lower step portion 44 of the bent portion 42. The width of the translucent portion 30b in the direction intersecting the longitudinal direction is wider than the width of the non-transmissive portion 30a in the direction intersecting the longitudinal direction. The light source module 33 is arranged inside the light transmitting portion 30b.

The cover 30 may be integrally formed by two-color molding of the non-transmissive portion 30a and the translucent portion 30b. That is, the cover 30 is integrally formed by extrusion molding in which the molten resin material of the non-transmissive portion 30a and the molten resin material of the translucent portion 30b are extruded and molded.

The boundary between the non-transmissive portion 30a and the translucent portion 30b is the lower step portion 44 of the non-transmissive portion 30a and the curved portion of the translucent portion 30b continuous to the end side of the lower step portion 44. It is provided between. Then, the instrument main body 11 is placed in a portion at the boundary between the non-transmissive portion 30a and the translucent portion 30b, or a portion slightly inserted from the boundary portion between the non-transmissive portion 30a and the translucent portion 30b toward the non-transmissive portion 30a. The tip side (tip portion 27) of the reflective surface portion 20 of the above comes into contact with each other.

The chassis 31 is made of metal and is formed to be long. The chassis 31 is formed in a substantially U-shaped cross section that opens upward. The chassis 31 is provided via a mounting surface portion 50, side surface portions 51 that are bent upward from both sides of the mounting surface portion 50, and bent portions 52 that are bent inward from the upper side of these side surface portions 51. It has a folded-back portion 53. The light source module 33 is mounted on the front surface side of the mounting surface portion 50.

The side surface portions 51 are formed from the side surface lower portions 51a that are bent upward from both sides of the mounting surface portion 50, the inclined surface portions 51b that are expanded and inclined upward so as to be separated from each other from the side surface lower portions 51a on both sides, and the inclined surface portions 51b on both sides. It has an upper side portion 51c that is bent upward. The power supply unit 34 is arranged between the side surface portions 51 on both sides. The inclined surface portion 51b is inclined along the outer shape of the power supply portion 34, and may come into contact with the power supply portion 34.

The folded-back portion 53 faces the inner side surface of the side surface portion 51 at a predetermined interval. The folded-back portion 53 faces the upper side surface portion 51c on the upper side of the inclined surface portion 51b of the side surface portion 51.

The connecting members 32 arranged on both end sides of the chassis are made of metal, cover the end faces of the chassis 31, and are attached to the ends of the chassis 31. As the mounting structure of the connecting member 32 to the end portion of the chassis 31, any of locking by a claw structure, screwing, and the like may be used. The connecting member 32 is formed in a shape and size that can be inserted inside the cover 30. The connecting member 32 is provided with a plurality of mounting holes 60 for screwing the cap 36 and a wiring hole 61 through which a lead-out cable connected to the power supply unit 34 is inserted.

The light source module 33 includes a long substrate 70 and a plurality of light emitting elements 71 mounted on the substrate 70 along the longitudinal direction. As the light emitting element 71, either an LED or an organic EL may be used. The light source module 33 is mounted on the front side of the mounting surface portion 50 of the chassis 31, and is electrically connected to the output side of the power supply unit 34 mounted on the same chassis 31 by a wiring connection (not shown).

The power supply unit 34 includes a long power supply case 73 and a power supply circuit (not shown) arranged in the power supply case 73. The power supply case 73 is formed in a substantially trapezoidal cross section having inclined surfaces 73b at both corners of the front surface portion 73a. The electric circuit converts an external power source such as an AC power source supplied from the outside into a predetermined store power source such as a DC power source and supplies it to the light source module 33 to light the light emitting element 71.

The power supply unit 34 is attached to the chassis 31 by the attachment member 74. The mounting member 74 has a top surface portion 75 and side surface portions 76 provided on both sides of the top surface portion 75, and is formed in a substantially U-shaped cross section that opens downward. The power supply unit 34 is attached to the lower surface side of the top surface portion 75 by screwing or the like, and the side surface portions 76 on both sides are attached to the side surface portions 51 (side surface upper portion 51c) on both sides of the chassis 31. As the mounting structure of the mounting member 74 to the chassis 31, any of locking by a claw structure, screwing, and the like may be used. In a state where the mounting member 74 is attached to the chassis 31, the power supply unit 34 is arranged between the side surface portions 51 on both sides along the longitudinal direction of the chassis 31, and the inclined surface 73b of the power supply unit 34 (power supply case 73) is the chassis. It comes into contact with or faces the inclined surface portion 51b of 31.

A plurality of spherical projecting portions 77 are projected from the top surface portion 75 of the mounting member 74. Then, in a state where the mounting member 74 and the like are inserted and arranged in the cover 30 together with the chassis 31, the protruding portion 77 of the mounting member 74 is brought into contact with the top surface portion 40 of the cover 30, and the inclined surface portion 51b of the chassis 31 is in contact with the cover 30. The chassis 31 side and the cover 30 side are positioned with each other by being brought into contact with the bent portion 42 of the above.

Further, the packing 35 is integrally formed of, for example, silicone rubber. The packing 35 is formed in a shape similar to the shape of the end portion of the cover 30. An annular insertion portion 80 that is inserted into the inside of the cover 30 and closely adheres to the peripheral portion of the packing 35, and a flange portion 81 that contacts and adheres to the end portion of the cover 30 are formed on the end portion side of the insertion portion 80. Has been done. A partition wall 82 is formed inside the packing 35. A plurality of screw insertion portions 83 are formed in the partition wall portion 82, and a wiring insertion portion 84 is formed. The plurality of screw insertion portions 83 and the wiring insertion portion 84 are formed corresponding to the respective positions of the plurality of mounting holes 60 and the wiring holes 61 of the connecting member 32.

Further, the cap 36 is made of, for example, a resin material. The cap 36 has a cap portion 90 attached to the outer periphery of the end portion of the cover 30 via the packing 35, and a cap cover portion 91 provided on the end portion side of the cap portion 90.

The cap portion 90 is formed in a shape similar to the shape of the end portion of the cover 30. That is, the upper side of the cap portion 90 is formed in a shape corresponding to the non-transmissive portion 30a on the upper side of the cover 30, and the lower side is formed in a shape corresponding to the translucent portion 30b on the lower side of the cover 30. Recesses 92 corresponding to the recesses 46 on both sides of the cover 30 are formed on both sides between the side and the lower side. A packing 35 is interposed between the cap portion 90 and the end portion of the cover 30, and the end opening of the cover 30 is sealed by the packing 35.

The cap portion 90 is provided with a screw insertion hole and a wiring hole 95 (not shown) corresponding to the positions of the plurality of screw insertion portions 83 and the wiring insertion portion 84 of the packing 35.

The cap portion 90 is a stepped portion that protrudes from the outer circumference of the cover 30 because it fits on the outer circumference of the end portion of the cover 30. Due to this step portion, the distance between both sides of the cap portion 90 (cap 36) is formed wider than the distance between the lower portions of the side plate portions 19 on both sides of the instrument main body 11. When the light source unit 12 is attached to the instrument body 11, the stepped portions on the lower edge side of the recesses 92 on both sides of the cap portion 90 are configured to enter the notch 22 of the instrument body 11.

The cap cover portion 91 projects from the end side of the cap portion 90 in the protruding region 12b, and is formed in a shape continuous with the surface shape of the cap portion 90. A recess 96 that opens upward so as to face the instrument main body 11 is formed inside the cap cover portion 91. An operation hole 97 is provided on the lower surface of the cap cover portion 91. A bush 98 that closes the operation hole 97 is detachably attached to the operation hole 97. A drain hole 99 is formed on the lower side of the end surface of the cap cover portion 91. The recess 96 is used as a space for arranging mounting parts and the like.

Further, a screw 115, which is a mounting component for mounting the light source unit, is rotatably attached to the cap 36. The screw 115 can be rotated by a tool inserted through the operation hole 97 of the cap cover portion 91. The screw 115 is screwed into the mounting hole 25 of the mounting portion 24 of the fixture body 11 to fix the light source unit 12 to the fixture body 11.

Further, a hanging metal fitting 120, which is an attachment component for temporarily suspending the light source unit 12 to the instrument main body 11, is attached to the cap 36. The hanging metal fitting 120 is formed of a metal wire rod. Bent portions 121 bent in an arc shape are provided at both ends of the hanging metal fitting 120. The bent portion 121 of the hanging metal fitting 120 is configured to be detachably hooked on the hooking portion 26 of the mounting portion 24 of the instrument main body 11.

Next, the assembly of the lighting device 10 will be described. First, in order to assemble the light source unit 12, the chassis 31 to which the light source module 33, the power supply unit 34, and the connecting member 32 are attached is inserted into the cover 30 (inside the non-transmissive unit 30a). At this time, the protruding portion 77 of the mounting member 74 that attaches the power supply portion 34 to the chassis 31 is brought into contact with the top surface portion 40 of the cover 30, and the inclined surface portion 51b of the chassis 31 is brought into contact with the bent portion 42 of the cover 30. The chassis 31 side and the cover 30 side are positioned with each other.

Next, the insertion portion 80 of the packing 35 is inserted into the end opening of the cover 30. The cap portion 90 of the cap 36 is fitted to the outer periphery of the end portion of the cover 30 via the packing 35. The packing 35 is screwed to the connecting member 32 through the cap portion 90 and the packing 35, the packing 35 is sandwiched between the cover 30 and the cap portion 90 and tightened and fixed, and the end opening of the cover 30 is sealed with the packing 35. The lead-out cable from the power supply unit 34 is inserted into the wiring insertion portion 84 of the packing 35 when the connecting member 32, the packing 35, and the cap 36 are assembled, and is pulled out from the cap portion 90 of the cap 36. In this way, the assembly of the light source unit 12 is completed in a state where the openings at both ends of the cover 30 are sealed by the packing 35 and the waterproof structure is secured.

The order in which the light source unit 12 is assembled is not limited to such an order. For example, after the chassis 31 is inserted into the cover 30, the connecting member 32 may be connected to the end of the chassis 31. Good. Further, the connecting member 32, the packing 35 and the cap 36 are attached in advance to one end side of the chassis 31, the other end side of the chassis 31 is inserted into the cover 30, and the packing 35 on one end side is brought into close contact with one end side of the cover 30. At the same time, the connecting member 32, the packing 35, and the cap 36 may be attached to the other end side of the chassis 31.

Next, in order to install the lighting device 10, the fixture main body 11 is installed on an installation surface such as a ceiling surface. At this time, the power cable is pulled into the instrument main body 11.

The hanging metal fittings 120 attached to the caps 36 at both ends of the light source unit 12 are hooked on the hooking portions 26 provided at the attachment portions 24 at both ends of the fixture main body 11, and the light source unit 12 is temporarily suspended below the fixture main body 11. ..

Through the gap between the temporarily suspended light source unit 12 and the instrument main body 11, the drawer cable drawn from the light source unit 12 is electrically connected to the power cable drawn into the instrument main body 11. A terminal block arranged in the instrument main body 11 may be used for electrical connection of these cables.

The insertion region 12a on the upper side of the light source unit 12 is inserted into the opening 17 of the instrument body 11, a tool is inserted through the operation hole 97 of the cap 36 of the light source unit 12, and the screw 115 is screwed into the attachment portion 24 of the instrument body 11. Then, the light source unit 12 is attached to the instrument main body 11. In this state, the light source unit 12 is attached so as to cover the opening 17 of the instrument body 11. Then, the bush 98 is fitted into the operation hole 97, and the installation is completed.

FIG. 7 shows a cross-sectional view of the lighting device 10 in a state where the light source unit 12 is attached to the instrument main body 11. FIG. 7 shows a cross section of the lighting device 10 along the lateral direction, and the cross section is near the end of the light source unit 12 of the lighting device 10 on the side where the power supply unit 34 is arranged.

In FIG. 7, when the light source unit 12 is attached to the fixture body 11, the tip portion 27 of the fixture body 11 which is the most downwardly protruding portion of the fixture body 11 and the lower stage portion of the cover 30 of the light source unit 12 are shown. 44 is in contact with. However, the fixture main body 11 and the cover 30 of the light source unit 12 may not be in contact with each other and may be attached in a state where a space exists between them.

It is desirable that the instrument body 11 is attached to the light source unit 12 so that the boundary between the non-transmissive portion 30a and the translucent portion 30b of the cover 30 is located near the tip portion 27 of the instrument body 11. FIG. 8 shows the positional relationship between the non-transmissive portion 30a and the translucent portion 30b in the present embodiment. In FIG. 8, the black-painted portion of the cover 30 is the non-transmissive portion 30a, and the white-painted portion of the cover 30 is the translucent portion 30b. The non-transmissive portion 30a is arranged so as to be housed in the opening 17 of the instrument main body 11 and the recess in the instrument main body 11 inside the opening 17. Further, the translucent portion 30b is arranged so as to be located outside the instrument main body 11 from the opening 17 of the instrument main body 11.

The tip 27 of the instrument body 11 and the boundary between the non-transmissive portion 30a and the translucent portion 30b of the cover 30 do not have to completely coincide with each other, and this boundary is more than the tip 27 of the instrument body 11. It may be located in the outward direction of.

The cover 30 has a non-transmissive portion 30a and a translucent portion 30b, and is located near the opening 17 or in a recess inside the instrument main body 11 so that the non-transmissive portion 30a covers the opening of the instrument main body 11. The translucent portion 30b is arranged outside the opening 17 of the instrument main body 11 and the instrument main body 11. Therefore, a part of the light of the light emitting element 71 is reflected by the inner surface of the translucent portion 30b of the cover 30, and is reflected or absorbed by the non-transmissive portion 30a even in the direction of the non-transmissive portion 30a. Light leakage from the non-transmissive portion 30a into the instrument main body 11 is suppressed. Further, at this time, if the non-transmissive portion 30a is made of a material having a high absorption rate, light is absorbed on the inner surface of the non-transmissive portion 30a, so that unintended light reflection does not occur and the lighting device 10 is arranged. Light control becomes easier. The non-transmissive portion 30a may be arranged so as to completely close the opening of the instrument main body 11.

FIG. 7 shows an example of the movement of light toward the non-transmissive portion 30b in the locus X. The locus X is irradiated from the light emitting element 71, reflected by the translucent portion 30b of the cover 30, and incident on the non-transmissive portion 30a of the lower stage portion 44 of the cover 30. Then, the light is absorbed or reflected by the non-transmissive portion 30a. At this time, if the translucent portion 30b is present on the opening 17 side of the tip portion 27, the light may pass through the translucent portion 30b and enter the inside of the instrument main body 11. When light enters the inside of the fixture body 11, the light extraction efficiency is lowered, and the light is unintentionally taken out from the holes arranged in the fixture body 11, causing the fixture body 11 to shine unnaturally. May occur. Therefore, when the light source unit 12 is attached to the fixture body 11, the opening 17 side of the cover 30 is configured to be a non-transmissive portion 30a from the position of the tip 27, and light is emitted to the inside of the fixture body 11. Is suppressed from entering.

Further, FIG. 7 shows an example of the movement of light toward the reflecting surface portion 20 on the locus Y. The locus Y is irradiated from the light emitting element 71, reflected by the translucent portion 30b of the cover 30, and is projected onto the lower step portion 44 of the cover 30 or the end portion of the lower step portion 44 opposite to the inner protruding surface portion 45. It is incident on a continuous curved portion. Since the incident portion of the light is composed of the translucent portion 30b, the light is transmitted and incident on the reflecting surface portion 20. Since the reflecting surface portion 20 is formed so that the angle B is about 110 degrees in the present embodiment, the reflecting surface portion 20 is formed in a state of being inclined by 20 degrees with respect to the horizontal plane. Therefore, the light incident on the reflecting surface portion 20 can be efficiently taken out to the outside of the lighting device 10.

Since the folded-back portion 21 is provided on the tip end side of the reflective surface portion 20 of the instrument main body 11, when the instrument main body 11 is handled, for example, a worker's finger or the like is placed on the tip end side of the folded-back portion 21 which is a cut portion of the metal plate. It can be difficult to touch. Since the cut portion of the metal plate may be sharpened, the folded-back portion 21 makes it possible to prevent the operator's finger from unintentionally making a cut, such as when installing the lighting device 10. Safety can be improved.

Further, the folded-back portion 21 is preferably formed so that the angle D is an acute angle, and it is still more preferable that the folded-back portion 21 is formed at an angle larger than 0 degrees and 70 degrees or less. When the angle D is 0 degrees, the opening 17 may be deformed due to insufficient strength to hold the opening 17 of the instrument main body 11, and it may be difficult to attach the light source unit 12. Further, when the angle D is an angle of 70 degrees or more, the folded-back portion 21 projects in the internal direction of the instrument main body 11 from the tip portion 27 which is the edge of the opening 17. In that case, when the light source unit 12 is attached from below, the folded-back portion 21 may come into contact with the light source unit 12, making it difficult to attach the light source unit 12. By forming the folded-back portion 21 as in the present embodiment, it is possible to improve the workability when mounting the light source unit 12.

Then, when the light source unit 12 is attached to the fixture body 11, the cap portion 90 of the cap 36 fits into the outer periphery of the end portion of the cover 30 of the light source unit 12, and there is a step so that the cap portion 90 protrudes from the surface of the cover 30. By inserting the stepped portion of the cap portion 90 into the notch 22 provided in the fixture main body 11, the light source unit 12 approaches the fixture main body 11 and the gap between the light source unit 12 and the fixture main body 11 is reduced. .. As a result, it is possible to reduce the amount of light entering the inside of the instrument body 11.

When the external power supply is supplied to the power supply unit 34, the lighting power source converted from the external power supply by the power supply unit 34 is supplied to the light source module 33, the light emitting element 71 of the light source module 33 is lit, and the light emitted by the light emitting element 71 is emitted. Is transmitted through the cover 30 and emitted to the outside.

Further, since the chassis 31 and the power supply unit 34 are arranged in the limited space in the cover 30, the wiring space for wiring the light source module 33 and the power supply unit 34 is also limited, but the chassis 31 and the power supply unit 34 are limited. The space provided between the and can be effectively used as a wiring space.

Moreover, since the light source module 33 is attached to the front side of the chassis 31, the light source module 33 can be easily arranged inside the translucent portion 30b of the cover 30, and the light of the light emitting element 71 of the light source module 33 can be emitted. The light that spreads inside the translucent portion 30b of the cover 30 and is transmitted to the outside through the translucent portion 30b of the cover 30 increases, so that the light extraction efficiency can be improved.

In the lighting device 10 of the present embodiment, since the hanging metal fitting 120, which is a metal wire, is used to temporarily suspend the light source unit 12 on the fixture main body 11, it may deteriorate and break like a string, for example. There is little risk of burning, and the light source unit 12 can be reliably temporarily suspended from the fixture body 11. The hanging metal fitting 120 is not limited to a metal wire rod, and a metal rod or plate may be used.

Further, as the first modification, the non-transmissive portion 30a and the translucent portion 30b of the cover portion 30 may be arranged as shown in FIG. In the modified example of FIG. 9, the black-painted portion of the cover 30 is the non-transmissive portion 30a, and the white-painted portion of the cover 30 is the translucent portion 30b. And the non-transmissive part 30a
It is provided from the vicinity of the tip portion 27 of the instrument main body 11 on one side in the lateral direction of the cover 30 to the portion where the cover 30 on one side in the lateral direction of the cover 30 and the inclined surface portion 51b of the chassis 31 come into contact with each other. ing. The non-transmissive portion 30a is arranged so that light does not enter the inside of the instrument main body 11, but with the configuration as shown in FIG. 9, for example, from the gap between the cover 30 and the chassis 31 to the instrument main body 11 side. The light that has entered is stopped at the portion where the cover 30 and the inclined surface portion 51b of the chassis 31 come into contact with each other. Therefore, it is not necessary to provide the non-transmissive portion 30a in the inner direction of the instrument main body 11 from that portion. Since the non-transmissive portion 30a is made of a material having high reflectance and absorptivity, the specific gravity tends to be larger than that of the translucent portion 30b, for example, by using a metal material or increasing the filling amount of resin. It is in. Therefore, the weight of the cover 30 (light source unit 12) can be reduced by minimizing the area of the non-transmissive portion 30a. In the first modification, the tubular cover 30 has a configuration in which two lines of the non-transmissive portion 30a and two lines of the translucent portion 30b are alternately arranged in the circumferential direction.

Further, as a second modification, the shape of the cover portion 30 may be as shown in FIG. The cover portion 30 of the second modified example has a structure in which the top surface portion 40 and the portion connecting the top surface portion 40 and the side surface portion 41 are removed. In the second modification, the waterproof performance needs to be ensured together with the fixture main body 11, but the weight of the cover 30 (light source unit 12) can be reduced. Further, the position of the non-transmissive portion 30a in the second modification may be provided so as to be located inside the opening 17 of the instrument main body 11 or the instrument main body 11 as shown in FIG. However, as in the first modification, the cover 30 on one side of the cover 30 and the chassis 31 are tilted from the vicinity of the tip portion 27 of the instrument body 11 on one side in the lateral direction of the cover 30. It may be provided over a portion where the surface portion 51b comes into contact with the surface portion 51b.

Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

10 Lighting device 11 Instrument body 12 Light source unit 15 Main body 20 Reflective surface 21 Folded part 30 Cover 30a Non-transmissive part 30b Translucent part

Claims (3)

With an instrument body having an opening formed continuously in the longitudinal direction and a recess formed inside the opening;
A tubular cover including a non-transmissive portion housed in the recess so as to cover the opening, and a translucent portion formed outside the opening and having a higher transmittance than the non-transmissive portion. Members and
A light source module including a light emitting element and housed inside the cover member so that light emitted from the light emitting element from the light transmitting portion is taken out to the outside.
With a light source unit attached to the fixture body so as to cover the opening;
Lighting device equipped with. The lighting device according to claim 1, wherein a power supply unit for lighting the light emitting element is provided in a region surrounded by the non-transmissive portion of the cover member. The claim is characterized in that the non-transmissive portion and the translucent portion are integrally and continuously formed, and the boundary between the non-transmissive portion and the translucent portion is located outside the opening. Item 1. The lighting device according to item 1 or 2.

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