JP2023148726A - Lighting device - Google Patents

Abstract

To provide a lighting device which enables reliable protection of a cover.SOLUTION: A lighting device includes a cylindrical cover 30 having translucency. A support part 31 is inserted into the cover 30. A light source disposed within the cover 30 is supported by the support part 31. A cap 36 disposed at an end of the cover 30 is attached to the support part 31. A packing 35 is disposed between the cap 36 and the cover 30. A protective layer 47 is formed on an outer peripheral surface 30c of the cover 30 and is also formed on at least a part of a surface which is continuous with the outer peripheral surface 30c of the cover 30 and contacts with the packing 35.SELECTED DRAWING: Figure 5

Description

Embodiments of the present invention relate to lighting devices.

Conventionally, a translucent cylindrical cover was used, a support part with a light source attached was inserted into the cover, and caps placed at both ends of the cover with packing interposed were attached to the support part. There is a lighting device.

When this lighting device is used in an oil mist environment where oil is splashed, such as in a factory, the corrosive and deteriorating components contained in the oil will adhere to the cover, causing the cover to deteriorate easily, making it difficult to protect the cover. It has been demanded.

Japanese Patent Application Publication No. 2015-58266

The problem to be solved by the present invention is to provide a lighting device that can reliably protect the cover.

The lighting device of the embodiment includes a cylindrical cover having translucency. Insert the support part into the cover. A light source disposed within the cover is supported by the support section. Attach the cap placed on the end of the cover to the support. A packing is interposed between the cap and the cover. A protective layer is formed on the outer circumferential surface of the cover and is formed on at least a portion of a surface that continuously contacts the packing from the outer circumferential surface of the cover.

According to the lighting device of the embodiment, the cover can be reliably protected.

FIG. 1 is a perspective view of a lighting device showing one embodiment. FIG. 3 is a perspective view of the lighting device in a separated state from the fixture main body and the light source unit. It is a sectional view of the lighting device same as the above. It is an exploded perspective view of the light source unit same as the above. It is an enlarged sectional view of the light source unit same as the above.

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

As shown in FIGS. 1 to 3, the lighting device 10 is a ceiling-mounted lighting device. Furthermore, the lighting device 10 is an outdoor lighting device with a waterproof structure. Hereinafter, the lighting device 10 will be described as being installed on an installation surface such as a ceiling surface, and the front side in the light irradiation direction is referred to as the lower side, and the back side opposite to the light irradiation direction is referred to as the upper side.

The lighting device 10 includes a fixture main body 11 installed on an installation surface, and a light source unit 12 detachably attached to the lower side of the fixture main body 11. In the lighting device 10, both the fixture body 11 and the light source unit 12 are formed to be elongated.

The instrument main body 11 includes a long main body 15, end plates 16 provided at both ends of the main body 15 in the longitudinal direction, and a downward opening provided between the main body 15 and the end plates 16. It has an opening 17.

The main body part 15 has a top plate part 18 and side plate parts 19 provided on both sides of the top plate part 18 in the transverse direction intersecting the longitudinal direction, and is formed in a substantially U-shaped cross section opening downward. There is. The top plate portion 18 is provided with a mounting hole (not shown) for mounting on an installation surface, a wiring hole (not shown) for leading in a power cable, and the like.

The main body portion 15 includes 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 a reflective surface portion 20 bent diagonally downward from the lower side of the side plate portion 19 toward the inner surface side of the side plate portion 19. It has a folded part 21 which is folded back. The bending angle of the reflective surface portion 20 with respect to the side plate portion 19 is smaller than 90°, and the angle formed between the side plate portion 19 and the inner surface of the reflective surface portion 20 is larger than 90°. The outer surface of the reflective surface section 20 is provided downward and diagonally outward, which is opposite to the opening 17 side. Further, the bending angle of the folded portion 21 with respect to the reflective surface portion 20 is larger than 90°, and the angle formed between the reflective surface portion 20 and the inner surface of the folded portion 21 is smaller than 90°.

On both end sides of the main body part 15, cutout parts 22 into which a part of the light source unit 12 enters are provided at positions spaced a predetermined distance toward the center from the end sides of the reflective surface part 20 and the folded part 21.

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

Next, as shown in FIGS. 1 to 4, the light source unit 12 has a waterproof structure. The light source unit 12 has an insertion area 12 a that is inserted into the opening 17 of the instrument body 11 at its upper side, which is one side in the vertical direction intersecting the longitudinal direction, and a protrusion that is disposed outside the instrument body 11 at its lower side, which is the other side. It is configured as a region 12b.

The light source unit 12 includes a cylindrical cover 30 , a support section 31 inserted through the cover 30 , a light source 33 and a power supply section 34 attached to the support section 31 , and a support section 31 disposed at both ends of the cover 30 . It includes a packing 35, a cap 36, etc. that can be attached. The support portion 31 includes a chassis 32a and connecting members 32b attached to both ends of the chassis 32a.

The cover 30 is elongated and formed into a cylindrical shape having the same shape in the longitudinal direction. The cover 30 is provided with an opaque section 30a, which is an opaque section through which light does not pass, on an upper side corresponding to the insertion region 12a, and a translucent section 30a, which is a transmissive section through which light passes, on a lower side corresponding to the protrusion region 12b. A section 30b is provided.

The opaque portion 30a is made of a resin material through which light does not pass. The non-transparent portion 30a includes a top surface portion 40, a side surface portion 41 that projects downward from both sides of the top surface portion 40 in the transverse direction, and a portion that projects toward the inside of the cover 30 between the side surface portion 41 and the transparent portion 30b. It has a bent portion 42 that The bent portion 42 is bent from both sides of the transparent portion 30b on the back side of the transparent portion 30b, and is brought into contact with both sides of the chassis 32a. The bent portion 42 includes an upper step portion 43 that projects from the lower side of the side surface portion 41 to the inside of the cover 30, a lower step portion 44 that projects from the transparent portion 30b to the inside of the cover 30, and a lower portion of the upper step portion 43. An inner protruding surface portion 45 that protrudes inward of the cover 30 is provided between the side step portions 44 . The bent portions 42 form recessed portions 46 on both sides of the cover 30 along the longitudinal direction. The support section 31 and the power supply section 34 are arranged inside the opaque section 30a. The bent portion 42 is brought into contact with a part of the chassis 32a of the support portion 31 located inside the opaque portion 30a.

The light-transmitting portion 30b is made of a resin material that transmits light. The light-transmitting part 30b is formed in a convex curved shape with the center protruding downward, and both sides in the transverse direction are continuous with the lower step part 44 of the bending part 42. The width of the transparent portion 30b in the transverse direction is wider than the width of the non-transparent portion 30a in the transverse direction. A light source 33 is arranged inside the transparent section 30b.

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

Note that the boundary between the non-transparent part 30a and the transparent part 30b is on the end side of the direct part of the lower step part 44 of the non-transparent part 30a and on the end side of the direct part of the lower step part 44. It is set between the curved portion of the continuous light-transmitting portion 30b. The reflective surface portion of the instrument body 11 is placed at the boundary between the non-transparent portion 30a and the transparent portion 30b, or at a portion slightly inward from the boundary between the non-transparent portion 30a and the transparent portion 30b toward the non-transparent portion 30a. The tip side of 20 (the bent portion between the reflective surface portion 20 and the folded portion 21) is brought into contact.

A protective layer (coating layer) 47 is formed on the outer circumferential surface 30c of the cover 30 and a surface that continuously contacts the packing 35 from the outer circumferential surface 30c. In this embodiment, the surface of the cover 30 that contacts the packing 35 includes an outer circumferential surface 30c, an end surface 30d, and an end side of the inner circumferential surface 30e. Therefore, the protective layer 47 includes an outer circumferential surface protective layer 47c formed on the outer circumferential surface 30c of the cover 30, an end surface protective layer 47d formed on the end surface 30d, and an inner circumferential surface protective layer 47e formed on the inner circumferential surface 30e. It is equipped with It is sufficient that the protective layer 47 is formed continuously from at least the outer circumferential surface 30c to the end surface 30d of the cover 30, and more preferably, it is formed continuously to the inner circumferential surface 30e.

The protective layer 47 prevents corrosive components and deteriorating components contained in oil from adhering to the cover 30, and is made of, for example, a transparent material such as acrylic.

Further, the chassis 32a is made of metal and is elongated. The chassis 32a has a substantially U-shaped cross section that opens upward. The chassis 32a includes a mounting surface portion 50 and side surface portions 51 bent upward from both sides of the mounting surface portion 50 in the lateral direction. A light source 33 is attached to the front side of the mounting surface section 50.

The side surface portion 51 includes a lower side surface portion 51a that is bent upward from both sides of the mounting surface portion 50, a sloped surface portion 51b that is tilted upward to expand away from each other from the lower side surface portion 51a on both sides, and a sloped surface portion 51b that is bent upward from both sides of the side surface portion 51. It has a side upper part 51c that is bent upward. The power supply section 34 is arranged between the side surfaces 51 on both sides. The inclined surface part 51b is inclined along the outer shape of the power supply part 34, and may be separated from the power supply part 34 or may be in contact with the power supply part 34.

The mounting surface portion 50, the lower side surface portion 51a, and the like constitute a convex portion 52 that protrudes downward from between the side surface portions 51 on both sides. The convex portion 52 is arranged between the bent portions 42 on both sides of the cover 30 so as to protrude toward the transparent portion 30b side. There is a wiring space between the back side of the convex part 52 (mounting surface part 50), which is the back side of the mounting position where the light source 33 is attached, and the front side of the power supply part 34, which is arranged between the side parts 51 on both sides. A space portion 53 is also provided. The space 53 between the rear side of the convex portion 52 (attachment surface portion 50) and the power source portion 34 has a dimension that allows wiring of a cable or the like.

Further, the connecting member 32b is made of metal and is attached to the end of the chassis 32a so as to cover the end surface of the chassis 32a. The connection member 32b may be attached to the end of the chassis 32a by locking with a claw structure, screwing, or the like. The connecting member 32b has a shape and size that allows it to be inserted into the inside of the cover 30.

The connecting member 32b is provided with a plurality of mounting holes 60 for screwing the cap 36 and a wiring hole 61 through which a pull-out cable connected to the power supply section 34 is inserted. The mounting holes 60 are arranged at three positions that are not lined up in a straight line, and are arranged corresponding to the three apex positions of the triangle. Note that the attachment holes 60 are arranged at three or more positions that are not arranged in a straight line; for example, if there are four, they are arranged corresponding to each vertex position of the rectangle.

Further, the light source 33 is constituted by a light source module including a long substrate 70 and a plurality of light emitting elements 71 mounted on the substrate 70 along the longitudinal direction. The light emitting element 71 may be an LED, an organic EL, or the like. The light source 33 is attached to the front side of the mounting surface section 50 of the chassis 32a, and is electrically connected to the output side of the power supply section 34 attached to the same chassis 32a by connection wiring (not shown).

Further, the power supply unit 34 includes an elongated power supply case 73 and a power supply circuit (not shown) disposed within the power supply case 73. The power supply case 73 has a substantially trapezoidal cross section with inclined surfaces 73b at both corners of a front surface 73a. The power supply circuit converts external power such as AC power supplied from the outside into predetermined lighting power such as DC power and supplies it to the light source 33 to light the light emitting element 71.

The power supply circuit includes a power supply board and a plurality of power supply components mounted on the power supply board, with the solder side of the power supply board facing the rear surface 73c of the power supply case 73, and the component surface facing the front surface 73a of the power supply case 73. It is housed in the power supply case 73 as shown in FIG. Among the power supply components constituting the power supply circuit, switch elements for performing power conversion are heat generating components that generate heat at a higher temperature than other power supply components, and these heat generating components are heated to the side surface of the power supply case 73 via heat dissipation components. 73d. Note that the front surface 73a and side surface 73d of the power supply case 73 are also referred to as the front surface 73a and side surface 73d of the power supply section 34.

The power supply unit 34 is attached to the rear side of the chassis 32a by a mounting member 74. The mounting member 74 has a back surface portion 75 and side surface portions 76 provided on both sides of the back surface portion 75 in the lateral direction, and is formed in a substantially U-shaped cross section that opens downward. The power supply section 34 is attached to the lower surface side of the back section 75 by screws or the like, and the side surfaces on both sides are attached so that the side surface sections 76 on both sides and the side surface 73d of the power supply section 34 face each other with a predetermined gap between them. The power supply section 34 is arranged between the sections 76. The side surfaces 76 on both sides of the mounting member 74 are attached to the side surfaces 51 (upper side surfaces 51c) on both sides of the chassis 32a, and are also thermally connected. The mounting structure of the mounting member 74 to the chassis 32a may be a locking structure using a claw structure, a screw fastening, or the like. When the mounting member 74 is attached to the chassis 32a, the power supply section 34 is arranged between the side surfaces 51 on both sides along the longitudinal direction of the chassis 32a, and the inclined surface 73b of the power supply section 34 (power supply case 73) is attached to the chassis 32a. It contacts or faces the inclined surface portion 51b of 32a. Furthermore, the front part 73a of the power supply unit 34 is opposed to the rear side of the convex part 52 (mounting surface part 50), which is the rear side of the mounting position where the light source 33 of the chassis 32a is attached, with a space 53 interposed therebetween. be done.

A plurality of spherical protrusions 77 protrude from the back surface 75 of the mounting member 74 . Then, with the mounting member 74 and the like inserted into the cover 30 together with the chassis 32a, the protruding part 77 of the mounting member 74 comes into contact with the top surface part 40 of the cover 30, and the inclined surface part 51b of the chassis 32a is brought into contact with the cover 30. The chassis 32a side and the cover 30 side are positioned relative to each other.

Further, the packing 35 is integrally formed of fluororubber or the like having excellent oil resistance, fuel resistance, and chemical resistance. The packing 35 is formed in a shape similar to the end shape of the cover 30.

An annular cover fitting portion 80 into which an end portion of the cover 30 is fitted is formed around the packing 35 . As shown in FIG. 5, the cover fitting part 80 includes an insertion groove part 81 into which the end of the cover 30 is inserted, and an outer peripheral surface contact part 82 which contacts the outer peripheral surface 30c of the cover 30 inserted into the insertion groove part 81. , an end surface contact portion 83 that contacts the end surface 30d of the cover 30, and an inner peripheral surface contact portion 84 that contacts the inner peripheral surface 30e of the cover 30, and is formed to have a substantially U-shaped cross section. This cover fitting portion 80 is formed over the entire circumference of the packing 35. Note that the protective layer 47 formed on the inner circumferential surface 30e of the cover 30 is formed in a wider area than the inner circumferential surface contact portion 84.

A partition wall portion 85 is formed inside the cover fitting portion 80 . A plurality of screw insertion portions 86 and a wiring insertion portion 87 are formed in this partition wall portion 85 . The plurality of screw insertion portions 86 and wiring insertion portions 87 are formed corresponding to the respective positions of the plurality of attachment holes 60 and wiring holes 61 of the connecting member 32b.

Note that the cover fitting portion 80 of the packing 35 may be formed in a substantially L-shape without the outer circumferential surface contact portion 82 and include an end surface contact portion 83 and an inner circumferential surface contact portion 84.

Further, as shown in FIG. 4, 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 side of the cap portion 90.

The cap portion 90 is formed in a shape similar to the end shape of the cover 30. That is, the cap part 90 has an upper side formed in a shape corresponding to the non-transparent part 30a on the upper side of the cover 30, a lower side formed in a shape corresponding to the transparent part 30b on the lower side of the cover 30, and these upper parts. 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.

The cap portion 90 has a cap end surface portion 90a and an annular cap outer peripheral surface portion 90b that protrudes from the periphery of the cap end surface portion 90a and fits onto the outer circumference of the end portion of the cover 30. An annular fitting groove 93 into which the end of the cover 30 fits with the packing 35 interposed is formed inside the cap outer circumferential surface portion 90b. The groove interval between the inner circumferential surface side and the outer circumferential surface side of the fitting groove portion 93 is equal to the distance between the outer circumferential surface contacting portion 82 and the inner circumferential surface contacting portion 84 of the packing 35 disposed at the end of the cover 30. The dimensional relationship is narrower than the thickness between the two. When the end of the cover 30 is fitted into the fitting groove 93 with the packing 35 interposed therebetween, the packing 35 is compressed and the packing 35 is crimped onto the cover 30.

The cap end face portion 90a of the cap portion 90 is provided with screw insertion holes and wiring holes 95 (not shown) corresponding to the positions of the plurality of screw insertion portions 86 and wiring insertion portions 87 of the packing 35.

The cap portion 90 is a stepped portion that protrudes from the outer periphery of the cover 30 in order to fit into the outer periphery of the end portion of the cover 30 . Due to this stepped 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 main body 11, the stepped portions on the lower edge sides of the recesses 92 on both sides of the cap portion 90 are configured to fit into the notches 22 of the instrument main body 11.

The cap cover portion 91 protrudes 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 is formed inside the cap cover portion 91 and opens upward so as to face the instrument main body 11 . An operation hole 97 is provided on the lower surface of the cap cover portion 91 (see FIGS. 1 and 2). A bush 98 that closes the operation hole 97 is removably attached to the operation hole 97 (see FIGS. 1 and 2). A drain hole 99 is formed at the lower end of the cap cover portion 91 . Note that the recess 96 is used as a space for arranging attachment parts and the like.

Further, a mounting plate 110 is attached to the cap 36. The mounting plate 110 is made of, for example, a metal plate and has a substantially L-shaped cross section. The mounting plate 110 has a first mounting plate portion 111 disposed on the outer end surface side of the cap end surface portion 90a and a second mounting plate portion 112 disposed on the cap cover portion 91. A plurality of connecting screws 113 are inserted through the first attachment plate portion 111, and these screws 113 are screwed into the attachment hole 60 of the connecting member 32b through the screw insertion portion 86 of the packing 35. The screws 113 are arranged at three positions that are not lined up in a straight line, and for example, are arranged corresponding to the three apex positions of a triangle. Further, the second mounting plate portion 112 is arranged on a rib 114 provided within the recess 96 of the cap cover portion 91. A screw 115, which is an attachment part for attaching the light source unit, is rotatably attached to the second attachment plate portion 112. The screw 115 can be rotated by a tool inserted through the operation hole 97 of the cap cover part 91. The screw 115 is screwed into the mounting hole 25 of the mounting portion 24 of the instrument main body 11 to fix the light source unit 12 to the instrument main body 11.

Furthermore, a hanging fitting 120, which is an attachment part for temporarily hanging the light source unit 12 on the appliance body 11, is attached to the cap 36. The hanging fitting 120 is formed of a metal wire. Bent parts 121 bent into an arc shape are provided at both ends of the hanging fitting 120. One end of the hanging fixture 120 is connected to the second mounting plate portion 112 of the mounting plate 110, and the other end is configured to be removably hooked onto the hook portion 26 of the mounting portion 24 of the instrument body 11.

In the lighting device 10 configured as described above, in order to assemble the light source unit 12, the support section 31 to which the light source 33, power supply section 34, etc. are attached is inserted into the cover 30 (inside the opaque section 30a). . At this time, the protrusion 77 of the mounting member 74 that attaches the power supply section 34 to the chassis 32a of the support section 31 is brought into contact with the top surface section 40 of the cover 30, and the inclined surface section 51b of the chassis 32a of the support section 31 is brought into contact with the top surface section 40 of the cover 30. The supporting portion 31 side and the cover 30 side are positioned relative to each other.

The end of the cover 30 is inserted into the insertion groove 81 of the packing 35, and the packing 35 is attached to the end of the cover 30. The end of the cover 30 is inserted and fitted into the fitting groove 93 of the cap 36 via the packing 35. When the end of the cover 30 fits into the fitting groove 93 of the cap 36 via the packing 35, the packing 35 is compressed, and the outer circumferential surface contact portion 82, end surface contact portion 83, and inner circumferential surface contact portion 84 of the packing 35 are compressed. , are continuously and closely contacted with the outer circumferential surface 30c, end surface 30d, and inner circumferential surface 30e of the cover 30. That is, the outer circumferential surface contact portion 82, the end surface contact portion 83, and the inner circumferential surface contact portion 84 of the packing 35 are connected to the protective layer 47 that is continuously formed on the outer circumferential surface 30c, the end surface 30d, and the inner circumferential surface 30e of the cover 30. be contacted.

The mounting plate 110, the screws 115, and the hanging fittings 120 are assembled into the cap 36, and the plurality of screws 113 are screwed into the connecting member 32b through the mounting plate 110, the cap part 90, and the packing 35, and between the cover 30 and the cap part 90. Insert the packing 35 and tighten to fix. Note that, when assembling the connecting member 32b, the packing 35, and the cap 36, the lead-out cable from the power supply section 34 is inserted through the wiring insertion part 87 of the packing 35, and is drawn out from the cap part 90 of the cap 36.

In the light source unit 12, the openings at both ends of the cover 30 are sealed by the packing 35 and the cap 36, thereby ensuring a waterproof structure.

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 drawn into the device main body 11.

The hanging fittings 120 attached to the caps 36 at both ends of the light source unit 12 are hooked to the hooks 26 provided at the attachment parts 24 at both ends of the instrument body 11, and the light source unit 12 is temporarily suspended below the instrument body 11. .

A pull-out cable drawn out from the light source unit 12 is electrically connected to a power cable drawn into the instrument body 11 through a gap between the temporarily suspended light source unit 12 and the instrument body 11. A terminal block disposed within the device body 11 may be used to electrically connect these cables.

Insert the upper insertion area 12a of the light source unit 12 into the opening 17 of the instrument body 11, insert the tool through the operation hole 97 of the cap 36 of the light source unit 12, and screw the screw 115 into the mounting part 24 of the instrument body 11. Then, the light source unit 12 is attached to the instrument main body 11. The bush 98 is fitted into the operation hole 97 to complete the installation.

Furthermore, when attaching the light source unit 12 to the device body with the screws 115, an external force is applied to the cap 36, which may cause the cap 36 to shift, and the packing 35 to shift as well, which may affect the waterproof performance. Since the cap 36 is attached to the support portion 31 by screws 113 arranged at three or more positions that are not aligned in a straight line, displacement of the position can be suppressed even when an external force is applied, and displacement of the packing 35 can also be suppressed. It is possible to maintain waterproof performance.

When attaching the light source unit 12 to the instrument body 11, the cap part 90 of the cap 36 fits into the outer periphery of the end of the cover 30 of the light source unit 12, and there is a step so that the cap part 90 protrudes from the surface of the cover 30. The stepped portion of the cap portion 90 enters the notch 22 provided in the instrument body 11, so that the light source unit 12 approaches the instrument body 11, and the gap between the light source unit 12 and the instrument body 11 is reduced. . This reduces light entering the interior of the instrument body 11.

Further, when external power is supplied to the power supply section 34, lighting power obtained by converting the external power is supplied to the light source 33, the light emitting element 71 of the light source 33 lights up, and the light emitted by the light emitting element 71 covers the light source 33. 30 and is emitted to the outside.

The cover 30 has an opaque part 30a and a translucent part 30b, and the opaque part 30a is disposed inside the instrument body 11, and the translucent part 30b is disposed outside the instrument body 11, so that no light is emitted. Even if a part of the light from the element 71 is reflected on the inner surface of the transparent part 30b of the cover 30 and heads toward the non-transparent part 30a, the light does not leak from the non-transparent part 30a into the instrument main body 11. The light is reflected on the inner surface of the non-transparent part 30a and directed toward the transparent part 30b, and is easily emitted from the transparent part 30b to the outside.

The light emitted upward from the curved surfaces of both sides of the translucent part 30b, which are the boundaries with the non-transparent part 30a of the cover 30, is reflected by the reflective surface part 20 of the instrument body 11 to the sides of the translucent part 30b. Since the light is reflected toward the area, it is possible to reduce the light entering into the instrument main body 11 or heading toward the light-transmitting part 30b, and it is possible to improve the light extraction efficiency. In addition, since the folded part 21 is provided on the distal end side of the reflective surface part 20 of the instrument body 11, when handling the instrument body 11, for example, the operator's fingers or the like may be placed on the distal end side of the folded part 21, which is the part where the metal plate is cut. It can be made difficult to touch.

Further, during lighting, the heat generated by the light emitting element 71 is mainly transmitted to the support part 31, the heat generated by the power supply part 34 is mainly transmitted to the support part 31 through the mounting member 74, and further, the heat generated by the power supply part 34 is transmitted to the support part 31 through the mounting member 74, The heat transferred to the cap 31 is transferred from both ends of the support portion 31 to the cap 36 side through the connecting member 32b, the plurality of screws 113, the mounting plate 110, etc., and is radiated into the instrument body 11, the air, etc.

In addition, when the lighting device 10 is used in an oil mist environment where oil splashes are scattered, such as in a factory, the protective layer 47 is formed on the outer peripheral surface 30c of the cover 30 exposed to the outside, so that oil adheres to the cover 30. You can prevent it from happening.

Moreover, since the protective layer 47 is formed continuously from the outer circumferential surface 30c of the cover 30 to the end surface 30d and the inner circumferential surface 30e, it is possible to Even if oil enters, the oil is prevented from entering between the end surface 30d of the cover 30 and the end surface contact portion 83 of the packing 35, and further between the inner circumferential surface 30e of the cover 30 and the end surface contact portion 83 of the packing 35. , and can prevent oil from adhering to the cover 30.

In the lighting device 10 of the embodiment, the protective layer 47 is formed on the outer circumferential surface 30c of the cover 30 and a surface that continuously contacts the packing 35 from the outer circumferential surface 30c, so that the cover 35 can be protected more reliably.

Since the packing 35 is made of fluororubber that has excellent oil resistance, fuel resistance, and chemical resistance, it can prevent sulfur-based components contained in oil and corrosive gases from entering.

Further, the cap 36 is attached to the support portion 31 by screws 113 arranged at three or more points on the cap 36 that are not aligned in a straight line, and the packing 35 interposed between the cover 30 and the cap 36 is held. , it is possible to maintain close contact between the packing 35 and the cover 30 and the cap 36, and it is possible to prevent oil and the like from entering the cover 30 from the outside.

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

10 lighting device 30 cover 30c outer peripheral surface 31 support part 33 light source 35 packing 36 cap 47 protective layer 113 screw

Claims (2)

a translucent cylindrical cover;
a support part inserted into the cover;
a light source supported by the support part and disposed within the cover;
a cap disposed at an end of the cover and attached to the support;
a packing interposed between the cap and the cover;
a protective layer formed on the outer circumferential surface of the cover and formed on at least a portion of a surface that continuously contacts the packing from the outer circumferential surface of the cover;
A lighting device comprising: The lighting device according to claim 1, further comprising a plurality of screws for attaching the cap to the support portion, which are provided at at least three points on the cap that are not arranged in a straight line.

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