JP2020035628A - Luminaire - Google Patents

Abstract

To provide a luminaire capable of protecting a lens.SOLUTION: A luminaire comprises a metal decorative frame 23, a glass lens 21, a light-emitting part and a film 22. The decorative frame 23 has an annular lens support part 92, and a decorative frame opening 93 formed inside the lens support part 92. The lens 21 has a projecting lens part 81 smaller than an inner diameter of the decorative frame opening 93 and inserted into the decorative frame opening 93, and a flange part 82 provided in the periphery of the projecting lens part 81, larger than the inner diameter of the decorative frame opening 93, and opposed to the lens support part 92. The light-emitting part is opposed to the lens 21. The film 22 has an annular part 87 arranged between the lens support part 92 and the flange part 82, and a film opening 88 opened inside the annular part 87. The inner diameter of the film opening 88 has a dimension which is smaller than the inner diameter of the decorative frame opening 93 and is to insert the projecting lens part 81 into the film opening.SELECTED DRAWING: Figure 11

Description

  An embodiment of the present invention relates to a lighting device including a light emitting unit.

  2. Description of the Related Art Conventionally, there is an illumination device in which a convex lens portion of a lens is disposed so as to pass through a decorative frame opening provided in a decorative frame, and the light distribution of light from a light emitting unit is controlled by the lens.

  In such a lighting device, if the decorative frame is made of metal and the lens is made of glass, the lens may be damaged if the lens contacts the decorative frame. Even if the lens and the decorative frame are combined with, for example, rubber packing interposed, when the convex lens portion of the lens is placed in the decorative frame opening of the decorative frame, or when the lens moves with respect to the decorative frame, the lens May come into contact with the decorative frame.

JP 2014-207248 A

  An object of the present invention is to provide a lighting device that can protect a lens.

  The lighting device of the embodiment includes a metal decorative frame, a glass lens, a light emitting unit, and a film. The decorative frame has an annular lens support and a decorative frame opening formed inside the lens support. The lens is smaller than the inner diameter of the decorative frame opening, and is provided around the convex lens portion and the convex lens portion inserted through the decorative frame opening, and is larger than the inner diameter of the decorative frame opening. And a flange portion opposed to The light emitting section faces the lens. The film has an annular portion disposed between the lens support portion and the flange portion, and a film opening opened inside the annular portion. The inner diameter of the film opening is smaller than the inner diameter of the decorative frame opening, and is the size at which the convex lens portion is inserted into the film opening.

  According to the lighting device of the embodiment, it is expected that the lens is protected.

It is a perspective view of an exploded state of a lighting installation showing one embodiment. FIG. 3 is a perspective view of the lighting device with the cover removed. It is a perspective view of a lighting device same as the above. It is a perspective view of a lighting device same as the above. It is the perspective view seen from the lower surface of the lighting device. It is sectional drawing of a lighting device same as the above. It is a perspective view of the disassembled state of the main body unit of a lighting device same as the above. FIG. 3 is a perspective view of a main unit of the lighting device. FIG. 3 is a perspective view of a decorative frame of the lighting device. It is a perspective view of the attachment part of the main body unit of a lighting device and a decorative frame. It is sectional drawing which shows the relationship between the lens of an illumination device, a film, and a decorative frame. It is sectional drawing of the installation process of a lighting device same as the above. It is sectional drawing of the installation state of a lighting device same as the above.

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

  As shown in FIGS. 12 and 13, a lighting device 10 is an embedded lighting device that is embedded and installed in an embedded hole 12 having a predetermined inner diameter dimension provided in an installation portion 11 such as a ceiling plate. is there. The embedding hole 12 is circular and has a small diameter of, for example, about 60 mm. Therefore, the illumination device 10 embedded and installed in the small-diameter embedding hole 12 is also formed in a small shape with a small outer diameter. Further, in the present embodiment, the lighting device 10 is connected to a backup power supply device installed outside by an external electric wire 13 and, for example, at the time of a power outage or the like, by an external power supply (backup power supply) supplied from the backup power supply device. It is an emergency embedded lighting device that lights up. The backup power supply device is a battery, a private power generation device, or the like, and can supply an external power supply to a plurality of emergency recessed lighting devices.

  The lighting device 10 includes a main body portion 14 that is an embedding portion embedded and installed in the embedding hole 12, and a surface portion that is an exposed portion disposed on the surface of the installation target portion 11 by concealing the embedding hole 12. Has 15 The lighting device 10 has a virtual central axis 16, and the outer shape of the main body 14 in the direction along the central axis 16 is provided to be smaller than the inner diameter of the embedding hole 12. In this embodiment, one end of the lighting device 10 will be described as a lower side, and the other end will be described as an upper side.

  Next, as shown in FIGS. 1 to 6, the lighting device 10 includes a main unit 20, a lens 21, a film (sheet) 22, a decorative frame 23, a mounting spring 24, a cover 25, and the like.

  The main unit 20 includes a heat sink 28, a light emitting unit 29, a power supply unit 30, and a terminal block 31. The light emitting unit 29, the power supply unit 30, and the terminal block 31 are arranged in a line in the vertical direction, that is, from below to above, and are integrally attached to the heat sink 28.

  As shown in FIGS. 1 to 8, the heat radiating plate 28 is formed of a single metal plate. The heat radiating plate 28 includes a first plate portion 34 which is a light emitting portion mounting plate portion or a lower plate portion, and a terminal block mounting plate portion or a side plate portion which is bent at a substantially right angle upward from one side of the first plate portion 34. And a third plate portion 36, which is an upper plate portion bent at a substantially right angle from the upper end of the second plate portion 35 so as to face the first plate portion 34.

  The light emitting unit 29 is directly attached to one surface of the first plate portion 34 or the lower surface which is the outer surface. On the lower surface of the first plate portion 34, a planar light emitting unit mounting surface 34a for mounting the light emitting unit 29 is formed. The light emitting unit mounting surface 34a is formed with a pair of escape holes 37 for securing an insulation distance from the terminal portion of the light emitting unit 29 and a pair of mounting holes 38 for screwing the light emitting unit 29. The pair of escape holes 37 and the pair of mounting holes 38 are arranged on a diagonal line of the first plate portion 34.

  A positioning groove 39 for positioning the power supply unit 30 is formed on the distal end side of the first plate unit 34. On both sides of the first plate portion 34, mounting grooves 40 for mounting the power supply unit 30 are formed. Then, the power supply unit 30 is directly mounted on the upper surface side of the first plate unit 34 by using the mounting grooves 40 on both sides of the first plate unit 34.

  At one diagonal position on both sides of the first plate portion 34, a mounting piece portion 41 to be mounted on the decorative frame 23 is protruded. A notch portion 42 which is a semicircular groove-shaped notch groove is formed on the distal end side of each of the mounting pieces 41. A screw 43 (screw shaft 43b) for attaching the heat radiating plate 28 to the decorative frame 23 is inserted into the notch 42. The notch 42 has a notch shape because a screw insertion hole cannot be provided in the first plate portion 34 in order to reduce the size of the lighting device 10.

  The terminal block 31 is directly attached to the inner surface which is the other surface or the inner surface of the second plate portion 35. A plurality of positioning holes 44 and one screw insertion hole 45 are formed at a mounting position of the second plate portion 35 where the terminal block 31 is mounted. The insertion hole 45 is disposed at an intermediate position between the pair of positioning holes 44.

  The third plate portion 36 has a projecting length from the second plate portion 35 shorter than the first plate portion 34, and a projecting width of the terminal block 31 from the second plate portion 35 (the thickness of the terminal block 31 in the connection direction A). ). A mounting hole 46 for screwing the cover 25 is formed in the third plate portion 36. A cutout hole 47 is formed in a bent portion between the second plate portion 35 and the third plate portion 36.

  The light emitting section 29 includes a light emitting module 49 and a socket 50 for connecting and holding the light emitting module 49.

  The light emitting module 49 includes a substrate, a plurality of semiconductor light emitting devices mounted on the substrate, a phosphor layer integrally covering the semiconductor light emitting devices, and the like. Then, the phosphor layer is excited by light emitted from the plurality of semiconductor light emitting elements, and light having a predetermined chromaticity is emitted from the light emitting surface 51 which is the surface of the phosphor layer. The light emitting surface 51 is formed in a circular shape.

  The socket 50 includes a socket body 52 and a plurality of terminals housed in the socket body 52. The socket main body 52 is formed of an insulating material such as a resin, for example. The socket main body 52 has a holding recess 53 on which the light emitting module 49 is arranged on the upper surface side, a socket opening 54 on which the light emitting surface 51 of the light emitting module 49 arranged in the holding recess 53 is arranged, and a lower portion from the socket opening 54. It has a reflective surface portion 55 that expands toward. On a side surface of the socket body 52, an electric wire insertion hole 56 into which an output internal electric wire as an internal wiring from the power supply unit 30 is inserted is provided. The socket 50 in which the light emitting module 49 is disposed is disposed on the lower surface side of the first plate portion 34, and a plurality of screws 57 for inserting the socket body 52 are screwed into the mounting holes 38 of the first plate portion 34. By this, it is attached to the first plate portion 34. In the mounted state of the socket 50, the light emitting module 49 is sandwiched and held between the socket main body 52 and the first plate portion 34, and the terminals accommodated in the socket main body 52 and the light emitting module 49 are electrically connected. You.

  The terminal accommodated in the socket main body 52 includes an electric wire connection terminal portion to which an output internal electric wire inserted from the electric wire insertion hole 56 of the socket main body 52 is connected, a contact portion to be connected to the light emitting module 49, and the like. I have.

  The power supply unit 30 includes a power supply circuit 59 and a power supply case 60 that houses the power supply circuit 59.

  The power supply circuit 59 has a substrate 61 and a plurality of electronic components 62 mounted on the substrate 61. The power supply circuit 59 converts an external power supply such as a DC power supply or an AC power supply input from the outside into a predetermined power supply for light emission necessary for causing the light emitting unit 29 to emit light, and supplies the power to the light emitting unit 29. The power supply circuit 59 can supply a predetermined power supply for light emission to the light emitting unit 29 by pulling out the output internal wire connected to the power supply circuit 59 to the outside of the power supply case 60 and connecting to the socket 50. .

  The power supply case 60 is formed of, for example, an insulating material such as a resin. The power supply case 60 is formed by combining a lower case 63 and an upper case 64.

  On both sides of the lower case 63, a plurality of engagement pieces 65 projecting below the lower surface of the lower case 63 and engaging with the mounting grooves 40 on both sides of the first plate portion 34 are provided. At the tip of the engagement piece 65, a locking claw 65a is provided which is hooked and held on the lower surface of the first plate portion 34 with the lower surface of the lower case 63 resting on the upper surface of the first plate portion 34. In the present embodiment, the number of the engagement pieces 65 that engage with one mounting groove portion 40 is two, and one of the engagement pieces 65 is fixedly provided on the lower case 63 and has an elastic displacement. It is used for guiding engagement with the mounting groove 40, and the other engagement piece 65 can be elastically displaced with respect to the lower case 63, and is provided with a locking claw 65a. Therefore, the power supply unit 30 is directly mounted on the upper surface side of the first plate unit 34 via the lower case 63.

  On the lower surface of the lower case 63, a separating portion 66 that separates upward from the first plate portion 34 is formed in an area above the position where the light emitting module 49 of the first plate portion 34 contacts. The separation part 66 is opened to communicate with the side surface of the lower case 63 facing the second plate part 35. Further, on the lower surface of the lower case 63, a concave portion 67 for preventing interference with a screw shaft of a screw 57 for attaching the light emitting portion 29 to the first plate portion 34 is formed. An engagement piece 63a that engages with the positioning groove 39 of the first plate portion 34 is provided on the lower surface of the lower case 63 so as to protrude therefrom.

  At two locations on the side surface of the lower case 63, wire insertion portions 68a and 68b through which output internal wires, which are internal wires connecting the light emitting portion 29 and the power supply circuit 59, are formed. An output internal electric wire is inserted into one of the electric wire insertion portions 68a and 68b, and power is supplied from the power supply circuit 59 to the light emitting unit 29 by the output internal electric wire.

  The upper case 64 closes the upper surface of the lower case 63, and is attached to and integrated with the lower case 63 by, for example, a claw locking structure. On the upper surface of the upper case 64, a plurality of support portions 69 projecting above the upper case 64 to secure a predetermined space S and support the cover 25 are provided.

  On the upper surface of the upper case 64, a wiring hole 70 is formed at a position facing the terminal block 31 attached to the second plate portion 35. An input internal wire, which is an internal wire connecting the terminal block 31 and the power supply circuit 59, is inserted into the wiring hole 70, and external power is supplied from the terminal block 31 to the power supply circuit 59 by the input internal wire.

  In addition, the wiring of the input internal electric wire may use the one electric wire insertion portion 68a. In this case, the upper space S of the power supply unit 30 is used as a wiring space for wiring the input internal wires connected to the terminal block 31, and the outer surface of the power supply case 60 is inserted from the upper surface area of the power supply case 60 into the wire insertion portion. The input internal wire may be wired in the wiring groove 71 formed over 68a. The plurality of support portions 69 also function as a wire regulating portion that regulates the position of the input internal wire so as to be held in the upper surface area of the power supply case 60.

  On the outer surface of the power supply case 60, a concave relief portion 72 for preventing interference with the head 43a of the screw 43 for attaching the heat sink 28 to the decorative frame 23 is formed along the vertical direction.

  In addition, the terminal block 31 includes a terminal block main body 74 and terminals (not shown) housed in the terminal block main body 74.

  The terminal block main body 74 is formed of, for example, an insulating material such as a resin. One surface of the terminal block main body 74 is a mounting surface 75 mounted on the inner surface of the second plate portion 35, and the other surface opposite to the mounting surface 75 is a connection surface 76 for connecting the external electric wire 13 supplying external power. It is.

  A plurality of positioning projections 77 (see FIG. 4) to be inserted into the positioning holes 44 of the second plate portion 35 are projected from the mounting surface 75 of the terminal block main body 74, and the insertion holes of the second plate portion 35 are provided. A mounting hole 78 (see FIG. 6) is formed opposite to the mounting hole 78, into which a screw (not shown) inserted through the insertion hole 45 is screwed. Therefore, the terminal block 31 is directly attached to the second plate portion 35 with screws passing through the second plate portion 35.

  On the upper side of the connection surface 76 of the terminal block main body 74, an external electric wire connection portion 79 to which the external electric wire 13 is connected is provided. The external wire connection portion 79 has a plurality of external wire insertion holes 80 into which the external wires 13 are inserted. The external wire insertion holes 80 include two for power supply input and two for feed wiring, for a total of four. The connection direction A of the external electric wire 13 to the external electric wire connection portion 79 is a direction intersecting (perpendicular to) the center axis 16 of the main body portion 14.

  On the lower surface of the terminal block main body 74 or the lower side of the connection surface 76, an internal electric wire insertion hole (not shown) into which the input internal electric wire is inserted is provided. When the internal wire insertion hole is provided on the lower surface of the terminal block main body 74, the input internal wire connected to the internal wire insertion hole is wired to the wiring hole 70 on the upper surface of the power supply unit 30. When the internal wire insertion hole is provided below the connection surface 76 of the terminal block main body 74, the input internal wire connected to the internal wire insertion hole is provided in the space above the power supply unit 30 (wiring space). ) It is wired to the wire insertion portion 68a on the side surface of the power supply unit 30 through S and the wiring groove 71.

  The main unit 20 is integrally mounted on a single metal radiator plate 28 in which the light emitting section 29, the power supply section 30, and the terminal block 31 are arranged in a line in the vertical direction, that is, from the bottom upward. I have. The light-emitting part 29 is attached to the lower surface of the first plate part 34 of the heat sink 28, the power supply part 30 is attached to the upper surface of the first plate part 34, and the terminal block 31 is attached to the inner surface of the second plate part 35. I have. The power supply unit 30 may be attached to the second plate 35 together with the terminal block 31.

  Next, the lens 21 is shown in FIGS. The lens 21 faces the light emitting unit 29. The lens 21 is made of glass. The lens 21 has a central convex lens portion 81 and an annular flange portion 82 projecting from a peripheral portion of the convex lens portion 81. At the center of the upper surface side of the convex lens portion 81 of the lens 21, a concave incident surface 83 on which light from the light emitting portion 29 is incident is formed. On the lower surface side of the convex lens portion 81, there is formed an emission surface 84 projecting from the flange portion 82 and emitting the light that has entered the convex lens portion 81 from the incident surface 83 to the outside. On the upper surface of the lens 21, a socket fitting portion 85 that fits with the socket 50 and positions each other is formed.

  Next, FIGS. 1, 6, 9 and 11 show the film 22. FIG. The film 22 is made of, for example, a resin. Examples of the resin include polyethylene terephthalate. The film 22 has a high shape maintaining property and a low coefficient of friction even if it is thin, for example, as compared with rubber packing. The coefficient of friction of the film 22 is 0.3 or less. The film 22 is colored, not transparent. For example, the film 22 is black.

  The film 22 has an annular portion 87 disposed between the decorative frame 23 (lens support portion 92) and the flange portion 82 of the lens 21, and a film opening 88 opened inside the annular portion 87. I have.

  Next, FIGS. 1 to 6, 9 and 11 show the decorative frame 23. FIG. The decorative frame 23 is made of metal. The decorative frame 23 is made of, for example, aluminum die casting, and is integrally formed.

  The decorative frame 23 has an annular decorative frame portion 91, an annular lens support portion 92 provided on the inner peripheral side of the decorative frame portion 91 and supporting the flange portion 82 of the lens 21, and provided inside the lens support portion 92. And a circular decorative frame opening 93 through which the convex lens portion 81 of the lens 21 is inserted, and provided on the outer peripheral side of the decorative frame portion 91 so as to conceal the embedding hole 12 when the lighting apparatus 10 is installed. It has a flange portion 94 that contacts the lower surface of the portion 11.

  Further, the decorative frame 23 has a positioning portion 95, a heat radiating plate mounting portion 96, a heat radiating plate support portion 97, and a pair of spring mounting portions 98 projecting from the upper surface of the decorative frame portion 91, respectively.

  The positioning section 95 projects from the outer peripheral side of the lens support section 92 and positions the outer peripheral section of the film 22. The positioning portions 95 are provided at four positions in the circumferential direction of the lens support portion 92. Of the two sets of opposing positioning parts 95, one opposing positioning part 95 is formed by a protruding part 99 projecting from the upper surface of the decorative frame part 91, and the other opposing positioning part 95 is a pair of spring mounting parts. It is also used on the inner surface side of the part 98. The inner side surfaces (inner peripheral surfaces) of the plurality of positioning portions 95 are inclined such that the inner diameter decreases from the upper side to the lower side.

  On the outer peripheral side of the lens support portion 92 facing the inner side surface of each positioning portion 95, at a position where the inner side surface of each positioning portion 95 and the lens support portion 92 are connected, the concave portion 100 is recessed from the lens support portion 92. Is provided.

  Since the decorative frame 23 is made of aluminum die-cast, a curved surface portion 101 formed at a connection portion between the inner surface of each positioning portion 95 and the lens support portion 92 is formed on manufacturing. Accordingly, the curved surface portion 101 is disposed in the recess portion 100, and the inner surface of each positioning portion 95 becomes linear at the height position of the upper surface of the lens support portion 92. Therefore, the outer peripheral portion of the film 22 can be accurately positioned on the inner side surface of each positioning portion 95.

  The heat radiating plate mounting portion 96 is provided on the upper surface of the decorative frame portion 91 so as to protrude in a substantially annular shape from the outer peripheral side with respect to the positioning portion 95. The radiator plate mounting portion 96 includes a mounting surface portion 102 on which the lower surface peripheral portion of the first plate portion 34 is placed and mounted, and a screw 43 provided on the mounting surface portion 102 and inserted through the cutout portion 42 of the first plate portion 34. It has a pair of mounting holes 103 to be screwed, and a screw guide portion 104 protruding from a position of the mounting surface portion 102 around the mounting hole 103 and facing the cutout portion 42 of the first plate portion 34. I have. Further, the heat sink attaching portion 96 is provided with a groove 105 with which the cover 25 is engaged at a position symmetrical to the position of the heat sink supporting portion 97 and at a position facing the heat sink supporting portion 97.

  The heat radiating plate supporting portion 97 is formed in a plate shape protruding above the heat radiating plate mounting portion 96. The inner side surface of the heat radiating plate support 97 is flat and is inclined from the upper side to the lower side so as to approach the center side of the decorative frame 23. The radiator plate supporting portion 97 supports the outer surface of the second plate portion 35 of the radiator plate 28 in which the first plate portion 34 is attached to the radiator plate mounting portion 96.

  The inner surfaces of the pair of spring mounting portions 98 are flat, and are inclined so that the opposing interval decreases from the upper side to the lower side. The pair of spring mounting portions 98 are formed with spring mounting grooves 106 into which the mounting springs 24 are inserted from above.

  Next, FIGS. 1 to 5 show the mounting spring 24. FIG. The mounting spring 24 is constituted by a leaf spring. One end of the mounting spring 24 is attached to the spring mounting portion 98 of the decorative frame 23, and the other end can be deployed so as to elastically protrude to the side of the decorative frame 23.

  Next, the cover 25 is shown in FIGS. The cover 25 covers the power supply unit 30 and the terminal block 31 between the cover 25 and the heat sink 28. The cover 25 is made of metal. The cover 25 has a terminal block cover 109 and a main body cover 110, and is configured integrally by combining the terminal block cover 109 and the main body cover 110.

  The terminal block cover 109 is formed of one metal plate. The terminal block cover 109 has an upper surface portion 111, and both side surfaces 112 bent from both sides of the upper surface portion 111, and has a substantially U-shape in which the inner and outer surfaces and the lower surface corresponding to the connection direction A of the terminal block 31 are opened. Is formed. The upper surface portion 111 is a fixing portion 111a fixed to the heat sink 28. A screw insertion hole 113 through which a screw screwed into the mounting hole 46 of the third plate portion 36 of the heat sink 28 is inserted is formed in the upper surface portion 111 which is the fixing portion 111a. On both side portions 112, a connection frame portion 114 and a locking claw portion 115 for connection with the main body cover 110 are cut and raised.

  The main body cover 110 is formed of a single metal plate. The main body cover 110 has an upper surface portion 116 and a peripheral surface portion 117 bent from the upper surface portion 116. On both sides of the peripheral surface portion 117, connecting pieces 118 to be inserted into the connecting frame portions 114 of the terminal block cover 109 are protrudingly provided. The connecting piece 118 has a stopper 119 that abuts on the connecting frame 114 at a predetermined combination position with the terminal block cover 109, and a lock that engages with the locking claw 115 at a predetermined combination position with the terminal block cover 109. A hole 120 is formed. Thus, the terminal block cover 109 and the main body cover 110 are integrated at a predetermined combination position. At the lower end of the peripheral surface portion 117, an insertion portion 121 that is inserted into the groove portion 105 of the decorative frame 23 protrudes.

  In a state where the terminal block cover 109 and the main body cover 110 are combined with each other, the connection surface 76 of the terminal block 31 is exposed between the upper surface portion 111 and both side surface portions 112 of the terminal block cover 109 and the upper surface of the main body cover 110. An opening 122 is formed. Edge portions of the upper surface portion 111 and both side surface portions 112 of the terminal block cover 109 facing the wiring opening portion 122 are provided with folded portions that are folded back to the outer surface side so as not to damage the external electric wires 13 by contact with the external electric wires 13. 123 are formed.

  Next, the relationship among the lens 21, the film 22, and the decorative frame 23 will be described with reference to FIG.

  The outer diameter d1 of the convex lens portion 81 of the lens 21 is smaller than the inner diameter d2 of the decorative frame opening 93 of the decorative frame 23. The outer shape d3 of the flange portion 82 of the lens 21 is larger than the inner diameter d2 of the decorative frame opening 93 of the decorative frame 23.

  The inner diameter d4 of the film opening 88 of the film 22 is smaller than the inner diameter d2 of the decorative frame opening 93 of the decorative frame 23, and the dimension through which the convex lens portion 81 of the lens 21 is inserted into the film opening 88. It is. For example, the inner diameter d4 of the film opening 88 may be smaller than the outer diameter d1 of the convex lens section 81, or may be substantially the same as the outer diameter d1 of the convex lens section 81.

  The width w1 between the outer periphery and the inner periphery of the annular portion 87 of the film 22 is larger than the width w2 between the outer periphery and the inner periphery of the lens support 92 of the decorative frame 23. The width w1 between the outer peripheral portion and the inner peripheral portion of the annular portion 87 of the film 22 is preferably larger than the width w3 between the outer peripheral portion and the inner peripheral portion of the flange portion 82 of the lens 21.

  The width w3 between the outer peripheral portion and the inner peripheral portion of the flange portion 82 of the lens 21 is larger than the width w2 between the outer peripheral portion and the inner peripheral portion of the lens support portion 92 of the decorative frame 23.

  Further, the positional relationship of the terminal block 31 will be described with reference to FIG.

  The terminal block 31 has a central axis in which the connection direction A of the external electric wire 13 to the external electric wire connection portion 79 intersects the central axis 16 of the main body portion 14 and the external electric wire connection portion 79 is on the center side of the main body portion 14. The thickness t1 in the connection direction A is at least one third of the dimension of the inner diameter d5 of the embedding hole 12 so as to face the central axis 16 of the main body portion 14 so as to face the same. For example, the thickness t1 of the terminal block 31 in the connection direction A is 20 mm, and the inner diameter d5 of the embedding hole 12 is 60 mm. The thickness t1 of the terminal block 31 in the connection direction A is a minimum necessary dimension for inserting the external electric wire 13 from the connection direction A and connecting to the terminal in the terminal block 31.

  The outer shape of the main body 14 in the direction along the central axis 16 is equal to or smaller than the inner diameter d5 of the embedding hole 12, and there is no protrusion from the main body 14 to the side. The flange portion 94 of the decorative frame 23 is larger than the inner diameter d5 of the embedding hole 12.

  Next, the assembly of the lighting device 10 will be described.

  As shown in FIGS. 1 and 11, the film 22 is arranged on the lens support 92 of the decorative frame 23. The outer periphery of the film 22 abuts on a positioning portion 95 provided on four sides in the circumferential direction, and is positioned and arranged at a predetermined position on the lens support portion 92. At this time, the concave portion 100 is provided in the lens support portion 92 corresponding to the inner surface of each positioning portion 95, and the curved surface portion 101 formed at the connection portion between the inner surface of each positioning portion 95 and the lens support portion 92 is formed. Since the film 22 is arranged in the concave portion 100, the film 22 can be accurately positioned at a predetermined position on the lens support portion 92 by each positioning portion 95 without being affected by the curved surface portion 101. Then, the inner peripheral portion of the film 22 disposed on the lens supporting portion 92 is disposed more inward than the inner peripheral portion of the lens supporting portion 92. Since the film 22 is not transparent but colored, it can be easily checked whether or not the film 22 has been mounted on the decorative frame 23, and forgetting to mount the film 22 can be prevented.

  Subsequently, the convex lens portion 81 of the lens 21 is inserted into the film opening 88 of the film 22 and the decorative frame opening 93 of the decorative frame 23 from above, and the flange portion 94 of the lens 21 is supported by the lens via the film 22. It is arranged on the part 92.

  At this time, the inner diameter d4 of the film opening 88 of the film 22 is smaller than the inner diameter d2 of the decorative frame opening 93 of the decorative frame 23, and is set to a size that allows the convex lens portion 81 of the lens 21 to be inserted. The center of the decorative frame opening 93 or the center of the decorative frame opening 93, or even if the lens 21 is inserted obliquely with respect to the decorative frame opening 93, the convex lens inserted into the film opening 88. When the portion 81 comes into contact with the film 22, the position of the convex lens portion 81 can be regulated and the insertion position can be adjusted. Therefore, the convex lens portion 81 does not come into contact with the lens support portion 92, and is inserted and arranged in the decorative frame opening 93.

  By inserting the convex lens portion 81 of the lens 21 into the film opening 88 of the film 22, the position of the lens 21 arranged on the lens support portion 92 is positioned with respect to the decorative frame 23. Then, the position may be adjusted by moving the lens 21 on the lens support portion 92. At this time, since the film 22 has a coefficient of friction of, for example, 0.3 or less and is more slippery than, for example, rubber packing, the position of the film 22 can be adjusted by easily moving the lens 21 on the lens support portion 92 via the film 22. .

  Subsequently, as shown in FIGS. 2 and 10, the pre-assembled main unit 20 is mounted on the decorative frame 23 from the state of FIG. The main body unit 20 has a light-emitting unit 29, a power supply unit 30, and a terminal block 31 attached to a heat sink 28. Further, the light-emitting unit 29 and the power supply unit 30 are connected by an output internal wire, and the power supply unit 30 and the terminal The table 31 is connected with an input internal electric wire.

  The lower side of the main unit 20 is inserted from above into the heat sink supporting portion 97 of the decorative frame 23 and the pair of spring mounting portions 98, and the first plate portion 34 of the heat sink 28 is attached to the heat sink mounting portion of the decorative frame 23. It is arranged on the 96 mounting surface portions 102. At this time, the second plate portion 35 of the heat sink 28 faces the heat sink supporting portion 97. By arranging the first plate portion 34 on the mounting surface portion 102, the notch portion 42 of the first plate portion 34 is disposed above the mounting hole 103 of the heat sink mounting portion 96 and protrudes from the mounting surface portion 102. To the screw guide portion 104 that is in the position.

  The screw shaft 43b of the screw 43 is inserted into the mounting hole 103 through the space between the notch 42 of the first plate portion 34 and the screw guide portion 104, and the screw 43 is screwed into the mounting hole 103. The first plate portion 34 is sandwiched and fixed between the portion 43a and the heat sink attaching portion 96. Thereby, the heat sink 28 and the decorative frame 23 are integrated.

  The notch 42 of the first plate portion 34 has a notch shape because a screw insertion hole cannot be provided in the first plate portion 34 in order to reduce the size of the lighting device 10. Therefore, when the screw 43 is inserted into the mounting hole 103 and screwed through the cutout portion 42 of the first plate portion 34, the screw 43 is likely to fall down. Therefore, by providing the screw guide portion 104 on the decorative frame 23 facing the notch portion 42 of the first plate portion 34, the screw 43 is prevented from falling down, the operability of the screw 43 is improved, and the workability is improved. it can.

  As shown in FIG. 6, when the main unit 20 is attached to the decorative frame 23, the socket 50 is fitted into the socket fitting portion 85 on the upper surface of the lens 21, and the light emitting surface 51 of the light emitting module 49 held by the socket 50. And the lens 21 are positioned so that the optical axes thereof coincide with each other. At this time, since the coefficient of friction of the film 22 interposed between the lens supporting portion 92 and the flange portion 82 of the lens 21 is, for example, 0.3 or less and is more slippery than, for example, rubber packing, the film 22 is fitted with the socket 50. The mating lens 21 can be moved and aligned on the lens support 92 via the film 22. Then, the lens 21 is sandwiched and held between the lens support portion 92 of the decorative frame 23 and the socket 50.

  Subsequently, as shown in FIGS. 3 to 5, the cover 25, which has been assembled in advance, is mounted on the main unit 20 from above in the state of FIG.

  The two side surfaces 112 of the terminal block cover 109 are inserted between the main unit 20 and the pair of spring mounting portions 98 of the decorative frame 23 from above, and the main body cover 110 is moved from above along the outer periphery of the power supply unit 30. Further, the insertion portion 121 of the main body cover 110 is inserted into the groove portion 105 of the decorative frame 23, and the upper surface portion 111 (the fixing portion 111a) of the terminal block cover 109 is disposed on the third plate portion 36 of the heat sink 28. Then, the cover 25 is fixed to the heat radiating plate 28 by screwing a screw (not shown) into the mounting hole 46 of the third plate portion 36 through the screw insertion hole 113 of the upper surface portion 111 (fixing portion 111a) of the terminal block cover 109. .

  As described above, by using the insertion portion 121 of the main body cover 110 in addition to fixing with the screw when attaching the cover 25, deformation of the cover 25 can be suppressed, and the number of screws required for fixing can be reduced.

  Subsequently, the pair of mounting springs 24 are mounted on the pair of spring mounting portions 98 of the decorative frame 23. Thus, the assembly of the lighting device 10 is completed.

  Since the inner diameter d4 of the film opening 88 of the film 22 is smaller than the inner diameter d2 of the decorative frame opening 93 of the decorative frame 23, as shown in FIG. It is possible to check whether the film 22 is mounted. At this time, since the film 22 is not transparent but colored, the presence or absence of the film 22 can be easily confirmed. As described above, since the film 22 can be seen from the surface side of the decorative frame 23 through the decorative frame opening 93, the color of the film 22 is preferably black, which is hardly noticeable.

  Next, the installation of the lighting device 10 will be described with reference to FIGS. 12 and 13, the illustration of the mounting spring 24 is omitted.

  The external electric wire 13 wired on the installation portion 11 is pulled out from the embedding hole 12 below the installation portion 11, and is connected to the external electric wire connection portion 79 of the terminal block 31.

  When the external electric wire 13 is connected to the terminal block 31, a force is applied outward from the connection direction A to the second plate section 35 of the heat sink 28 to which the terminal block 31 is attached. Since the terminal board 31 moves together with the radiator plate 28, the terminal block 31 moves together with the radiator plate support portion 97, thereby making it difficult to connect the external electric wire 13 and preventing the radiator plate 28 from being deformed.

  With the pair of mounting springs 24 elastically deformed upward and pressed against the main body 14, the main body 14 and the distal ends of the pair of mounting springs 24 are inserted from below the embedding hole 12. When the holding of the pair of mounting springs 24 is released, the pair of mounting springs 24 is expanded by elasticity so as to protrude to the side of the main body portion 14, engages with the upper surface of the installation target portion 11, and raises the main body portion 14 upward. To raise.

  The flange portion 94 of the decorative frame 23 comes into contact with the lower surface of the installation portion 11 and stops, and the installation of the lighting device 10 is completed.

  When an external power supply, which is a backup power supply or a commercial power supply, is supplied from the backup power supply to the power supply unit 30 of the lighting device 10 through the external power supply line 13, the power supply unit 30 converts the external power supply into a predetermined power supply for light emission and emits light. Supply to section 29. The light emitting module 49 of the light emitting section 29 to which the power for light emission is supplied emits light, and the light is emitted to the illumination space through the lens 21. Further, the heat generated by the light emitting module 49 at the time of lighting is transmitted to the heat radiating plate 28, and further transmitted from the heat radiating plate 28 to the decorative frame 23, the pair of mounting springs 24, the cover 25, and the like. Is done.

  By the way, in a general recessed lighting device, when there is a protruding object such as a terminal block from the upper side of the main body, or an external electric wire connected to the terminal block is laterally from the outer surface of the main body. When it is pulled out, first insert the main body part obliquely with respect to the embedding hole so that the protruding object and the external electric wire pass through the embedding hole, so that the main body part can be embedded and installed. I have.

  However, when the inner diameter of the embedding hole 12 is small as in the present embodiment, it becomes difficult to insert the main body part 14 obliquely with respect to the embedding hole 12. Therefore, it is preferable that the main body portion 14 can be embedded and installed by being inserted straight into the embedding hole 12 from below without tilting.

  Therefore, in the present embodiment, the outer shape in the direction along the central axis 16 of the main body 14 is set to be equal to or less than the inner diameter of the embedding hole 12, and the positional relationship of the terminal block 31 to which the external electric wire 13 is connected is defined. It can be embedded and installed.

  First, regarding that the outer shape in the direction along the central axis 16 of the main body portion 14 is equal to or less than the inner diameter of the embedding hole 12, the light emitting portion 29, the power supply portion 30, and the terminal block 31 are arranged in a line on the heat sink 28. The main body 14 is inserted straight into the embedding hole 12 from below by reducing the external dimensions around the central shaft 16 and eliminating the side projections. And can be embedded and installed.

  Further, a light emitting unit 29 is disposed at a lower end side in a direction along the central axis 16 of the main body unit 14, a terminal block 31 is disposed at an upper end side, and a power supply unit 30 is disposed between the light emitting unit 29 and the terminal block 31. That is, the light emitting unit 29 is attached to the lower surface of the first plate unit 34 of the heat sink 28, the power supply unit 30 is attached to the upper surface of the first plate unit 34, and the terminal block 31 is attached to the second plate unit 35. Since it can be attached, the outer dimensions around the central shaft 16 can be reduced, and the connection of the external wires 13 to the terminal block 31 from the position of the terminal block 31 is good. Can be secured.

  Further, a description will be given of the definition of the positional relationship of the terminal block 31 for connecting the external electric wire 13.

  It is not preferable that the external electric wire connection portion 79 of the terminal block 31 be directed upward, since dust may enter the external electric wire connection portion 79. Further, when the lighting device 10 is used as an emergency embedded lighting device, it is necessary to cover the terminal block 31 including the resin component with the heat radiating plate 28 and the cover 25, which are metal components. Thus, the connection direction A of the external electric wire 13 to the external electric wire connection portion 79 of the terminal block 31 is a direction intersecting with the central axis 16 of the main body portion 14.

  The external electric wire 13 connected to the terminal block 31 is, for example, an F cable in which a single wire of 2 mm is covered with a coating material, or when the lighting device 10 is used as an emergency embedded lighting device, for example, a single wire of 2 mm is fire resistant. A fire-resistant cable covered with a covering material having a certain thickness is used. Each cable is hard to bend to a small radius, and has a characteristic that it is hard to bend to a small radius in a fireproof cable using a fire-resistant coating material.

  In the present embodiment, the terminal block 31 is arranged such that the connection direction A of the external electric wire 13 with respect to the external electric wire connection portion 79 intersects the central axis 16 of the main body portion 14 and the external electric wire connection portion 79 is at the center of the main body portion 14. It is arranged at a position offset from the center axis 16 of the main body 14 so as to face the shaft 16, and the thickness t 1 in the connection direction A has a relationship of 1/3 or more of the dimension of the inner diameter d 5 of the embedding hole 12. . For example, the thickness t1 of the terminal block 31 in the connection direction A is 20 mm, and the inner diameter d5 of the embedding hole 12 is 60 mm. The thickness t1 of the terminal block 31 in the connection direction A is a minimum necessary dimension for inserting the external electric wire 13 from the connection direction A and connecting to the terminal in the terminal block 31.

  Due to the arrangement of the terminal block 31, the space above the main body cover 110 facing the terminal block 31 can be used as a bending space B for the external electric wire 13, and the external electric wire 13 can be accommodated in the upper area of the main body 14. . Therefore, in a state where the external electric wire 13 connected to the terminal block 31 is bent upward, the main body 14 can be inserted straight into the embedding hole 12 from below and embedded and installed.

  In the lighting device 10 of the present embodiment, the light emitting unit 29, the power supply unit 30, and the terminal block 31 are arranged in a line on the radiator plate 28 and are integrally attached, so that the number of parts can be reduced and the size can be reduced. Can be.

  In the lighting device 10 of the present embodiment, the terminal block 31 is connected to the external electric wire connection portion 79 in a direction in which the connection direction A of the external electric wire 13 intersects the central axis 16 of the main body portion 14 and the external electric wire connection portion 79. Is disposed at a position deviated outside the central axis 16 of the main body 14 so as to face the central axis 16 of the main body 14, and the thickness t1 in the connection direction A is 1/1 / D of the inner diameter d5 of the embedding hole 12. Due to the relationship of three or more, even if the inner diameter of the embedding hole 12 is small, the main body portion 14 is inserted straight into the embedding hole 12 from below and embedded and installed even when the external wire 13 is connected. Can be made, and it can respond to miniaturization.

  In the lighting device 10 of the present embodiment, the inner diameter d4 of the film opening 88 of the film 22 disposed between the lens support portion 92 of the decorative frame 23 and the flange 82 of the lens 21 Since the size is smaller than the inner diameter d2 of the frame opening 93 and the size is such that the convex lens portion 81 of the lens 21 is inserted into the film opening 88, the convex lens of the lens 21 is assembled when the lighting device 10 is assembled. The portion 81 can be prevented from contacting the lens support portion 92, and the lens 21 can be protected.

  Since the film 22 can be made thinner than, for example, rubber packing, the lens 21 is brought closer to the decorative frame opening 93 of the decorative frame 23, and the convex lens portion 81 of the lens 21 is It is possible to arrange so as to protrude more from the opening 93, so that the light emitted from the lens 21 can be prevented from being shielded (shielded) by the decorative frame 23, and the light efficiency can be improved.

  The positioning portion 95 protruding from the outer peripheral portion side of the lens supporting portion 92 of the decorative frame 23 positions the outer peripheral portion of the film 22, so that the convex lens portion 81 of the lens 21 can be prevented from contacting the lens supporting portion 92. Thus, the relationship between the film opening 88 of the film 22 and the decorative frame opening 93 of the decorative frame 23 can be kept constant.

  Since the concave portion 100 is provided in the lens support portion 92 so as to be depressed from the lens support portion 92 at a position where the inner surface of the positioning portion 95 and the lens support portion 92 are connected, the inner surface of the positioning portion 95 and the lens support portion 92 are provided. The curved portion 101 formed at the connection portion with the lens can be arranged in the recessed portion 100, and the film 22 can be accurately positioned at a predetermined position on the lens support portion 92 by the positioning portion 95 without the influence of the curved portion 101.

  Since the width w1 between the outer peripheral portion and the inner peripheral portion of the annular portion 87 of the film 22 is larger than the width w2 between the outer peripheral portion and the inner peripheral portion of the lens support portion 92 of the decorative frame 23, the width of the lens 21 The convex lens portion 81 can be reliably prevented from contacting the lens support portion 92, and the lens 21 can be protected.

  If the width w1 between the outer peripheral portion and the inner peripheral portion of the annular portion 87 of the film 22 is larger than the width w3 between the outer peripheral portion and the inner peripheral portion of the flange portion 82 of the lens 21, the lens 21 The flange portion 82 is prevented from contacting the positioning portion 95 of the decorative frame 23, and the lens 21 can be protected.

  Furthermore, if the width w3 between the outer peripheral portion and the inner peripheral portion of the flange portion 82 of the lens 21 is larger than the width w2 between the outer peripheral portion and the inner peripheral portion of the lens support portion 92 of the decorative frame 23, temporarily. Even when the outer peripheral portion of the flange portion 82 contacts the positioning portion 95 of the decorative frame 23, the convex lens portion 81 of the lens 21 does not contact the lens support portion 92, and protects the convex lens portion 81 of the lens 21. can do.

  Since the film 22 has a coefficient of friction of, for example, 0.3 or less and is more slippery than, for example, rubber packing, the position of the film 22 can be adjusted by easily moving the lens 21 on the lens support 92 via the film 22.

  Note that the lighting device 10 of the present embodiment can be used for both an embedded lighting device and an emergency embedded lighting device.

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

10 Lighting equipment
21 lenses
22 films
23 Makeup frame
29 Light-emitting part
81 Convex lens
82 Flange
87 Annular
88 Film opening
92 Lens support
93 Makeup frame opening
95 Positioning unit
100 hollow

Claims (5)

An annular lens support, and a metal decorative frame having a decorative frame opening formed inside the lens support;
A convex lens portion that is smaller than the inner diameter of the decorative frame opening, and is provided around the convex lens portion to be inserted into the decorative frame opening, and is larger than the inner diameter of the decorative frame opening; A glass lens having a flange portion opposed to the support portion;
A light emitting unit facing the lens;
An annular portion disposed between the lens support portion and the flange portion, and a film opening opened inside the annular portion, the inner diameter of the film opening being larger than the inner diameter of the decorative frame opening A film having a small size, and a size in which the convex lens portion is inserted into the film opening;
A lighting device comprising: The lighting device according to claim 1, wherein the decorative frame has a positioning portion that projects from an outer peripheral portion of the lens support portion and positions an outer peripheral portion of the film. The said decorative frame has a concave part provided in the said lens support part so that it may be depressed from the said lens support part in the position where the inner surface side of the said positioning part and the said lens support part connect. The lighting device according to the above. The width between the outer peripheral portion and the inner peripheral portion of the annular portion of the film is larger than the width between the outer peripheral portion and the inner peripheral portion of the lens support portion. The lighting device according to any one of the preceding claims. The lighting device according to any one of claims 1 to 4, wherein the coefficient of friction of the film is 0.3 or less.

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