JP6756976B2 - Lighting device - Google Patents

Description

An embodiment of the present invention relates to a lighting device using a light emitting module.

Conventionally, in a lighting device using a light emitting module having a light emitting element such as an LED, a radiator is used in order to efficiently dissipate the heat generated by the light emitting element of the light emitting module into the air.

In such a lighting device, for example, a light source unit having a light emitting module and a radiator is configured, the light source unit is arranged inside a frame for installation on the ceiling, and a light source is provided by a holder provided on the upper side of the frame. There is a downlight that holds the unit.

In such a lighting device, when the light source unit and the power supply unit are electrically wired behind the radiator using a connector, it is difficult or impossible to wire due to an obstacle or the like existing behind the radiator. It is preferable not to cause such a problem.

Japanese Unexamined Patent Publication No. 2016-126863

An object to be solved by the present invention is to provide a lighting device capable of facilitating wiring between a light source unit and a power supply unit.

The lighting device of the embodiment includes a light source unit, a main body unit, and a power supply unit. The light source unit is arranged at the rear part of the light emitting module having a light emitting element, the heat radiating body having the light emitting module arranged on the front side, and the connector connection direction at an angle to the front-rear direction of the heat radiating body. It has a light source side connector. The main body unit has a frame body that is opened in the front-rear direction and arranges the light source unit, and a holder that holds the light source unit in the frame body. Power supply unit have a power source side cable of the power supply side connector is provided which is connected to the light source side connector at one end, inside the main unit with the one end side of the power source side cable is located on a side of the main unit It can be pulled out to the front of the main unit through .

According to the present invention, it can be expected that wiring between the light source unit and the power supply unit will be facilitated.

It is sectional drawing in the direction along the longitudinal direction of the power supply unit which shows the lighting apparatus of one Embodiment. It is sectional drawing in the direction orthogonal to the longitudinal direction of the power supply unit which shows the lighting apparatus as above. It is the perspective view of the disassembled state which shows the front side of the lighting apparatus as above. It is a perspective view of the assembled state which shows the front side of the lighting apparatus as above. It is the perspective view of the disassembled state which shows the rear surface side of the lighting apparatus as above. It is the perspective view of the assembled state which shows the rear surface side of the lighting apparatus as above. It is a top view of the radiator body of the same lighting apparatus.

Hereinafter, one embodiment will be described with reference to FIGS. 1 to 7.

As shown in FIGS. 1 to 6, the lighting device 10 is a downlight that is embedded and installed in, for example, a circular embedded hole formed in a ceiling member (ceiling plate). In the present embodiment, the front side of the lighting device 10 is the lower side, the rear side is the upper side, the front-back direction is the vertical direction, and the fixture central axis z is provided in the vertical direction.

The lighting device 10 includes a main body unit 11 for installation on a ceiling member, a light source unit 12 detachably attached to the main body unit 11, and a power supply unit 13 for supplying power to the light source unit 12. Then, the light source unit 12 is mounted on the main body unit 11 by being inserted from the front side of the main body unit 11 and then rotated by a predetermined angle in a predetermined mounting direction, and is mounted on the main body unit 11 in a predetermined mounting state. It is configured to be removed from the front side of the main body unit 11 after being rotated by a predetermined angle in the removal direction (direction opposite to the mounting direction). Further, the power supply unit 13 is attached so as to project to the side of the main body unit 11 on the rear side of the main body unit 11.

The main body unit 11 includes a frame body 20 as a decorative frame, a holder 21 attached to the upper side of the frame body 20, and a plurality of attachment springs 22 attached around the frame body 20.

The frame body 20 is formed in a cylindrical shape that opens in the vertical direction with the instrument central axis z as the center. The frame body 20 includes a cylindrical tubular portion 25 and an annular flange portion 26 projecting outward from the lower end of the tubular portion 25.

Inside the tubular portion 25, a light source accommodating portion 27 that expands downward and opens in the vertical direction is provided. A plurality of mounting spring mounting portions 28 for mounting the mounting springs 22 and a plurality of holder mounting portions 29 composed of bosses for mounting the holder 21 are formed on the outside of the tubular portion 25, respectively. In the present embodiment, there are three mounting spring mounting portions 28 and three holder mounting portions 29, which are alternately arranged in the circumferential direction of the tubular portion 25. Of the three mounting spring mounting portions 28, two mounting spring mounting portions 28 are arranged on the arrangement side of the power supply unit 13 in the frame body 20, and the remaining one mounting spring mounting portion 28 is the power supply unit 13 in the frame body 20. It is arranged on the opposite side to the arrangement side of. Of the three holder mounting portions 29, one holder mounting portion 29 is arranged on the arrangement side of the power supply unit 13 in the frame body 20, and the remaining two holder mounting portions 29 are arranged on the arrangement side of the power supply unit 13 in the frame body 20. It is located on the opposite side of the side.

An annular edge portion 30 projecting inward is provided at the upper end of the tubular portion 25, and a circular through hole 31 penetrating in the vertical direction is formed inside the edge portion 30. The inner diameter of the through hole 31 is smaller than the inner diameter of the light source accommodating portion 27.

Further, the holder 21 has an annular portion 34 arranged to face the upper end (edge portion 30) of the tubular portion 25, a plurality of arm portions 35 projecting upward from the annular portion 34, and the upper end of these arm portions 35. It is provided with a covering portion 36 which is a provided top surface portion.

On the outer side of the lower end of the annular portion 34, a plurality of leg portions 38 fixed to the holder mounting portion 29 with screws 37 are projected. A plurality of locking portions 39 for detachably locking the light source unit 12 are provided inside the lower end of the annular portion 34. These locking portions 39 are composed of locking claws protruding inward from the lower end side of the annular portion 34, and a recessed holding groove portion 40 is formed on the inner peripheral surface side. In this embodiment, the pair of locking portions 39 are arranged symmetrically with respect to the center of the annular portion 34.

The arm portion 35 is projected from three positions in the circumferential direction of the annular portion 34, two of which are arranged on the arrangement side of the power supply unit 13 in the annular portion 34, and the remaining one arm portion 35 is provided. It is arranged on the side opposite to the arrangement side of the power supply unit 13 in the annular portion 34. The two arm portions 35 arranged on the arrangement side of the power supply unit 13 in the annular portion 34 are raised straight upward from the annular portion 34. One arm portion 35 arranged on the side of the annular portion 34 opposite to the arrangement side of the power supply unit 13 is inclined toward the arrangement side of the power supply unit 13 after rising upward from the annular portion 34. That is, an inclined surface 41 inclined to the arrangement side of the power supply unit 13 is formed on the upper side of the arm portion 35.

The covering portion 36 is arranged so as to face the inside of the annular portion 34 and above the light source accommodating portion 27 of the tubular portion 25 (above the through hole 31).

The holder 21 is attached to the frame body 20 so that the center of the annular portion 34 coincides with the center of the frame body 20, that is, the center axis z of the instrument. A gap is provided between the upper end of the frame body 20 and the lower end of the annular portion 34, and this gap is configured as a ventilation portion 42 provided between the frame body 20 and the holder 21. The ventilation portion 42 is provided over the entire circumference between the frame body 20 and the holder 21 except for the portions of the plurality of arm portions 35. Further, an opening 43 is formed between the annular portion 34, the plurality of arm portions 35, and the covering portion 36.

The inner diameter of the annular portion 34 and the inner diameter of the arm portion 35 continuous with the annular portion 34 are the same as or slightly smaller than the inner diameter of the edge portion 30 (through hole 31) of the frame body 20, and the distance between the pair of locking portions 39 ( The inner diameter) is smaller than the inner diameter of the edge 30 (through hole 31) of the frame body 20. The inner surface of the annular portion 34 and the inner surface of the arm portion 35 are configured as guide portions 44 for guiding the insertion of the light source unit 12 (the heat radiating portion 62 of the radiator body 51 described later).

The holder 21 is provided at a position where each position of the locking portion 39 is deviated from each position of the arm portion 35 and the covering portion 36 when viewed from the front-rear direction. This is so that when the holder 21 is manufactured, the holder 21 can be formed by die-cutting in the front-rear direction.

Further, the mounting spring 22 is composed of a leaf spring, and the base end side is mounted on the mounting spring mounting portion 28 of the frame body 20, and the tip end side is configured to expand outward of the frame body 20. Then, the mounting spring 22 can be inserted into the embedding hole of the ceiling member together with the frame body 20 in a state of being elastically deformed along the side surface of the frame body 20, and further expanded laterally above the ceiling member by the spring force. By doing so, the frame body 20 is pulled up in contact with the upper surface side of the ceiling member, and the entire lighting device 10 is supported by the ceiling member in a state where the flange portion 26 of the frame body 20 is in contact with the lower surface of the ceiling member. It is configured as follows.

Next, the light source unit 12 includes a light emitting module 50, a radiator 51 as a housing for arranging the light emitting module 50 on the front side, a reflector 52 arranged on the front side of the heat radiating body 51, and a front cover 53. , And a wiring portion 54 arranged on the rear side of the radiator 51.

The light emitting module 50 includes a substrate 56, a plurality of light emitting elements 57 mounted on the substrate 56, and a connector 58. The substrate 56 is made of metal, for example, and is formed in a disk shape, a predetermined wiring pattern is formed on the front surface side via an insulating layer, and a plurality of light emitting elements 57 and a connector 58 are mounted on the wiring pattern. For the light emitting element 57, for example, a surface mount type LED is used. As the light emitting module 50, a COB module in which a plurality of LED chips mounted on a substrate are sealed with a phosphor layer may be used, or not limited to LEDs, other light emitting elements such as organic EL may be used. You may.

When the light source unit 12 has a plurality of types according to the difference in the light emission output and the light emission color of the light emitting module 50, the power supply unit 13 is used so that an appropriate lighting power source is supplied from the power supply unit 13 for each type. Is configured so that it can be identified. For example, the light emitting module 50 is configured to output signals according to the type to the power supply unit 13.

Further, the heat radiating body 51 is made of a metal material such as aluminum, and is integrally formed in a substantially cylindrical shape. The heat radiating body 51 has a base portion 61 on the front surface side (lower surface side) and a heat radiating portion 62 provided on the rear surface side (upper surface side) of the base portion 61.

The base portion 61 of the radiator 51 includes a disk-shaped substrate arrangement portion 64, an annular inclined portion 65 projecting from the peripheral portion of the substrate arrangement portion 64 so as to expand forward, and the inclined portion 65. It has an annular step portion (contact portion) 66 projecting from the front end side of the step portion 66 in the outer diameter direction, and an annular peripheral surface portion 67 projecting forward from the peripheral portion of the step portion 66.

The front surface side of the substrate arrangement portion 64 of the base portion 61 is formed in a flat shape, and the rear surface of the substrate 56 of the light emitting module 50 is arranged on the front side of the substrate arrangement portion 64 via the heat conductive sheet 68. ..

A plurality of bosses 70 for attaching the reflector 52 with screws 69 are projected on the front side of the inclined portion 65.

The rear surface side (upper surface side) of the step portion 66 is formed in a plane shape parallel to the front surface side of the substrate arrangement portion 64. Further, the outer diameter of the step portion 66, that is, the maximum outer diameter of the base portion 61 is smaller than the inner diameter of the tubular portion 25 of the frame body 20 (the diameter of the light source accommodating portion 27) and larger than the inner diameter of the through hole 31. It is provided.

A locking groove 71 for locking the front cover 53 is formed on the inner circumference of the peripheral surface portion 67.

As shown in FIG. 7, the heat radiating portion 62 of the radiator body 51 includes a plurality of fins 73 radially arranged from the center O (corresponding to the instrument center axis z) on the rear surface side of the base portion 61, and the fins 73. A substantially cylindrical peripheral wall portion 74 provided around the fin 73 so as to integrally connect the outer portions is provided.

The fins 73 are arranged between the long fins 73L having a long dimension from the peripheral wall portion 74 toward the center O and the long fins 73L, and the dimensions from the peripheral wall portion 74 toward the center O are shorter than the long fins 73L. It has fins 73S. Only the long fin 73L is integrally provided on the back side of the base portion 61, and the short fin 73S is separated from the base portion 61. The short fin 73S may also be integrally provided on the back side of the base portion 61.

The rear end (upper end) of the long fin 73L and the short fin 73S is inclined toward the front side from the rear end (upper end) of the peripheral wall portion 74, and the inner part of the long fin 73L also faces the front side. It is tilted. A step portion 75 as a holding portion is formed on the inner portion of some of the long fins 73L.

On the rear side of the heat radiating portion 62, a central space portion 76 in which fins 73 and the like are not arranged is formed in the central region on the rear surface side of the base portion 61, and is surrounded by long fins 73L adjacent to each other around the central space portion 76. A space 77 between fins (sandwiched) is formed. These inter-fin space portions 77 are communicated with the central space portion 76, and short fins 73S are arranged in the inter-fin space portion 77. The rear surface side of the heat radiating portion 62 is open, that is, the rear surface side of the central space portion 76 and the inter-fin space portion 77 is open.

The front end side of the peripheral wall portion 74 (the peripheral portion on the front surface side of the heat radiating portion 62) faces the base portion 61 at a distance. A ventilation hole 78 is formed between the inside of the peripheral wall portion 74 on the front end side (the peripheral portion on the front side of the heat radiating portion 62) and the base portion 61 to communicate the outside and the inside of the peripheral wall portion 74 (heat radiating portion 62). There is. The ventilation holes 78 are opposed to the rear surface side (inclined surface) of the inclined portion 65 of the base portion 61 at intervals, and are communicated with the outside of the heat radiating body 51 and also communicated with the inter-fin space portion 77, respectively. .. The long fin 73L is provided so as to cross the upper region of the ventilation hole 78, and the short fin 73S protrudes into the upper region of the ventilation hole 78.

The outer diameter of the peripheral wall portion 74 is smaller than the outer diameter of the base portion 61. Further, the outer diameter of the peripheral wall portion 74 is smaller than the inner diameter of the tubular portion 25 of the frame body 20 (the diameter of the light source accommodating portion 27), and the inner diameter of the through hole 31 of the frame body 20 and the annular portion 34 of the holder 21. It is provided slightly smaller than the inner diameter (and the inner diameter between the plurality of arm portions 35).

The peripheral wall portion 74 is provided with a plurality of attachment / detachment groove portions 79 that allow the locking portions 39 of the holder 21 to be inserted in the front-rear direction, and the front end side of the peripheral wall portion 74 on one side of the attachment / detachment groove portions 79 in the circumferential direction. A locking groove 80 is provided in each of the locking portions 39 of the holder 21 so that the holder 21 can be locked. The front end side of the attachment / detachment groove portion 79 and the locking groove portion 80 are communicated with each other and are also communicated with the ventilation hole 78.

In the present embodiment, the pair of attachment / detachment groove portions 79 are arranged symmetrically with respect to the center O of the radiator body 51 corresponding to each position of the pair of locking portions 39 of the holder 21. The attachment / detachment groove 79 is provided between the adjacent fins 73 and between the long fins 73L.

The distance between the groove inner upper surface of the locking groove portion 80 and the step portion 66 of the base portion 61 is the distance between the front surface side of the edge portion 30 of the frame body 20 and the rear surface side of the locking portion 39 of the holder 21. They are provided almost the same. The end side of the locking groove 80 on the attachment / detachment groove 79 side (the end side of the upper surface of the locking groove 80 in the groove) is curved or inclined in order to facilitate engagement with the locking portion 39 of the holder 21. It is formed on the surface.

A holding spring mounting portion 81 is projected from the rear surface side of the base portion 61 corresponding to each position of the locking groove portion 80 in the heat radiating portion 62. A holding spring 82 that engages with the locking portion 39 of the holder 21 is attached to the holding spring mounting portion 81 with a screw 83. The holding spring 82 is composed of a leaf spring, and has a holding portion 84 that can be engaged with the holding groove portion 40 of the locking portion 39 of the holder 21.

The connector mounting portion 85 from the rear surface side of the base portion 61 on the side portion of one holding spring mounting portion 81 (the side portion on the side opposite to the attachment / detachment groove portion 79) and on the arrangement side of the power supply unit 13 in the radiator body 51. And the wiring mounting part 86 is projected. In the vicinity of the wiring mounting portion 86, a wiring hole 65a is formed through the inclined portion 65 of the base portion 61.

Further, as shown in FIGS. 1 and 2, the reflector 52 has an annular shape with an opening at the center, and is provided with a reflecting surface that expands toward the front. A fitting portion 88 that fits around the peripheral portion of the substrate 56 is provided on the rear side of the reflector 52. The reflector 52 is fastened and fixed to the base portion 61 with a plurality of screws 89 screwed to the boss 70 provided on the base portion 61 of the radiator body 51, and at that time, the substrate 56 is fixed to the base portion 61 by the fitting portion 88. It is held in a state of being pressed against the substrate arrangement portion 64 of.

Further, the front cover 53 has translucency and is formed in a disk shape so as to cover the front side of the base portion 61 of the heat radiating body 51. A plurality of locking claws 91 to be locked in the locking groove 71 of the base portion 61 are projected from the peripheral portion of the front cover 53.

A lens portion 92 such as a Fresnel lens is formed on the inner surface (rear surface side) of the front cover 53. An outer lens portion 93 is formed on the peripheral portion of the outer surface (front side) of the front cover 53, and a pair of, for example, triangular marking portions 94 are provided corresponding to each position of the attachment / detachment groove portion 79 of the radiator body 51. In addition, a pair of finger hooking portions 95 for hooking a finger at a position intersecting with the marking portions 94 to rotate the light source unit 12 are provided.

Further, as shown in FIGS. 1 to 4, the wiring portion 54 has a light source side connector 97 and a connector holder 98 for attaching the light source side connector 97 to the heat radiating body 51.

The light source side connector 97 has a substantially rectangular parallelepiped connector main body 99 having insulating properties, and terminals (not shown) arranged inside the connector main body 99. A connector connection portion 100 having a female connector structure is provided on one end side of the light source side connector 97 in the connector connection direction f, and one end of the light source side cable 101 is connected to the other end side opposite to one end side. At the other end of the light source side cable 101, a connector (not shown) connected to the connector 58 of the light emitting module 50 is provided. The light source side cable 101 is wired to the front side and the rear side of the base portion 61 through the wiring hole 65a of the base portion 61. The intermediate portion of the light source side cable 101 is held by the wiring attachment portion 86 by a holder (not shown).

The connector holder 98 is formed of a metal plate, and has a mounting plate portion 102 and an inclined plate portion 103 that is obliquely bent from the mounting plate portion 102. The mounting plate portion 102 is fixed to the holder mounting portion 29 of the radiator body 51 with screws 104. The mounting plate 102 is formed with a connecting hole 105 for connecting the other end of a hanging string (not shown) whose one end is connected to the main body unit 11 in order to prevent the light source unit 12 from falling. The inclined plate portion 103 is formed with a holding hole 106 for holding the light source side connector 97 in the inserted state.

The inclined plate portion 103 of the connector holder 98 and the light source side connector 97 attached to the heat radiating body 51 are arranged in the central space portion 76 of the heat radiating body 51. The tip of the inclined plate portion 103 of the connector holder 98 is held in contact with the stepped portion 75 of the long fin 73L.

The connector connection direction f perpendicular to the end surface of the connector connection portion 100 of the light source side connector 97 is oblique to the front-rear direction (apparatus center axis z) of the radiator body 51, and avoids the cover portion 36 of the holder 21. At the same time, the arm portion 35, the annular portion 34, and the like are also avoided, and the holder 21 is arranged so as to face the opening 43 of the holder 21.

Next, as shown in FIGS. 1 to 6, the power supply unit 13 includes a power supply board 110 on which a power supply circuit is mounted, a power supply case 111 accommodating the power supply board 110, and a top plate 112 to which the power supply case 111 is attached. It also has terminal blocks 113 and 114 attached to the top plate 112.

The power supply circuit of the power supply board 110 inputs a commercial AC power supply, converts it into a predetermined DC power supply, and supplies it to the light emitting module 50. At this time, for example, the power supply circuit inputs a signal according to the type from the light emitting module 50 of the light source unit 12, and supplies an appropriate DC power supply according to the type of the light emitting module 50.

One end of the top plate 112 is fixed to the rear surface side of the covering portion 36 of the holder 21 with screws 115. As a result, the power supply unit 13 is attached so as to project to the side of the main body unit 11 on the rear side of the main body unit 11.

The terminal blocks 113 and 114 are arranged on the tip side of the top plate 112 away from the main unit 11, and are connected to the power supply board 110 by a cable (not shown). One terminal block 113 is for connecting a power supply line, and the other terminal block 114 is for connecting a signal line for transmitting a control signal such as a dimming signal.

A power supply side cable 116 connected to the DC power supply output unit of the power supply board 110 is pulled out from the end surface of the power supply case 111 facing the main body unit 11. At the tip of the power supply side cable 116, a power supply side connector 117 that is detachably connected to the light source side connector 97 along the connector connection direction f is provided. The length of the power supply side cable 116 is such that the power supply side connector 117 can be connected to the light source side connector 97 of the light source unit 12 below the main body unit 11.

The power supply side connector 117 has a substantially rectangular parallelepiped connector main body 118 having insulation, and terminals (not shown) arranged inside the connector main body 118. A connector connection portion 119 having a male connector structure is provided on one end side of the power supply side connector 117 in the connector connection direction f, and the tip of the power supply side cable 116 is connected to the other end side opposite to one end side.

In the lighting device 10, a plurality of types of frame bodies 20 of the main body unit 11 are prepared according to the type of the size of the embedding hole of the ceiling member, but the holder 21 is commonly used and the power supply unit 13 is also common. In addition, a plurality of types of radiators 51 of the light source unit 12 are also prepared.

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

First, the main body unit 11 to which the power supply unit 13 is attached is installed on the ceiling member.

The power supply line and signal line drawn downward from the embedded hole of the ceiling member are connected to the terminal blocks 113 and 114 of the lighting device 10, respectively.

Insert the tip side of the power supply unit 13 side upward into the embedding hole of the ceiling member from below, and then press the plurality of mounting springs 22 so as to elastically deform along the frame body 20 and the main body unit 11. The main body unit 11 is inserted into the embedding hole from below while rotating so that the rear side is inserted into the embedding hole (so that the rear surface side of the main body unit 11 faces upward).

When the pressers of the plurality of mounting springs 22 are released and the main body unit 11 is inserted into the embedding holes, the plurality of mounting springs 22 expand laterally by the spring force and engage with the upper surface side of the ceiling member. The mounting spring 22 of the main body unit 11 pulls up the main body unit 11 by the spring force, and the flange portion 26 of the frame body 20 of the main body unit 11 stops in a state of being in contact with the lower surface of the ceiling member. This completes the installation of the main unit 11.

Subsequently, the light source unit 12 is attached to the main body unit 11.

When the main unit 11 is installed, the tip side of the power supply side cable 116 connected to the power supply unit 13 is pulled out downward through the inside of the holder 21 and the frame body 20.

Below the main body unit 11, the power supply side connector 117 of the power supply side cable 116 pulled out from the main body unit 11 is connected to the light source side connector 97.

Since each position of the locking portion 39 of the holder 21 can be confirmed by looking at the inside of the frame body 20 of the main body unit 11 from below, each position of the attachment / detachment groove portion 79 of the light source unit 12 can be confirmed at each position of the locking portion 39 of the holder 21. The light source unit 12 is inserted into the frame body 20 of the main body unit 11 from below according to the position.

When the light source unit 12 is inserted into the main body unit 11, the rear end side of the heat radiating portion 62 of the radiating body 51 penetrates the through hole 31 of the frame body 20, and the holder 21 is locked in the attachment / detachment groove portion 79 of the radiating portion 62. As the portion 39 relatively enters, the heat radiating portion 62 is inserted inside the holder 21. At this time, if the position of the attachment / detachment groove 79 of the heat radiating portion 62 deviates from the position of the locking portion 39 of the holder 21, the upper end of the heat radiating portion 62 comes into contact with the locking portion 39 of the holder 21 and the light source unit 12 The light source unit 12 can be inserted into the main body unit 11 by rotating the light source unit 12 so that the position of the attachment / detachment groove 79 of the heat radiation unit 62 matches the position of the locking portion 39 of the holder 21. .. Further, since the outer diameter of the heat radiating portion 62 is provided to be slightly smaller than the inner diameter of the through hole 31 of the frame body 20 and the inner diameter of the holder 21, the guide portion 44 on the inner surface of the through hole 31 and the inner surface of the holder 21 is provided. It serves as a guide for inserting the heat radiating unit 62, prevents the insertion direction of the heat radiating unit 62 from being tilted with respect to the central axis z of the fixture, and can smoothly insert the light source unit 12 into the main body unit 11.

At this time, since the power supply side cable 116 has a length below the main body unit 11 so that the power supply side connector 117 can be connected to the light source side connector 97 of the light source unit 12, the light source unit 12 is connected to the main body unit 11. As it is inserted, an extra length portion is generated in the power supply side cable 116. Therefore, when the light source unit 12 is inserted into the main body unit 11, there is a possibility that the extra length portion of the power supply side cable 116 may be sandwiched between the light source unit 12 and the holder 21 of the main body unit 11. In the present embodiment, the connector connection direction f of the light source side connector 97 is directed toward the opening 43 of the holder 21 while avoiding the covering portion 36 of the holder 21 and avoiding the arm portion 35 and the annular portion 34 and the like. Since it is arranged, when the light source unit 12 is inserted into the main body unit 11, the extra length portion of the power supply side cable 116 pulled out from the power supply side connector 117 connected to the light source side connector 97 is the holder 21. It easily protrudes outward from the opening 43, and can prevent the power supply side cable 116 from being pinched between the light source unit 12 and the holder 21 of the main body unit 11.

Further, when the light source unit 12 is inserted into the main body unit 11, the peripheral portion of the base portion 61 comes into contact with the edge portion 30 of the frame body 20, and the insertion of the light source unit 12 is stopped. At the insertion position of the light source unit 12, the locking groove 80 of the heat radiating portion 62 is located on the side of the locking portion 39 of the holder 21.

After the insertion of the light source unit 12 is completed, the light source unit 12 is rotated in a predetermined mounting direction so that the locking groove 80 of the heat radiating portion 62 engages with the locking portion 39 of the holder 21 and the heat radiating portion 62 is locked. The holding portion 84 of the holding spring 82 is engaged with the holding groove portion 40 of the locking portion 39 while being caught on the portion 39 to be restricted from descending, and the engaged state between the heat radiating portion 62 and the locking portion 39 is maintained. To. As a result, the installation of the light source unit 12 is completed.

When the main body unit 11 is installed on the ceiling member, it can be installed in a state where the light source unit 12 is attached to the main body unit 11.

Further, the light source unit 12 can be removed from the main body unit 11 for maintenance, replacement due to life, replacement due to a change in light output, and the like.

In this case, by rotating the light source unit 12 in the removal direction opposite to the mounting direction, the locking groove 80 of the heat radiating portion 62 is disengaged from the locking groove 39 of the holder 21, and the attachment / detachment groove 79 of the heat radiating portion 62 is removed. The light source unit 12 can be removed from the main body unit 11 by moving the light source unit 12 downward after moving it to the position of the locking portion 39 of the holder 21.

When the lighting device 10 is installed, the heat radiating portion 62 of the radiating body 51 penetrates the through hole 31 of the frame body 20 and is arranged inside the holder 21 above, and the base portion 61 of the radiating body 51 is a frame body. Placed inside 20.

Since the outer diameter of the base portion 61 of the heat radiating body 51 is larger than the inner diameter of the through hole 31 of the frame body 20, the through hole 31 is concealed by the base portion 61. Therefore, even when looking up at the lighting device 10, the ceiling can not be seen through the through hole 31 of the frame body 20, and the appearance of the lighting device 10 can be improved.

Further, in the state where the light source unit 12 is held by the holder 21, the base portion 61 comes into contact with the edge portion 30 of the frame body 20. Therefore, the light source unit 12 can be held in the main body unit 11 without rattling.

Further, the covering portion 36 of the holder 21 covers the upper part of the connectors 97 and 117 arranged on the back side of the light source unit 12. Therefore, it is possible to reduce dust and dirt falling in the upper region of the ceiling member from adhering to the connectors 97 and 117.

Further, the connector connection direction f perpendicular to the end surface of the connector connection portion 100 of the light source side connector 97 is oblique to the front-rear direction (apparatus center axis z) of the radiator body 51, and the cover portion 36 of the holder 21. The arm portion 35, the annular portion 34, and the like are also avoided, and the holder 21 is arranged so as to face the opening 43 of the holder 21. Therefore, the power supply side cable 116 pulled out from the power supply side connector 117 connected to the light source side connector 97 does not easily hit the holder 21 including the covering portion 36, and it is possible to prevent an excessive force from being applied to the power supply side cable 116. As a result, the distance between the rear surface side of the light source unit 12 and the covering portion 36 of the holder 21 can be narrowed, and the height of the fixture of the lighting device 10 can be lowered. Therefore, the lighting device 10 can be miniaturized by making the connector connection direction f of the connector connection portion 100 of the light source side connector 97 oblique with respect to the front-rear direction (apparatus center axis z) of the radiator body 51.

Further, the ventilation hole 78 of the heat radiating body 51 is opposed to the ventilation portion 42 between the frame body 20 of the main body unit 11 and the holder 21. Therefore, a ventilation path is formed in which air flows from the outside of the main body unit 11 to the inside of the heat dissipation portion 62 through the ventilation portion 42 and the ventilation hole 78.

Then, by supplying a predetermined DC power supply from the power supply unit 13 to the light emitting module 50, the light emitting element 57 of the light emitting module 50 emits light, and the light from the light emitting element 57 passes through the front cover 53 and is irradiated to the illumination space. Ru.

The heat generated by the light emitting element 57 during light emission is transferred from the substrate 56 to the substrate arrangement portion 64 of the base portion 61, and a plurality of long fins 73L from the upper surface of the substrate arrangement portion 64 and the peripheral wall portion 74 from these long fins 73L. Further, it is transmitted from the peripheral wall portion 74 to a plurality of short fins 73S, and heat is dissipated into the air from the entire heat radiating portion 62.

At this time, the heat radiating body 51 includes a plurality of long fins 73L and a plurality of short fins 73S, and the short fins 73S are arranged between the adjacent long fins 73L, so that the heat radiating effect can be improved.

If the short fins 73S have the same dimensions as the long fins 73L, the distance between the fins becomes narrower, the air flow for heat dissipation decreases, and as a result, the heat dissipation of the radiator 51 deteriorates. Cheap. Further, if the short fins 73S are not arranged between the adjacent long fins 73L, the heat dissipation area cannot be secured and the improvement of heat dissipation cannot be expected.

Therefore, the radiator 51 is provided with a plurality of long fins 73L and a plurality of short fins 73S, and by arranging the short fins 73S between the adjacent long fins 73L, the air flow for heat dissipation is secured. , The heat dissipation area can be increased by the short fin 73S to secure the heat dissipation from the short fin 73S, and the heat dissipation of the radiator body 51 can be improved.

Moreover, when the short fin 73S is separated from the base portion 61, the temperature of the portion of the short fin 73S is relatively lower than that of the other portions of the heat radiating portion 62, and the heat of the base portion 61 is transferred to the long fin 73L and the peripheral wall. It is easy to absorb heat through the part 74, and the heat dissipation of the radiator 51 can be improved. When the short fins 73S are integrally provided on the base portion 61, heat is directly transferred from the base portion 61 to the short fins 73S, and the heat dissipation of the radiator body 51 can be improved.

Further, since the heat radiating body 51 is formed with a ventilation hole 78 between the base portion 61 and the peripheral wall portion 74, the convection generated in the heat radiating body 51 causes relatively low temperature air around the heat radiating body 51 to flow. It flows into the heat radiating part 62 through the ventilation hole 78, absorbs heat inside the heat radiating part 62, and is discharged from the heat radiating part 62 to the upper surface side, so that an effective air flow for heat dissipation is secured and heat is dissipated. The heat dissipation of the body 51 can be improved.

Further, since the base portion 61 is provided with the inclined portion 65 facing the ventilation hole 78, the inclined portion 65 facilitates the flow of air flowing from the periphery of the radiator 51 to the ventilation hole 78 to dissipate heat. The heat dissipation of the body 51 can be improved.

Further, since the long fins 73L and the short fins 73S are arranged to face each other in the ventilation holes 78, the external relatively low temperature air flowing in from the ventilation holes 78 effectively acts on the long fins 73L and the short fins 73S. , The heat dissipation effect from the long fin 73L and the short fin 73S can be enhanced.

Further, the light source unit 12 is arranged inside the frame body 20 and the holder 21 of the main body unit 11, but since the ventilation portion 42 is provided between the frame body 20 and the holder 21, it occurs in the heat radiating body 51. Due to convection, air having a relatively low temperature outside the frame body 20 and the holder 21 flows to the heat radiating body 51 of the light source unit 12 through the ventilation portion 42, so that the heat radiating property of the heat radiating body 51 can be improved.

Moreover, since the vent 78 of the radiator 51 faces the vent 42, relatively low temperature air outside the frame 20 and the holder 21 flows from the vent 42 to the inside of the radiator 62 through the vent 78. It becomes easier to flow, and the heat dissipation of the radiator 51 can be further improved. Further, the lower end position of the annular portion 34 of the holder 21 constituting the upper side of the ventilation portion 42 is above or the same as the peripheral wall portion 74 of the heat dissipation portion 62, so that the air flows from the ventilation portion 42 to the ventilation hole 78 of the heat dissipation portion 62. The air flow can be made smooth, and the heat dissipation of the radiator 51 can be further improved.

Further, since the peripheral wall portion 74 is not provided at the attachment / detachment groove portion 79 of the heat radiating body 51, a smooth and large air flow is likely to occur as compared with the place where the peripheral wall portion 74 is provided, and the heat dissipation property of the heat radiating body 51 can be improved.

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

10 Lighting equipment
11 Main unit
12 Light source unit
13 Power supply unit
20 frame
21 holder
36 Cover
50 Luminous module
51 Heat radiator
57 Light emitting element
97 Light source side connector
116 Power cable
117 Power supply side connector f Connector connection direction

Claims (2)

A light emitting module having a light emitting element, a radiator having the light emitting module arranged on the front side, and a radiator connected to the rear portion of the radiator so that the connector connection direction is oblique to the front-rear direction of the radiator. With a light source unit having a light source side connector;
A frame body opened in the front-rear direction and arranging the light source unit, and a main body unit having a holder for holding the light source unit in the frame body;
Have a one end to the light source side connector connected to the power source side cable power supply side connector is provided, while being disposed on the side of the main unit, the inside of the main unit one end of the power source side cable With a power supply unit that can be pulled out to the front of the main unit through
A lighting device characterized by comprising. The main body unit has a covering portion facing the rear portion of the radiator body.
The lighting device according to claim 1, wherein the light source side connector is arranged so that the connector connection direction is directed in a direction avoiding the covering portion.

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