JP2020170728A - Light source module and lighting device - Google Patents

Abstract

To provide a light source module which has improved assemblability, and to provide a lighting device.SOLUTION: A light source module of an embodiment includes: a support having a first portion made of a metal and has an elongated plate shape and a pair of second engagement part and third engagement part extending from a first surface of the first portion in a direction to a second surface opposite to the first surface; a light source substrate provided on the first surface of the support; and a resin cover that has a body part which covers the light source substrate, first and second contact parts that which extend from both ends of the body part and are provided parallel to the first surface of the support. The first and second contact parts are e integrally formed with the body part so as to cover the first and second engagement parts [sic, the second and third engagement parts] of the support. The resin cover is attached to the support without covering the second surface of the support.SELECTED DRAWING: Figure 1

Description

Embodiments of the present invention relate to light source modules and luminaires.

There are lighting fixtures that are attached to the ceiling to illuminate the room. Some of these indoor lighting fixtures include a light source module and a fixture body that supports the light source module. The light source module includes a support that supports the substrate including the light source, and a cover that covers the substrate provided on the support. In such a light source module, improvement in assembling property is desired.

JP-A-2012-3993

Embodiments of the present invention provide a light source module and a luminaire with improved assemblability.

The light source module according to the embodiment of the present invention has a long metal plate-shaped first portion and a pair of second portions extending from the first surface of the first portion toward the second surface opposite to the first surface. A support having a joint portion and a third engaging portion; a light source substrate provided on the first surface of the support; a main body portion covering the light source substrate, and a main body portion extending from both ends of the main body portion of the support. The first and second abutting portions provided parallel to the first surface and the first and second engaging portions of the support are covered from the outside and integrally formed with the main body portion to form the second surface of the support. It is characterized by having a resin cover that can be attached to the support without covering.

Light source joules and luminaires with improved assemblability are provided.

1 (a) and 1 (b) are perspective views schematically showing the light source module according to the first embodiment. It is an exploded perspective view which shows typically the light source module which concerns on 1st Embodiment. 3 (a) and 3 (b) are cross-sectional views schematically showing the light source module according to the first embodiment. It is a partial perspective view which shows the part of the light source module which concerns on 1st Embodiment by enlarging. 5 (a) and 5 (b) are perspective views schematically showing the lighting fixture according to the second embodiment. It is sectional drawing which shows typically the lighting equipment which concerns on 2nd Embodiment. It is a top view which shows a part of the luminaire which concerns on 2nd Embodiment schematically. 8 (a) and 8 (b) are perspective views schematically showing the lighting fixture according to the third embodiment. It is sectional drawing which shows typically the lighting equipment which concerns on 3rd Embodiment. It is a partial perspective view which shows a part of the luminaire which concerns on 3rd Embodiment schematically. It is a partial cross-sectional view schematically showing a part of the luminaire according to the 3rd Embodiment.

Hereinafter, each embodiment will be described with reference to the drawings.
The drawings are schematic or conceptual, and the relationship between the thickness and width of each part, the ratio of the sizes between the parts, and the like are not necessarily the same as the actual ones. Further, even when the same parts are represented, the dimensions and ratios may be different from each other depending on the drawings.
In the specification of the present application and each figure, the same elements as those described above with respect to the above-mentioned figures are designated by the same reference numerals, and detailed description thereof will be omitted as appropriate.

(First Embodiment)
1 (a) and 1 (b) are perspective views schematically showing the light source module according to the first embodiment.
FIG. 2 is an exploded perspective view schematically showing the light source module according to the first embodiment.
3 (a) and 3 (b) are cross-sectional views schematically showing the light source module according to the first embodiment.
FIG. 4 is a partial perspective view schematically showing an enlarged part of the light source module according to the first embodiment.
As shown in FIGS. 1 to 4, the light source module 10 includes a support 11, a cover 12, and a holding member 13.

The support 11 supports the substrate 15. The substrate 15 may be fixed to the support 11 by adhesion or the like, or may be detachably attached to the support 11 by screwing or the like. The support 11 may detachably support the substrate 15.

A light source 16 is provided on the substrate 15. For example, a plurality of light sources 16 are provided on the substrate 15. The light sources 16 are arranged side by side on the surface 15a of the substrate 15. The number of light sources 16 may be arbitrary. The number of light sources 16 may be, for example, one.

For the light source 16, for example, a light emitting diode (LED) is used. The light source 16 may be, for example, an organic light emitting diode (OLED), an inorganic electroluminescent light emitting element, an organic electroluminescent light emitting element, or another electroluminescent light emitting element. Good. The light source 16 may be, for example, a light bulb.

The cover 12 is attached to the support 11 and covers the substrate 15 supported by the support 11. The cover 12 protects the substrate 15 and each light source 16 from, for example, external force and dust. The cover 12 has light transmission. The cover 12 is light transmissive to the light emitted by each light source 16. The cover 12 is, for example, transparent. The cover 12 may have, for example, light diffusivity. For the cover 12, for example, a light-transmitting resin material is used.

The holding member 13 holds the cover 12 on the support 11. That is, the holding member 13 prevents the cover 12 from coming off the support 11. The light source module 10 is provided with, for example, a plurality of holding members 13. In this example, three holding members 13 are provided. The number of holding members 13 may be arbitrary. The number of the holding members 13 may be, for example, one or two, or four or more.

The support 11 has a first portion 21, a second portion 22, and a third portion 23. The first portion 21 has a first surface 21a extending in the first direction and a second surface 21b opposite to the first surface 21a. The first portion 21 has a plate shape. The first portion 21 is, for example, a long plate long in the first direction. In this example, the first surface 21a and the second surface 21b are substantially rectangular. The shape of the first surface 21a and the shape of the second surface 21b are not limited to a rectangular shape, and may be any shape extending in the first direction. Further, in this example, the second surface 21b is substantially parallel to the first surface 21a.

Here, the direction parallel to the first direction is defined as the X-axis direction. The direction parallel to the first surface 21a and perpendicular to the X-axis direction is defined as the Y-axis direction. The direction perpendicular to the X-axis direction and the Y-axis direction is defined as the Z-axis direction. The Z-axis direction is a direction perpendicular to the first surface 21a.

The second portion 22 is provided at one side end 21p extending in the X-axis direction of the second surface 21b. The second portion 22 extends in the direction of the second surface 21b. In other words, the second portion 22 extends in the direction from the first surface 21a to the second surface 21b.

The third portion 23 is provided at the other side end 21q extending in the X-axis direction of the second surface 21b. The second portion 22 extends in the direction of the second surface 21b.

In this example, the shape of the support 11 viewed in the X-axis direction is substantially U-shaped. The second portion 22 and the third portion 23 are so-called ribs. The shape of the support 11 viewed in the X-axis direction may be, for example, an H shape. That is, the second portion 22 and the third portion 23 may extend at least in the direction in which the second surface 21b faces, and may further extend in the direction in which the first surface 21a faces. In this example, the second portion 22 and the third portion 23 extend in a direction substantially perpendicular to the second surface 21b. The second portion 22 and the third portion 23 may be inclined with respect to the second surface 21b. For the support 11, a metal material such as iron, aluminum, or stainless steel is used. The support 11 is formed, for example, by bending a metal plate.

Further, in this example, the support 11 is provided with one second portion 22 extending in the X-axis direction along one side end 21p of the second surface 21b. One third portion 23 extending in the X-axis direction is provided along the other side end 21q of the second surface 21b. Not limited to this, for example, a plurality of second portions 22 arranged in the X-axis direction may be provided, or a plurality of third portions 23 arranged in the X-axis direction may be provided.

The support 11 supports the substrate 15 on the first surface 21a. The substrate 15 is provided on the first surface 21a. The support 11 supports the substrate 15 with the surface 15a of the substrate 15 facing in the direction of the first surface 21a. As a result, light is irradiated in the direction of the first surface 21a.

Further, the length (width) of the first surface 21a in the Y-axis direction is longer than the length of the substrate 15 in the Y-axis direction. Therefore, one end 21m extending in the X-axis direction of the first surface 21a and the other end 21n extending in the X-axis direction of the first surface 21a are attached to the substrate 15 even when the substrate 15 is supported. Not covered.

The cover 12 has a main body portion 30, a first contact portion 31, a second contact portion 32, a first engaging portion 33, and a second engaging portion 34.

The main body 30 faces the first surface 21a and covers the substrate 15 supported by the first surface 21a. The main body portion 30 includes, for example, a first plate portion 30a facing the first surface 21a, a second plate portion 30b extending in the Z-axis direction from one end of the first plate portion 30a in the Y-axis direction, and a first plate portion 30a. Includes a third plate portion 30c extending in the Z-axis direction from the other end in the Y-axis direction.

In this example, the second plate portion 30b and the third plate portion 30c are inclined with respect to the XX plane. The distance in the Y-axis direction between the second plate portion 30b and the third plate portion 30c becomes longer in the light irradiation direction. The distance in the Y-axis direction between the second plate portion 30b and the third plate portion 30c becomes continuously long, for example, in the light irradiation direction. That is, the second plate portion 30b and the third plate portion 30c are tapered. The shape of the main body 30 viewed in the X-axis direction is, for example, a fan shape. Thereby, for example, when the light source module 10 is installed on the ceiling, the ceiling surface can be efficiently illuminated by the light emitted from the second plate portion 30b and the third plate portion 30c.

The first contact portion 31 is provided at one end of the main body portion 30 in the Y-axis direction. The first contact portion 31 is provided, for example, at an end portion of the second plate portion 30b opposite to the first plate portion 30a. The first contact portion 31 comes into contact with one side end 21m of the first surface 21a.

The second contact portion 32 is provided at the other end of the main body portion 30 in the Y-axis direction. The second contact portion 32 is provided, for example, at an end portion of the third plate portion 30c opposite to the first plate portion 30a. The second contact portion 32 comes into contact with the other side end 21n of the first surface 21a.

In this example, the first contact portion 31 and the second contact portion 32 are in direct contact with the first surface 21a. The first contact portion 31 and the second contact portion 32 do not necessarily have to be in direct contact with the first surface 21a. The first contact portion 31 and the second contact portion 32 may come into contact with the first surface 21a with another member interposed therebetween.

The first engaging portion 33 is provided at one end of the main body portion 30 in the Y-axis direction. The first engaging portion 33 engages with the end portion 22a of the second portion 22 in the Z-axis direction, and sandwiches the second portion 22 together with the first contact portion 31. The first engaging portion 33 covers, for example, the second portion 22 from the outside.

The second engaging portion 34 is provided at the other end of the main body portion 30 in the Y-axis direction. The second engaging portion 34 engages with the end portion 23a of the third portion 23 in the Z-axis direction, and sandwiches the third portion 23 together with the second contact portion 32. The second engaging portion 34 covers, for example, the third portion 23 from the outside.

In this way, the cover 12 covers the support 11 from the side of the first surface 21a, and engages the engaging portions 33 and 34 with the second portion 22 and the third portion 23. As a result, the cover 12 is attached to the support 11.

The light source module 10 further includes a pair of side plates 17, 18. The side plate 17 is attached to one end of the support 11 and the cover 12 in the X-axis direction. The side plate 18 is attached to the other end of the support 11 and the cover 12 in the X-axis direction. The side plate 17 closes one end of the cover 12 in the X-axis direction. The side plate 18 closes the other end of the cover 12 in the X-axis direction.

The holding member 13 has an opposing portion 40, a first grip portion 41, and a second grip portion 42. The facing portion 40 faces the second surface 21b. The facing portion 40 is in contact with, for example, the second surface 21b. The length of the facing portion 40 in the Y-axis direction is substantially the same as or slightly shorter than the length of the second surface 21b in the Y-axis direction.

The first grip portion 41 is provided at one end of the facing portion 40 in the Y-axis direction. The first grip portion 41 grips the second portion 22 with the first engaging portion 33 sandwiched between them. The first grip portion 41 has, for example, a leaf spring shape, and prevents the first engaging portion 33 from being disengaged by sandwiching the second portion 22 and the first engaging portion 33. ..

The second grip portion 42 is provided at the other end of the facing portion 40 in the Y-axis direction. The second grip portion 42 grips the third portion 23 and the second engaging portion 34 with the second grip portion 42 sandwiched between them. The second grip portion 42 has, for example, a leaf spring shape, and suppresses the engagement of the second engaging portion 34 from being disengaged by sandwiching the third portion 23 and the second engaging portion 34. .. In other words, the holding member 13 is sandwiched between the gripping portions 41 and 42 to suppress the opening of the cover 12.

In this way, the holding member 13 is attached to the support 11 from the second surface 21b side, the second portion 22 and the first engaging portion 33 are sandwiched between the first grip portions 41, and the third portion 23 and the second The cover 12 is held by the support 11 by sandwiching the engaging portion 34 with the second grip portion 42.

The first grip portion 41 is provided with a first stopper portion 43. The first stopper portion 43 engages with the first engaged portion 22b provided on the second portion 22, and faces the second surface 21b of the first grip portion 41 (direction away from the second surface 21b). ) To regulate movement.

The second grip portion 42 is provided with a second stopper portion 44. The second stopper portion 44 engages with the second engaged portion 23b provided in the third portion 23 to restrict the movement of the second grip portion 42 in the direction of the second surface 21b.

With the facing portion 40 in contact with the second surface 21b, the stopper portions 43 and 44 are engaged with each other. As a result, the holding member 13 is held by the support 11. It is possible to prevent the holding member 13 from coming off the support 11. Therefore, the cover 12 is properly held by the support 11.

In this example, three holding members 13 are attached to the support 11. Therefore, the second portion 22 is provided with three first engaged portions 22b arranged side by side in the X-axis direction. The third portion 23 is provided with three second engaged portions 23b arranged side by side in the X-axis direction. For example, the position where the first engaged portion 22b and the second engaged portion 23b are provided is the mounting position of the holding member 13.

In this example, the first stopper portion 43 and the second stopper portion 44 are substantially hemispherical protrusions protruding outward, and the first engaged portion 22b and the second engaged portion 23b are substantially rectangular. It is a through hole in shape. On the contrary, the first stopper portion 43 and the second stopper portion 44 may be used as through holes, and the first engaged portion 22b and the second engaged portion 23b may be used as protrusions. The shapes of the first stopper portion 43, the second stopper portion 44, the first engaged portion 22b, and the second engaged portion 23b may be any shape capable of suppressing the holding member 13 from coming off.

Further, in this example, two of the first stopper portion 43 and the second stopper portion 44 are provided side by side in the X-axis direction. The respective numbers of the first stopper portion 43 and the second stopper portion 44 are arbitrary. Each of the first stopper portion 43 and the second stopper portion 44 may be one or three or more.

The first grip portion 41 is provided with a pair of holding portions 41a and a first claw portion 41b. The holding portions 41a are provided side by side in the X-axis direction. Each holding portion 41a is a portion that is bent into a substantially U shape and sandwiches the second portion 22 and the first engaging portion 33. The first claw portion 41b is provided between the holding portions 41a. The first claw portion 41b projects in a direction substantially parallel to the second surface 21b and in a direction opposite to that of the facing portion 40. The first claw portion 41b projects outward, for example, in the Y-axis direction.

The second grip portion 42 is provided with a pair of holding portions 42a and a second claw portion 42b. The holding portions 42a are provided side by side in the X-axis direction. Each holding portion 42a is bent into a substantially U shape and is a portion that sandwiches the third portion 23 and the second engaging portion 34. The second claw portion 42b is provided between the holding portions 42a. The second claw portion 42b projects in a direction substantially parallel to the second surface 21b and in a direction opposite to that of the facing portion 40. The second claw portion 42b projects outward, for example, in the Y-axis direction.

The claws 41b and 42b are used for attaching the light source module 10 to the instrument body. As described above, the holding member 13 is used not only for holding the cover 12, but also for attaching the light source module 10 to the instrument main body.

For the holding member 13, for example, a metal material such as iron, aluminum, or stainless steel is used. For the holding member 13, for example, a resin material or the like may be used. However, it is preferable to use the above-mentioned metal material for the holding member 13. Thereby, for example, the durability of the holding member 13 can be improved. Further, the holding member 13 is formed of, for example, a single plate material. Thereby, for example, the number of parts can be reduced. For example, the cost of the light source module 10 can be suppressed. For example, when a resin material is used for the holding member 13, the holding member 13 is preferably one part formed by injection molding or the like.

In some light source modules, the cover is screwed to the support. In such a light source module, a tool is required at the time of assembly, which complicates the assembly.

On the other hand, in the light source module 10 according to the present embodiment, after the substrate 15 is supported by the support 11, the engaging portions 33 and 34 are engaged to attach the cover 12 to the support 11, and the holding member. 13 holds the cover 12 on the support 11. Then, the side plate 17 closes one end of the cover 12 in the X-axis direction, and the side plate 18 closes the other end of the cover 12 in the X-axis direction. As a result, the light source module 10 is assembled.

As described above, the light source module 10 according to the present embodiment can be assembled without using a tool or the like. Therefore, in the light source module 10, the assembling property can be improved as compared with the case where screws are used. In addition, the number of parts can be reduced as compared with the case of using screws. For example, the cost of the light source module 10 can be reduced.

(Second Embodiment)
5 (a) and 5 (b) are perspective views schematically showing the lighting fixture according to the second embodiment.
FIG. 6 is a cross-sectional view schematically showing the lighting fixture according to the second embodiment.
FIG. 7 is a plan view schematically showing a part of the lighting fixture according to the second embodiment.
As shown in FIGS. 5 to 7, the lighting fixture 100 includes the light source module 10 described in the first embodiment and the fixture main body 110 that supports the light source module 10.

The luminaire 100 is attached to the ceiling of the room, for example, with the light source module 10 facing downward. The lighting fixture 100 illuminates the room with the light emitted from the light source module 10. The lighting fixture 100 is not limited to the ceiling, but may be mounted on, for example, a wall surface. The appliance body 110 is attached to the ceiling with screws or the like, for example. As described above, the fixture main body 110 is used for supporting the light source module 10 and for mounting the luminaire 100 on a mounting target such as a ceiling.

The instrument body 110 includes, for example, a housing 112 and a mounting spring 114. The housing 112 is provided with a recess 112a that accommodates at least a part of the light source module 10. The mounting spring 114 is mounted on the housing 112. The mounting spring 114 engages with the first claw portion 41b and the second claw portion 42b of the light source module 10 housed in the recess 112a, and restricts the movement of the light source module 10 in the direction of exiting from the recess 112a.

In this way, the instrument body 110 supports the light source module 10 by engaging the mounting springs 114 with the claws 41b and 42b. In this example, the light source module 10 is provided with three holding members 13. Therefore, in this example, three mounting springs 114 are provided on the instrument body 110. Each mounting spring 114 is mounted in the housing 112 at a position corresponding to each holding member 13 of the light source module 10. The instrument body 110 supports the light source module 10 by engaging each mounting spring 114 with each of the claws 41b and 42b of each holding member 13.

A metal material such as iron, aluminum, or stainless steel is used for the housing 112. For the mounting spring 114, for example, the same metal material as described above is used. The mounting spring 114 has elasticity. The mounting spring 114 is a so-called leaf spring. For example, a resin material or the like may be used for the housing 112 and the mounting spring 114. However, by using a metal material for the housing 112 and the mounting spring 114, for example, the durability of these can be enhanced.

The appliance main body 110 is further provided with, for example, a power supply circuit 115 and terminal blocks 116 and 117. The power supply circuit 115, the terminal block 116, and 117 are mounted in the recess 112a by, for example, screwing.

For example, the power supply circuit 115 converts the electric power supplied from the outside into a voltage or current corresponding to the light source module 10 and supplies it to the light source module 10. The light source module 10 lights the light source 16 according to the power supply from the power supply circuit 115 and irradiates the light source. The power supply circuit 115 may be provided separately from the lighting fixture 100, for example.

The terminal blocks 116 and 117 are used, for example, for an electrical connection between an external power supply and a power supply circuit 115, an electrical connection between the power supply circuit 115 and each light source 16, and the like.

Further, the housing 112 is provided with, for example, a plurality of openings for passing metal fittings (for example, screws) for attaching the lighting fixture 100 to the ceiling or the like, a power cable for supplying electric power to the power supply circuit 115, or the like.

The housing 112 includes, for example, a bottom plate portion 120, a first side plate portion 121, a second side plate portion 122, a first inclined plate portion 123, and a second inclined plate portion 124.

The bottom plate portion 120 has a third surface 120a facing the second surface 21b and a fourth surface 120b opposite to the third surface 120a. The third surface 120a faces, for example, the entire second surface 21b. The bottom plate portion 120 is also a long plate extending in the X-axis direction. In this example, the fourth surface 120b is substantially parallel to the third surface 120a. The fourth surface 120b may be non-parallel to the third surface 120a. Further, in this example, the third surface 120a is substantially parallel to the second surface 21b. The third surface 120a may be non-parallel to the second surface 21b. The power supply circuit 115 and each terminal block 116 and 117 are attached to, for example, the third surface 120a.

The first side plate portion 121 extends in the direction of the third surface 120a from one side end extending in the X-axis direction of the third surface 120a, and faces the first grip portion 41 in the Y-axis direction. The second side plate portion 122 extends in the direction of the third surface 120a from the other side end extending in the X-axis direction of the third surface 120a, and faces the second grip portion 42 in the Y-axis direction. That is, the recess 112a is formed by the bottom plate portion 120 and the side plate portions 121 and 122.

In this example, the first side plate portion 121 and the second side plate portion 122 extend in a direction substantially perpendicular to the third surface 120a. That is, in this example, the first side plate portion 121 and the second side plate portion 122 extend in the Z-axis direction. The first side plate portion 121 and the second side plate portion 122 may be inclined with respect to the third surface 120a.

One end of the first inclined plate portion 123 is connected to the end portion of the first side plate portion 121 opposite to the bottom plate portion 120. The first inclined plate portion 123 extends obliquely from the end portion of the first side plate portion 121 opposite to the bottom plate portion 120 toward the fourth surface 120b. One end of the second inclined plate portion 124 is connected to the end portion of the second side plate portion 122 opposite to the bottom plate portion 120. The second inclined plate portion 124 extends obliquely from the end portion of the second side plate portion 122 opposite to the bottom plate portion 120 toward the fourth surface 120b. The distance in the Y-axis direction between the second inclined plate portion 123 and the second inclined plate portion 124 decreases toward the direction of the third surface 120a. That is, the second inclined plate portion 123 and the second inclined plate portion 124 have a substantially trapezoidal shape when viewed in the X-axis direction of the housing 112.

The end portion 123a of the first inclined plate portion 123 is bent toward the first side plate portion 121 side so as to be substantially parallel to the third surface 120a. Further, the end portion 123a of the first inclined plate portion 123 is arranged at a position protruding from the fourth surface 120b in the direction of the fourth surface 120b.

The end portion 124a of the second inclined plate portion 124 is bent toward the second side plate portion 122 side so as to be substantially parallel to the third surface 120a. Further, the end portion 124a of the second inclined plate portion 124 is arranged at a position protruding from the fourth surface 120b in the direction of the fourth surface 120b.

The distance in the Z-axis direction between the end portion 123a of the first inclined plate portion 123 and the fourth surface 120b is the distance in the Z-axis direction between the end portion 124a of the second inclined plate portion 124 and the fourth surface 120b. Is substantially the same as. That is, the end portion 123a is substantially flush with the end portion 124a.

As a result, for example, when the luminaire 100 is installed on the ceiling, the ends 123a and 124a come into contact with the ceiling surface. Then, the third surface 120a becomes substantially parallel to the ceiling surface. Further, at this time, the fourth surface 120b is slightly separated from the ceiling surface. As a result, for example, it is possible to prevent screws for attaching each component such as the power supply circuit 115 to the housing 112 from coming into contact with the ceiling surface.

The first side plate portion 121 is provided with an opening 121a. The opening 121a is arranged at a position facing the first grip portion 41 in the Y-axis direction. The second side plate portion 122 is provided with an opening 122a. The opening 122a is arranged at a position facing the second grip portion 42 in the Y-axis direction. In this example, three openings 121a and three openings 122a are provided corresponding to each of the three holding members 13 of the light source module 10.

The mounting spring 114 is mounted on the bottom plate portion 120. In this example, the mounting spring 114 is mounted on the fourth surface 120b. That is, the mounting spring 114 is mounted on the outside of the recess 112a. The mounting spring 114 is mounted on the fourth surface 120b by, for example, a screw or a rivet. The mounting spring 114 is bent in a substantially U shape, and has a portion along the bottom plate portion 120, a portion along the first side plate portion 121, and a portion along the second side plate portion 122.

One end 114a of the mounting spring 114 is bent in a substantially U shape and enters the recess 112a through the opening 121a. The end portion 114a engages with the first claw portion 41b of the light source module 10 housed in the recess 112a.

The other end 114b of the mounting spring 114 is bent in a substantially U shape and enters the recess 112a through the opening 122a. This end 114b engages with the second claw 42b of the light source module 10 housed in the recess 112a.

In this example, the mounting spring 114 has an end 114a that engages with the first claw 41b and an end 114b that engages the second claw 42b. The mounting spring 114 may be composed of, for example, two parts, a part having an end portion that engages with the first claw portion 41b and another part having an end portion that engages with the second claw portion 42b. Good.

The housing 112 is provided with an opening 112b and an opening 112c. The opening 112b is arranged at a position facing the end 114a of the mounting spring 114 in the Z-axis direction. The opening 112c is arranged at a position facing the end 114b of the mounting spring 114 in the Z-axis direction. The openings 112b and 112c are provided corresponding to the mounting springs 114. In this example, three openings 112b and three openings 112c are provided in the housing 112.

A rod-shaped jig is inserted into the opening 112b, and the end 114a of the mounting spring 114 is pushed to elastically deform the mounting spring 114. Then, the end 114a moves in the direction of retracting from the recess 112a along the inclination of the end 114a, and the engagement state between the first claw portion 41b and the end 114a is released.

A rod-shaped jig is inserted into the opening 112c, and the end portion 114b of the mounting spring 114 is pushed to elastically deform the mounting spring 114. Then, the end 114b moves in the direction of retracting from the recess 112a along the inclination of the end 114b, and the engagement state between the second claw portion 42b and the end portion 114b is released.

In this way, the instrument body 110 detachably supports the light source module 10 by engaging the mounting spring 114 and releasing the engaged state.

As described above, in the cover 12 of the light source module 10, the shape of the main body 30 viewed in the X-axis direction is fan-shaped. The openings 112b and 112c of the housing 112 overlap with the main body 30 in the Z-axis direction. Thereby, for example, when viewed from the indoor side, the openings 112b and 112c can be made difficult to see. For example, the design of the lighting fixture 100 can be enhanced.

As shown in FIGS. 6 and 7, a protrusion 126 is provided on the fourth surface 120b. For example, a plurality of protrusions 126 are provided on the fourth surface 120b. The number of protrusions 126 may be arbitrary. The number of protrusions 126 may be one. In this example, the protrusion 126 is hemispherical. The shape of the protrusion 126 is not limited to a hemisphere, and may be any shape protruding in the direction of the fourth surface 120b.

The height of the protrusion 126 (the length in the Z-axis direction from the fourth surface 120b) is substantially the same as the distance in the Z-axis direction between the fourth surface 120b and the end portion 123a (end portion 124a). is there. As a result, the protrusion 126 comes into contact with the ceiling surface together with the end portions 123a and 124a when, for example, the end portions 123a and 124a are brought into contact with the ceiling surface.

The protrusion 126 is arranged in the vicinity of the mounting spring 114. The distance D1 in the X-axis direction between the protrusion 126 and the mounting spring 114 is, for example, 30 mm or less. That is, "near the mounting spring 114" means that the distance D1 is 30 mm or less. Further, in this example, a plurality of protrusions 126 are arranged on both sides in the X-axis direction with the mounting spring 114 interposed therebetween. The protrusion 126 may be provided on only one side of the mounting spring 114 in the X-axis direction.

When the lighting fixture 100 is installed on the ceiling, the fixture main body 110 is screwed from the indoor side to the ceiling plate or the like with the end portions 123a and 124a in contact with the ceiling surface.

The appliance main body 110 is provided with, for example, at least two chains (temporary fixing members) for suppressing the fall of the light source module 10. For example, two chains are provided near both ends in the X-axis direction. For example, a plurality of hooks corresponding to each chain are provided on the second surface 21b of the support 11 of the light source module 10. After the fixture body 110 is screwed to the ceiling, the end of each of these chains is hooked on the hook of the light source module 10 to hang the light source module 10.

After suspending the light source module 10, for example, the light source module 10 and the power supply circuit 115 are electrically connected by connecting a connector (not shown).

After wiring, the light source module 10 is tilted around the X-axis, the second portion 22 side of the support 11 is inserted into the recess 112a, and the first claw portion 41b of each holding member 13 is attached to each mounting spring 114. Engage with each end 114a of. After that, the light source module 10 is returned horizontally so that the third portion 23 side of the support 11 is inserted into the recess 112a, and the second claw portion 42b of each holding member 13 is inserted into each of the mounting springs 114. Engage with the end 114b.

As a result, the light source module 10 is supported by the fixture body 110, and the lighting fixture 100 is mounted on the ceiling. Contrary to the above, each second claw portion 42b may be engaged with each end portion 114b, and then each first claw portion 41b may be engaged with each end portion 114a.

When the light source module 10 is removed from the instrument main body 110, for example, after releasing the engagement state between each first claw portion 41b and each end portion 114a, the second claw portion 42b and each end portion 114b Disengage each of the engaged states. On the contrary, after releasing the engaging state of each of the second claws 42b and 114b of each end, the engaging state of each of the first claws 41b and 114a of each end may be released. ..

When the fixture body 110 is screwed to a ceiling plate or the like, for example, the screws may be overtightened to deform the housing 112. If the housing 112 is deformed when the mounting spring 114 is engaged to support the light source module 10, for example, the positions of the mounting spring 114 and the claws 41b and 42b are displaced. This makes it difficult for the light source module 10 to be attached to or removed from the fixture main body 110.

In the lighting fixture 100 according to the present embodiment, the protrusion 126 is provided in the vicinity of the mounting spring 114 of the bottom plate portion 120. In the lighting fixture 100, when the fixture body 110 is screwed to the ceiling surface, the protrusion 126 comes into contact with the ceiling surface. As a result, in the luminaire 100, deformation of the housing 112 in the vicinity of the mounting spring 114 can be suppressed. For example, the light source module 10 can be easily attached to and detached from the instrument body 110. For example, the fixture body 110 can be easily attached to an attachment target such as a ceiling.

By providing a plurality of protrusions 126, deformation of the housing 112 can be suppressed more appropriately. By arranging the protrusions 126 on both sides of the mounting spring 114 in the X-axis direction, deformation of the housing 112 can be further suppressed.

For example, the distance D1 is set to 20 mm or less. As a result, the deformation of the housing 112 can be suppressed more appropriately. For example, the distance D1 is set to 10 mm or less. As a result, the deformation of the housing 112 can be further suppressed.

The height of the protrusion 126 is preferably equal to or less than the height of each of the end portions 123a and 124a. As a result, it is possible to prevent a gap from being formed between the end portions 123a and 124a and the ceiling surface. However, if the difference between the height of the protrusion 126 and the heights of the end portions 123a and 124a becomes large, the effect of suppressing the deformation of the housing 112 is weakened. Therefore, the difference between the height of the protrusion 126 and the heights of the end portions 123a and 124a is preferably 5 mm or less, for example. It is most preferable that the height of the protrusion 126 is substantially the same as the height of each of the end portions 123a and 124a.

(Third Embodiment)
8 (a) and 8 (b) are perspective views schematically showing the lighting fixture according to the third embodiment.
FIG. 9 is a cross-sectional view schematically showing the lighting fixture according to the third embodiment.
FIG. 10 is a partial perspective view schematically showing a part of the lighting fixture according to the third embodiment.
As shown in FIGS. 8 to 10, the luminaire 200 includes the light source module 10 described in the first embodiment and the fixture main body 210 that supports the light source module 10.

The instrument body 210 includes a housing 212 and a mounting spring 214, similarly to the instrument body 110 described in the second embodiment. The housing 212 is also provided with a recess 212a that accommodates at least a part of the light source module 10. The functions of the housing 212 and the mounting spring 214 are substantially the same as the functions of the housing 112 and the mounting spring 114 of the instrument main body 110 of the second embodiment. Regarding the housing 212 and the mounting spring 214, detailed description of the parts that can be similar to the housing 112 and the mounting spring 114 will be omitted.

The housing 212 has, for example, a bottom plate portion 220, a first side plate portion 221 and a second side plate portion 222. The bottom plate portion 220, the first side plate portion 221 and the second side plate portion 222 can be the same as in the second embodiment. Like the bottom plate portion 120, the bottom plate portion 220 has a third surface 220a facing the second surface 21b and a fourth surface 220b opposite to the third surface 220a. The recess 212a is formed by the bottom plate portion 220, the first side plate portion 221 and the second side plate portion 222.

The bottom plate portion 220 is provided with openings 220c and 220d. The opening 220c is arranged at a position facing the first grip portion 41 in the Z-axis direction. The opening 220d is arranged at a position facing the second grip portion 42 in the Z-axis direction. In this example, three openings 220c and three openings 220d are provided corresponding to each of the three holding members 13 of the light source module 10.

The mounting spring 214 is mounted on the bottom plate portion 220. In this example, the mounting spring 214 is mounted on the fourth surface 220b. The mounting spring 214 is bent in a substantially U shape, and has a portion along the bottom plate portion 220, a portion along the first side plate portion 221 and a portion along the second side plate portion 222.

In this example, the portion of the mounting spring 214 along the first side plate portion 221 enters the recess 212a through the opening 220c. Then, the portion along the second side plate portion 222 enters the recess 212a through the opening 220d.

One end 214a of the mounting spring 214 is bent inward and engages with the first claw 41b of the light source module 10 housed in the recess 212a. The other end 214b of the mounting spring 214 is bent inward and engages with the second claw portion 42b of the light source module 10 housed in the recess 212a.

In the second embodiment, the ends 114a and 114b of the mounting spring 114 are made to enter the recess 112a from the side plate portions 121 and 122. Not limited to this, as shown in the present embodiment, the end portions 214a and 214b of the mounting spring 214 may be made to enter the recess 212a from the bottom plate portion 220. The housing 212 of this example does not include the inclined plate portions 123 and 124. Therefore, when the end portions 214a and 214b of the mounting spring 214 are inserted into the recess 212a from the side plate portions 221 and 222, the mounting spring 214 is exposed to the outside. Therefore, in the housing 212, the end portions 214a and 214b of the mounting spring 214 are made to enter the recess 212a from the bottom plate portion 220. Thereby, for example, it is possible to suppress that the design of the lighting fixture 200 is impaired. Further, the mounting spring 214 may be mounted on the third surface 220a, for example. That is, the mounting spring 214 may be mounted in the recess 212a.

Each of the end portion 221a of the first side plate portion 221 and the end portion 222a of the second side plate portion 222 is bent inward in a substantially U shape. Further, the end portion 221a and the end portion 222a are tapered so as to narrow the width of the recess 212a in the Y-axis direction. By tapering the end 221a and the end 222a in this way, for example, while securing a space for elastically deforming the mounting spring 214 when disengaging the claws 41b and 42b. , The mounting spring 214 and the like can be made difficult to see from the indoor side.

The end portion 221a is provided with a notch 221b, and the notch 221b is arranged at a position facing the end portion 214a of the mounting spring 214. The notch 222b is provided at the end 222a, and the notch 222b is arranged at a position facing the end 214b of the mounting spring 214. Each notch 221b, 222b is provided corresponding to each mounting spring 114. In this example, three notches 221b and 222b are provided in the housing 212.

In this example, each end portion 221a and 222a is bent in a substantially U shape, and each notch 221b and 222b is provided in the bent portion so that the tip portion of each side plate portion 221 and 222 is not cut. ing. Thereby, for example, even when each notch 221b and 222b is provided, it is possible to suppress a decrease in the strength of the housing 212.

A rod-shaped jig is inserted into the notch 221b, the end portion 214a of the mounting spring 214 is pushed, and the mounting spring 214 is elastically deformed so that the end portion 214a is brought closer to the first side plate portion 221 side. As a result, the engagement state between the first claw portion 41b and the end portion 214a is released.

A rod-shaped jig is inserted into the notch 222b, the end portion 214b of the mounting spring 214 is pushed, and the mounting spring 214 is elastically deformed so that the end portion 214b is brought closer to the second side plate portion 222 side. As a result, the engagement state between the second claw portion 42b and the end portion 214b is released. By setting the shape of the portion into which the jig is inserted to be cutouts 221b and 222b, operability when inserting the jig can be improved as compared with, for example, a through hole. For example, the amount of movement of the jig in the inserted state can be increased as compared with a through hole or the like.

Also in the housing 212, the protrusion 226 is provided on the fourth surface 220b. For example, a plurality of protrusions 226 are provided on the fourth surface 220b. In this example, for example, when the luminaire 200 is installed on the ceiling, each of these protrusions 226 comes into contact with the ceiling surface.

Also in this example, each protrusion 226 is arranged in the vicinity of the mounting spring 214. The distance D1 in the X-axis direction between the protrusion 226 and the mounting spring 214 is, for example, 30 mm or less. The protrusions 226 are arranged on both sides in the X-axis direction with the mounting spring 214, for example. Thereby, for example, when the lighting equipment 200 is installed on the ceiling or the like, the deformation of the housing 212 in the vicinity of the mounting spring 214 can be suppressed.

The procedure for installing the lighting fixture 200 on the ceiling and the procedure for removing the light source module 10 from the fixture main body 210 are substantially the same as the procedure described in the second embodiment.

FIG. 11 is a partial cross-sectional view schematically showing a part of the lighting fixture according to the third embodiment.
As shown in FIG. 11, the mounting spring 214 is mounted on the fourth surface 220b near the center in the Y-axis direction, for example. For example, the mounting spring 214 is mounted near the center of the fourth surface 220b in the Y-axis direction by the screw 228. Further, in the lighting fixture 200, each protrusion 226 creates a gap between the fourth surface 220b and the mounting surface (for example, the ceiling surface).

As a result, in the luminaire 200, as shown in FIG. 11, when a jig is inserted into the notch 221b and the end portion 214a of the mounting spring 214 is pushed to elastically deform the mounting spring 214, the mounting spring is deformed. A part of 214 can be separated from the fourth surface 220b. A part of the mounting spring 214 can be moved to the mounting surface side.

Thereby, for example, the engagement between the first claw portion 41b and the end portion 214a can be easily disengaged. In other words, the operability of disengagement can be improved. Further, when disengaging the first claw portion 41b and the end portion 214a, by moving a part of the mounting spring 214 to the mounting surface side, for example, the end portion 214a required for disengagement is disengaged. The amount of movement of the first side plate portion to the 221 side can be reduced. Therefore, for example, the distance in the Y-axis direction between the end portion 214a and the first side plate portion 221 can be shortened as compared with the case where the mounting spring 114 cannot move to the mounting surface side. For example, the width of the housing 212 in the Y-axis direction can be narrowed.

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 ... light source module, 11 ... support, 12 ... cover, 13 ... holding member, 15 ... substrate, 16 ... light source, 17, 18 ... side plate, 21 ... first part, 22 ... second part, 23 ... third part , 30 ... main body, 31 ... first contact, 32 ... second contact, 33 ... first engaging, 34 ... second engaging, 40 ... facing, 41 ... first grip, 42 ... 2nd gripping part, 43 ... 1st stopper part, 44 ... 2nd stopper part, 100, 200 ... Lighting equipment, 110, 210 ... Equipment body, 112, 212 ... Housing, 114, 214 ... Mounting spring, 115 ... Power supply circuit, 116, 117 ... Terminal block, 120, 220 ... Bottom plate, 121, 221 ... First side plate, 122, 222 ... Second side plate, 123 ... First inclined plate, 124 ... Second inclined plate Part, 126, 226 ... Protrusion

Claims (2)

It has a long plate-shaped first portion made of metal, and a pair of second engaging portions and a third engaging portion extending from the first surface of the first portion toward the second surface opposite to the first surface. With support;
With the light source substrate provided on the first surface of the support;
The main body portion that covers the light source substrate, the first and second contact portions extending from both ends of the main body portion and provided parallel to the first surface of the support, and the first and second engagement of the support. A resin cover that covers from the outside of the portion and is integrally formed with the main body portion and is attached to the support without covering the second surface of the support;
A light source module characterized by being equipped with. With a housing provided with a long recess;
A lighting fixture in which a part of the light source module according to claim 1 is provided in the recess by a mounting spring housed in the recess.

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