JP2021064452A - Light source unit and lighting apparatus - Google Patents

Abstract

To provide a light source unit and lighting apparatus which allows a worker to easily carry out an attachment work of attaching a light source unit to a base member.SOLUTION: A light source unit 100 is attached to a base member 200. The light source unit 100 includes a light source installation part 120 and an attachment member 130. In the light source installation part 120, the light source 111 is installed. The attachment member 130 is installed in the light source installation part 120, and attaches the light source unit 100 to the base member 200. The attachment member 130 is arranged in a position away from a center line A of the light source installation part 120.SELECTED DRAWING: Figure 7

Description

The present invention relates to a light source unit and a luminaire.

The lighting fixture described in Patent Document 1 includes a light source unit and a fixture main body that supports the light source unit. The fixture body is attached to the ceiling frame with hanging bolts. The light source unit includes an LED module, a mounting member, a cover, and a mounting tool. The cover is supported by the mounting member so as to cover the LED module. The fixture is rotatably attached to the mounting member. The light source unit is attached to the fixture body by hooking the fixture on the fixture body.

JP-A-2018-147666

However, in the light source unit described in Patent Document 1, the mounting member is arranged on the center line passing through the center of the mounting member. Further, when the fixture body is attached to the ceiling frame by the hanging bolt, the hanging bolt is usually screwed at a position located on the center line passing through the center of the fixture body in order to attach the fixture body in a well-balanced manner. In this case, the hanging bolt protrudes from the instrument body toward the center line of the mounting member. As a result, when the light source unit is attached to the instrument body, the attachment is rotated on the center line of the attachment member, so that the hanging bolt may interfere with the rotation operation of the attachment. As a result, the operator has to change the position of the hanging bolt from the current position, which may complicate the work of attaching the light source unit to the instrument main body.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a light source unit and a lighting fixture that allow an operator to easily attach a light source unit to a base member.

The light source unit disclosed in the present application is attached to a base member. The light source unit includes a light source installation portion and a mounting member. A light source is installed in the light source installation unit. The mounting member is installed in the light source installation portion, and the light source unit is mounted on the base member. The mounting member is arranged at a position away from the center line of the light source installation portion.

The light source unit disclosed in the present application preferably includes a power supply unit. The power supply unit preferably supplies electric power to the light source. It is preferable that the power supply unit is arranged at a location separated from the center line.

In the light source unit disclosed in the present application, it is preferable that the mounting member is rotatably supported with respect to the light source installation portion. The power supply unit is preferably arranged at a location separated from the rotation locus of the mounting member.

In the light source unit disclosed in the present application, it is preferable that the mounting member is arranged between the center line and the power supply unit.

The luminaire disclosed in the present application includes the light source unit and the base member. The base member includes an engaging member. The engaging member is engaged with the mounting member.

The luminaire disclosed in the present application includes the light source unit and the base member. The base member includes an engaging member and a power supply unit. The engaging member is engaged with the mounting member. The power supply unit supplies electric power to the light source. The power supply unit is arranged at a location separated from the center line.

According to the present invention, the light source unit and the luminaire can be miniaturized.

It is a perspective view of the lighting equipment which concerns on embodiment of this invention. FIG. 5 is a cross-sectional view of a lighting fixture according to an embodiment along the line II-II of FIG. It is a perspective view of the light source unit which concerns on embodiment. It is a perspective view which shows the mounting member which engages with an engaging member. It is sectional drawing which shows the front stage of the method of attaching a light source unit to a base member. It is sectional drawing which shows the latter stage of the attachment method to the base member of a light source unit. It is a top view which shows an example of the installation place of a mounting member. It is a perspective view of the lighting equipment which concerns on the modification of embodiment of this invention. It is sectional drawing of the luminaire along the line VIII-VIII of FIG. It is sectional drawing which shows the luminaire which concerns on the further modification of the luminaire shown in FIG.

Hereinafter, the lighting fixture 1 according to the first embodiment of the present invention will be described with reference to the drawings. In the figure, the same or corresponding parts are designated by the same reference numerals and the description is not repeated. In the specification of the present application, in order to facilitate understanding of the invention, the description may be made with reference to the X direction, the Y direction, and the Z direction which are orthogonal to each other. For example, the X and Y directions are parallel to the horizontal direction, and the Z direction is parallel to the vertical direction. However, the X direction and the Y direction may be parallel to a direction other than the horizontal direction, and the Z direction may be parallel to a direction other than the vertical direction.

First, the lighting fixture 1 will be described with reference to FIG. FIG. 1 is a perspective view of the lighting fixture 1 according to the embodiment. FIG. 1 shows the luminaire 1 when viewed from diagonally below. The luminaire 1 is, for example, an embedded base light or a ceiling-mounted base light. In the present embodiment, a case where the luminaire 1 is an embedded lamp will be described as an example. When the luminaire 1 is an embedded lamp, the luminaire 1 is inserted and fixed in an embedded hole formed in a ceiling wall such as a ceiling.

As shown in FIG. 1, the luminaire 1 includes a light source unit 100 and a base member 200. The light source unit 100 is attached to the base member 200. In the present embodiment, each of the light source unit 100 and the base member 200 has a substantially rectangular shape in a plan view.

The light source unit 100 includes a light source module 110. The light source module 110 has a light source 111 and a substrate 112. The light source 111 has a light emitting element and emits light. The light emitting element is, for example, a light emitting diode (LED). The light source 111 may have one light emitting element or a plurality of light emitting elements. Alternatively, the light emitting element included in the light source 111 may include an organic EL (Electro-Luminescence) element or a laser diode. The light source 111 is mounted on the mounting surface of the substrate 112. The substrate 112 has a substantially rectangular shape in the present embodiment. When the light source 111 has a plurality of light emitting elements, for example, the plurality of light emitting elements are mounted on the mounting surface of the substrate 112 in a grid pattern.

The light source module 110 may have a COB (Chip on Board) structure in which a plurality of light emitting elements included in the light source 111 are placed on a mounting surface of a substrate 112 and sealed with a phosphor. Alternatively, the light source module 110 has an SMD (Surface Mount Device) structure in which a unit in which a light source 111 and a phosphor are integrated is placed on a mounting surface of the substrate 112 and electrically connected to a conductor of the substrate 112. You may.

The light emitted by the light source 111 travels toward the optical axis LA. In the present embodiment, the optical axis LA of the light source 111 is parallel to the Z direction and passes through the center of the light source module 110. The substrate 112 extends along a radial RD orthogonal to the optical axis LA. That is, the direction along the substrate 112 is substantially parallel to the radial direction RD.

Next, the luminaire 1 will be described in detail with reference to FIG. FIG. 2 is a cross-sectional view taken along the line II-II of FIG. As shown in FIG. 2, the light source unit 100 includes a light source installation unit 120, a mounting member 130, a shade 140, a power supply unit 150, and a mounting member 160.

A light source module 110 is installed in the light source installation unit 120. That is, the light source 111 is installed in the light source installation unit 120. The light source installation unit 120 has a plate shape in the present embodiment. The material of the light source installation unit 120 is, for example, a conductor, which dissipates heat from the light source module 110. The material of the light source installation unit 120 may be an insulator.

The mounting member 130 is arranged on the side of the light source installation portion 120 opposite to the side on which the light source 111 is installed. Specifically, the mounting member 130 is mounted on the light source installing portion 120 by the mounting member 160 on the side of the light source installing portion 120 opposite to the side on which the light source 111 is installed. The mounting member 130 is, for example, a spring. The mounting member 130 mounts the light source unit 100 to the base member 200.

The base end portion 131 and the tip end portion 132 of the mounting member 130 face the light source installation portion 120. More specifically, the entire mounting member 130 faces the light source installation portion 120. That is, the mounting member 130 does not project from the light source installation portion 120 in the radial direction RD. Therefore, when at least one of the base end portion 131 and the tip end portion 132 of the mounting member 130 does not face the light source installation portion 120, that is, in the direction along the radial direction RD, the mounting member 130 is removed from the light source installation portion 120. The light source unit 100 can be downsized as compared with the case where it protrudes. As a result, the packaging box (for example, a cardboard box) accommodating the light source unit 100 can be made smaller during transportation or storage. As a result, the cost required for transporting the light source unit 100 can be reduced by increasing the number of the light source units 100 that can be loaded per vehicle such as a truck. In addition, the cost required for packing the light source unit 100 can be reduced. Specifically, if the mounting member 130 protrudes from the light source installation portion 120, for example, in order to reduce the size of the packaging material of the light source unit 100, the mounting member 130 reaches a position where the mounting member 130 does not protrude from the light source installation portion 120. It is necessary to deform and fix the mounting member 130 with a fixture such as a string. On the other hand, in the present embodiment, since a fixture for fixing the deformed mounting member 130 is not required, the number of parts and the man-hours for packing the light source unit 100 can be reduced. Further, in the present embodiment, it is not necessary to fix the mounting member 130 with a fixture during transportation of the light source unit 100, it is not necessary to deform the mounting member 130 for a long time, and the urging force of the mounting member 130 is reduced. Can be prevented.

In the present embodiment, the light source unit 100 includes a pair of mounting members 130 (hereinafter, the first mounting member 130a and the second mounting member 130b may be described separately). The first mounting member 130a and the second mounting member 130b face different directions at different positions. In the present embodiment, the first mounting member 130a and the second mounting member 130b face each other. Specifically, the tip portions 132 of the first mounting member 130a and the second mounting member 130b face each other. The first attachment member 130a is arranged on one side of the light source installation portion 120, and the second attachment member 130b is arranged on the other side of the light source installation portion 120. The light source unit 100 may include one mounting member 130.

Further, in a state where the light source unit 100 is attached to the base member 200, the attachment member 130 is housed in the base member 200. Therefore, the lighting fixture 1 can be miniaturized. As a result, the mounting space at the mounting location of the luminaire 1 may be small, and the possibility that the luminaire 1 comes into contact with the edge of the embedding hole Th is reduced, so that the luminaire 1 can be easily inserted into the embedding hole Th. Can be inserted. If the mounting member 130 protrudes from the light source installation portion 120, the possibility that the mounting member 130 comes into contact with the edge of the embedded hole Th increases.

The power supply unit 150 is arranged on the side of the light source installation unit 120 opposite to the side on which the light source 111 is installed. That is, the power supply unit 150 is arranged on the same side as the mounting member 130 in the light source installation unit 120. The power supply unit 150 supplies electric power to the light source 111. As a result, the light source 111 emits light by the electric power supplied from the power supply unit 150. The power supply unit 150 includes a power supply circuit unit. The power supply circuit unit includes, for example, a power supply circuit and a lighting circuit. The power supply circuit converts the AC power supply voltage from the commercial power supply into the DC power supply voltage and supplies the DC power supply voltage to the lighting circuit. Then, the lighting circuit supplies the DC power supply voltage to the light source 111. The power supply circuit unit may include a controller such as a microcomputer. The microcomputer controls, for example, a lighting circuit.

The shade 140 is attached to the light source installation portion 120. The shade 140 covers the light source module 110. The material of the shade 140 is, for example, an insulator. The shade 140 is translucent. The shade 140 has, for example, a milky white or transparent color (colored transparent or colorless transparent). The shade 140 is irradiated with the light emitted from the light source 111. Then, the shade 140 diffuses and transmits the light emitted by the light source 111, for example.

In this embodiment, the shade 140 has a rectangular shape in a plan view (see FIG. 1). The shape of the shade 140 is an example, and other shapes such as a flat plate shape or a dome shape can be adopted. The shade 140 functions as, for example, a light guide. Further, the shade 140 may have a lens function of controlling the direction of passing light. The shade 140 may be a cover that prevents foreign matter such as dust from adhering to the light source module 110.

The base member 200 includes a housing 210, a reflector 220, and an engaging member 230. In the present embodiment, when the luminaire 1 is assembled, the mounting member 130 is arranged inside the housing 210. Therefore, when the luminaire 1 is assembled, the mounting member 130 does not protrude from the outer surface of the luminaire 1. As a result, the lighting fixture 1 can be miniaturized.

The housing 210 has a box shape with one side open. Further, the housing 210 has an angular substantially U-shape in cross-sectional view. The material of the housing 210 is, for example, a conductor. The housing 210 has an opening 210h1. The light source unit 100 is inserted into the opening 210h1 and attached to the base member 200.

The reflector 220 is attached to the housing 210 so as to surround the edge of the housing 210. When the luminaire 1 is attached to the top wall Wa, the outer peripheral portion of the reflector 220 comes into contact with the top wall Wa. In this embodiment, the reflector 220 has a substantially angular ring shape (see FIG. 1). The reflector 220 reflects the light transmitted through the shade 140 downward. In order to efficiently reflect the light emitted from the light source 111, it is preferable that at least the outer surface of the reflector 220 is reflected. Reflective processing includes, for example, white coating, silver coating, or glossy metal plating.

The engaging member 230 has a substantially L-shaped cross section. The engaging member 230 is attached to the inner surface 210a of the housing 210. Specifically, the engaging member 230 is coupled to the inner surface 210a of the housing 210 by a coupling tool 240 such as a screw. The engaging member 230 is engaged with the mounting member 130. Specifically, the mounting member 130 is inserted into the engaging hole 233 (see FIG. 4) of the engaging member 230, and the engaging member 230 is engaged with the mounting member 130. By engaging the mounting member 130 with the engaging member 230, the light source unit 100 is mounted on the base member 200. As a result, the luminaire 1 can be assembled.

The material of the engaging member 230 is, for example, metal. The engaging member 230 is formed, for example, by bending a sheet metal. The engaging member 230 has rigidity capable of holding the light source unit 100.

The mounting member 130 includes an arm portion 133 extending from the base end portion 131 to the tip end portion 132 of the mounting member 130. That is, the arm portion 133 connects the base end portion 131 and the tip end portion 132 of the mounting member 130. The arm portion 133 is curved in a convex shape toward the direction away from the light source installation portion 120. Therefore, the arm portion 133 can be smoothly slid while contacting the arm portion 133 of the mounting member 130 with the edge forming the engaging hole 233 of the engaging member 230. As a result, the mounting member 130 can be smoothly engaged with the engaging member 230.

Further, the mounting member 130 has an urging force in the direction in which the tip portion 132 of the mounting member 130 is directed toward the light source mounting portion 120. That is, the arm portion 133 of the mounting member 130 inserted into the engaging hole 233 urges the engaging hole 233 in the direction toward the light source installation portion 120. Therefore, the mounting member 130 and the engaging member 230 are more stably engaged than when the mounting member 130 does not have an urging force in the direction toward the light source installation portion 120. As a result, the stability of the mounting state of the light source unit 100 on the base member 200 can be improved. Further, when vibration is applied to the luminaire 1 due to the shaking of the building caused by an earthquake or the like, the light source unit 100 may move slightly in the direction away from the base member 200 against the urging force of the mounting member 130. However, the urging force of the mounting member 130 causes the light source unit 100 to move in a direction approaching the base member 200, and the light source unit 100 returns to its original position (position shown in FIG. 2). That is, even when the light source unit 100 moves downward, the light source unit 100 can be returned to its original position without the user pushing up the light source unit 100. Here, in order for the light source unit 100 to return to the original position only by the urging force of the mounting member 130, the shape of the mounting member 130 on the base member 200, the arrangement position of the mounting member 130 in the light source mounting portion 120, and the mounting It is preferable that the urging force of the member 130, the shape of the engaging member 230, and / or the mounting position of the engaging member 230 on the housing 210 are optimized.

However, in order to enable the light source unit 100 to return to the original position only by the urging force of the mounting member 130, the engaging position of the arm portion 133 of the mounting member 130 with respect to the engaging member 230 must be located within a predetermined range. May be required. The predetermined range is, for example, from the reference position P0 to the first limit position P1. The reference position P0 is an engagement position with the engagement member 230 on the arm portion 133 in a state where the light source unit 100 is attached to the base member 200 as shown in FIG. The first limit position P1 is the central position between the tip portion 132 of the attachment portion 130 of the arm portion 133 and the reference position P0. The predetermined range is preferably from the reference position P0 to the second limit position P2. The second limit position P2 is a position between the reference position P0 and the tip portion 132 of the arm portion 133 and one-third of the distance from the reference position P0.

Further, the tip 132 of the mounting member 130 is bent toward the light source mounting portion 120. Therefore, the attachment work of attaching the light source unit 100 to the base member 200 and the removal work of removing the light source unit 100 from the base member 200 can be efficiently performed.

Specifically, in the mounting work, the light source unit 100 can be suspended from the base member 200 by engaging the tip portion 132 with the engaging member 230. Then, by pushing up the light source unit 100, the light source unit 100 is attached to the base member 200. Therefore, the worker who supports the light source unit 100 and the worker who engages the tip portion 132 with the engaging member 230 are not required, and one worker can stably execute the mounting work.

Further, in the removal work, by pulling down the light source unit 100 from the base member 200, the tip portion 132 can be engaged with the engaging member 230, and the light source unit 100 can be suspended from the base member 200. Then, by removing the tip portion 132 from the engaging member 230, the light source unit 100 can be removed from the base member 200. Therefore, the worker who supports the light source unit 100 and the worker who removes the tip portion 132 from the engaging member 230 are not required, and one worker can stably perform the removal work.

In the present embodiment, the base member 200 includes a pair of engaging members 230 (hereinafter, the first engaging member 230a and the second engaging member 230b may be described separately). The first engaging member 230a is engaged with the first mounting member 130a. Further, the second engaging member 230b is engaged with the second mounting member 130b. Therefore, the light source unit 100 can be attached to the base member 200 more stably than when the light source unit 100 is attached to the base member 200 by engaging one attachment member 130 and one engaging member 230. .. The base member 200 may include one engaging member 230.

Here, by engaging at least one of the first mounting member 130a and the second mounting member 130b with the engaging member 230, the mounting member 130 and the engaging member 230 can be engaged without having to manually support the light source unit 100. A space can be provided between the base member 200 and the light source unit 100 while engaging the two. As a result, it is possible to perform operations such as wiring work and maintenance on the light source unit 100 or the base member 200 without completely removing the light source unit 100 from the base member 200. The wiring work is, for example, a wiring connection work when the light source unit 100 is attached to the base member 200, or a wiring disconnection work when the light source unit 100 is removed from the base member 200.

The tip 132 of the mounting member 130 is located closer to the optical axis LA of the light source 111 than the base 131 of the mounting member 130. Therefore, the tip 132 of the mounting member 130 can be inserted into the engaging hole 233 of the engaging member 230 from the outside to the inside of the engaging member 230 with respect to the optical axis LA. As a result, after the first mounting member 130a is engaged with the first engaging member 230a, it is not necessary to operate the mounting member 130 at a position close to the optical axis LA, so that the second mounting member 130b is secondly engaged. Easy to engage with member 230b. As a result, the workability of the assembly work of the lighting fixture 1 is improved.

Next, the mounting member 130 mounted on the light source installation unit 120 will be described with reference to FIG. FIG. 3 is a perspective view showing the light source unit 100. FIG. 3 shows the light source unit 100 when viewed from diagonally above. As shown in FIG. 3, the first mounting member 130a and the second mounting member 130b are arranged, for example, in a straight line.

The mounting member 130 includes a plurality of arm portions 133. Specifically, the mounting member 130 includes a first arm portion 133a and a second arm portion 133b extending along the first arm portion 133a. The tip portion 132 of the mounting member 130 includes a connecting portion 135 that connects the first arm portion 133a and the second arm portion 133b.

Further, the base end portion 131 of the mounting member 130 includes a coil spring. Specifically, the base end 131 includes two coil springs. That is, in the present embodiment, the mounting member 130 is a double torsion spring in which two torsion coil springs are joined by a connecting portion 135. Therefore, the number of parts can be reduced as compared with the case where the mounting member 130 is composed of two separate torsion coil springs. The mounting member 130 may be composed of one torsion coil spring. In this case, the mounting member 130 may be composed of one single torsion spring. Further, the mounting member 130 is composed of a plurality of torsion coil springs, and each of the plurality of torsion coil springs may not be joined. In this case, the mounting member 130 may be composed of a plurality of unjoined single torsion springs.

In the present embodiment, the light source unit 100 includes a plurality of mounting members 160 (hereinafter, the first mounting member 160a and the second mounting member 160b may be described separately). Each of the plurality of mounting members 160 is fixed to the light source installation portion 120. The mounting member 160 is fixed to the light source installation portion 120 by, for example, a coupling tool such as a screw. Each of the plurality of mounting members 130 is mounted on the light source installation portion 120 by the mounting member 160. Here, the mounting member 160 may be a separate member from the light source installation portion 120, or may be integrally molded with the light source installation portion 120. When the mounting member 160 is integrally molded with the light source installing portion 120, for example, the mounting member 160 may be formed by bending a part of the light source installing portion 120.

The first mounting member 160a enters each hole of the two coil springs of the base end portion 131 of the first mounting member 130a from the inside, and mounts the first mounting member 130a on the light source mounting portion 120. The second mounting member 160b enters the hole of one of the two coil springs of the base end portion 131 of the second mounting member 130b from the outside to mount the second mounting member 130b on the light source mounting portion 120.

Next, the mounting member 130 and the engaging member 230 will be described in detail with reference to FIGS. 3 and 4. FIG. 4 is a perspective view showing a mounting member 130 that engages with the engaging member 230. In FIG. 4, the first mounting member 130a and the first engaging member 230a will be described as an example.

As shown in FIG. 4, the engaging member 230 includes an engaging portion 231, a mounting portion 232, an engaging hole 233, and a hooking portion 234. In the present embodiment, the engaging portion 231 and the mounting portion 232 are integrally formed. The engaging portion 231 forms, for example, a substantially right angle to the mounting portion 232.

An engaging hole 233 is formed in the engaging portion 231. The engagement hole 233 has at least a size that allows the tip 132 of the mounting member 130 to be inserted. Specifically, the width L3 of the engaging hole 233 is larger than the width L1 of the connecting portion 135. Further, the vertical width L4 of the engaging hole 233 is larger than the width L2 of the bent portion of the tip portion 132. The engaging hole 233 includes a first groove 233a and a second groove 233b. The first groove 233a has a size in which the first arm portion 133a can be engaged. The second groove 233b has a size in which the second arm portion 133b can be engaged. Specifically, the width of each of the first groove 233a and the second groove 233b is larger than the diameter of each of the first arm portion 133a and the second arm portion 133b. When the mounting member 130 engages with the engaging member 230, the first arm portion 133a engages with the first groove 233a, and the second arm portion 133b engages with the second groove 233b. Therefore, even when the luminaire 1 is subjected to an impact or the like and the luminaire 1 vibrates, the arm portion 133 is unlikely to come off from the engagement hole 233.

The hooking portion 234 of the engaging member 230 is located between the first groove 233a and the second groove 233b. Therefore, even when the mounting member 130 moves downward due to an impact or the like applied to the luminaire 1, the connecting portion 135 of the mounting member 130 comes into contact with the hooking portion 234 of the engaging member 230 and is caught, and the arm portion. 133 is more difficult to disengage from the engaging hole 233. Here, each of the first groove 233a and the second groove 233b has a depth at which the connecting portion 135 of the mounting member 130 can be hooked on the hooking portion 234 of the engaging member 230. For example, the width L5 of the hooking portion 234 is preferably smaller than or equal to the width L1 of the connecting portion 135.

Next, a method of attaching the light source unit 100 to the base member 200 will be described with reference to FIGS. 2, 5 and 6. FIG. 5 is a cross-sectional view showing a front stage of a method of attaching the light source unit 100 to the base member 200. FIG. 6 is a cross-sectional view showing the latter stage of the method of attaching the light source unit 100 to the base member 200.

As shown in FIG. 5, when the light source unit 100 is attached to the base member 200, the operator first attaches the base member 200 to the space on the top wall Wa opposite to the space irradiated by the light source 111, that is, the space on the opposite side. Install above the top wall Wa. Specifically, the operator inserts, for example, a long rod-shaped member 301 such as a hanging bolt into the through hole 210h2 formed in the housing 210. One end of the rod-shaped member 301 is fixed above the reinforcing bar of the building, that is, the top wall Wa, for example. Then, a screwing member 302 such as a washer and a hexagon nut is screwed into the tip of the rod-shaped member 301 that has passed through the through hole 210h2. By tightening the screwing member 302 until the peripheral edge of the base member 200 abuts on the top wall Wa, the base member 200 is attached above the top wall Wa. When the base member 200 is attached to the upper side of the top wall Wa, the operator penetrates the power supply line previously constructed in the building through the through hole (not shown) of the base member 200 to allow the power supply line. Is pulled out toward the inner surface 210a of the housing 210. In the present embodiment, the base member 200 is attached to the upper side of the top wall Wa by two rod-shaped members 301. However, the base member 200 may be attached to the upper side of the top wall Wa by one rod-shaped member 301, or may be attached to the upper side of the top wall Wa by three or more rod-shaped members 301.

Next, the operator engages the second mounting member 130b with the second engaging member 230b. At this time, the bent tip portion 132 of the second mounting member 130b is engaged with the engaging hole 233, and the connecting portion 135 is hooked on the hooking portion 234. Next, the operator connects the power supply line drawn out to the inner surface 210a side of the housing 210 to a terminal block (not shown) connected to the power supply unit 150.

Next, the operator moves the side of the light source unit 100 on which the first mounting member 130a is mounted in the first moving direction D1.

Then, as shown in FIG. 6, the operator engages the first mounting member 130a with the first engaging member 230a. At this time, the bent tip portion 132 of the first mounting member 130a is engaged with the engaging hole 233, and the connecting portion 135 is hooked on the hooking portion 234.

Next, the operator moves the light source unit 100 in the second moving direction D2. As a result, each arm portion 133 of the first mounting member 130a and the second mounting member 130b is urged downward by the base end portion 131, and the tip portion 132 of the first mounting member 130a is first engaged. Guided by the joining member 230a, it moves in the third moving direction D3, and the tip 132 of the second mounting member 130b is guided by the second engaging member 230b and moves in the fourth moving direction D4. As a result, as shown in FIG. 2, the light source unit 100 is attached to the base member 200.

Next, an example of the installation location of the mounting member 130 will be described with reference to FIG. 7. FIG. 7 is a plan view showing an example of the installation location of the mounting member 130.

As shown in FIG. 7, the light source installation unit 120 includes an installation surface 126. The installation surface 126 is a surface of the light source installation portion 120 on which the mounting member 130 is installed. In the present embodiment, the installation surface 126 is a surface that is substantially parallel to each of the X-axis and the Y-axis and is substantially perpendicular to the Z-axis.

In the present embodiment, the installation surface 126 is formed in a substantially rectangular shape in a plan view. The plan view shows a line of sight along the Z-axis direction (a direction substantially perpendicular to the installation surface 126).

The light source installation portion 120 further includes a first edge portion 121, a second edge portion 122, a third edge portion 123, and a fourth edge portion 124.

In a plan view, each of the first edge portion 121 to the fourth edge portion 124 is a portion forming the edge portion (four sides) of the light source installation portion 120. The first edge portion 121 and the second edge portion 122 face each other along the X-axis direction. The third edge portion 123 and the fourth edge portion 124 face each other along the Y-axis direction.

On the installation surface 126, the pair of mounting members 130 (first mounting member 130a and second mounting member 130b) are arranged at intervals from each other. In the present embodiment, the pair of mounting members 130 are arranged at intervals along the X-axis direction. The base end 131 of the first mounting member 130a is arranged on the first edge 121, and the base 131 of the second mounting member 130b is placed on the second edge 122.

The power supply unit 150 is arranged at a location away from the center line A of the light source installation unit 120. That is, in a plan view, the power supply unit 150 is arranged at a location separated from the center line A of the light source installation unit 120. In a plan view, the center line A of the light source installation unit 120 does not intersect the power supply unit 150. In a plan view, the power supply unit 150 is located on the fourth edge portion 124 side of the center line A of the light source installation unit 120. The power supply unit 150 is arranged along the fourth edge portion 124.

The center line A is a virtual line passing through the central portion B1 of the first edge portion 121 and the central portion B2 of the second edge portion 122 in a plan view. Further, the center line A passes through the center (center of gravity) B of the light source installation portion 120 in a plan view. In this embodiment, the center line A is parallel to the X axis.

The installation surface 126 includes a first installation surface 126a and a second installation surface 126b. The first installation surface 126a is a surface of the installation surface 126 located on the third edge 123 side of the center line A. The second installation surface 126b is a surface of the installation surface 126 located on the fourth edge portion 124 side of the center line A.

The position of the through hole 210h2 and the position of the mounting member 130 will be further described with reference to FIGS. 5 to 7.

As shown in FIGS. 5 to 7, in the base member 200, the through hole 210h2 is formed on the center line (not shown) of the base member 200. The center line of the base member 200 is a virtual line passing through the center (center of gravity) of the base member 200. When the base member 200 is attached to the top wall Wa, the screw member 302 is screwed into the rod-shaped member 301 with the rod-shaped member 301 inserted into the through hole 210h2 of the base member 200. At this time, since the portion on the center line of the base member 200 (the portion where the through hole 210h2 is located) is fixed, the base member 200 can be attached to the top wall Wa in a well-balanced manner.

In a state where the base member 200 is attached to the top wall Wa by the rod-shaped member 301 and the screwing member 302, and the light source unit 100 is attached to the base member 200 by the attachment member 130, the center line of the base member 200 is the light source. It faces the center line A of the installation unit 120. As a result, in the plan view, the rod-shaped member 301 is located on the center line A of the light source installation portion 120 (see FIG. 7).

As shown in FIG. 7, the mounting member 130 is arranged at a position away from the center line A. That is, in a plan view, the mounting member 130 is arranged at a position away from the center line A. In the present embodiment, the mounting member 130 is separated from the center line A along the Y-axis direction in a plan view. In a plan view, the center line A does not intersect the mounting member 130. Further, in a plan view, the mounting member 130 is separated from the center line A so that the mounting member 130 is separated from the rod-shaped member 301 located on the center line A. As a result, when the light source unit 100 is attached to the base member 200 (see FIGS. 5 and 6), it is possible to prevent the rod-shaped member 301 from interfering with the attachment member 130. As a result, the operator can easily attach the light source unit 100 to the base member 200.

As shown in FIG. 7, the base end portion 131 and the tip end portion 132 of the mounting member 130 face the second installation surface 126b of the installation surface 126. The mounting member 130 is arranged between the center line A and the power supply unit 150. That is, in a plan view, the mounting member 130 is arranged between the center line A and the power supply unit 150. As a result, the position of the mounting member 130 is deviated from the center line A toward the power supply unit 150.

In the present embodiment, since the power supply unit 150 is located on the fourth edge portion 124 side of the center line A, the weight balance of the light source unit 100 is biased toward the fourth edge portion 124 side. However, the position of the mounting member 130 is shifted from the center line A toward the power supply unit 150. As a result, the support fulcrum E of the light source unit 100 can be shifted toward the power supply unit 150 side from the center line A, and the bias of the weight balance of the light source unit 100 can be improved. As a result, the light source unit 100 can be stably supported by the base member 200. The support fulcrum E of the light source unit 100 indicates a connection point (base end 131 of the mounting member 130) between the mounting member 130 and the light source mounting portion 120.

The operation of the mounting member 130 will be described in detail with reference to FIGS. 5, 6, and 7.

As shown in FIGS. 5, 6 and 7, the mounting member 130 is rotatably supported with respect to the light source installation portion 120. Specifically, the tip portion 132 of the mounting member 130 rotates about the base end portion 131 due to the elastic force of the coil spring that constitutes the base end portion 131 of the mounting member 130.

The mounting member 130 rotates between the storage position S1 (see FIG. 5) and the mounting position S2 (see FIG. 6).

The mounting member 130 rotates between the storage position S1 and the mounting position S2 along the rotation locus T (see FIG. 5). In the present embodiment, the rotation locus T is located on a plane parallel to the X-axis and the Z-axis.

The storage position S1 (see FIG. 5) is the position of the mounting member 130 when the base end portion 131 and the tip end portion 132 of the mounting member 130 face the light source installation portion 120. In the present embodiment, when the mounting member 130 is located at the storage position S1, the mounting member 130 is in a posture substantially along the installation surface 126 of the light source installation portion 120.

When the light source unit 100 is not attached to the base member 200 and the engaging member 230 is not engaged with the attaching member 130, no external force acts on the attaching member 130. As a result, the mounting member 130 is in a state of being positioned at the storage position S1 due to the restoring force of the coil springs forming the base end portion 131. By locating the mounting member 130 at the storage position S1, it is possible to prevent the mounting member 130 from protruding from the light source installation portion 120 in the X-axis direction and the Y-axis direction, so that the light source unit 100 can be compactly configured. Further, since the mounting member 130 is located at the storage position S1, it is possible to prevent the mounting member 130 from protruding from the power supply unit 150 in the Z-axis direction, so that the light source unit 100 can be compactly configured.

The mounting position S2 (see FIG. 6) is the position of the mounting member 130 when the tip 132 of the mounting member 130 is rotated to the side away from the light source mounting portion 120 as compared with the storage position S1. In the present embodiment, when the mounting member 130 is located at the mounting position S2, the mounting member 130 is in a posture of standing up substantially perpendicular to the mounting surface 126 of the mounting member 130.

As shown in FIG. 6, when the light source unit 100 is attached to the base member 200 and the engaging member 230 is engaged with the attachment member 130, an external force (the weight of the light source unit 100 itself) is applied to the attachment member 130. Works. As a result, the coil springs constituting the base end portion 131 are elastically deformed, so that the mounting member 130 is positioned at the mounting position S2.

The power supply unit 150 is arranged at a location separated from the rotation locus T (see FIG. 5) of the mounting member 130 along the Y-axis direction. As a result, when the work of attaching the light source unit 100 to the base member 200 is performed, even if the attachment member 130 is rotated along the rotation locus T, it is possible to prevent the power supply unit 150 from interfering with the attachment member 130. ..

In the present embodiment, by arranging the rotation locus T on a plane parallel to the X-axis and the Z-axis, the mounting member 130 rotates on the plane parallel to the X-axis and the Z-axis. On the other hand, the power supply unit 150 is located at a position (the back side of the drawing in FIG. 5) separated from the rotation locus T along the Y-axis direction. As a result, it is possible to prevent the power supply unit 150 from interfering with the rotational operation of the mounting member 130.

The lighting fixture 1 may have a configuration (separation configuration) in which the power supply unit 150 is arranged at a location separated from the rotation locus T of the mounting member 130. If the luminaire 1 has the separation configuration, the rotation direction of the mounting member 130, the rotation range of the mounting member 130, and the direction in which the power supply unit 150 is separated from the rotation locus T are determined. There is no particular limitation.

The embodiments of the present invention have been described above with reference to the drawings. However, the present invention is not limited to the above-described embodiment, and can be implemented in various aspects without departing from the gist of the present invention (for example, (1) to (9) shown below). In addition, various inventions can be formed by appropriately combining the plurality of components disclosed in the above embodiments. For example, some components may be removed from all the components shown in the embodiments. In addition, components across different embodiments may be combined as appropriate. In order to make the drawings easier to understand, each component is schematically shown, and the thickness, length, number, spacing, etc. of each component shown are actual for the convenience of drawing creation. May be different. Further, the material, shape, dimensions, etc. of each component shown in the above embodiment are merely examples, and are not particularly limited, and various changes can be made without substantially deviating from the effects of the present invention. is there.

(1) As described with reference to FIG. 1, the luminaire 1 may be, for example, a ceiling-mounted lamp. In this case, the base member 200 is directly attached to the ceiling. In the state where the light source unit 100 is attached to the base member 200, the attachment member 130 is housed in the base member 200. Therefore, even if the luminaire 1 is a ceiling-mounted light, the mounting member 130 cannot be seen by the user. As a result, it is possible to suppress the exposure of the mounting member 130, and it is possible to improve the aesthetic appearance of the luminaire 1 as compared with the case where the mounting member 130 is exposed.

Further, in a state where the light source unit 100 is attached to the base member 200, the attachment member 130 is housed in the housing 210 of the base member 200. That is, the base member 200 does not have to have the reflector 220 as long as the housing 210 and the engaging member 230 are included. As a result, as long as the base member 200 includes the housing 210 and the engaging member 230, the light source unit 100 can be attached to various base members 200, and the versatility can be improved. Further, since the mounting member 130 can be hidden even if the luminaire 1 does not have the reflector 220, the aesthetic appearance of the luminaire 1 can be improved.

The above-mentioned specific configuration will be described as a modified example with reference to FIGS. 7 and 8. FIG. 7 is a perspective view of the luminaire 1a according to the modified example. FIG. 8 is a cross-sectional view of the luminaire 1 along the line VIII-VIII of FIG. As shown in FIGS. 7 and 8, the luminaire 1a is, for example, a ceiling-mounted base light. When the luminaire 1a is a ceiling-mounted base light, the luminaire 1a is attached and fixed to the lower surface of the top wall Wa by a fixture (not shown) such as a screw. In this case, the power supply line previously constructed in the building is connected to the power supply unit 150 through the through hole Tha formed in the top wall Wa and the through hole 210h3 formed in the housing 210. Connected to (not shown). The luminaire 1a does not have a reflector 220. The mounting member 130 is hidden inside the luminaire 1. Therefore, the aesthetic feeling of the lighting fixture 1a can be improved. Further, since the reflector 220 is not required, the number of parts and the man-hours for assembling the base member 200 can be reduced. The configuration other than the reflector 220 of the luminaire 1a according to the present modification is the same as the configuration of the luminaire 1 according to the embodiment.

The lighting fixture may be, for example, a ceiling-embedded base light. FIG. 9 is a cross-sectional view showing a luminaire 1b according to a further modification of the luminaire 1a shown in FIG. The luminaire 1b is, for example, a ceiling-embedded base light. When the luminaire 1b is a ceiling-embedded base light, the luminaire 1b is embedded in an embedded hole Th formed in the top wall Wa. For example, as shown in FIG. 9, the entire luminaire 1b is embedded in an embedded hole Th formed in the top wall Wa. In this case, by providing a gap between the shade 140 and the top wall Wa so that a finger can be inserted, the user can easily grasp the shade 140 by hand, and the light source unit 100 can be easily removed from the base member 200. it can. However, a part of the luminaire 1b may be embedded in the embedded hole Th formed in the top wall Wa. Specifically, for example, only the base member 200 of the luminaire 1b may be embedded in the embedded hole Th formed in the top wall Wa. When a part of the luminaire 1b is embedded in the embedded hole Th formed in the top wall Wa, a part of the luminaire 1b protrudes from the lower surface side of the top wall Wa.

(2) As described with reference to FIG. 2, the entire mounting member 130 faces the light source installation portion 120. However, as long as the base end portion 131 and the tip end portion 132 of the mounting member 130 face the light source installation portion 120, a part of the mounting member 130 does not have to face the light source installation portion 120. For example, when assembling the luminaire 1, a part of the arm portion 133 of the mounting member 130 may protrude from the housing 210.

(3) As described with reference to FIG. 2, the mounting member 130 was a double torsion spring. However, as long as the mounting member 130 mounts the light source unit 100 on the base member 200, the mounting member 130 may be a leaf spring. When the mounting member 130 is a leaf spring, the tip portion 132 of the mounting member 130 is bent.

(4) As described with reference to FIG. 2, the tip end 132 of the mounting member 130 is located closer to the optical axis LA of the light source 111 than the base end 131 of the mounting member 130. However, as long as the base end 131 and the tip 132 of the mounting member 130 face the light source installation portion 120, the base end 131 of the mounting member 130 is closer to the optical axis LA of the light source 111 than the tip 132 of the mounting member 130. It may be located close to each other.

(5) As described with reference to FIG. 4, the engaging portion 231 forms a substantially right angle with respect to the mounting portion 232. However, as long as the mounting member 130 is inserted into the engaging hole 233 formed in the engaging portion 231, the engaging portion 231 does not have to form a substantially right angle to the mounting portion 232. For example, the engaging portion 231 may be inclined with respect to the mounting portion 232.

(6) As described with reference to FIG. 2, the mounting member 130 is arranged in the light source installation portion 120 of the light source unit 100. However, the mounting member 130 may be arranged on the base member 200. Further, the engaging member 230 was attached to the housing 210 of the base member 200. However, the engaging member 230 may be attached to the light source unit 100.

(7) As described with reference to FIGS. 5 and 6, the base member 200 is attached above the top wall Wa by the rod-shaped member 301 and the screwing member 302. However, the base member 200 may be directly attached to the building material on the upper side of the top wall Wa by a fixing tool such as a screw. Also in this case, as in the present embodiment, when the mounting member 130 is arranged at a location away from the center line A of the light source installing portion 120, the light source unit 100 is mounted on the base member 200 when the light source unit 100 is mounted. It is possible to prevent the fixture from interfering with the mounting member 130. As a result, the operator can easily attach the light source unit 100 to the base member 200.

(8) As described with reference to FIG. 7, the base end portion 131 and the tip end portion 132 of the pair of mounting members 130 are installed so as to face the second installation surface 126b of the installation surface 126. However, the present invention is not limited to this. For example, the base end 131 and the tip 132 of one of the pair of mounting members 130 (first mounting member 130a and second mounting member 130b) face the first mounting surface 126a, and the other mounting. A pair of mounting members 130 may be installed so that the base end portion 131 and the tip end portion 132 of the member 130 face the second installation surface 126b (first configuration). Further, the base end portion 131 and the tip end portion 132 of the pair of mounting members 130 may be installed so as to face the first installation surface 126a of the installation surface 126 (second configuration). As a result, in both the first configuration and the second configuration described above, the pair of mounting members 130 are arranged at a location separated from the center line A in a plan view. As a result, when the light source unit 100 is attached to the base member 200, it is possible to prevent the screwing member 302 from interfering with the attachment member 130, so that the operator can easily attach the light source unit 100. It can be carried out.

(9) In the present embodiment, the power supply unit 150 is installed in the light source unit 100. However, the installation location of the power supply unit 150 is not particularly limited. The power supply unit 150 may be installed on the base member 200, for example. In this case as well, as in the present embodiment, the power supply unit 150 is installed at a location away from the center line A of the light source installation unit 120 (for example, inside the housing 210 of the base member 200) in a plan view. As a result, it is possible to prevent the power supply unit 150 from interfering with the mounting member 130.

The present invention relates to a light source unit and a luminaire, and has industrial applicability.

1 Lighting equipment 100 Light source unit 111 Light source 120 Light source installation part 130 Mounting member 131 Base end 132 Tip 133 Arm 133a First arm 133b Second arm 135 Connecting part 200 Base member 230 Engagement member LA optical axis

Claims (6)

A light source unit that can be attached to the base member.
The light source installation part where the light source is installed and the light source installation part
It is provided with a mounting member installed in the light source installation portion and for mounting the light source unit to the base member.
The mounting member is a light source unit arranged at a location separated from the center line of the light source installation portion. Further provided with a power supply unit for supplying electric power to the light source,
The light source unit according to claim 1, wherein the power supply unit is arranged at a location separated from the center line. The mounting member is rotatably supported with respect to the light source installation portion.
The light source unit according to claim 2, wherein the power supply unit is arranged at a location separated from the rotation locus of the mounting member. The light source unit according to claim 2 or 3, wherein the mounting member is arranged between the center line and the power supply unit. The light source unit according to any one of claims 1 to 4.
With the base member
The base member is a luminaire including an engaging member that is engaged with the mounting member. The light source unit according to claim 1 and
With the base member
The base member includes an engaging member that is engaged with the mounting member and a power supply unit that supplies electric power to the light source.
A lighting fixture in which the power supply unit is arranged at a location away from the center line.

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