JP7149758B2 - lighting equipment - Google Patents

Description

TECHNICAL FIELD The present invention relates to a lighting device provided with a mounting base for mounting the lighting device on a mounting portion such as a ceiling or a wall.

2. Description of the Related Art Conventionally, there is a mounting bracket for tilting and fixing a lighting device (see Patent Document 1, for example). The mounting bracket disclosed in Patent Literature 1 is attached to a mounting portion and has a mounting surface for the lighting device that is formed obliquely with respect to the mounting portion. The lighting device can be attached obliquely to the attached portion by being attached to the obliquely formed attachment surface.

JP 2016-212993 A

However, the mounting bracket described in Patent Literature 1 cannot change the inclination angle of the mounting surface of the lighting device, and lacks versatility.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and provides a lighting apparatus having a mounting base in which the angle of inclination of the mounting surface of the lighting fixture can be changed.

A lighting apparatus according to the present invention includes a light source unit having a light emitting element that serves as a light source, a lighting fixture to which the light source unit is attached, and a lighting fixture main body that constitutes the outer shell of the lighting fixture on the side opposite to the side on which the light source unit is arranged. and a mounting base having a mounting portion to which the instrument body is mounted, a base portion to be mounted to the mounted portion, and a shaft portion for rotatably connecting the base portion and the mounting portion , the base portion has a control A portion forming a wall portion of the pedestal portion, and a first engagement portion of the A portion formed in the control A portion, and the mounting portion has a control B portion forming a wall portion of the mounting portion and a second engagement portion of B portion formed in the control B portion and engaged with the first engagement portion of A portion, and the mount mounts the lighting fixture attached to the mount mount to the mounted portion It is rotatably held between a state in which it is arranged perpendicularly to the mounting portion and a state in which it is arranged obliquely to the mounting portion.

In the lighting device of the present invention, the lighting fixture attached to the mounting base is rotated between a state in which it is arranged perpendicularly to the mounting portion and a state in which it is arranged obliquely to the mounting portion. It is held movably. Therefore, the lighting device can be rotated so that the inclination angle of the mounting surface of the lighting fixture can be changed.

1 is a perspective view of a lighting device according to an embodiment of the invention; FIG. 2 is an exploded perspective view of the lighting device of FIG. 1; FIG. Figure 3 is a perspective view of the lighting fixture of Figure 2; Figure 4 is an exploded perspective view of the lighting fixture of Figure 3; 5 is a perspective view of the end plate portion of FIG. 4; FIG. FIG. 5 is a reference diagram relating to assembly of the lighting fixture in which the end plate portion of FIG. 4 and the fixture body of the lighting fixture are separated; FIG. 7 is a reference diagram for assembling the lighting fixture in a state where the end plate portion of FIG. 6 and the fixture body of the lighting fixture are in contact with each other; FIG. 8 is a reference diagram relating to assembly of the lighting fixture in a state where the end plate portion of FIG. 7 and the fixture body of the lighting fixture are engaged; FIG. 3 is an exploded perspective view of the light source unit of FIG. 2; Figure 10 is a perspective view from the outside of the end cap of Figure 9; Figure 11 is a perspective view from the inside of the end cap of Figure 10; Figure 10 is a perspective view of the spring of Figure 9; FIG. 10 is a reference diagram for assembling the light source unit with the end cap and spring of FIG. 9 separated; 14 is a reference diagram for assembling the light source unit with the spring of FIG. 13 attached; FIG. 14 is a reference diagram for assembling the light source unit with the end cap and spring of FIG. 13 attached; FIG. 14 is a reference diagram for assembling the light source unit in a state where the cover is attached to the light source unit of FIG. 13; FIG. FIG. 14 is a reference diagram of a state in which the light source unit of FIG. 13 is assembled; FIG. 10 is a reference diagram for assembling the light source unit with the end cap and spring of FIG. 9 separated; 19 is a reference diagram for assembling the light source unit with the spring of FIG. 18 attached; FIG. FIG. 20 is a reference diagram for assembling the light source unit when attaching the spring of FIG. 19 ; FIG. 18 is a side view of the end in the longitudinal direction (X-axis direction) of the light source unit of FIG. 17; Figure 10 is a perspective view from the outside of a variation of the end cap of Figure 9; Figure 23 is a perspective view from the inside of the end cap of Figure 22; FIG. 10 is an enlarged view of another modification of the end cap and cover combination portion of the end cap of FIG. 9; FIG. 3 is a reference diagram for attaching the light source unit to the lighting fixture in a state where the light source unit and the fixture body of the lighting fixture in FIG. 2 are separated; FIG. 26 is a reference diagram for attaching the light source unit to the lighting fixture in a state where the light source unit in FIG. 25 and the fixture body of the lighting fixture are in contact with each other; FIG. 27 is a reference diagram relating to attachment of the light source unit to the lighting fixture in a state where the light source unit of FIG. 26 and the fixture body of the lighting fixture are engaged; FIG. 4 is a perspective view of a connecting member of the lighting device according to the embodiment of the present invention; Figure 29 is a front view of the coupling member of Figure 28; Figure 30 is a side view of the connecting member of Figure 29; FIG. 30 is a reference diagram for attaching the connecting member of FIG. 29 to a lighting fixture; FIG. 32 is a reference diagram showing a state in which the connection member of FIG. 31 is attached to the lighting fixture; 29 is a perspective view of a modification of the connecting member of FIG. 28; FIG. 29 is a front view of another modification of the coupling member of FIG. 28; FIG. FIG. 35 is a partially enlarged view of a C portion in the connecting member of FIG. 34; FIG. 4 is a perspective view of a fixture-side spring of the lighting device according to the embodiment of the present invention; FIG. 37 is a reference diagram for attaching the light source unit to the lighting fixture in a state where the fixture-side spring of FIG. 36 and the light source unit are in contact with each other; FIG. 38 is a reference diagram for attaching the light source unit to the lighting fixture in a state where the fixture-side spring in FIG. 37 and the light source unit are engaged; FIG. 10 is a perspective view of another fixture-side spring of the lighting device according to the embodiment of the present invention; FIG. 40 is a reference diagram for attaching the light source unit to the lighting fixture in a state where the fixture-side spring and the light source unit in FIG. 39 are separated; FIG. 41 is a reference diagram for attaching the light source unit to the lighting fixture in a state where the fixture-side spring in FIG. 40 and the light source unit are engaged; 1 is a perspective view of a mounting base for a lighting device according to an embodiment of the present invention; FIG. Figure 43 is an exploded perspective view of the mount of Figure 42; FIG. 43 is a reference diagram relating to the movement of the mount in FIG. 42; FIG. 45 is a reference diagram relating to the movement of the mount when the lighting device of FIG. 44 is rotated;

A lighting fixture 100 and a lighting device 1 according to embodiments of the present invention will be described below with reference to the drawings. The same or corresponding components in each drawing are denoted by the same reference numerals, and repeated description may be omitted. Here, the present invention is not limited by the embodiments described below. Also, in the following drawings, the size relationship of each component may differ from the actual size. Also, in the description of the embodiments, directions or positions such as up, down, left, right, front, back, front, and back may be indicated. These notations are for convenience of explanation, and do not limit the arrangement, direction, and orientation of devices, instruments, parts, and the like.

Embodiment.
<Configuration of lighting device 1>
FIG. 1 is a perspective view of a lighting device 1 according to an embodiment of the invention. FIG. 2 is an exploded perspective view of the lighting device 1 of FIG. A configuration of a lighting device 1 according to an embodiment will be described with reference to FIGS. 1 and 2. FIG. In the following description, the direction along the longitudinal direction of the illumination device 1 is defined as the longitudinal direction (X-axis direction). Further, the transverse direction (Y-axis direction) is defined as a transverse direction perpendicular to the longitudinal direction (X-axis direction). A vertical direction (Z-axis direction) is defined as a direction orthogonal to both the longitudinal direction (X-axis direction) and the lateral direction (Y-axis direction). Furthermore, in the vertical direction (Z-axis direction), the direction toward the mounted portion such as the ceiling or the wall on which the lighting device 1 is mounted is defined as an upward direction Z1. A downward direction Z2 is defined as a direction opposite to the upward direction Z1 and toward the irradiation space side where light is emitted from the lighting device 1 . Here, the upward direction Z1 is the direction in which the light source unit 200 is attached to the lighting fixture 100, and the downward direction Z2 is the direction in which the light source unit 200 is removed from the lighting device 100. FIG.

A lighting device 1 according to the present embodiment includes a lighting fixture 100 attached to a mounting portion such as a ceiling or a wall, and a light source unit 200 attached to the lighting fixture 100 . In the embodiment, the lighting device 1 shows a so-called trough-type lighting fixture 100 as an example. The lighting device 1 according to the embodiment and the modified example will be described by exemplifying a so-called trough-type lighting fixture 100 , but the lighting device 1 is not limited to the trough-type lighting fixture 100 . In the lighting device 1, the lighting equipment 100 to which the light source unit 200 is attached may be of other shapes such as a so-called shaded type, a one-side reflection shaded type, a V-shaped type, and the like. In the lighting device 1, the lighting fixture 100 has the fixture main body 110, and a part of the light source unit 200 is attached so as to be accommodated in the fixture main body 110. As shown in FIG.

[Lighting equipment 100]
FIG. 3 is a perspective view of the luminaire 100 of FIG. FIG. 4 is an exploded perspective view of the luminaire 100 of FIG. The configuration of the luminaire 100 will be described with reference to FIGS. 1 to 4. FIG. The lighting fixture 100 configures the lighting device 1 by attaching a light source unit 200 having a light source. The lighting fixture 100 has a fixture main body 110 , a power supply device 120 , a power terminal block 130 , and an end plate portion 150 . The lighting fixture 100 has an end plate portion 150 attached to an end portion in the longitudinal direction (X-axis direction) of the fixture main body 110 , and a power supply device 120 and a power terminal block 130 arranged inside the fixture main body 110 . . The lighting fixture 100 may also have a fixture-side spring 160 (see FIG. 36), which will be described later. Furthermore, the lighting device 100 may accommodate a dimming terminal block (not shown) inside the device main body 110 .

(Equipment main body 110)
A fixture body 110 that constitutes the lighting fixture 100 accommodates a part of the attached light source unit 200 therein. The fixture main body 110 constitutes the outer shell of the lighting fixture 100, and is formed, for example, by bending a metal plate material. However, the device body 110 is not limited to being formed by bending a metal plate material, and may be formed using other materials such as resin, ceramic, etc., extrusion molding, It may be formed by other methods such as additive manufacturing. The instrument main body 110 is formed in a box shape, forms an internal space in which a part of the light source unit 200 is accommodated, is formed in an elongated shape, and has end openings at both ends 110a. 110b are formed. The instrument main body 110 has a bottom portion 111 formed in a rectangular plate shape, and side portions 112 which are provided so as to protrude from both sides of the bottom portion 111 in the short direction (Y-axis direction). The instrument body 110 is formed in a concave shape by a bottom portion 111 and two side portions 112 facing each other. Therefore, the instrument main body 110 forms an internal space surrounded by a bottom portion 111 and two side portions 112 facing each other. The instrument main body 110 forms a main body opening 113 with two side surface portions 112 facing each other and two end plate portions 150 facing each other. The main body opening 113 serves as a mounting opening for attaching and detaching the light source unit 200, and is formed between both ends 110a in the longitudinal direction (X-axis direction) of the fixture main body 110. As shown in FIG.

A power supply device 120 and a power terminal block 130 are attached to the bottom portion 111 . Also, a dimming terminal block (not shown) may be attached to the bottom portion 111 . Further, the bottom portion 111 is formed with a power source hole 111a and a mounting hole 111b. The power supply hole 111a is a through hole formed in the bottom part 111 for drawing in a power supply line for receiving supply of commercial power. 130. The mounting hole 111b is a through hole formed in the bottom portion 111 for fixing the device body 110 to a mounting portion such as a ceiling or a wall with a fastener such as a screw or bolt. The power source hole 111a and the mounting hole 111b are formed outside the installation positions of the power source device 120 and the power source terminal block 130 in the longitudinal direction (X-axis direction) of the lighting device 100 . When a light control terminal block (not shown) is attached to the fixture body 110, the power source hole 111a is formed outside the installation position of the light control terminal block (not shown). When a light control terminal block (not shown) is attached to the device main body 110, the bottom portion 111 has a signal wire hole for drawing a signal line connected to the light control terminal block (not shown). may be formed.

The side surface portion 112 has one end formed continuously with the bottom portion 111 in the vertical direction (Z-axis direction) of the lighting device 100, and the other end forming the main body opening 113 of the fixture main body 110. . The two side portions 112 each have a convex portion 114 that holds the light source unit 200 at the end of the side portion 112 on the main body opening 113 side. The convex portions 114 are provided so as to protrude from the ends of the paired side portions 112 so as to face each other. The tip 114f of the projection 114 opposite to the bottom 111 is bent to form an arc toward the interior space of the instrument body 110, and the edge 114d (see FIG. 6) of the projection 114 is , is bent so as to face the side portion 112 .

(Power supply device 120)
The power supply device 120 converts AC power supplied from a commercial power source into DC power to light the light source unit 200 . The power supply device 120 has a substantially rectangular parallelepiped case 120a and a lighting circuit (not shown) disposed inside the case 120a. Further, on the output side of the power supply device 120, a power supply side wire (not shown) is provided which is detachably connected to a light source side wire 213 (see FIG. 9) of the light source unit 200, which will be described later, by a connector or the like.

(Power supply terminal block 130)
The power terminal block 130 supplies electric power supplied from a commercial power source to each component constituting the lighting fixture 100 , and an electric wire drawn from the outside is connected to the power terminal block 130 . Two power terminal blocks 130 are arranged so as to sandwich the power supply device 120 in the longitudinal direction (X-axis direction) of the apparatus main body 110, and are arranged between the power supply device 120 and the power supply hole 111a. there is Also, the power terminal block 130 is arranged adjacent to the power hole 111a.

The two power terminal blocks 130 have terminal block electric wires 131 connected to each other, and one power terminal block 130 is connected to the input portion of the power supply device 120 via electric wires (not shown). By providing the two power supply terminal blocks 130 in this way, the lighting fixture 100 can receive power supply from the commercial power supply regardless of which power supply hole 111a the electric wire is drawn into. The terminal block electric wire 131 is an electric wire for internal wiring of the lighting equipment 100, and is formed thinner than the electric wire drawn from the outside. In this way, since the power supply terminal block 130 is disposed inside the lighting fixture 100, there is no need to provide a space for arranging electric wires drawn from the outside inside the fixture body 110, and the interior space of the fixture body 110 is eliminated. can be effectively utilized. In addition, since the power supply terminal block 130 is arranged inside the lighting device 100, there is no need to provide a space inside the device body 110 for arranging electric wires drawn from the outside, thereby suppressing the size increase of the device body 110. can do.

As described above, the lighting fixture 100 may have a dimming terminal block (not shown) inside the fixture body 110 . A signal wire drawn from the outside is inserted into the dimming terminal block, and a control signal sent via the signal wire is transmitted to the power supply device 120 . The signal wire may be drawn from the power supply hole 111a, or may be drawn from a signal wire hole (not shown) formed in the bottom portion 111. FIG.

(End plate portion 150)
FIG. 5 is a perspective view of the end plate portion 150 of FIG. FIG. 6 is a reference diagram for assembling the lighting fixture 100 in which the end plate portion 150 of FIG. 4 and the lighting fixture body 110 of the lighting fixture 100 are separated. FIG. 7 is a reference diagram for assembling the lighting fixture 100 in a state where the end plate portion 150 of FIG. 6 and the lighting fixture body 110 of the lighting fixture 100 are in contact with each other. FIG. 8 is a reference diagram for assembling the lighting fixture 100 in a state where the end plate portion 150 of FIG. 7 and the lighting fixture body 110 of the lighting fixture 100 are engaged. The end plate portion 150 will be described with reference to FIGS. 1 to 8. FIG. The end plate portion 150 is arranged to close the end portion 110a in the longitudinal direction (X-axis direction) of the instrument body 110 . The end plate portion 150 is fixed by engaging with the bottom portion 111 and the side portion 112 of the instrument body 110 , respectively, and suppresses deformation of the instrument body 110 .

The end plate portion 150 is arranged in an end opening portion 110b formed in an end portion 110a in the longitudinal direction (X-axis direction) of the instrument body 110, and the end portion 110b in the longitudinal direction (X-axis direction) of the instrument body 110 is provided with the end plate portion 150. It has an end plate main body 151 that closes the end opening 110b of 110a. The end plate body portion 151 is formed in a rectangular plate shape, and the plate surface of the end plate body portion 151 is arranged substantially perpendicular to the plate surfaces of the bottom portion 111 and the side portion 112 . The end plate main body 151 is subjected to knockout processing, and has an end plate cover 151a that forms an end plate wire hole 151b in the end plate main body 151 when removed. A groove portion 151c is formed to form the edge of the plate lid portion 151a.

As shown in FIGS. 5 to 8, the end plate body 151 is detachably provided with an end plate cover 151a having a substantially horseshoe shape combining a rectangle and a circle. The end plate lid portion 151a is a portion in which a knockout process is applied to the wall portion constituting the end plate main body portion 151, and a hole can be easily made on site by, for example, tapping or cutting. part. By removing the end plate lid portion 151a from the end plate body portion 151, an end plate wire hole 151b formed by a U-shaped edge portion is formed. The end plate wire hole 151 b is formed so that the side facing the light source unit 200 is open when the light source unit 200 is attached to the lighting fixture 100 . A connecting member 300, which will be described later, is attached to the end plate wire hole 151b. The end plate lid portion 151a to be removed from the end plate body portion 151 constitutes a part of the wall of the end plate body portion 151 before being removed. In the end plate main body 151, the groove 151c formed in the portion forming the edge of the end plate cover 151a when removed from the end plate main body 151 is formed by forming the wall of the end plate main body 151 in a concave shape. This is the portion where the thickness of the wall of the end plate body portion 151 is thin. Note that the groove portion 151c is not limited to being formed in a concave shape, and for example, a plurality of through holes may be continuously formed like perforations. Further, the end plate lid portion 151a is detachably provided from the end plate body portion 151 by knockout processing. It may be provided so as to be detachable from the body portion 151 . Note that the end plate wire hole 151b can be used, for example, for wiring wires used in the lighting fixtures 100 when a plurality of lighting fixtures 100 are connected.

As shown in FIG. 5 , the end plate portion 150 has an end plate claw portion 152 that is inserted from the end plate body portion 151 into the end portion 110 a of the instrument body 110 , and an end plate connection portion 153 . The end plate claw portions 152 are formed in a plate shape, and are provided so as to protrude from both sides of the end plate body portion 151 in the short direction (Y-axis direction). The end plate claw portion 152 is arranged to face the side surface portion 112 when the end plate portion 150 is attached to the instrument body 110 . The end plate claw portion 152 has a first protruding wall portion 1152 a and a second protruding wall portion 1152 b that engage with the convex portion 114 when the end plate portion 150 is attached to the instrument body 110 . The end plate claw portion 152 includes a claw insertion portion 152a with an inwardly curved tip, a claw recess portion 152b into which a portion of the projection 114 is fitted, and a portion extending in the lateral direction (Y-axis direction) of the instrument main body 110. and a pawl fitting portion 152c having a protruding portion 152ca that protrudes in the direction ).

The first protruding wall portion 1152a and the second protruding wall portion 1152b are rectangular wall portions, and a claw concave portion 152b is formed between the first protruding wall portion 1152a and the second protruding wall portion 1152b. . When the end plate portion 150 is attached to the instrument main body 110, the two protruding wall portions of the first protruding wall portion 1152a and the second protruding wall portion 1152b form a first notch portion 114b and a second notch portion 114c, which will be described later. is inserted into each of the two notches of the When the two protruding wall portions of the first protruding wall portion 1152a and the second protruding wall portion 1152b are inserted into the two notch portions of the first notch portion 114b and the second notch portion 114c, respectively, the illumination device 1 In the longitudinal direction (X-axis direction), it faces an end plate fixing portion 114a, which will be described later. The first protruding wall portion 1152a is positioned on the center side of the instrument body 110 in a state where the end plate portion 150 is attached to the instrument body 110 . In addition, the second projecting wall portion 1152b is positioned on the end portion 110a side of the instrument body 110 in a state where the end plate portion 150 is attached to the instrument body 110 .

The first protruding wall portion 1152a has an end edge portion 152t2 forming the central side of the instrument body 110, and has an elastically deformable claw insertion portion 152a whose tip is bent inward. The claw insertion portion 152a is formed in a substantially triangular plate shape, and is formed at the end in the projecting direction of the end plate claw portion 152 in the longitudinal direction (X-axis direction) of the instrument body 110 . That is, the claw insertion portion 152a is formed at an edge portion 152t2 of the end plate claw portion 152 located on the opposite side of the edge portion 152t1 forming the boundary with the end plate body portion 151. As shown in FIG. The claw insertion portion 152a is bent so that the tip of a substantially triangular shape faces the inside of the end plate portion 150, and is formed so as to be elastically deformable. In addition, the claw insertion portion 152a is located on the side of the upper edge portion 152p of the end edge portion 152t2, that is, at a position facing the convex portion 114 when the end plate portion 150 is inserted into the end portion 110a of the instrument main body 110. formed.

The claw concave portion 152b is a notch portion formed on the upper edge portion 152p side of the end plate claw portion 152 . The claw concave portion 152b is cut out in a rectangular shape from the upper edge portion 152p of the end plate claw portion 152 downward (in the Z-axis direction). The claw concave portion 152b is formed in the end plate claw portion 152 between the first projecting wall portion 1152a and the second projecting wall portion 1152b.

The projecting portion 152ca protrudes from the claw fitting portion 152c of the end plate claw portion 152 toward the end plate claw portion 152 that is opposed. The claw engaging portion 152c is a portion facing the convex portion 114 of the second protruding wall portion 1152b in a state where the end plate portion 150 is attached to the instrument main body 110, and the end portion of the convex portion 114 and the side portion 112 get stuck in between. The projecting portion 152ca forms a spherical surface. The projecting portion 152ca is formed in a circular shape in plan view with respect to the plate surface of the claw fitting portion 152c, and is formed in an arc shape in a cross section perpendicular to the plate surface of the claw fitting portion 152c. The claw fitting portion 152c formed with the projecting portion 152ca is a wall portion formed between the claw concave portion 152b and the end plate body portion 151 in the end plate claw portion 152 .

5 and 6, the engagement between the instrument body 110 and the end plate portion 150 will be described in more detail. The instrument main body 110 has a first engaging portion 1114 that engages with the end plate portion 150 on the inner space side of the end portion 110a. The first engaging portion 1114 includes two notches, a first notch portion 114b and a second notch portion 114c, which are formed in the edge portion 114d of the convex portion 114, and these two notch portions. It is formed by an end plate fixing portion 114a forming a wall portion between the notches. The end plate part 150 is arranged on the inner space side of the instrument body 110 when attached to the instrument body 110 and has a second engaging part 1152 that engages with the first engaging part 1114 . The end plate portion 150 is inserted into the end opening portion 110b of the instrument body 110 from the longitudinal direction (X-axis direction) of the instrument body 110, so that the second engaging portion 1152 engages the first engaging portion 1114. and attached to the instrument body 110 .

As shown in FIG. 6, the convex portion 114 of the instrument body 110 is an end plate that is a projecting piece for engaging with the end plate claw portion 152 at the end portion 110a in the longitudinal direction (X-axis direction) of the instrument body 110. It has a fixing portion 114a. The end plate fixing portion 114a has a first notch portion 114b and a second notch portion 114c formed by notching a part of the edge portion 114d of the convex portion 114 at the end portion 110a of the instrument main body 110. It is formed between the first notch portion 114b and the second notch portion 114c. In the longitudinal direction (X-axis direction) of the instrument body 110, the width of the end plate fixing portion 114a is substantially the same as or slightly smaller than the width of the claw recess 152b. The first notch portion 114b and the second notch portion 114c are formed along the longitudinal direction (X-axis direction) of the tool body 110 at the edge portion 114d of the lower end of the convex portion 114. As shown in FIG. More specifically, the first notch portion 114b and the second notch portion 114c are formed closer to the bottom portion 111 than the portion where the wall portion constituting the convex portion 114 and the side surface portion 112 are farthest apart. ing. Further, the second notch portion 114c is formed on the end portion 110a side of the instrument main body 110 with respect to the first notch portion 114b. The end plate fixing portion 114a protrudes toward the bottom portion 111 from the edge portion on the bottom portion 111 side of the convex portion 114 forming the first notch portion 114b and the second notch portion 114c at the end portion 110a of the instrument main body 110. formed.

As shown in FIG. 7, the end plate portion 150 is inserted into the end portion 110a in the longitudinal direction (X-axis direction) of the instrument main body 110 from the nail insertion portion 152a side. At this time, as shown in FIG. 8, the tip of the claw insertion portion 152a slides, and the claw insertion portion 152a is inserted while elastically deforming so as to climb over the end plate fixing portion 114a. , is fitted in the first notch portion 114b. Furthermore, at this time, the protruding portion 152ca of the claw fitting portion 152c is fitted inside the second notch portion 114c, and the end plate fixing portion 114a is fitted into the claw concave portion 152b, and the end plate portion 150 is attached to the instrument body 110. It is attached.

The end plate portion 150 is inserted while the claw insertion portion 152a is elastically deformed inward, so that the side portion 112 of the instrument main body 110 is processed with a hole or recess for engagement with the end plate portion 150. Alternatively, it is possible not to provide processing traces. Therefore, the lighting fixture 100 can improve designability. The end plate portion 150 has an end plate connection portion 153 disposed inside the instrument main body 110 and is connected to the bottom portion 111 by a fixing member (screw) or the like so that the end plate portion 150 and the instrument main body 110 are engaged. The bond can be made stronger.

[Light source unit 200]
9 is an exploded perspective view of the light source unit 200 of FIG. 2. FIG. The light source unit 200 will be described with reference to FIGS. 2 and 9. FIG. The light source unit 200 configures the lighting device 1 by being attached to the lighting fixture 100 . The light source unit 200 is formed in an elongated shape, and is attached to the lighting fixture 100 for use. The light source unit 200 is partially housed in the fixture body 110 of the lighting fixture 100 and is detachably attached to the fixture body 110 . The light source unit 200 has a light emitting module 210 , a frame 220 , a cover 230 , an end cap 240 and a spring 250 .

(Light emitting module 210)
The light emitting module 210 serves as a light source and is formed in an elongated shape. The light emitting module 210 is formed longer than the frame 220 . The light emitting module 210 includes a plurality of light emitting elements 211, a rectangular substrate 212 on which the plurality of light emitting elements 211 are linearly mounted, and one end side of the substrate 212 in the longitudinal direction (along the X axis). and a light source side electric wire 213 . The substrate 212 of the light emitting module 210 is longer than the frame 220 in the longitudinal direction (X-axis direction) and has a length substantially equal to that of the cover 230 . Therefore, when the light-emitting module 210 is mounted on the frame 220 , both ends of the substrate 212 protrude from the frame 220 .

The light emitting element 211 is a light source of the light source unit 200 and emits light when power is supplied. The light emitting module 210 uses, for example, a light emitting diode (hereinafter referred to as LED) element as the light emitting element 211 . The light-emitting elements 211 are not limited to being linearly mounted on the substrate 212 . It may be implemented in a shape or the like. The light-emitting element 211 is, for example, a surface-mounted component in which a phosphor for wavelength-converting blue light to yellow light is placed on an LED chip that emits blue light with a wavelength of 440 to 480 [nm] and packaged. It is a pseudo-white LED element. Note that the light emitting element 211 is not limited to a light emitting diode element. For the light emitting element 211, for example, a solid state laser, a semiconductor laser, an organic EL (Electro Luminescence), an inorganic EL, or the like may be used. For the substrate 212, for example, a glass-epoxy substrate (FR-4), a glass-composite substrate (CEM-3), a paper epoxy substrate (FR-3), a paper phenolic substrate (XPC), a metal base substrate, or the like is used. .

(Frame 220)
A light emitting module 210 having a light emitting element 211 is attached to the frame 220 . The frame 220 is elongated and has a substantially H-shaped cross section. For example, the frame 220 may be formed by extruding an aluminum material, or may be integrally formed by bending a sheet metal. The frame 220 has a first plate portion 221 forming a board mounting surface 221a to which the light emitting module 210 is mounted. In addition, the frame 220 includes a column portion 222 protruding from a surface of the first plate portion 221 opposite to the substrate mounting surface 221a, and a second plate portion 221 provided to face the first plate portion 221 so as to sandwich the column portion 222. and a plate portion 223 .

The first plate portion 221 has a board mounting surface 221 a to which the light emitting module 210 is mounted and a cover holding portion 221 b that holds the cover 230 . The board mounting surface 221 a faces the cover 230 when the cover 230 is mounted on the frame 220 . The cover holding portion 221b is formed along the longitudinal direction (X-axis direction) of the frame 220 at the end of the frame 220 in the lateral direction (Y-axis direction). The cover holding portion 221b is formed in a hook shape and has an L-shaped cross section. The groove formed by the cover holding portion 221b opens toward the light emitting element 211 inside the frame 220 . The light emitting module 210 and the cover 230 are attached to the frame 220 by being inserted from the ends of the frame 220 in the longitudinal direction (X-axis direction). Further, the frame 220 is provided with a second cover holding portion 221c inside the cover holding portion 221b in the lateral direction (Y-axis direction). The second cover holding portion 221c is a portion to which a light distribution control member such as a lens is attached inside the cover 230 . The second cover holding portion 221c is formed along the longitudinal direction (X-axis direction) of the frame 220 inside the cover holding portion 221b. The second cover holding portion 221c is formed in a hook shape and has an L-shaped cross section. The groove formed by the second cover holding portion 221 c opens toward the light emitting element 211 inside the frame 220 .

The column portion 222 protrudes from the central portion of the first plate portion 221 in the transverse direction (Y-axis direction) toward the central portion of the second plate portion 223 in the transverse direction (Y-axis direction). 221 and the second plate portion 223 are connected. The columnar portion 222 faces the rear surface of the substrate 212 via the first plate portion 221 , and the presence of the columnar portion 222 can improve the heat radiation property of the substrate 212 .

The second plate portion 223 is provided so as to face the first plate portion 221 . The second plate portion 223 is shorter than the first plate portion 221 in the lateral direction (Y-axis direction). Also, the second plate portion 223 is provided with a slit portion (not shown). The slit portion is formed along the longitudinal direction (X-axis direction) of the second plate portion 223, and the end portion 221t of the frame fixing hole 223b (FIGS. 18, 37, 40) to which a fixing tool such as a screw is attached (FIGS. 18, 37, and 40). ) are provided.

The frame 220 has the following features (1) to (3) as strength features. (1) The first plate portion 221 and the second plate portion 223 of the frame 220 serve as flanges of H steel, and the column portion 222 serves as a web of H steel. (2) The first plate portion 221 and the second plate portion 223 can each share the load when a bending force is applied in the longitudinal direction (X-axis direction). For example, one against tensile forces and the other against compressive forces. In addition, the bending force includes bending due to a load, or a pulling load due to a spring or the like. (3) The column portion 222 opposes a force that tends to twist in the lateral direction (Y-axis direction), and rather than increasing its length in the vertical direction (Z-axis direction), By lengthening the width dimension in the axial direction, twisting can be made difficult. For example, the width dimension in the lateral direction (Y-axis direction) of the column portion 222 may be made thicker than the plate thickness of the first plate portion 221 or the plate thickness of the second plate portion 223 . In this way, the rigidity of the frame 220 can be obtained without forming the pillars 222 long in the vertical direction (Z-axis direction). Therefore, the frame 220 can be made thin.

In the lighting device 1, the frame 220 and the fixture main body 110 have the following relationship with respect to the length in the lateral direction (Y-axis direction) between the frame 220 and the main body opening 113 of the fixture main body 110. Here, the outer dimension of main body opening 113 is defined as distance LS1. The distance LS1 is the outside to outside dimension of the pair of side portions 112 . The inner dimension of body opening 113 is defined as distance LS2. The distance LS2 is the shortest dimension between the convex portions 114 facing each other. In the short-side direction (Y-axis direction) of the frame 220, the dimension of the first plate portion 221 in the short-side direction (Y-axis direction) is defined as length LS3. A dimension of the second plate portion 223 in the lateral direction (Y-axis direction) of the frame 220 is defined as a length LS4. Here, length LS3 of first plate portion 221 is greater than length LS4 of second plate portion 223 . Also, the length LS3 of the first plate portion 221 is greater than the distance LS1, which is the outer dimension of the main body opening 113 . Furthermore, the length LS4 of the second plate portion 223 is smaller than the distance LS2, which is the inner dimension of the main body opening 113 .

(Cover 230)
The cover 230 covers the light emitting module 210 and has an opening 230c at an end 230t in the longitudinal direction (X-axis direction) when attached to the frame 220 . The cover 230 diffuses and transmits the light from the light emitting element 211, and is made of a transparent material. The cover 230 is formed, for example, by extruding a resin material such as polycarbonate. The cover 230 may also be made of other materials such as acrylic or glass. The length of the cover 230 in the longitudinal direction (X-axis direction) is shorter than the distance between two opposing cover cap portions 241 arranged at both ends of the frame 220, which will be described later.

The cover 230 is provided with a main cover portion 231 that faces the light emitting module 210 so as to cover the light emitting module 210 and protrudes toward the frame 220 from both ends of the main cover portion 231 in the short direction (Y-axis direction). and a cover side surface portion 232 forming a side wall. The cover 230 also has a cover claw portion 233 provided at the end of the cover side portion 232 and engaged with the cover holding portion 221 b of the frame 220 . In addition, the outer distance of the paired cover side portions 232 is substantially the same as the outer size of the paired side portions 112 of the fixture body 110, and the cover side portions 232 are arranged in a state where the light source unit 200 is attached to the lighting device 100. 232 and side portion 112 can form a continuous design. The main cover portion 231 is formed linearly in a vertical cross-section in the longitudinal direction (X-axis direction) of the cover 230 . The shape of the main cover portion 231 is not limited to this shape. For example, in the vertical cross section of the cover 230 in the longitudinal direction (X-axis direction), it may be formed in an arc shape, or in another polygonal shape. may be formed.

(end cap 240)
10 is an external perspective view of the end cap 240 of FIG. 9. FIG. FIG. 11 is a perspective view from the inside of the end cap 240 of FIG. The end cap 240 will be described with reference to FIGS. 9 to 11. FIG. End cap 240 is fixed to frame 220 and positioned to block opening 230 c formed by cover 230 . The end cap 240 has a cover cap portion 241 , a first projection portion 242 , a second projection portion 243 , a frame cap portion 244 , a first support portion 245 and a second support portion 246 .

The cover cap portion 241 covers the ends 200 a of the frame 220 and the cover 230 in the longitudinal direction (X-axis direction) in the light source unit 200 . That is, the cover cap portion 241 covers the opening 230c formed by the cover 230. As shown in FIG. The cover cap portion 241 is a substantially rectangular plate member. The cover cap portion 241 is arranged substantially perpendicular to the main cover portion 231 and the cover side portion 232 of the cover 230 in the light source unit 200 . The distance between the two opposing cover cap portions 241 arranged at both ends of the frame 220 is longer than the length of the cover 230 in the longitudinal direction (X-axis direction).

The first projecting portion 242 is provided so as to project from the cover cap portion 241 in the light source unit 200 so as to contact the inner side surface portion 230 a of the cover 230 . More specifically, in the light source unit 200, the first projecting portion 242 abuts on the main cover portion 231 of the cover 230, the inner side surface portion 230a of the cover side surface portion 232, and part of the second cover holding portion 221c. is provided. In the light source unit 200 , the first projecting portion 242 has a top plate portion 242 a that contacts the inner side surface portion 230 a of the main cover portion 231 and a side plate portion 242 b that contacts the inner side surface portion 230 a of the cover side portion 232 . The first projecting portion 242 constitutes a wall portion projecting from the cover cap portion 241 by a top plate portion 242a and two opposing side plate portions 242b. The first projecting portion 242 closes the gap between the end portion 230t of the cover 230 and the cover cap portion 241 in the light source unit 200 . The cover 230 is slidably in contact with the first projecting portion 242 . That is, in a state in which the end cap 240 closes the opening 230c formed by the cover 230, the inner side surface 230a of the cover 230 slidably abuts the first projecting portion 242. As shown in FIG.

The first projecting portion 242 is formed to have higher permeability than the cover cap portion 241 . For example, the first protruding portion 242 is made of a material having permeability different from that of the cover cap portion 241 . That is, the first projecting portion 242 is preferably made of a material having higher permeability than the cover cap portion 241 . Also, the first projecting portion 242 is preferably made of a material having higher permeability than the main cover portion 231 and the cover side surface portion 232 . The end cap 240 may integrally mold the cover cap portion 241 and the first protruding portion 242 having different permeability from the cover cap portion 241 by two-color molding. Since the first projecting portion 242 of the end cap 240 has a high transmittance, even if the first projecting portion 242 and the cover 230 overlap each other, the influence of light unevenness and the like caused by the first projecting portion 242 can be reduced. can be suppressed. As a result, the illuminating device 1 suppresses the overlapped portion of the first projecting portion 242 of the end cap 240 and the main cover portion 231 and the cover side portion 232 of the cover 230 from being shadowed or darkened. can do. The end cap 240 suppresses light unevenness in the portion where the first protrusion 242 at the end of the cover 230 overlaps the cover 230 by increasing the transparency of the first protrusion 242 . there is However, the light unevenness of the illumination device 1 may be suppressed not only by increasing the transmittance of the first protruding portion 242 but also by providing unevenness, for example, by other means.

The second projecting portion 243 is provided so as to project from the cover cap portion 241 . The second protruding portion 243 has a board peeling prevention portion 243a, a cap-side cover holding portion 243c, an electric wire guide portion 243d, and a flat plate portion 243e.

The board peeling prevention portion 243a has a first protrusion 243a1 that protrudes from the cover cap portion 241 and a second protrusion 243a2 that protrudes from the cover cap portion 241 more than the first protrusion 243a1. The first projecting portion 243a1 and the second projecting portion 243a2 are portions that project from the cover cap portion 241 and are formed in a convex shape. The first projecting portion 243a1 is also formed integrally with the flat plate portion 243e. The second projecting portion 243a2 is formed closer to the top plate portion 242a than the first projecting portion 243a1. The board peeling prevention portion 243a forms a gap between the second protruding portion 243a2 and the flat plate portion 243e. inserted. More specifically, the substrate separation preventing portion 243a forms a gap between the second protruding portion 243a2 and the flat plate portion 243e, and when the end cap 240 and the light emitting module 210 are combined, the substrate 212 is placed in this gap. is placed. Therefore, when the end cap 240 and the light emitting module 210 are combined, the board separation prevention part 243a is provided in the light source unit 200 so as to cover the end part 212t of the board 212 attached to the frame 220 . The board peeling preventing portion 243 a prevents the board 212 from coming off the frame 220 . Further, the substrate peeling prevention portion 243a has the first projecting portion 243a1 as described above. Therefore, when the end cap 240 and the light emitting module 210 are combined, a gap is formed between the cover cap portion 241 and the end face of the substrate 212 by at least the length of the first protrusion 243 a 1 protruding from the cover cap portion 241 . be.

The flat plate portion 243 e is formed in a flat plate shape and is a wall facing the top plate portion 242 a of the first projecting portion 242 . The flat plate portion 243e protrudes from the cover cap portion 241, and when the end cap 240 and the frame 220 are combined in the light source unit 200, the end face in the protruding direction of the first plate portion 221 becomes the end portion 221t of the frame 220. Abuts on the end face. The flat plate portion 243e forms the upper wall of the frame cap portion 244, which will be described later. The upper wall of the frame cap portion 244 is a wall formed on the side opposite to the formation side of the second support portion 246 through the cap-side fixing hole 244a. A wire notch portion 243b is formed in the flat plate portion 243e of the second projecting portion 243 . The wire notch portion 243b is a through hole formed in the flat plate portion 243e, and is located between a first support portion 245 described later and the frame cap portion 244 in the lateral direction (Y-axis direction) of the light source unit 200. formed. When the end cap 240 and the frame 220 are combined, an opening is formed by the flat plate portion 243e and the frame 220 by forming the wire cutout portion 243b.

The wire notch portion 243b is a portion where the wall of the second projecting portion 243 is notched. The wire notch portion 243b is formed between a first support portion 245 and a frame cap portion 244, which will be described later. The wire notch portion 243b is a portion of the light source unit 200 through which the light source side wire 213 shown in FIG. 9 is inserted. More specifically, as described above, when the end cap 240 and the light emitting module 210 are combined, the cover cap portion 241 and the substrate 212 are separated by at least the length that the first projecting portion 243 a 1 projects from the cover cap portion 241 . A gap is formed between the end face. The light source side electric wire 213 is inserted through the gap formed in this manner and the electric wire notch portion 243 b and wired to the outside of the light source unit 200 .

The cap-side cover holding portion 243 c is provided so as to protrude from the cover cap portion 241 . The cap-side cover holding portion 243c is formed in substantially the same shape as the cover holding portion 221b. . The cap-side cover holding portion 243c has a bottom plate portion 243c1 and a hook-shaped portion 243c2 protruding from an end portion of the bottom plate portion 243c1 in the lateral direction (Y-axis direction). The hook-shaped portion 243c2 is formed to have an L-shaped cross section in a vertical cross section in the longitudinal direction (X-axis direction) of the light source unit 200. As shown in FIG. In the light source unit 200, the groove formed by the hook-shaped portion 243c2 opens toward the light emitting element 211 inside the frame 220. As shown in FIG. Therefore, in the light source unit 200, the bottom plate portion 243c1 and the first plate portion 221 are arranged continuously, and the hook-shaped portion 243c2 and the cover holding portion 221b are arranged continuously. In the light source unit 200, the cap-side cover holding portion 243c is engaged with the cover claw portion 233 of the cover 230 together with the cover holding portion 221b.

The wire guide portion 243d is provided on the upper portion of the board peeling prevention portion 243a and is provided so as to protrude from the cover cap portion 241. The wire guide portion 243d is provided so as to protrude from the cover cap portion 241. It is formed to extend to 243b. The upper portion of the substrate peeling prevention portion 243 a is between the substrate peeling prevention portion 243 a and the top plate portion 242 a of the first projecting portion 242 . The electric wire guide portion 243d is formed in a gentle arc shape so that the top plate portion 242a side of the first projecting portion 242 is convex. In the end cap 240, the substrate peeling prevention portion 243a and the wire guide portion 243d are integrally formed. and may be formed separately.

When the end cap 240 is attached to the frame 220 , the flat plate portion 243 e contacts the end surface of the first plate portion 221 of the frame 220 . The wire notch portion 243b serves as an opening through which the light source side wire 213 is pulled out between the cover cap portion 241 and the end face of the frame 220. As shown in FIG. In this manner, in the light source unit 200, the board peeling prevention portion 243a forms an opening for the light source side wire 213, so that the load on the wire due to thermal expansion and contraction of the frame 220 can be suppressed. By inserting the light source-side electric wire 213 into the opening formed by attaching the end cap 240 to the frame 220, the step of inserting the light source-side electric wire 213 into the previously formed opening can be omitted, and the work is facilitated. can be

The frame cap portion 244 protrudes from the flat plate portion 243e of the second projecting portion 243 to the side opposite to the top plate portion 242a. The frame cap portion 244 is arranged at the end portion 200 a of the light source unit 200 so as to cover the pillar portion 222 of the frame 220 and the end portion of the second plate portion 223 that becomes the end portion 221 t of the frame 220 . The frame cap portion 244 is formed on the side opposite to the cover cap portion 241 with the flat plate portion 243e of the second projecting portion 243 interposed therebetween. The frame cap portion 244 is arranged in the internal space of the lighting fixture 100 when the light source unit 200 is attached to the lighting fixture 100 . A cap-side fixing hole 244 a is formed in the frame cap portion 244 . A screw fixture 260 is inserted through the cap-side fixing hole 244a together with the frame fixing hole 223b, and the frame cap portion 244 and the frame 220 are fastened and fixed by the screw fixture 260. FIG. The head of the screw fastener 260 protrudes from the end cap 240 when the end cap 240 is secured to the frame 220 .

The first support portion 245 is a plate-shaped portion that protrudes from the cover cap portion 241 . The first support portion 245 protrudes from the frame cap portion 244 in the light source unit 200 so as to support one side of the first plate portion 221 . More specifically, the first support portion 245 protrudes from the frame cap portion 244 in the light source unit 200 so as to support the surface of the first plate portion 221 opposite to the board mounting surface 221a. The first support portions 245 are provided in pairs in the lateral direction (Y-axis direction) of the light source unit 200 so as to sandwich the column portion 222 . Note that the end cap 240 has a gap formed between the frame cap portion 244 and the first support portion 245 in the lateral direction (Y-axis direction) of the light source unit 200 .

The second support portion 246 is a plate-shaped portion that protrudes from the frame cap portion 244 . The second support portion 246 protrudes from the frame cap portion 244 in the light source unit 200 so as to support one side of the second plate portion 223 . More specifically, the second support portion 246 protrudes to support the outer surface of the second plate portion 223 of the frame 220 . The end cap 240 is restrained from moving in the vertical direction (Z-axis direction) by the first projecting portion 242 and the second support portion 246, and is restrained from moving in the lateral direction of the frame 220 by the first support portion 245 in contact with the frame 220. Movement in (the Y-axis direction) can be suppressed.

(Spring 250)
FIG. 12 is a perspective view of spring 250 of FIG. The spring 250 will be described with reference to FIGS. 9 and 12. FIG. As shown in FIG. 9, the springs 250 are provided at both ends 200a in the longitudinal direction (X-axis direction) of the light source unit 200, and are engaged with the projections 114 of the fixture body 110 to engage the light source unit. 200 is fixed to the lighting fixture 100. FIG. The spring 250 has a spring hook portion 251 hooked on the frame 220 and a spring body portion 252 having a spring engaging portion 252c that engages with the convex portion 114 of the instrument body 110 . In addition, the spring 250 has a spring fixing portion 253 that is fixed together with the end cap 240 in the longitudinal direction (X-axis direction) of the frame 220 with a fixture such as a screw.

The spring hook portion 251 protrudes from a later-described spring bottom surface portion 252b of the spring main body portion 252 and is formed obliquely with respect to the spring bottom surface portion 252b. The spring hooking portion 251 has a hooking claw portion 251a, a hooking plate portion 251b, and a spring plate portion 251d. The spring hooking portion 251 is formed in the order of the spring bottom portion 252b, the spring plate portion 251d, the hooking plate portion 251b, and the hooking claw portion 251a in the projecting direction of the spring hooking portion 251. As shown in FIG. Further, the spring hooking portion 251 forms a frame opening 251c. In the light source unit 200, the spring hooking portion 251 holds the second plate portion 223 between the hooking claw portion 251a and the hooking plate portion 251b.

The hook claw portion 251 a is formed obliquely with respect to the spring bottom surface portion 252 b so as to be hooked on the second plate portion 223 of the frame 220 . The hooking claw portion 251a is formed at the tip of the spring hooking portion 251, and is composed of two hook-shaped claw portions 251a1 facing each other. Each claw portion 251a1 is formed in an L shape and arranged so that the projecting portions face each other. In the light source unit 200, the column portion 222 of the frame 220 is inserted between the two claw portions 251a1 facing each other.

The hooking plate portion 251 b abuts on the second plate portion 223 in the light source unit 200 so as to be hooked on the second plate portion 223 of the frame 220 . The hooking plate portion 251b is formed in a substantially Y shape, and a claw portion 251a1 of the spring hooking portion 251 is formed at the branched tip portion. The hooking plate portion 251b is connected to the spring bottom surface portion 252b of the spring body portion 252 via the spring plate portion 251d at the end opposite to the branching side. The hooking plate portion 251b is arranged substantially parallel to the imaginary extended surface of the spring bottom portion 252b. It should be noted that the hooking plate portion 251b is not limited to being substantially parallel to the imaginary extended surface of the spring bottom portion 252b. The hooking plate portion 251b may be formed, for example, so that the inclination of the hooking plate portion 251b with respect to the spring bottom surface portion 252b is smaller than the inclination of the hooking claw portion 251a with respect to the spring bottom surface portion 252b.

The spring plate portion 251d is a rectangular plate-like member provided between the hook plate portion 251b and the spring bottom portion 252b. The spring plate portion 251d is formed obliquely with respect to the spring bottom portion 252b. The spring plate portion 251 d plays a role of forming a space between the spring bottom portion 252 b and the second plate portion 223 in the light source unit 200 . That is, the spring 250 forms a gap between the spring bottom surface portion 252 b and the second plate portion 223 when attached to the frame 220 .

The spring hooking portion 251 is formed with a frame opening 251c into which the second plate portion 223 is inserted by an end portion 251a2 of the hooking claw portion 251a and an end portion 251b1 of the hooking plate portion 251b. An end portion 251a2 of the hooking claw portion 251a is an end portion on the spring body portion 252 side and an end portion on the hooking plate portion 251b side in the longitudinal direction (X-axis direction) of the light source unit 200 . The end portion 251b1 of the hooking plate portion 251b is the end portion on the side of the hooking claw portion 251a in the longitudinal direction (X-axis direction) of the light source unit 200 . Further, the frame opening 251c is formed by cutting out a part of the hooking plate portion 251b. In other words, the frame opening 251c is formed by a partial peripheral edge of the hooking claw portion 251a and a partial peripheral edge of the hooking plate portion 251b.

The distance between the end portion 251a2 of the hooking claw portion 251a and the end portion 251b1 of the hooking plate portion 251b should be such that the second plate portion 223 can be held between the hooking claw portion 251a and the hooking plate portion 251b. good. When attaching the spring 250, when the hooking claw portion 251a faces the end face of the frame 220, the spring 250 is attached to the frame 220 by making the distance between the end portion 251a2 and the end portion 251b1 larger than the thickness of the second plate portion 223. Easier to install. Further, when the hook plate portion 251b is opposed to the second plate portion 223 when attaching the spring 250, the distance between the end portion 251a2 and the end portion 251b1 is made substantially equal to the thickness of the second plate portion 223. , it becomes easier to attach the spring 250 to the frame 220 .

In the light source unit 200, the spring body portion 252 is a spring bottom portion 252b that faces the second plate portion 223 in the vertical direction (Z-axis direction), and both edges of the spring bottom portion 252b in the short direction (Y-axis direction). It has a spring claw portion 252a provided so as to protrude from. The spring claw portion 252a has a spring engaging portion 252c that engages with the convex portion 114 at the tip in the projecting direction.

A plurality of spring claw portions 252a are formed along the longitudinal direction (X-axis direction) of the spring body portion 252, which is the longitudinal direction (X-axis direction) of the light source unit 200. As shown in FIG. The plurality of spring claw portions 252a are formed with a space therebetween, and the plurality of spring claw portions 252a are provided so as to deform separately. The plurality of spring claw portions 252a is at least two or more. The spring 250 has openings 252a1 formed between adjacent spring claws 252a. The spring claw portion 252a is provided so as to be elastically deformable in the lateral direction (Y-axis direction) of the spring main body portion 252 . The spring claw portions 252a are formed at both ends of the spring bottom surface portion 252b, and when the light source unit 200 is attached to or detached from the lighting fixture 100, the spring claw portions 252a can ) elastically deforms. The spring claw portion 252a is a plate spring that forms one crest. The shape of the spring claw portion 252a is not limited to a plate spring forming one mountain, and any shape that can be elastically deformed in the lateral direction (Y-axis direction) of the spring main body portion 252 can be used. For example, other shapes such as a leaf spring composed of a plurality of crests may be used. The spring claw portion 252a is formed so as to protrude toward the side on which the spring hooking portion 251 is inclined in the vertical direction (Z-axis direction) with respect to the spring bottom surface portion 252b. That is, the spring 250 is formed in a V shape so that the spring claw portion 252a protrudes toward one side of the spring bottom surface portion 252b. The spring 250 is formed so that when the light source unit 200 is attached to the lighting device 100, the spring claw portion 252a does not protrude toward the bottom portion 111 from the spring bottom portion 252b inside the lighting device 100.

The spring engaging portion 252c is formed at the distal end portion of the spring claw portion 252a in the lateral direction (Y-axis direction) of the spring body portion 252. As shown in FIG. The spring engaging portion 252c extends from the tip of the spring claw portion 252a to the side where the V-shaped spring claw portion 252a is convex with respect to the spring bottom surface portion 252b. The spring engaging portion 252c is formed in a V shape so as to protrude on the side opposite to the spring claw portion 252a together with the plate at the tip of the spring claw portion 252a. The spring engaging portion 252c has a curved spring claw portion 252c1 at the distal end portion of the spring main body portion 252 in the lateral direction (Y-axis direction). Therefore, when the light source unit 200 is attached to the lighting fixture 100, the spring engaging portion 252c is formed in an arcuate portion facing the side surface portion 112. As shown in FIG. The spring engaging portion 252c is formed in a hook shape or a substantially L shape in a vertical cross section of the spring main body portion 252 in the longitudinal direction (X-axis direction). The spring engaging portion 252c is formed integrally with the plurality of spring claw portions 252a and is formed to extend in the longitudinal direction (X-axis direction) of the spring body portion 252 over the plurality of spring claw portions 252a. The spring engaging portion 252c constitutes a plate spring together with the spring claw portion 252a. The spring engaging portion 252c and the spring claw portion 252a are formed in a substantially N-shape in the vertical cross section of the spring body portion 252 in the longitudinal direction (X-axis direction).

The spring bottom surface portion 252b is formed in a rectangular flat plate shape. The longitudinal direction (X-axis direction) of the light source unit 200 and the longitudinal direction (X-axis direction) of the spring body portion 252 are the same. In the light source unit 200, the spring bottom surface portion 252b is arranged so as to face the second plate portion 223 and to provide a space therebetween. This is to increase the length of the spring claw portion 252a in the vertical direction (Z-axis direction). 200 can be easily attached to and detached from the lighting fixture 100 . The spring 250 is formed so that the spring bottom surface portion 252b of the spring main body portion 252 is separated from the second plate portion 223 of the frame 220. The height of the light source unit 200 may be reduced without providing a space between the two. At this time, a notch may be provided in the convex portion 114 and the spring engaging portion 252c may be fitted into the notch of the convex portion 114 .

The spring fixing portion 253 protrudes from the spring bottom portion 252b on the side opposite to the direction in which the spring hooking portion 251 protrudes in the longitudinal direction (X-axis direction) of the spring body portion 252, and extends obliquely to the spring bottom portion 252b. formed. The spring fixing portion 253 has a spring fixing end portion 253a, a spring contact portion 253b, and a spring end plate portion 253c. The spring fixing portion 253 is formed in the order of the spring bottom surface portion 252b, the spring end plate portion 253c, the spring contact portion 253b, and the spring fixing end portion 253a in the projecting direction of the spring fixing portion 253. As shown in FIG.

The spring fixing end portion 253a is provided at the tip of the spring fixing portion 253 in the protruding direction. is formed in The spring contact portion 253 b is formed in a flat plate shape and contacts the second plate portion 223 in the light source unit 200 . The spring end plate portion 253c is a rectangular plate-like member provided between the spring contact portion 253b and the spring bottom portion 252b. The spring end plate portion 253c is formed obliquely with respect to the spring bottom surface portion 252b. The spring end plate portion 253 c plays a role of forming a space between the spring bottom portion 252 b and the second plate portion 223 in the light source unit 200 .

The spring fixing portion 253 has a spring contact portion 253b that abuts on the end face of the frame 220 in the longitudinal direction (X-axis direction), and the screw fixture 260 is fixed to the frame fixing hole 223b via the end cap 240. , is fixed to the frame 220 together with the end cap 240 . The spring fixing portion 253 is sandwiched and fixed between the end portion 221t of the frame 220 and the end cap 240 at the end portion 200a of the light source unit 200 .

[Assembly process of light source unit 200]
FIG. 13 is a reference diagram for assembling the light source unit 200 with the end cap 240 and the spring 250 of FIG. 9 separated. FIG. 14 is a reference diagram for assembling the light source unit 200 with the spring 250 of FIG. 13 attached. FIG. 15 is a reference diagram for assembling the light source unit 200 with the end cap 240 and the spring 250 of FIG. 13 attached. FIG. 16 is a reference diagram for assembling the light source unit 200 with the cover 230 attached to the light source unit 200 of FIG. FIG. 17 is a reference diagram of the state in which the light source unit 200 of FIG. 13 is assembled. FIG. 18 is a reference diagram for assembling the light source unit 200 with the end cap 240 and the spring 250 of FIG. 9 separated. FIG. 19 is a reference diagram for assembling the light source unit 200 with the spring 250 of FIG. 18 attached. FIG. 20 is a reference diagram for assembling the light source unit 200 when attaching the spring 250 of FIG. Next, a method of attaching the cover 230, the end cap 240 and the spring 250 to the frame 220 of the light source unit 200 will be described with reference to FIGS. 13 to 20. FIG.

As shown in FIGS. 13 and 18, the light source unit 200 is attached with the spring 250 and the end cap 240 while the light emitting module 210 is attached to the frame 220 . A worker first inserts the spring 250 into the frame 220 . At this time, as shown in FIGS. 13 and 18, the operator inserts the spring 250 from the end portion 221t in the longitudinal direction (X-axis direction) of the frame 220, and the end portion 221t of the frame 220 is The spring 250 is inserted from the spring hooking portion 251 side. At this time, as shown in FIG. 20, the operator can easily insert the spring 250 by arranging it obliquely with respect to the frame 220 and inserting it.

Next, as shown in FIGS. 14 and 19, the operator inserts the spring 250 until the spring fixing portion 253 abuts the end portion 221t of the frame 220 in the longitudinal direction (X-axis direction). After attaching the spring 250 to the frame 220, the operator arranges the light source side electric wire 213 along the longitudinal direction (X-axis direction) of the frame 220 under the frame 220, as shown in FIG. Good.

Next, as shown in FIGS. 15, 18, and 19, the operator holds the spring fixing portion 253 of the spring 250 between the frame cap portion 244 and the end face of the frame 220, and fits the end cap 240 to the frame 220. enter. At this time, the end cap 240 is fixed to the frame 220 by engaging the screw fixture 260 with the frame fixing hole 223b through the cap-side fixing hole 244a. Further, at this time, the light source side electric wire 213 is arranged outside along the electric wire guide portion 243d through the electric wire notch portion 243b shown in FIG.

Next, as shown in FIGS. 19 and 20, the operator inserts the cover claw portion 233 into the cover holding portion 221b of the frame 220 from the other end side of the frame 220 in the longitudinal direction (X-axis direction). , attach the cover 230 to the frame 220; At this time, the operator inserts the cover 230 into the frame 220 and slides it until the inner surfaces of the main cover portion 231 and the cover side surface portion 232 overlap the first projecting portion 242 of the end cap 240 .

After that, the operator attaches the end cap 240 and the spring 250 to the other end side of the frame 220 as shown in FIGS. 13 to 16, thereby assembling the light source unit 200. FIG. Regarding wiring, since the light source side electric wire 213 is only on one end side of the frame 220, a description thereof will be omitted.

FIG. 21 is a side view of the end portion 200a in the longitudinal direction (X-axis direction) of the light source unit 200 of FIG. The assembled light source unit 200 is arranged such that the end (head) of the screw fixture 260 protrudes from the frame cap portion 244 of the end cap 240 in the longitudinal direction (X-axis direction) of the light source unit 200 . ing. Regarding the order of assembling the light source unit 200 , the end caps 240 may be attached to both ends of the frame 220 after the cover 230 is attached to the frame 220 . As shown in FIG. 21, in the light source unit 200, a gap is formed between the cover 230 and the cover cap portion 241 in the longitudinal direction (X-axis direction) of the light source unit 200. 230 and cover cap portion 241 may abut.

(Modified example of end cap 240)
FIG. 22 is an external perspective view of a variation of the end cap 240 of FIG. 23 is a perspective view from the inside of the end cap 1240 of FIG. 22. FIG. An end cap 1240 that is a modification of the end cap 240 will be described with reference to FIGS. 22 and 23. FIG. In the following description of the end cap 1240, the same parts as those of the end cap 240 are denoted by the same reference numerals, and descriptions thereof are omitted, and differences from the end cap 240 are mainly described.

The end cap 1240 has a cover cap portion 241 , a first projection portion 1242 , a second projection portion 243 , a frame cap portion 244 , a first support portion 245 and a second support portion 246 .

The first projecting portion 1242 is provided in the light source unit 200 so as to project from the cover cap portion 241 so as to come into contact with the inner side surface portion 230 a of the cover 230 . More specifically, in the light source unit 200, the first projecting portion 1242 abuts on the main cover portion 231 of the cover 230, the inner side surface portion 230a of the cover side surface portion 232, and part of the second cover holding portion 221c. is provided. In the light source unit 200 , the first projecting portion 1242 has a top plate portion 1242 a that contacts the inner side surface portion 230 a of the main cover portion 231 and a side plate portion 1242 b that contacts the inner side surface portion 230 a of the cover side surface portion 232 . The first projecting portion 1242 constitutes a wall portion projecting from the cover cap portion 241 by a top plate portion 1242a and two opposing side plate portions 1242b. The first projecting portion 1242 closes the space between the end portion 230t of the cover 230 and the cover cap portion 241 in the light source unit 200 . The first projecting portion 1242 is in contact with the cover 230 in a slidable manner.

The first projecting portion 1242 may be made of a plurality of different permeable materials. More specifically, the first projecting portion 1242 may be made of a different transmissive material in the longitudinal direction (X-axis direction) of the light source unit 200 from midway along the extending direction of the first projecting portion 1242 . For example, the first projecting portion 1242 may be made of different transmissive materials in areas A and B demarcated by dashed lines M in FIGS. 22 and 23 . The first protruding portion 1242 is formed such that the region A on the distal end side and the region B on the base side have different permeability in the protruding direction. By using a material with high permeability from the middle of the first projecting portion 1242 , the portion of the first projecting portion 1242 that does not overlap with the cover 230 can be made of a material with low permeability. For example, the tip side of the first projecting portion 1242 in the projecting direction is defined as region A, and the cover cap portion 241 side, which is the base side of the first projecting portion 1242 in the projecting direction, is defined as region B. The area A is a portion of the light source unit 200 that overlaps the cover 230 , and the area B is a portion of the light source unit 200 that does not overlap the cover 230 . The first protruding portion 1242 is formed of a material having a high permeability in the region A and a material having a low permeability in the region B. As shown in FIG. For example, the first protruding portion 1242 is formed so that the region A portion is transparent, and the region B portion is transparent and has substantially the same transparency as the cover 230 . The first projecting portion 1242 is formed by forming the area A portion transparently and the area B portion by forming the half having substantially the same transmittance as the cover 230, so that the first projecting portion of the portion overlapping the cover 230 is formed. The light transmittance of the setting portion 1242 is improved. Therefore, the light source unit 200 can suppress light unevenness as a whole. This end cap 1240 can be formed by two-color molding.

Note that the first protruding portion 1242 is not limited to the configuration in which the region A portion is formed of a highly transparent material and the region B portion is formed of a low transparent material. The first protruding portion 1242 may be formed of a material with low permeability in the region A and of a material with high permeability in the region B. As shown in FIG. For example, the first projecting portion 1242 may be formed so that the region B portion is transparent, and the region A portion is transparent and has substantially the same transparency as the cover 230 . In this case, since the portion of the region B that does not overlap with the cover 230 is transparent, the first projecting portion 1242 can increase the amount of light emitted from the portion of the region B and make the portion appear brighter. .

FIG. 24 is an enlarged view of the combined portion of the end cap 2240 and the cover 230 of another modified example of the end cap 240 of FIG. An end cap 2240, which is a modification of the end cap 240, will be described with reference to FIG. In the following description of the end cap 2240, the same parts as those of the end cap 240 are denoted by the same reference numerals, and descriptions thereof are omitted, and differences from the end cap 240 are mainly described.

The end cap 2240 has a cover cap portion 241 , a first projection portion 2242 , a second projection portion 243 , a frame cap portion 244 , a first support portion 245 and a second support portion 246 .

The first protruding portion 2242 is provided to protrude from the cover cap portion 241 in the light source unit 200 so as to come into contact with the inner side surface portion 230a of the cover 230 . More specifically, in the light source unit 200, the first projecting portion 2242 abuts on the main cover portion 231 of the cover 230, the inner side surface portion 230a of the cover side surface portion 232, and part of the second cover holding portion 221c. is provided. In the light source unit 200 , the first projecting portion 2242 has a top plate portion 242 a that contacts the inner side surface portion 230 a of the main cover portion 231 and a side plate portion 242 b that contacts the inner side surface portion 230 a of the cover side portion 232 . The first protruding portion 2242 constitutes a wall portion protruding from the cover cap portion 241 by the top plate portion 242a and two opposing side plate portions 242b. The first projecting portion 2242 closes the space between the end portion 230t of the cover 230 and the cover cap portion 241 in the light source unit 200 . The cover 230 is slidably in contact with the first projecting portion 2242 .

As shown in the R section of FIG. 24, the end cap 2240 has a first protruding portion 2242 formed in an R shape at the end. By making the end portion of the first protruding portion 2242 rounded, the boundary line between the portion of the main cover portion 231 and the cover side portion 232 overlapping the end cap 2240 and the portion not overlapping the end cap 2240 is obscured. Can be made inconspicuous or suppressed.

[Mounting process of light source unit 200]
FIG. 25 is a reference diagram for attaching the light source unit 200 to the lighting fixture 100 in a state in which the light source unit 200 in FIG. 2 and the lighting fixture body 110 of the lighting fixture 100 are separated. FIG. 26 is a reference diagram for attaching the light source unit 200 to the lighting fixture 100 in a state where the light source unit 200 in FIG. 25 and the lighting fixture body 110 of the lighting fixture 100 are in contact with each other. FIG. 27 is a reference diagram for attaching the light source unit 200 to the lighting fixture 100 in a state where the light source unit 200 in FIG. 26 and the lighting fixture body 110 of the lighting fixture 100 are engaged. A process of attaching the light source unit 200 to the lighting fixture 100 will be described with reference to FIGS. 25 to 27. FIG.

FIG. 25 is a cross-sectional view of the lighting device 1 in the lateral direction (Y-axis direction), in which the lighting fixture 100 and the light source unit 200 are separate. 26 shows a state in which the light source unit 200 is inserted into the body opening 113 of the lighting fixture 100. FIG. As shown in FIG. 25, in the illumination device 1, the distance L1 between the closest portions of the corresponding two convex portions 114 is the distance between the farthest portions of the two opposing spring engaging portions 252c in the natural length of the spring claw portion 252a. smaller than the distance L2. In the light source unit 200, the outer side of the spring engaging portion 252c of the spring 250 is in contact with the convex portion 114 of the fixture body 110, and when the light source unit 200 is pushed into the fixture body 110, the spring engaging portion 252c contacts the convex portion 114. slide against. At this time, when the operator pushes the light source unit 200 inside the fixture main body 110, the spring engaging portion 252c is pushed by the convex portion 114, and the spring claw portion 252a moves in the lateral direction (Y-axis direction) of the lighting fixture 100. direction).

27 shows a state in which the light source unit 200 is attached to the lighting fixture 100. FIG. The light source unit 200 is pushed in until the first plate portion 221 comes into contact with the upper end portion of the convex portion 114 . That is, in the light source unit 200, when the frame 220 is inserted into the lighting fixture 100, the spring engaging portion 252c is arranged below the convex portion 114 so that the first plate portion 221 is positioned at the tip portion of the side portion 112. It abuts on the protruding portion 114 located there. At this time, the spring engaging portion 252c finishes sliding with the convex portion 114, the elastic deformation of the spring claw portion 252a is released, and the convex portion 114 is fitted between the first plate portion 221 and the spring engaging portion 252c. stored so that it can be The spring engaging portion 252c of the spring 250 is engaged with the convex portion 114 when the light source unit 200 is attached to the lighting fixture 100 . In this manner, the light source unit 200 is attached to the lighting fixture 100 so as to be sandwiched between the side portions 112 . As shown in FIG. 27, when the light source unit 200 is attached to the lighting fixture 100, the spring claw portion 252c1 is in contact with the lower side of the convex portion 114. As shown in FIG. In an actual use state, the spring claw portion 252c1 is in contact with the upper side of the convex portion 114 when the light source unit 200 is attached to the lighting fixture 100. As shown in FIG. The thickness of the convex portion 114 formed by bending the spring claw portion 252c1 makes it difficult for the spring claw portion 252c1 to come off from the convex portion 114 .

When removing the light source unit 200 from the lighting fixture 100, the procedure of FIGS. 25 to 27 is reversed. The frame 220 may be formed such that the length of the first plate portion 221 in the lateral direction (Y-axis direction) of the lighting device 1 is longer than the distance between the outer sides of the two opposing side portions 112 . In this case, the operator can easily pull the light source unit 200 from the lighting fixture 100 and remove it from the lighting fixture 100 by gripping the first plate section 221 projecting outward from the side surface section 112 as a grip section.

Further, as shown in FIG. 21, an end 200a in the longitudinal direction (X-axis direction) of the light source unit 200 is an end (head) of a screw fixture 260, which is a metal member, and an end cap 240 (resin member). more prominent. Therefore, when attaching the light source unit 200 to the lighting fixture 100 , the screw fixture 260 comes into contact with the end plate portion 150 of the lighting fixture 100 before the end cap 240 . Therefore, in the illumination device 1, the end cap 240, which is a resin member, can avoid contact with the end plate portion 150, and deformation or damage of the end cap 240, which is a resin member, can be prevented.

[Connecting member 300]
FIG. 28 is a perspective view of connecting member 300 of lighting device 1 according to the embodiment of the present invention. 29 is a front view of the coupling member 300 of FIG. 28. FIG. FIG. 30 is a side view of coupling member 300 of FIG. The connecting member 300 will be described with reference to FIGS. 28 to 30. FIG.

The connecting member 300 connects a plurality of lighting fixtures 100 . The connecting member 300 fixes the adjacent lighting fixtures 100 by sandwiching and holding the end plate portions 150 of the adjacent lighting fixtures 100 . The connecting member 300 is attached to each of the end plate portions 150 of the adjacent lighting fixtures 100 by being inserted into the end plate portion 150 in the direction in which the light source unit 200 is inserted into the fixture main body 110 . In addition, the connecting member 300 is inserted into the end plate portion 150 in the direction in which the light source unit 200 is inserted into the fixture main body 110, thereby sandwiching and holding the end plate portions 150 of the adjacent lighting fixtures 100. , to fix the lighting fixtures 100 adjacent to each other.

The connecting member 300 is attached to an end plate wire hole 151 b formed in the end plate main body 151 of the end plate 150 after the end plate cover 151 a is removed from the end plate main body 151 of the lighting fixture 100 . The connecting member 300 has a U-shaped connecting body portion 310 . In addition, in the longitudinal direction of the lighting device 100 when the connecting member 300 is attached to the lighting device 100, the connecting member 300 includes a plurality of first claw portions 320 provided on one end side of the connecting main body portion 310, and a connecting main body portion. A plurality of second claw portions 330 are provided on the other end side of 310 . When the connecting member 300 is attached to the lighting fixture 100, the end plate portions 150 of the adjacent lighting fixtures 100 abut on the connecting main body portion 310, and the first claw portion 320 and the second claw portion 330 are in contact with each other. placed in between. The connection member 300 covers the end plate wire hole 151b with this configuration, so that, for example, when the end plate wire hole 151b is used for wiring such as wires used in the lighting fixture 100, the end plate wire hole 151b is covered. Wires can be protected from edges. Further, in the connecting member 300 , the first claw portion 320 and the second claw portion 330 arranged at the U-shaped distal end portion 310 a of the connecting main body portion 310 each have a main body engaging portion 350 .

The connecting body portion 310 is a member having a U-shaped cross section, and is a member provided so as to extend the U-shape. The first claw portion 320 is a plate piece formed on one end side of the connection main body portion 310 in the U-shaped extending direction, and the second claw portion 330 is a plate piece formed on the other end side. The first claw portion 320 and the second claw portion 330 are formed on the outer peripheral side of the connecting body portion 310 formed in a U-shape, and are formed to protrude in a direction substantially perpendicular to the connecting body portion 310. ing. Between the first claw portion 320 and the second claw portion 330, an instrument slit portion 340 into which the end plate body portion 151 is inserted is formed. are staggered so as not to face each other. As shown in FIGS. 28 and 29, the body engaging portion 350 protrudes upward at the leading end portions of the first claw portion 320 and the second claw portion 330 in the projecting direction. That is, the main body engaging portion 350 protrudes in a direction substantially parallel to the direction in which the leading end portion 310a of the connecting main body portion 310 faces at the leading end portions of the first hook portion 320 and the second hook portion 330 in the projecting direction.

[Mounting process of connecting member 300]
FIG. 31 is a reference diagram for attaching the connecting member 300 of FIG. 29 to the lighting fixture 100. FIG. 32 is a reference diagram showing a state in which the connecting member 300 of FIG. 31 is attached to the lighting fixture 100. FIG. FIG. 31 shows a state before the connecting member 300 is attached to the lighting fixture 100. FIG. To connect the lighting device 1, the operator removes the end plate lid portion 151a from the end plate main body portion 151 of the lighting fixture 100, brings the end plate portion 150 into close contact with the end plate wire hole 151b, and inserts the device. A main body 110 is placed. Then, the operator inserts the connecting member 300 in the direction of the arrow along the edge of the end plate main body 151 forming the end plate wire hole 151b.

FIG. 32 shows a state in which the connecting member 300 is attached to the lighting fixture 100 by pushing the connecting member 300 in the direction of the arrow from the state of FIG. When the connecting member 300 is attached to the lighting device 100, the device slit formed between the first claw portion 320 and the second claw portion 330 is opened while the end plate main body portions 151 of the two lighting devices 1 are in contact with each other. It is inserted into the portion 340 . That is, when the connecting member 300 is attached to the lighting fixture 100, it is arranged between the first claw portion 320 and the second claw portion 330 while the end plate main body portions 151 of the two lighting devices 1 are in contact with each other. When the connecting member 300 is attached to the lighting device 100 , the main body engaging portion 350 engages with the convex portion 114 of the device main body 110 . That is, when the connecting member 300 is attached to the lighting fixture 100 , the convex portion 114 is arranged in the projecting direction of the body engaging portion 350 and engages with the convex portion 114 .

[Action of connecting member 300]
If the first claw portion 320 and the second claw portion 330 were raised to face each other, it would be difficult to confirm whether the end plate body portion 151 is securely inserted into the instrument slit portion 340 . The first claw portion 320 and the second claw portion 330 are alternately arranged so as not to face each other, so that the connecting member 300 can be inserted while checking the instrument slit portion 340 and the edge of the end plate wire hole 151b. You can put it in and it will make your work easier. Further, by forming the first claw portion 320 and the second claw portion 330 alternately, it is possible to mold with a molding die movable in a direction extending in a U shape. Further, when the connecting member 300 is attached to the lighting device 100, the end plate main body portions 151 of the two lighting devices 1 are sandwiched between the first claw portion 320 and the second claw portion 330, and the two lighting devices 1 are restricted from moving in the longitudinal direction (X-axis direction) with respect to each other. Further, when the connecting member 300 is attached to the lighting fixture 100, the movement of the end plate main body portion 151 is restricted by the U-shaped connecting main body portion 310, so that the two lighting devices 1 can be Movement in the direction (Y-axis direction) is restricted. Further, the main body engaging portion 350 protrudes in a direction substantially parallel to the direction in which the leading end portion 310a of the connecting body portion 310 faces at the leading end portions of the first claw portion 320 and the second claw portion 330 in the projecting direction. When attached to the end plate portion 150 of the lighting device 1 , the main body engaging portion 350 is hooked on the convex portion 114 to prevent the connecting member 300 from coming off the lighting fixture 100 .

[Modification of connecting member 300]
33 is a perspective view of a modification of the coupling member 300 of FIG. 28. FIG. A connecting member 1300, which is a modification of the connecting member 300, will be described with reference to FIG. In the following description of the connecting member 1300, the same parts as those of the connecting member 300 are denoted by the same reference numerals, and descriptions thereof are omitted, and differences from the connecting member 300 are mainly described.

As shown in FIG. 33 , the connecting member 1300 has a wire claw portion 360 on the side opposite to the body engaging portion 350 at the distal end portion 310 a of the connecting body portion 310 . The electric wire claw portions 360 protrude so as to face each other on the inner peripheral side of both tip portions 310a of the connecting main body portion 310 . The wire claw portion 360 draws in the wire from the adjacent lighting fixture 100 and suppresses the wire from coming off when the wire is arranged inside the connecting main body portion 310 .

34 is a front view of another modification of the coupling member 300 of FIG. 28. FIG. FIG. 35 is a partially enlarged view of the C portion of the connecting member 2300 of FIG. A connecting member 2300 that is a modification of the connecting member 300 will be described with reference to FIGS. 34 and 35. FIG. In the following description of the connecting member 2300, the same parts as those of the connecting member 300 and the connecting member 1300 are denoted by the same reference numerals, and descriptions thereof are omitted, and differences from the connecting member 300 are mainly described.

The first claw portion 320 and the second claw portion 330 arranged at the U-shaped distal end portion 310 a of the connecting body portion 310 each have a body engaging portion 1350 . The body engaging portion 1350 protrudes upward at the distal end portions of the first claw portion 320 and the second claw portion 330 in the projection direction. That is, the main body engaging portion 1350 protrudes in a direction substantially parallel to the direction in which the distal end portion 310a of the connecting main body portion 310 faces at the distal end portions of the first claw portion 320 and the second claw portion 330 in the projecting direction. As shown in FIG. 35, the connecting member 2300 has an inner end portion 351 of the main body engaging portion 1350 formed in an R shape and an outer end portion 352 of the main body engaging portion 1350 at an end portion 1350a in the protruding direction of the main body engaging portion 1350. It should be formed in a shape. In addition, in the lateral direction (Y-axis direction) of the lighting device 1 , the inner end portion 351 is arranged to face the inner side of the lighting device 1 and the outer end portion 352 is arranged to face the outer side of the lighting device 1 . Further, the fact that the inner end portion 351 is formed in an R shape means that the corners of the inner end portion 351 are chamfered.

[Action of connecting member 2300]
By forming the inner end portion 351 into the R shape in this way, it becomes easier to insert the electric wire when pushing the electric wire from the outside of the lighting fixture 100 into the connecting main body portion 310 through the main body opening 113 . Further, by forming the outer end portion 352 into a substantially right-angled shape, the body engaging portion 1350 can be easily caught on the convex portion 114 , and the connecting member 2300 is less likely to come off from the lighting fixture 100 .

[Instrument side spring 160]
FIG. 36 is a perspective view of the fixture-side spring 160 of the lighting device 1 according to the embodiment of the invention. A fixture-side spring 160 that is an optional component of the lighting device 1 according to the embodiment will be described with reference to FIG. 36 . If the illumination device 1 is formed to be long, there is a possibility that the vicinity of the center of the light source unit 200 will be bent. In such a case, it is preferable to attach the fixture-side spring 160 to the lighting device 1 . The fixture-side spring 160 is made of an elastic material and fixes the light source unit 200 to the fixture main body 110 . The instrument-side springs 160 are provided in pairs at positions near the middle in the longitudinal direction (X-axis direction) of the instrument body 110 . That is, the fixture-side spring 160 is arranged on the central side with respect to the ends in the longitudinal direction (X-axis direction) of the lighting fixture 100 . In addition, the instrument-side spring 160 is arranged at a position that avoids the power supply device 120 in the longitudinal direction (X-axis direction) of the instrument main body 110 .

As shown in FIG. 36, the instrument-side spring 160 includes a linear spring connecting portion 160b and two engaging springs integrally formed with the spring connecting portion 160b and positioned at both ends of the spring connecting portion 160b. and a portion 160a.

The engagement spring portion 160a is formed in a substantially V shape, and a straight spring extension portion 161 and a gently curved spring arm portion 162 are connected via a bent spring curved portion 163. integrally formed. One end of the spring extending portion 161 is continuous with the spring curved portion 163 , and the tip of the other end has a spring engaging portion 161 a that engages with the convex portion 114 . The spring arm portion 162 is a portion that engages with the light source unit 200 at the central portion 165 of the instrument side spring 160 . The spring engaging portion 161a is a portion integrally formed with the spring extending portion 161, and is a portion formed into a circular shape by bending a wire rod. The spring engaging portion 161 a is a portion that engages with the convex portions 114 of the two side surfaces 112 of the instrument body 110 at the ends of the instrument side spring 160 .

The engagement spring portion 160a also has a spring constriction portion 160a1 at the end connected to the spring connection portion 160b. The paired two spring throttle portions 160a1 are inclined so that the distance between them increases from the spring arm portion 162 toward the spring connection portion 160b. In other words, the paired two spring squeezed portions 160a1 are inclined so that the distance between them narrows from the spring connecting portion 160b toward the spring arm portion 162. As shown in FIG. The spring narrowed portion 160 a 1 has a spring bent portion 160 a 2 that is bent in the opposite direction to the inclined direction and connected to the spring arm portion 162 . The spring bent portion 160a2 is formed by bending in a substantially L shape. The instrument-side spring 160 is formed such that the paired spring bent portions 160a2 are convex in the direction facing each other.

The fixture-side spring 160 is configured so that the distance between the two spring bent portions 160a2 in the lateral direction (Y-axis direction) of the lighting device 1 is shorter than the length in the direction in which the spring connecting portion 160b extends. The narrowed portion 160a1 is inclined. The fixture-side spring 160 has spring arms such that the distance between the two spring curved portions 163 is longer than the length in the direction in which the spring connection portion 160b extends in the lateral direction (Y-axis direction) of the lighting device 1. The portion 162 is slanted. Moreover, the instrument-side spring 160 has an inclined spring extending portion 161 so that the distance between the two spring engaging portions 161 a is longer than the distance between the two spring curved portions 163 . That is, the spring arm portion 162 projects obliquely upward from the lower end portion of the spring extension portion 161 .

[Mounting process of light source unit 200]
FIG. 37 is a reference diagram for attaching the light source unit 200 to the lighting fixture 100 in a state where the fixture-side spring 160 and the light source unit 200 in FIG. 36 are in contact with each other. FIG. 38 is a reference diagram for attaching the light source unit 200 to the lighting fixture 100 in a state where the fixture-side spring 160 and the light source unit 200 shown in FIG. 37 are engaged. A process of attaching the light source unit 200 to the lighting fixture 100 using the fixture-side spring 160 will be described with reference to FIGS. 37 and 38 .

The operator first installs the fixture-side spring 160 inside the fixture body 110 of the lighting fixture 100 . The operator slides the spring engaging portion 161 a onto the convex portion 114 to insert the instrument side spring 160 into the instrument body 110 . At this time, the spring extension portion 161 abuts on the convex portion 114 . In addition, the spring arm portion 162 and the spring extension portion 161 are elastically deformed inward in the lateral direction (Y-axis direction) of the lighting device 100 , and the spring engaging portion 161 a is pushed until it passes through the convex portion 114 . When the spring engaging portion 161 a of the instrument side spring 160 passes through the convex portion 114 , the elastic deformation of the spring arm portion 162 and the spring extending portion 161 is released and the spring engaging portion 161 a is caught on the convex portion 114 .

In addition, in order to further ensure the engagement between the spring engaging portion 161a and the convex portion 114, the convex portion 114 is partially formed on the convex portion 114 like the first notch portion 114b shown in FIG. A notched spring mounting portion 115 may be formed. Then, the spring engaging portion 161a may be inserted into the spring mounting portion 115 and fixed. When the instrument-side spring 160 is installed in the instrument body 110 , the instrument-side spring 160 engages with the spring mounting part 115 and the spring extension part 161 extends from the convex part 114 to the bottom part 111 side of the instrument body 110 . do. Then, the spring arm portion 162 is disposed so as to be inclined from the end portion of the spring extension portion 161 on the bottom portion 111 side toward the second plate portion 223 of the frame 220 .

The tool-side spring 160 has the spring extension part 161 extending from the convex part 114 to the bottom part 111 side of the tool body 110 , so that the fulcrum of elastic deformation of the spring arm part 162 is on the bottom part 111 side of the tool body 110 . be able to. Therefore, the length of the spring arm portion 162 can be ensured, and the resistance component of the side portion 112 against elastic deformation can be reduced. In addition, since the instrument-side spring 160 is provided on the convex portion 114 of the instrument body 110, the space inside the instrument body 110 can be effectively utilized.

When attaching the light source unit 200 to the lighting device 100, the operator brings the end of the second plate portion 223 of the frame 220 into contact with the spring diaphragm portion 160a1 of the device-side spring 160, as shown in FIG. The operator pushes the light source unit 200 into the instrument main body 110 in a state where the end of the second plate portion 223 of the frame 220 is in contact with the spring diaphragm portion 160a1. Then, as shown in FIG. 38, the end portion of the second plate portion 223 of the frame 220 slides on the spring squeeze portion 160a1 along the inclination of the spring squeeze portion 160a1. At this time, the spring arm portion 162 is elastically deformed outward in the lateral direction (Y-axis direction) of the lighting device 100 , and the first plate portion 221 is pushed until it contacts the upper end portion of the convex portion 114 . That is, when the light source unit 200 is attached to the lighting fixture 100, the second plate portion 223 slides in contact with the spring diaphragm portion 160a1, and the spring arm portion 162 moves in the lateral direction (Y-axis direction) of the lighting fixture 100. ) elastically deforms. After that, in the light source unit 200, the end portion of the second plate portion 223 finishes sliding on the spring diaphragm portion 160a1, the elastic deformation of the spring arm portion 162 is released, and the second plate portion 223 moves toward the end portion of the spring arm portion 162. is caught and held. The tip of the spring arm portion 162 contacts the second plate portion 223 of the frame 220 to hold the light source unit 200 . Therefore, the tool-side spring 160 engages with the convex portions 114 of the two side surface portions 112 at the spring engaging portions 161a, which are the end portions. In addition, the device-side spring 160 has a spring arm portion 162 at a central portion 165 located between the spring engaging portions 161 a which are both ends, and the spring arm portion 162 is attached to the second plate portion 223 of the light source unit 200 . engage with. When the light source unit 200 is attached to the lighting fixture 100 , the second plate portion 223 is sandwiched and held by the spring arm portions 162 .

[Action of instrument side spring 160]
In the lighting device 1, the light source unit 200 is attached to the lighting fixture 100 by springs 250 at both ends 200a in the longitudinal direction (X-axis direction), and the fixture-side spring 160 is attached at substantially the center in the longitudinal direction (X-axis direction). , the light source unit 200 is held by the lighting fixture 100 . As a result, the light source unit 200 is fixed to the lighting fixture 100 without bending.

The lighting device 1 uses the fixture-side spring 160 to prevent bending of the intermediate portion of the light source unit 200 . However, in the lighting device 1, the holding force of the appliance-side spring 160 is improved by, for example, being formed of a plate spring, and by providing a plurality of the appliance-side springs 160, the light source unit 200 is held only by the appliance-side springs 160. You may do so.

In addition, when the spring extending portion 161 contacts the side surface portion 112 or the power supply device 120 , the instrument-side spring 160 acts as a reaction force against the force of pushing the light source unit 200 , and the spring arm portion 162 of the frame 220 pushes the frame 220 forward. The second plate portion 223 can be sandwiched. By bringing the spring extension 161 into contact with the side surface 112 or the power supply device 120, the frame 220 can be held without increasing the rigidity of the spring itself.

The instrument-side spring 160 does not have to be firmly attached to the projection 114, for example, by fixing it with a fastener such as a screw. In the case of the instrument-side spring 160 , the end portion is fitted in the spring mounting portion 115 which is partially cut out of the convex portion 114 inside the convex portion 114 in the longitudinal direction (X-axis direction).

The instrument-side spring 160 is more elastically deformable than the spring 250 . In the lighting device 1 , the fixture-side spring 160 is more elastically deformable than the spring 250 , so that the light source unit 200 can be easily attached to the lighting fixture 100 when the operator pushes the light source unit 200 into the lighting fixture 100 .

[Instrument side spring 1160]
FIG. 39 is a perspective view of another fixture-side spring 1160 of lighting device 1 according to the embodiment of the present invention. The fixture-side spring 1160 is made of an elastic material and fixes the light source unit 200 to the fixture main body 110 . The fixture-side spring 1160 is arranged on the center side with respect to the ends in the longitudinal direction (X-axis direction) of the lighting fixture 100 . As shown in FIG. 39, the instrument-side spring 1160 includes a plate-shaped spring connecting portion 1160b and two engaging springs formed integrally with the spring connecting portion 1160b and protruding from both ends of the spring connecting portion 1160b. and a portion 1160a.

The engagement spring portion 1160a protrudes from the spring connecting portion 1160b and has a plate-like spring squeeze portion 1160a1 and a plate-like spring arm portion 1162. The plate-like spring squeeze portion 1160a1 is a plate-like spring arm portion. It is integrally formed at the tip of 1162 . In the projecting direction of the engaging spring portion 1160a, the spring connecting portion 1160b, the spring arm portion 1162, and the spring squeezed portion 1160a1 are formed in this order. The two spring arm portions 1162 facing each other are configured so that their tips approach each other in the projecting direction of the engaging spring portion 1160a, and the two spring squeezed portions 1160a1 facing each other are configured so that their tips are separated. there is In other words, the paired two spring arm portions 1162 are inclined so that the distance between them increases from the spring squeezed portion 1160a1 toward the spring connection portion 1160b. Therefore, the cross-sectional shape of the spring narrowed portion 1160a1 and the spring arm portion 1162, which are integrally formed, in the projecting direction is formed in a substantially L shape. Therefore, the instrument-side spring 1160 is formed such that two sets of opposing spring squeezed portions 1160a1 and spring arm portions 1162 are convex in the direction facing each other.

The engagement spring portion 1160 a further has a spring extension portion 1161 . The spring extending portion 1161 is formed outside the spring constricted portion 1160a1 and the spring arm portion 1162 in the extending direction of the spring connecting portion 1160b. Further, the spring extending portion 1161 is inclined away from the spring arm portion 1162 in the projecting direction of the engaging spring portion 1160a.

The spring extension portion 1161 includes a spring extension inclined portion 1161a forming an inclined surface inclined away from the spring arm portion 1162, a spring extension flat plate portion 1161b parallel to the virtual extension surface of the spring connection portion 1160b, have Further, the spring extension portion 1161 has a spring engaging portion 1161c formed at the tip portion of the spring extension flat plate portion 1161b. The spring arm portion 1162 is a portion that engages with the light source unit 200 at the central portion 165 of the instrument side spring 1160 . The spring engaging portion 1161c is located on the distal end side in the extending direction of the spring extension flat plate portion 1161b and has an outward projection portion 1161c1 that projects substantially perpendicularly to the plate surface of the spring extension flat plate portion 1161b. In addition, the spring engaging portion 1161c is positioned inside the outer projecting portion 1161c1, projects substantially perpendicularly to the plate surface of the spring extending flat plate portion 1161b, and is formed higher than the outer projecting portion 1161c1. It has a protrusion 1161c2. The spring engaging portion 1161c forms a groove portion 1161c3 with the outer projecting portion 1161c1 and the inner projecting portion 1161c2. The spring engaging portion 1161c is a portion that engages with the convex portions 114 of the two side surface portions 112 of the instrument body 110 at the ends of the instrument side spring 1160 respectively.

The fixture-side spring 1160 is configured so that the distance between the tips of the spring arms 1162 in the lateral direction (Y-axis direction) of the lighting device 1 is shorter than the length in the direction in which the spring connecting portion 1160b extends. Arm 1162 is slanted. In the device-side spring 1160, the distance between the tips of the two spring narrowed portions 1160a1 is longer than the distance between the tips of the spring arms 1162 in the lateral direction (Y-axis direction) of the lighting device 1. , the spring diaphragm portion 1160a1 is inclined. In addition, the instrument-side spring 1160 has an inclined spring extension portion 1161 such that the distance between the two spring extension inclined portions 1161a is longer than the distance between the two spring squeezed portions 1160a1.

[Mounting process of light source unit 200]
FIG. 40 is a reference diagram for attaching the light source unit 200 to the lighting fixture 100 in a state where the fixture-side spring 1160 and the light source unit 200 in FIG. 39 are separated. FIG. 41 is a reference diagram for attaching the light source unit 200 to the lighting fixture 100 in a state where the fixture-side spring 1160 and the light source unit 200 in FIG. 40 are engaged. A process of attaching the light source unit 200 to the lighting fixture 100 using the fixture-side spring 1160 will be described with reference to FIGS. 40 and 41 .

The operator first installs the fixture-side spring 1160 inside the fixture body 110 of the lighting fixture 100 . The operator slides the spring engaging portion 1161 c onto the convex portion 114 to insert the instrument side spring 1160 into the instrument body 110 . At this time, the spring extending portion 1161 is elastically deformed inward in the lateral direction (Y-axis direction) of the lighting fixture 100 and pushed until the spring engaging portion 1161 c passes through the convex portion 114 . When the spring engaging portion 1161 c of the instrument side spring 1160 passes through the convex portion 114 , the elastic deformation of the spring extending portion 1161 is released and the spring engaging portion 1161 c is caught on the convex portion 114 . In this state, the instrument side spring 1160 is attached to the projection 114 so as to cover the body opening 113 of the instrument body 110 .

In addition, in order to further ensure the engagement between the spring engaging portion 1161c and the convex portion 114, the convex portion 114 is partially cut into the convex portion 114 as shown in FIG. A missing spring mounting portion 115 may be formed. Then, the spring engaging portion 1161 c may be engaged with the spring mounting portion 115 . When the instrument side spring 1160 is installed in the instrument main body 110, the spring engaging portion 1161c of the instrument side spring 1160 is inserted into the spring mounting portion 115, and the spring connecting portion 1160b is opposed to the power supply device 120. placed in contact with each other. At this time, the wall portion of the convex portion 114 is inserted into the groove portion 1161c3.

When attaching the light source unit 200 to the lighting device 100 , the operator brings the end of the second plate portion 223 of the frame 220 into contact with the spring diaphragm portion 1160 a 1 of the device-side spring 160 . The operator pushes the light source unit 200 into the instrument main body 110 in a state where the end of the second plate portion 223 of the frame 220 is in contact with the spring diaphragm portion 1160a1. Then, the end portion of the second plate portion 223 of the frame 220 slides on the spring squeeze portion 1160a1 along the inclination of the spring squeeze portion 1160a1. At this time, the spring arm portion 1162 is elastically deformed outward in the lateral direction (Y-axis direction) of the lighting device 100 , and the first plate portion 221 is pushed until it contacts the upper end portion of the convex portion 114 . That is, when the light source unit 200 is attached to the lighting fixture 100, the second plate portion 223 abuts against the spring diaphragm portion 1160a1, and the spring arm portion 1162 is elastically deformed in the lateral direction (Y-axis direction) of the lighting fixture 100. do. After that, in the light source unit 200, the end portion of the second plate portion 223 finishes sliding on the spring diaphragm portion 1160a1, the elastic deformation of the spring arm portion 1162 is released, and the second plate portion 223 moves toward the end portion of the spring arm portion 1162. is caught and held. The instrument-side spring 1160 holds the second plate portion 223 of the frame 220 so as to sandwich the second plate portion 223 . The tip of the spring arm portion 1162 contacts the second plate portion 223 of the frame 220 to hold the light source unit 200 . Therefore, the tool-side spring 1160 engages with the projections 114 of the two side surfaces 112 at the spring engaging portions 1161c, which are the end portions. In addition, the device-side spring 1160 has a spring arm portion 1162 at a central portion 165 located between the spring engaging portions 1161c, which are both ends, and the spring arm portion 1162 is attached to the second plate portion 223 of the light source unit 200. engage with. That is, when the light source unit 200 is attached to the lighting device 100 , the second plate portion 223 is sandwiched and held by the spring arm portions 1162 .

[Action of instrument side spring 1160]
In the lighting device 1, the light source unit 200 is attached to the lighting fixture 100 by springs 250 at both ends 200a in the longitudinal direction (X-axis direction), and the fixture-side spring 1160 is attached at substantially the center in the longitudinal direction (X-axis direction). , the light source unit 200 is held by the lighting fixture 100 . As a result, the light source unit 200 is fixed to the lighting fixture 100 without bending.

The fixture-side spring 1160 is arranged so that the second plate portion 223 of the frame 220 faces the power supply device 120, so that when the light source unit 200 is pushed in, the fixture-side spring 1160 is in contact with the power supply device 120. Do not come off to abut. The instrument-side spring 1160 has a spring extending portion 1161 that abuts against the side surface portion 112 or the power supply device 120, thereby acting as a reaction force against the force of pushing the light source unit 200. A portion 223 can be sandwiched. By bringing the spring extension 1161 into contact with the side surface 112 or the power supply device 120, the frame 220 can be held without increasing the rigidity of the spring itself.

It should be noted that the tool-side spring 1160 does not have to be firmly attached to the projection 114, for example, by fixing it with a fastener such as a screw. In the instrument-side spring 1160, the wall forming the convex portion 114 is inserted into the groove portion 1161c3 of the spring engaging portion 1161c at the spring mounting portion 115 where the convex portion 114 is partially cut. In addition, the instrument-side spring 1160 is arranged such that the spring connecting portion 1160b faces the power supply device 120 and the power supply device 120 abuts thereon. Therefore, the instrument-side spring 1160 is attached so as to be sandwiched between the convex portion 114 and the power supply device 120 .

[Mounting base 400]
FIG. 42 is a perspective view of mounting base 400 of lighting device 1 according to the embodiment of the present invention. 43 is an exploded perspective view of the mount 400 of FIG. 42. FIG. FIG. 44 is a reference diagram regarding the movement of the mount 400 of FIG. FIG. 45 is a reference diagram regarding movement of the mounting base 400 in a state where the illumination device 1 of FIG. 44 is rotated. A mounting base 400, which is an optional component of the lighting device 1 according to the embodiment, will be described with reference to FIGS. 42 to 45. FIG. The mounting base 400 mounts the lighting device 1 to the mounted portion 500 so as to be rotatable in the lateral direction (Y-axis direction) of the lighting device 1 . The mounting base 400 is attached to the fixture body 110 forming the outer shell of the lighting fixture 100 on the side opposite to the side on which the light source unit 200 is arranged, and attaches the lighting fixture 100 to the mounting portion 500 . The mounting base 400 allows the luminaire 100 attached to the mounting base 400 to be positioned between a state in which it is arranged perpendicular to the mounting portion 500 and a state in which it is inclined with respect to the mounting portion 500. It is held rotatably. The mounting base 400 includes a pedestal portion 410 attached to a mounted portion 500 such as a ceiling or a wall, a mounting portion 420 to which the fixture body 110 of the lighting fixture 100 is attached, and the pedestal portion 410 and the mounting portion 420 rotatably. and a shaft portion 430 to be connected.

The pedestal portion 410 includes a leg portion 411 fixed to a mounting portion 500 such as a ceiling or a wall, and a control A portion 412 that controls the rotation angle of the mounting portion 420 with respect to the pedestal portion 410 .

The leg portion 411 is formed in a flat plate shape and is formed larger than the lighting device 1 in the lateral direction (Y-axis direction) of the lighting device 1 . The longitudinal direction of the leg portion 411 is the lateral direction (Y-axis direction) of the lighting device 1. At both ends of the leg portion 411 in the longitudinal direction, the pedestal portion 410 is attached to the ceiling, wall, or the like by fasteners such as screws. A pedestal fixing hole 413 for fixing to the attached portion 500 is formed. The pedestal fixing hole 413 is a through hole formed in the leg portion 411. When the lighting device 1 is attached to the mounting base 400, the portion of the leg portion 411 where the pedestal fixing hole 413 is formed is , protrudes from the lateral direction (Y-axis direction) of the illumination device 1 . The length of the leg portion 411 is preferably such that it does not protrude from the lighting device 1 when the lighting device 1 is horizontally rotated (turned down).

The control A portion 412 is a wall portion that rises from the edge portion of the end portion of the leg portion 411 in the lateral direction. The control A section 412 rises substantially vertically with respect to the control A section 412 . A shaft hole A portion 412 a into which the shaft portion 430 is inserted is formed in the control A portion 412 .

In the control A portion 412, a plurality of control holes 412b are formed at predetermined angles along an imaginary arc AC having the shaft portion 430 as the center point of the circle. The control hole portion 412 b is a circular opening formed in the control A portion 412 . The control hole portion 412b is opened in the mounting base 400 so as to face the control B portion 422 . Note that the control hole portion 412b may be a through hole. The control hole portion 412b is a portion A first engagement portion, and engages with a control convex portion 422b, which is a portion B second engagement portion described later, to adjust the inclination angle of the mounting plate portion 421 with respect to the leg portion 411. can be changed.

The control A portion 412 is formed with a notch portion 412c so that the wall forming the control A portion 412 does not interfere with the mounting plate portion 421 when the mounting portion 420 rotates. The notch portion 412c is formed on the control A portion 412 on the end side opposite to the control hole portion 412b across the shaft hole A portion 412a and on the opposite side to the leg portion 411 across the shaft hole A portion 412a. It is formed on the end side. The control A portion 412 forming the mounting base 400 forms an inclined surface facing the mounting plate portion 421 at the notch portion 412c.

The mounting portion 420 engages with the mounting plate portion 421 on which the fixture body 110 of the lighting device 100 is mounted and fixed, and the control A portion 412, thereby controlling the rotation angle of the mounting portion 420 with respect to the base portion 410. A B section 422 is provided.

The mounting plate portion 421 is formed in a flat plate shape, and the mounting plate portion 421 is formed with a mounting hole 421a for mounting the lighting device 1 with a fixture such as a screw. The lighting device 1 is attached to the mounting plate portion 421 of the mounting portion 420 by a fixture through the mounting hole 111b and the mounting hole 421a of the lighting device 100 . Mounting plate portion 421 is rotatably supported with respect to leg portion 411 by shaft portion 430 . In addition, the mounting portion 420 is formed with a cutout portion 421b or an opening portion 421c which is a through hole so as to avoid fasteners such as rivets when attaching each member to the lighting device 100. there is Therefore, each member can be stably attached to the lighting fixture 100 .

The control B portion 422 is a wall portion that rises from the edge portion of the end portion of the mounting plate portion 421 in the lateral direction. The control B portion 422 rises substantially vertically with respect to the mounting plate portion 421 . In the mounting base 400, the control B section 422 and the control A section 412 are slidably in contact with each other. A shaft hole B portion 422 a into which the shaft portion 430 is inserted is formed in the control B portion 422 .

The control B portion 422 has one control convex portion 422b formed in a convex shape. The control convex portion 422b is the second engaging portion of the B portion, and engages with the control hole portion 412b, which is the first engaging portion of the A portion, to change the inclination angle of the mounting plate portion 421 with respect to the leg portion 411. be able to. The control convex portion 422b is formed on the surface of the mount 400 facing the control A portion 412. As shown in FIG. The control convex portion 422b is formed in a circular shape in plan view with respect to the plate surface of the control B portion 422, and is formed in an arc shape in a cross section perpendicular to the plate surface of the control B portion 422. As shown in FIG. In a plan view of the plate surface of the control B portion 422 , the distance between the center of the control convex portion 422 b and the rotation axis of the shaft portion 430 is substantially equal to the distance between the center of the control hole portion 412 b and the rotation axis of the shaft portion 430 . As the mounting portion 420 rotates, the control convex portion 422b is arranged on an arc and fitted into each hole of the plurality of control hole portions 412b. By fitting the control convex portion 422b into the control hole portion 412b, the inclination angle of the mounting plate portion 421 with respect to the leg portion 411 is maintained and fixed.

The control B portion 422 is formed with a notch portion 422c so that the wall forming the control B portion 422 does not interfere with the mounting portion 500 such as the ceiling or wall when the mounting portion 420 rotates. The notch portion 422c is formed in the control B portion 422 on the opposite end side of the control convex portion 422b across the shaft hole B portion 422a and on the opposite side of the mounting plate portion 421 across the shaft hole B portion 422a. is formed on the end side of the That is, the control B portion 422 forming the mounting base 400 forms an inclined surface facing the mounted portion 500 such as the ceiling at the notch portion 422c.

The shaft portion 430 is, for example, a bolt and a nut, and is inserted through the shaft hole A portion 412a and the shaft hole B portion 422a to rotatably support the base portion 410 and the mounting portion 420. As shown in FIG. In addition, the shaft portion 430 maintains a constant distance between the base portion 410 and the mounting portion 420 so that the control convex portion 422b and the control hole portion 412b are fitted. The attachment portion 420 rotates with respect to the leg portion 411 with the shaft portion 430 as a rotation axis.

[Operation of Mounting Base 400]
The mounting base 400 has a control A portion 412 and a control B portion 422 slidably connected by a shaft portion 430 . The mounting base 400 includes a control hole portion 412b that is a first engaging portion of A portion formed in the control A portion 412, and a control convex portion 422b that is a second engaging portion of B portion formed in the control B portion 422. are engaged to rotatably hold the lighting device 100 . In the mounting base 400, the inclination angle of the mounting portion 420 with respect to the base portion 410 is determined by fitting the control convex portion 422b into one of the plurality of control holes 412b. As shown in FIGS. 44 and 45, the control convex portion 422b is fitted into the control hole portion 412b while sliding on the control A portion 412 of the pedestal portion 410. can be held in As shown in FIG. 44, the mounting base 400 has a leg portion 411 that is longer than the lateral direction (Y-axis direction) of the illumination device 1 .

As shown in FIG. 44, when the control convex portion 422b is engaged with the control hole portion 412b formed closest to the leg portion 411, the leg portion 411 and the mounting plate portion 421 are arranged substantially parallel. be. Therefore, by engaging the control convex portion 422b with the control hole portion 412b formed closest to the leg portion 411, the illumination device 1 can be mounted substantially perpendicularly to the mounting portion 500 such as the ceiling or wall. placed. As shown in FIG. 44, it is assumed that lighting device 100 is attached to mounting base 400 in a state of being arranged perpendicularly to attached portion 500 . At this time, the leg portion 411 is formed longer in the lateral direction (Y-axis direction) of the lighting device 100 than the projection portion 100c formed by projecting the lighting device 100 onto the mounting portion 500 in the direction perpendicular to the mounting portion 500. It is

As shown in FIG. 45, as the mounting portion 420 rotates with respect to the pedestal portion 410 and the control protrusion 422b engages with the control hole portion 412b formed at a position away from the leg portion 411, the mounting portion 420 is mounted. The plate portion 421 is arranged so as to be inclined with respect to the leg portion 411 . Therefore, as the control convex portion 422b is engaged with the control hole portion 412b formed at a position away from the leg portion 411, the angle between the lighting device 1 and the mounting portion 500 such as the ceiling or the wall is increased. It is arranged in a horizontally rotated state so that it becomes smaller. Here, it is assumed that lighting device 100 is attached to mounting base 400 and is in a state of being tilted so as to be parallel to attached portion 500 . At this time, at least part of the projection part 100d formed by projecting the lighting fixture 100 and the light source unit 200 onto the mounting section 500 in the direction perpendicular to the mounting section 500 is projected on the leg section 411 in the lateral direction of the lighting fixture 100. It is located outside one end.

It should be noted that the configuration of the unevenness formed on the A section first engaging portion of the control A section 412 and the B section second engaging section of the control B section 422 may be another configuration. For example, the control A portion 412 may be formed with one control hole portion 412b, and the control B portion 422 may be formed with a plurality of control convex portions 422b. Alternatively, the control A portion 412 may be formed with one control convex portion 422b, and the control B portion 422 may be formed with a plurality of control holes 412b. Alternatively, the control A portion 412 may be formed with a plurality of control convex portions 422b, and the control B portion 422 may be formed with one control hole portion 412b.

[Action and effect of frame 220]
The thinning of the lighting device 1 by the frame 220, which is the effect of the lighting device 1 according to the embodiment, will be described below. In the light source unit 200, the frame 220 connects the first plate portion 221 to which the light emitting module 210 is attached, the second plate portion 223 facing the first plate portion 221, and the first plate portion 221 and the second plate portion 223. Rigidity can be ensured by having the pillar portion 222 that is aligned. Therefore, the light source unit 200 can be thinned without being enlarged in the vertical direction (Z-axis direction). As a result, the illumination device 1 having the light source unit 200 can be made thinner in the vertical direction (Z-axis direction).

In addition, since the light source unit 200 is thinned, the lighting device 1 can effectively utilize the internal space of the fixture body 110 . Specifically, the light source unit 200 can be attached to the lighting fixture 100 so as not to interfere with the parts housed in the fixture main body 110 such as the power supply device 120 by thinning the light source unit 200 . Since the light source unit 200 is thinned, the fixture main body 110 can be divided vertically (in the Z-axis direction) into a region in which the light source unit 200 is housed and a region in which the power supply device 120 and the like are housed. can. By dividing the interior of the fixture body 110 into upper and lower parts, the lighting device 1 can move the power supply device 120 to one side in the short direction (Y-axis direction). Therefore, in the lighting device 1 , it is possible to provide a housing portion for the wires in the fixture in the lateral direction (Y-axis direction) of the fixture main body 110 , thereby suppressing an increase in the size of the lighting device 1 . In addition, the illumination device 1 accommodates the wires in the fixture in the lateral direction (Y-axis direction) of the fixture body 110, thereby preventing the wires from being caught between the light source unit 200 and the power supply device 120. can. With these configurations, the illumination device 1 can be miniaturized.

[Action and effect of spring 250]
In the illumination device 1, the springs 250 fixed to the light source unit 200 are formed in a flat plate-shaped spring bottom portion 252b, and are formed at both ends of the spring bottom portion 252b in the lateral direction (Y-axis direction) of the light source unit 200. It has a spring claw portion 252a that is elastically deformed. The spring 250 also has a spring engaging portion 252c formed at the tip of the spring claw portion 252a. The distance L1 between the closest portions of the corresponding two convex portions 114 is smaller than the distance between the farthest portions of the two opposing spring engaging portions 252c in the natural length of the spring claw portion 252a. Therefore, the operator can use the elastic deformation of the spring 250 to push the light source unit 200 into the lighting fixture 100 , thereby engaging the light source unit 200 with the protrusion 114 of the fixture body 110 via the spring 250 . can. In addition, the operator can remove the light source unit 200 from the lighting fixture 100 by pulling out the light source unit 200 from the lighting fixture 100 using the elastic deformation of the spring 250 . As a result, the lighting device 1 can easily attach and detach the light source unit 200 to and from the lighting fixture 100 .

The spring engaging portion 252c of the spring 250 is engaged with the convex portion 114 when the light source unit 200 is attached to the lighting fixture 100 . Therefore, the luminaire 1 does not need to provide a separate member for engaging with the spring 250 in the luminaire body 110 of the luminaire 100, and the number of members can be reduced. Therefore, the lighting device 1 can reduce the number of parts accommodated in the fixture main body 110 and effectively utilize the internal space.

The spring engaging portion 252c of the spring 250 has an arcuate portion that faces the side portion 112 when the light source unit 200 is attached to the lighting fixture 100 . Therefore, when a worker removes the light source unit 200 from the lighting fixture 100, the light source unit 200 can be easily removed from the lighting fixture 100 without a special jig for facilitating attachment and detachment of the light source unit 200.例文帳に追加Further, when the worker attaches the light source unit 200 to the lighting fixture 100, the light source unit 200 can be easily attached to the lighting fixture 100 without a special jig that facilitates attachment and detachment of the light source unit 200.例文帳に追加

The spring 250 is formed so that when the light source unit 200 is attached to the lighting device 100, the spring claw portion 252a does not protrude toward the bottom portion 111 from the spring bottom portion 252b inside the lighting device 100. As shown in FIG. Therefore, the illumination device 1 can suppress interference with other members inside the fixture body 110 when the spring claw portion 252a is elastically deformed. In addition, the lighting device 1 can prevent a member, such as an electric wire, disposed inside the fixture body 110 from interfering with the spring claw portion 252a and being damaged.

The spring 250 is formed in a V shape so that the spring claw portion 252a protrudes toward one side of the spring bottom surface portion 252b. Therefore, the illumination device 1 can suppress interference with other members inside the fixture body 110 when the spring claw portion 252a is elastically deformed. In addition, the lighting device 1 can prevent a member, such as an electric wire, disposed inside the fixture body 110 from interfering with the spring claw portion 252a and being damaged.

A plurality of spring claw portions 252a of the spring 250 are formed in the longitudinal direction (X-axis direction) of the light source unit 200, and openings are formed between adjacent spring claw portions 252a. The spring 250 can be easily elastically deformed by forming openings between adjacent spring claw portions 252a. In addition, the spring 250 can adjust the elasticity of the spring 250 according to the size of the opening formed between the adjacent spring claws 252a. can be done.

When the light source unit 200 is attached to the lighting device 100, the spring engaging portion 252c slides in contact with the convex portion 114, and the spring claw portion 252a is elastic in the lateral direction (Y-axis direction) of the lighting device 100. transform. Therefore, when the operator pushes the light source unit 200 into the lighting device 100 in the vertical direction (Z-axis direction) of the lighting device 1, the spring engaging portion 252c engages with the convex portion 114 of the lighting device 100, and the light source unit 200 can be easily fixed to the luminaire 100 . Moreover, when an operator inserts the light source unit 200 into the lighting fixture 100 , the spring engaging portion 252 c serves as a guide for the light source unit 200 with respect to the lighting fixture 100 , so that the worker can easily attach the light source unit 200 . Therefore, the spring engaging portion 252c serves as a guide for the light source unit 200 with respect to the lighting device 100, so that when the lighting device 1 is used as indirect lighting or the like, the light source unit 200 can be used as a lighting device even in a space where the lighting device 1 is installed in a narrow space. 100 can be easily attached.

The spring 250 forms a gap between the spring bottom portion 252b and the second plate portion 223 when attached to the frame 220 . Therefore, the spring 250 can increase the distance between the end of the spring engaging portion 252c side that contacts the convex portion 114 and the end (fulcrum) of the V-shaped vertex side of the spring claw portion 252a. The spring 250 can be made elastically deformable.

In the light source unit 200 , when the frame 220 is inserted into the lighting fixture 100 , the first plate portion 221 abuts the convex portion 114 when the spring engaging portion 252 c is arranged below the convex portion 114 . Therefore, when an operator inserts the light source unit 200 into the lighting device 100, the light source unit 200 is prevented from entering the interior of the device main body 110 beyond a predetermined distance. Interference with parts can be prevented.

The spring hooking portion 251 of the spring 250 has two claw portions 251a1 formed in the shape of hooks facing each other at the tip portion. Therefore, the spring 250 can be hooked on the second plate portion 223 of the frame 220 at its end.

In addition, in a lighting device in which a light source unit is detachably attached to a lighting fixture, it is conceivable that the lighting device has a spring that pulls the light source unit inside the main body of the lighting fixture. be done. In the case of such a lighting device, the force of the spring is so strong that part of the light source unit may be pulled inside the main body of the lighting device in the longitudinal direction (X-axis direction) of the lighting device. On the other hand, as in the case of the lighting device 1, if the lighting device 1 is gripped in the lateral direction (Y-axis direction) by the convex portion 114 and the spring engaging portion 252c of the fixture body 110, such a problem can be solved. can also be prevented.

[Action and effect of the end cap 240]
The light source unit 200 includes a cover 230 formed with an opening 230c at an end 230t in the longitudinal direction (X-axis direction) when attached to the frame 220, and an end cap 240 fixed to the frame 220 and closing the opening 230c. and Since the end cap 240 of the light source unit 200 is fixed to the frame 220, even if the cover 230 shrinks due to heat, the end cap 240 that is not fixed to the cover 230 is not affected. Therefore, the light source unit 200 can suppress the load on each part of the light source unit 200 even if it is affected by heat.

The end cap 240 is fixed to the frame 220, and the length of the cover 230 in the longitudinal direction (X-axis direction) is shorter than the opposing length between the two cover cap portions 241 arranged at both ends of the frame 220. formed. Therefore, the illumination device 1 is not affected by expansion and contraction of the cover 230 due to heat (surrounding temperature), and can suppress expansion and contraction of the light source unit 200 in the longitudinal direction (X-axis direction). Moreover, the lighting device 1 can hold the cover 230 by suppressing the load on the cover 230 generated from the contact portion with the cover 230 based on the expansion and contraction of the cover 230 due to the influence of heat (surrounding temperature).

When the end cap 240 closes the opening 230c, the inner side surface 230a of the cover 230 slidably abuts the first projecting portion 242. As shown in FIG. Therefore, in the light source unit 200, the end cap 240 has the first projecting portion 242 and the cap-side cover holding portion 243c so that the cover 230 is held so as to be movable in the longitudinal direction (X-axis direction). Therefore, the lighting device 1 can hold the cover 230 while suppressing the influence of thermal expansion and contraction of the cover 230 .

The end cap 240 is formed such that the first projecting portion 242 has higher permeability than the cover cap portion 241 . Therefore, the illumination device 1 can prevent the overlapped portion of the cover 230 and the first projecting portion 242 of the end cap 240 from becoming dark. For example, the internal space of the light source unit 200 can be seen from the longitudinal direction (X-axis direction) of the light source unit 200 by not increasing the transmittance of the cover cap portion 241 by two-color molding or suppressing the transmittance. can be suppressed.

The first protruding portion 242 of the end cap 240 is formed such that, in the protruding direction, the transparency is different between the tip portion side (region A) and the base portion side (region B). For example, since the light transmission distance is longer on the tip side (area A) that contacts the cover 230, the light source unit 200 as a whole can reduce light unevenness by increasing the transmittance of the tip side (area A). can be suppressed.

The first protruding portion 242 of the end cap 240 has an R-shaped end on the protruding side. By making the end portion of the first protruding portion 2242 rounded, the boundary line between the portion of the main cover portion 231 and the cover side portion 232 overlapping the end cap 2240 and the portion not overlapping the end cap 2240 is obscured. Can be made inconspicuous or suppressed.

The flat plate portion 243e of the end cap 240 has an electric wire notch portion 243b, which is a through hole. When the end cap 240 and the frame 220 are combined, the flat plate portion 243e and the frame 220 form an opening. be done. The light source unit 200 can draw out the light source side electric wire 213 to the outside of the frame 220 and the cover 230 using this opening. Therefore, the lighting device 1 can prevent the light source-side wire 213 from being pulled or pinched even if the cover 230 expands and contracts due to the influence of heat, and can suppress the load on the light source-side wire 213 .

The board peeling prevention portion 243a forms a gap between the second projecting portion 243a2 and the flat plate portion 243e. inserted into the Therefore, the light source unit 200 can prevent the substrate 212 forming the light emitting module 210 from peeling off from the frame 220 and floating.

In the light source unit 200, when the end cap 240 is fixed to the frame 220, the head of the screw fixture 260 protrudes from the end cap 240. As shown in FIG. Therefore, when attaching the light source unit 200 to the lighting fixture 100 , the screw fixture 260 comes into contact with the end plate portion 150 of the lighting fixture 100 before the end cap 240 . Therefore, in the illumination device 1, the end cap 240, which is a resin member, can avoid contact with the end plate portion 150, and deformation or damage of the end cap 240, which is a resin member, can be prevented.

As described above, the illumination device 1 can achieve the above-described effects of the light source unit 200 by including the light source unit 200 including the end cap 240 described above.

[Action and effect of the end plate part 150]
In the lighting device 100, the device main body 110 has a first engaging portion 1114 that engages with the end plate portion 150 on the inner space side of the end portion 110a. Further, the end plate portion 150 has a second engaging portion 1152 that is arranged on the inner space side of the instrument body 110 when attached to the instrument body 110 and that engages with the first engaging portion 1114 . The end plate portion 150 is inserted into the end opening portion 110b of the instrument body 110 from the longitudinal direction (X-axis direction) of the instrument body 110, so that the second engaging portion 1152 and the first engaging portion 1114 It is engaged and attached to the instrument body 110 . The lighting device 1 does not require processing for forming holes or recesses for engagement of the end plate portions 150 in the side surface portion 112 of the fixture body 110, so that processing traces due to the holes or recesses are not formed. As a result, the lighting device 1 can have a design that does not have working marks, and the designability of the lighting device 1 can be improved. In the lighting device 100, the first engaging portion 1114 of the device main body 110 and the second engaging portion 1152 of the end plate portion 150 are engaged in the interior space of the device main body 110, so that the design is not affected. An end plate portion 150 can be attached to the instrument body 110 . In addition, the luminaire 100 does not require processing for forming holes or recesses for engagement of the end plate portion 150 in the side surface portion 112 of the device body 110, and the processing marks due to the holes or recesses are not formed. can. As a result, the lighting device 1 having the lighting device 100 can have a design without machining marks, and the design of the lighting device 1 can be improved. Moreover, the lighting fixture 100 can be attached to the fixture main body 110 simply by inserting the end plate portion 150 into the fixture main body 110, so that the number of man-hours for working on the lighting fixture 100 can be reduced.

The end plate portion 150 is arranged so as to close the end opening 110b of the end portion 110a in the longitudinal direction (X-axis direction) of the instrument body 110 . The lighting device 1 can be attached to the fixture body 110 by inserting the end plate portion 150 into the fixture body 110 in the longitudinal direction (X-axis direction), and the lighting fixture 100 can be easily assembled.

Protruding portion 114 of instrument body 110 is bent such that tip end portion 114f on the side opposite to bottom portion 111 forms an arc toward the inner space side of instrument body 110, and edge portion 114d of protruding portion 114 is It is bent so as to face the side portion 112 . The first engaging portion 1114 includes two notches, a first notch portion 114b and a second notch portion 114c formed in the edge portion 114d of the convex portion 114, and two notches. and an end plate fixing portion 114a forming a wall portion between the portions. Therefore, in the lighting device 100, the first engaging portion 1114 of the device main body 110 and the second engaging portion 1152 of the end plate portion 150 are engaged in the interior space of the device main body 110, which affects the design. The end plate portion 150 can be attached to the instrument body 110 without removing the end plate portion 150 .

The end plate portion 150 has an end plate claw portion 152 arranged to face the side portion 112 when the end plate portion 150 is attached to the instrument body 110 . The second engaging portion 1152 is formed by two protruding wall portions of the first protruding wall portion 1152a and the second protruding wall portion 1152b in the end plate claw portion 152 . When the end plate portion 150 is attached to the instrument main body 110, the two protruding wall portions of the first protruding wall portion 1152a and the second protruding wall portion 1152b are the first notch portion 114b and the second notch portion 114c. It is inserted into each of the two notches. Therefore, in the lighting device 100, the first engaging portion 1114 of the device main body 110 and the second engaging portion 1152 of the end plate portion 150 are engaged in the interior space of the device main body 110, which affects the design. The end plate portion 150 can be attached to the instrument body 110 without removing the end plate portion 150 .

The end plate portion 150 has two projecting wall portions, a first projecting wall portion 1152a and a second projecting wall portion 1152b, which are inserted into the two notch portions, the first notch portion 114b and the second notch portion 114c, respectively. It faces the end plate fixing portion 114a in the longitudinal direction. Therefore, the movement of the end plate portion 150 attached to the instrument body 110 in the longitudinal direction (X-axis direction) of the instrument body 110 is restricted.

The end plate portion 150 has a claw insertion portion 152a whose tip is bent inward. The lighting device 1 is inserted into the convex portion 114 formed by bending inside the fixture main body 110 while the claw insertion portion 152a of the end plate portion 150 is elastically deformed inward. Therefore, the illuminating device 1 does not require processing for forming a hole or recess for engagement of the end plate portion 150 in the side surface portion 112 of the fixture body 110, so that a processing trace due to the hole or recess is not formed. can. As a result, the lighting device 1 can have a design that does not have working marks, and the designability of the lighting device 1 can be improved.

The second protruding wall portion 1152b of the end plate portion 150 has a protruding portion 152ca fitted between the end portion of the convex portion 114 and the side portion 112 when the end plate portion 150 is attached to the instrument main body 110 . Therefore, when the end plate portion 150 is attached to the lighting fixture 100, it is fixed to the lighting fixture 100, and movement of the lighting fixture 100 in the lateral direction (Y-axis direction) is restricted. In addition, the lighting device 1 does not require processing for forming holes or recesses for engagement of the end plate portions 150 in the side surface portion 112 of the fixture body 110, and the processing marks due to the holes or recesses are not formed. can. As a result, the lighting device 1 can have a design that does not have working marks, and the designability of the lighting device 1 can be improved.

As described above, the lighting device 1 can achieve the above-described effects of the lighting device 100 by including the lighting device 100 including the end plate portion 150 and the device main body 110 described above.

[Action and effect of connecting member 300]
The connecting member 300 is inserted into the end plate portion 150 in the direction in which the light source unit 200 is inserted into the fixture main body 110, thereby holding the end plate portion 150 of each of the adjacent lighting fixtures 100 therebetween. It fixes the lighting fixture 100 which fits. Therefore, the lighting device 1 can be easily assembled by easily connecting the lighting fixtures 100 to each other.

The end plate main body portion 151 forms an end plate wire hole 151b formed by a U-shaped edge portion, and the end plate wire hole 151b is a light source unit when the light source unit 200 is attached to the lighting fixture 100. It is formed so that the side facing 200 is open. The connecting member 300 is attached to the end plate wire hole 151b. The end plate wire hole 151 b is formed so that the side facing the light source unit 200 is open when the light source unit 200 is attached to the lighting fixture 100 . It can be attached from the body opening 113 side. As a result, the worker can easily attach the connecting member 300 to the end plate portion 150 and easily connect the adjacent lighting fixtures 100 . In addition, since the end plate wire hole 151b is formed in the above configuration, for example, when a plurality of lighting fixtures 100 are connected, the end plate wire hole 151b can be used for wiring such as wires used in the lighting fixture 100. can be used.

The end plate body portion 151 is subjected to knockout processing, and has an end plate lid portion 151a that forms an end plate wire hole 151b in the end plate body portion 151 by being removed. A groove portion 151c is formed to form the edge of the lid portion 151a. Therefore, when the lighting device 1 is used as one lighting fixture 100 without connecting the lighting fixtures 100, there is no need to form the end plate wire hole 151b for connection, and the end plate wire hole 151b is open. Therefore, the designability can be improved.

In the connecting member 300, when the connecting member 300 is attached to the lighting fixture 100, the end plate portions 150 of the adjacent lighting fixtures 100 are in contact with the U-shaped connecting main body portion 310 to form the first It is arranged between the claw portion 320 and the second claw portion 330 . Therefore, the lighting device 1 can be easily assembled by easily connecting the lighting fixtures 100 to each other. In addition, since the connecting member 300 has the U-shaped connecting main body portion 310, when a plurality of lighting fixtures 100 are connected, the inner peripheral side of the connecting main body section 310 is used for the lighting fixtures 100. It can be used for wiring such as electric wires. In addition, since the connection member 300 covers the edge of the end plate wire hole 151b with this configuration, for example, when the end plate wire hole 151b is used for wiring such as wires used in the lighting fixture 100, the end plate wire hole 151b The electric wire can be protected from the edge of the plate electric wire hole 151b.

The connecting member 300 is formed such that the first claw portion 320 and the second claw portion 330 are formed on the outer peripheral side of the connecting main body portion 310 and protrude in the vertical direction with respect to the connecting main body portion 310. there is Therefore, the lighting device 1 can be easily assembled by easily connecting the lighting fixtures 100 to each other.

The connecting member 300 has an instrument slit portion 340 formed between the first claw portion 320 and the second claw portion 330, into which the connecting body portion 310 is inserted, and the first claw portion 320 and the second claw portion 330. The portions 330 are alternately arranged so as not to face each other. Therefore, the operator can easily and reliably attach the connecting member 300 to the end plate wire hole 151 b of the lighting fixture 100 .

When the connecting member 300 is attached to the lighting device 100 , the projection 114 is arranged in the projecting direction of the body engaging portion 350 , and the body engaging portion 350 engages with the projection 114 . Therefore, the connecting member 300 can prevent the body engaging portion 350 from coming off from the lighting device 100 due to contact with the convex portion 114 .

In the connection member 2300, the inner end 351 of the main body engaging portion 1350 is formed in an R shape and the outer end 352 is formed in a substantially rectangular shape at the end 1350a of the main body engaging portion 1350 in the projecting direction. . The inner end portion 351 of the connecting member 2300 is R-shaped, so that the electric wire can be easily inserted into the connecting main body portion 310 from the outside of the lighting fixture 100 through the main body opening 113 . In addition, by forming the outer end portion 352 of the connecting member 2300 into a substantially right-angled shape, the main body engaging portion 1350 is easily caught by the convex portion 114 , and the connecting member 2300 is less likely to come off from the lighting fixture 100 .

The connecting member 1300 has electric wire claw portions 360 projecting so as to face each other on the inner peripheral side of the distal end portion 310 a of the connecting body portion 310 . Since the connecting member 1300 has the wire claw portion 360 , it is possible to pull in the wire from the adjacent lighting fixture 100 and prevent the wire from coming off when the connecting member 1300 is arranged inside the connecting main body portion 310 .

[Actions and effects of instrument-side spring 160 and instrument-side spring 1160]
The instrument-side spring 160 is made of an elastic material, and includes a spring engaging portion 1161c that engages with the projections 114 of the two side surfaces 112 at the ends thereof, and a spring that engages with the light source unit 200 at the central portion 165. and an arm portion 162 . Therefore, the operator pushes the light source unit 200 into the lighting fixture 100 using the elastic deformation of the fixture-side spring 160 , thereby engaging the light source unit 200 with the projection 114 of the fixture main body 110 via the fixture-side spring 160 . can be combined. In addition, by pulling out the light source unit 200 from the lighting fixture 100 , the operator can remove the light source unit 200 from the lighting fixture 100 using the elastic deformation of the fixture-side spring 160 . The instrument-side spring 1160 is formed of an elastic material, and engages with the light source unit 200 at the central portion 165 with the spring engaging portion 1161c that engages with the convex portion 114 of the two side surface portions 112 at the ends thereof. It has a spring arm portion 1162 that engages. Therefore, the operator pushes the light source unit 200 into the lighting fixture 100 using the elastic deformation of the fixture-side spring 1160 , thereby engaging the light source unit 200 with the projection 114 of the fixture main body 110 via the fixture-side spring 1160 . can be combined. In addition, the operator can remove the light source unit 200 from the lighting fixture 100 by pulling out the light source unit 200 from the lighting fixture 100 using the elastic deformation of the fixture-side spring 1160 . As a result, the lighting device 1 can easily attach and detach the light source unit 200 to and from the lighting fixture 100 .

The fixture-side spring 160 and the fixture-side spring 1160 are arranged on the central side with respect to the ends in the longitudinal direction (X-axis direction) of the lighting fixture 100 . As a result, the light source unit 200 can be fixed to the lighting fixture 100 without bending. Therefore, the lighting device 1 can prevent the light source unit 200 from bending due to gravity and forming a gap with the lighting fixture 100 .

The instrument side spring 160 and the instrument side spring 1160 are attached to the convex portion 114 of the instrument body 110 . Therefore, the instrument main body 110 can suppress interference between the instrument-side spring 160 or the instrument-side spring 1160 and components in the internal space of the instrument main body 110, and the internal space of the instrument main body 110 can be used efficiently.

A spring engaging portion 161 a , which is an end portion of the instrument-side spring 160 , is inserted into the spring mounting portion 115 . As a result, the tool-side spring 160 can further ensure the engagement between the spring engaging portion 161a and the convex portion 114 . Similarly, the spring engaging portion 1161 c that is the end portion of the instrument side spring 1160 is inserted into the spring mounting portion 115 . As a result, the tool-side spring 1160 can further ensure the engagement between the spring engaging portion 1161c and the convex portion 114 .

The spring engaging portion 161 a is formed in a circular shape by bending a wire, and when the spring engaging portion 161 a is inserted into the spring mounting portion 115 , the spring engaging portion 161 a is fixed to the convex portion 114 . As a result, the tool-side spring 160 can further ensure the engagement between the spring engaging portion 161a and the convex portion 114 .

The device-side spring 160 has a spring arm portion 162 that is elastically deformed in the lateral direction (Y-axis direction) of the lighting device 1 when the device-side spring 160 is attached to the lighting device 100 . Therefore, when the operator pushes the light source unit 200 into the lighting fixture 100 , the lighting fixture 100 can hold the frame 220 via the fixture-side spring 160 . Similarly, the device-side spring 1160 has a spring diaphragm portion 1160a1 that elastically deforms in the lateral direction (Y-axis direction) of the lighting device 1 when the device-side spring 1160 is attached to the lighting device 100 . Therefore, when the operator pushes the light source unit 200 into the lighting fixture 100 , the lighting fixture 100 can hold the frame 220 via the fixture-side spring 1160 .

The instrument-side spring 160 is formed such that the paired spring bent portions 160a2 are convex in the direction facing each other. Therefore, the instrument-side spring 160 can hold the frame 220 of the light source unit 200 between the spring arms 162 .

The engagement spring portion 1160a has two spring arm portions 1162 facing each other and formed so that the distal end portions approach each other in the projecting direction of the engagement spring portion 1160a. In addition, the engagement spring portion 1160a is formed at the tip of the spring arm portion 1162 in the projecting direction of the engagement spring portion 1160a, and two spring constricted portions facing each other are formed so that the tip portions are separated from each other. 1160a1. Therefore, the instrument-side spring 160 can hold the frame 220 of the light source unit 200 between the spring arms 162 .

Instrument-side spring 1160 is arranged to face power supply device 120 . Therefore, the lighting device 1 can suppress the device-side spring 1160 from coming off the convex portion 114 when the light source unit 200 is pushed.

[Action and effect of mounting base 400]
In the lighting device 1, the mounting base 400 is arranged such that the lighting fixture 100 attached to the mounting base 400 is arranged vertically with respect to the mounting portion 500, and is arranged at an angle with respect to the mounting portion 500. It is held rotatably between states. Therefore, the illuminating device 1 can be rotated so that the inclination angle of the mounting surface of the luminaire 100 can be changed. Therefore, even after the lighting device 1 is fixed to the mounting portion 500 such as the ceiling or the wall, the operator can change the light irradiation direction of the lighting device 1 by using the mounting base 400 .

The mounting base 400 has a control A section 412 and a control B section 422 slidably connected by a shaft section 430 . The lighting device 100 is rotatably held by engaging with the second engaging portion of the B portion formed in the . Therefore , the illuminating device 1 can be rotated so that the inclination angle of the mounting surface of the luminaire 100 can be changed. Therefore, even after the lighting device 1 is fixed to the mounting portion 500 such as the ceiling or the wall, the operator can change the light irradiation direction of the lighting device 1 by using the mounting base 400 .

In the mounting base 400, the inclination angle of the mounting portion 420 with respect to the base portion 410 is determined by fitting the control convex portion 422b into one of the plurality of control holes 412b. In the mounting base 400, the control convex portion 422b of the control B portion 422 slides on the side surface of the base portion 410 and fits into the control hole portion 412b of the control A portion 412 to hold the mounting portion 420 at a predetermined angle. can be done. Therefore, the illuminating device 1 can be rotated so that the inclination angle of the mounting surface of the luminaire 100 can be changed. Therefore, even after the lighting device 1 is fixed to the mounting portion 500 such as the ceiling or the wall, the operator can change the light irradiation direction of the lighting device 1 by using the mounting base 400 .

It is assumed that lighting device 100 is attached to mounting base 400 in a state of being arranged perpendicularly to attached portion 500 . At this time, the leg portion 411 is formed longer in the lateral direction (Y-axis direction) of the lighting device 100 than the projection portion 100c formed by projecting the lighting device 100 onto the mounting portion 500 in the direction perpendicular to the mounting portion 500. It is Therefore, even if the lighting device 1 is attached to the mounting base 400 , the lighting device 1 does not interfere with the worker's work when mounting the mounting base 400 to the mounting portion 500 . That is, the operator can attach the mounting base 400 to the attached portion 500 after attaching the lighting device 1 .

It is assumed that the luminaire 100 is attached to the mounting base 400 and tilted so as to be parallel to the attached portion 500 . At this time, at least a portion of the projection portion 100d formed by projecting the lighting fixture 100 and the light source unit 200 onto the mounting section 500 in the vertical direction with respect to the mounting section 500 is projected to the leg section 411 in the lateral direction of the lighting fixture 100. is located outside one end of the Therefore, the mounting base 400 can be installed even in a relatively narrow space with respect to the size of the lighting device 1 .

1 lighting device, 100 lighting fixture, 100c projection part, 100d projection part, 110 fixture main body, 110a end, 110b end opening, 111 bottom, 111a power supply hole, 111b mounting hole, 112 side surface, 113 main body opening, 114 convex portion 114a end plate fixing portion 114b first notch portion 114c second notch portion 114d edge portion 114f tip portion 115 spring mounting portion 120 power supply device 120a case 130 power terminal block 131 terminal Base wire 150 End plate portion 151 End plate body portion 151a End plate lid portion 151b End plate wire hole 151c Groove portion 152 End plate claw portion 152a Claw insertion portion 152b Claw recess portion 152c Claw fitting portion , 152ca projecting portion, 152p upper edge portion, 152t1 edge portion, 152t2 edge portion, 153 end plate connecting portion, 160 instrument side spring, 160a engagement spring portion, 160a1 spring squeeze portion, 160a2 spring bending portion, 160b spring Connection Part 161 Spring Extension Part 161a Spring Engagement Part 162 Spring Arm Part 163 Spring Bent Part 165 Central Part 200 Light Source Unit 200a End Part 210 Light Emitting Module 211 Light Emitting Element 212 Substrate 212t End Part 213 Light source side wire 220 Frame 221 First plate portion 221a Board mounting surface 221b Cover holding portion 221c Second cover holding portion 221t End 222 Column 223 Second plate portion 223b Frame fixing hole 230 cover 230a inner side face 230c opening 230t end 231 main cover part 232 cover side face part 233 cover claw part 240 end cap 241 cover cap part 242 first projecting part 242a top Plate portion 242b Side plate portion 243 Second projecting portion 243a Preventing portion 243a1 First projecting portion 243a2 Second projecting portion 243b Wire cutout portion 243c Cap side cover holding portion 243c1 Bottom plate portion 243c2 Hook shape Part 243d Wire guide part 243e Flat plate part 244 Frame cap part 244a Cap-side fixing hole 245 First support part 246 Second support part 250 Spring 251 Spring hook part 251a hooking claw portion 251a1 claw portion 251a2 end portion 251b hooking plate portion 251b1 end portion 251c frame opening 251d spring plate portion 252 spring body portion 252a spring claw portion 252a1 opening portion 252b spring bottom surface 252c spring engaging portion 252c1 spring claw portion 253 spring fixing portion 253a spring fixing end portion 253b spring contacting portion 253c spring end plate portion 260 screw fixture 300 connecting member 310 connecting body portion 310a tip portion, 320 first claw portion, 330 second claw portion, 340 instrument slit portion, 350 body engaging portion, 351 inner end portion, 352 outer end portion, 360 electric wire claw portion, 400 mounting base, 410 pedestal Part, 411 leg, 412 control A part, 412a shaft hole A part, 412b control hole part, 412c notch part, 413 pedestal fixing hole, 420 mounting part, 421 mounting plate part, 421a mounting hole, 421b notch part, 421c opening Part 422 Control B Part 422a Shaft Hole B Part 422b Control Convex Part 422c Notch Part 430 Shaft Part 500 Attached Part 1114 First Engaging Part 1152 Second Engaging Part 1152a First Protruding Wall part 1152b second protruding wall part 1160 instrument side spring 1160a engagement spring part 1160a1 spring throttle part 1160b spring connection part 1161 spring extension part 1161a spring extension inclined part 1161b spring extension flat plate part 1161c spring engaging portion 1161c1 outer projecting portion 1161c2 inner projecting portion 1161c3 groove portion 1162 spring arm portion 1240 end cap 1242 first projecting portion 1242a top plate portion 1242b side plate portion 1300 connecting member 1350 main body Engaging portion 1350a End portion 2240 End cap 2242 First projecting portion 2300 Connecting member.

Claims (5)

a light source unit having a light emitting element serving as a light source;
a lighting fixture to which the light source unit is attached;
a mounting portion attached to a side opposite to the side on which the light source unit is arranged of a fixture body constituting an outer shell of the lighting fixture to which the fixture body is attached; a pedestal part attached to a mounted part; a mounting base having a shaft portion rotatably connecting the portion and the mounting portion ;
with
The pedestal has a control A portion that forms a wall portion of the pedestal, and a first engagement portion of the A portion formed in the control A portion,
The attachment portion has a control B portion forming a wall portion of the attachment portion, and a B portion second engagement portion formed in the control B portion and engaged with the A portion first engagement portion. death,
The mounting base allows the lighting fixture attached to the mounting base to be arranged between a state in which it is arranged perpendicular to the mounting portion and a state in which it is arranged at an angle with respect to the mounting portion. A lighting device that is rotatably held. The pedestal has a leg fixed to the attached portion,
The control A section is provided to rise from the leg,
The mounting portion has a mounting plate portion on which the instrument body is placed and fixed,
The control B section is provided so as to rise from the mounting plate section,
The mounting base is
The control A section and the control B section are slidably connected by the shaft,
2. The lighting device according to claim 1, wherein the lighting device is rotatably held by engagement between the A first engaging portion and the B second engaging portion. The A section first engaging portion is
A control hole that is a circular opening hole formed in the control A portion, and a plurality of the control holes are formed at predetermined angles along an imaginary arc having the shaft as the center point of the circle. has been
The B section second engaging portion is
A control convex portion is formed in a convex shape on a surface facing the control A portion. It is formed in an arc shape in a cross section perpendicular to the plate surface of the part,
3. The lighting device according to claim 2, wherein the inclination angle of the mounting portion with respect to the base portion is determined by fitting the control convex portion into one of the plurality of control holes. The lighting fixture is formed in an elongated shape,
Assuming that the lighting fixture is attached to the mounting base in a state of being arranged perpendicularly to the attached portion,
2 or claim 2, wherein the leg portion is formed longer in the transverse direction of the lighting fixture than the projection section formed by projecting the lighting fixture onto the mounting section in the direction perpendicular to the mounting section. 4. The lighting device according to 3. Assuming that the lighting fixture is attached to the mounting base and tilted so as to be parallel to the attached portion,
At least a part of a projection portion formed by projecting the lighting fixture and the light source unit onto the mounting section in the direction perpendicular to the mounting section is projected from one end of the leg section in the lateral direction of the lighting fixture. 5. The lighting device according to any one of claims 2 to 4, wherein the illuminating device is located outside.

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