JP2020035684A - Light source unit and light fitting - Google Patents

Abstract

To provide a light source unit which can secure a gap and inhibit the gap from being highly visible in a case where the light source unit is arranged spaced apart from an adjacent light source unit.SOLUTION: A light source unit 3 has a substrate 41 and a cover 90. The substrate 41 has one major surface 41a, and at least one light emitting part 40 is provided on the one major surface 41a. The cover 90 has light transmissivity and covers the one major surface 41a of the substrate 41. The cover 90 extends in one direction. An optical axis direction of the light emitting part 40 is perpendicular to the substrate 41. The cover 90 has a first end surface 91 and a second end surface 92. The first end surface 91 is one of both end surfaces as seen in the one direction. The second end surface 92 is an end surface, which is different from the first end surface 91, of both end surfaces as seen in the one direction. The first end surface 91 and the second end surface 92 have shapes which fit with each other. At least one of the first end surface 91 and the second end surface 92 transmits light radiated from the light emitting part 40.SELECTED DRAWING: Figure 2

Description

  The present disclosure relates to a light source unit and a lighting fixture, and more particularly, to a light source unit having a cover that covers one main surface of a substrate, and a lighting fixture including the light source unit.

  The lighting device described in Patent Literature 1 includes a light source unit and a device main body. The instrument body supports the light source unit. The lighting fixture is arranged in line with another lighting fixture of the same configuration. At this time, adjacent light source units are arranged with a gap therebetween in consideration of thermal expansion of the cover of the light source unit and expansion due to humidity change.

JP-A-2006-51651

  In the lighting device described in Patent Literature 1, adjacent light source units are arranged with a gap therebetween. For this reason, the brightness of the illumination light of the light source unit is reduced in the gap, and the gap is conspicuous.

  An object of the present disclosure is to provide a light source unit that can suppress the above-mentioned gap from being noticeable while securing the above-mentioned gap when arranged with a gap from an adjacent light source unit, and a lighting fixture including the light source unit. It is to be.

  A light source unit according to an aspect of the present disclosure includes a substrate and a cover. The substrate has one main surface, and at least one light emitting unit is provided on the one main surface. The cover has a light-transmitting property and covers the one main surface of the substrate. The cover extends in one direction. An optical axis direction of the light emitting unit is perpendicular to the substrate. The cover has a first end surface and a second end surface. The first end surface is one of the end surfaces on both sides in the one direction. The second end face is an end face different from the first end face among end faces on both sides in the one direction. The first end face and the second end face have shapes that fit together. At least one of the first end surface and the second end surface transmits light emitted by the light emitting unit.

  A lighting device according to an aspect of the present disclosure includes the light source unit described above and a device main body. The device main body supports the light source unit.

  The light source unit and the lighting device according to an aspect of the present disclosure have an effect that, when the light source unit and the lighting device are arranged with a gap between the light source unit and the adjacent light source unit, the gap can be suppressed while the gap is conspicuous.

FIG. 1 is an exploded perspective view showing the lighting fixture according to the first embodiment. FIG. 2 is an exploded perspective view showing a light source unit provided in the lighting fixture. FIG. 3 is a bottom view of the lighting fixture as viewed from below. FIG. 4A is a partially enlarged view in which a part of the left end of the lighting fixture of FIG. 3 is enlarged. FIG. 4B is a partially enlarged view in which a part of the right end of the lighting fixture of FIG. 3 is enlarged. FIG. 5A is a side view of two lighting devices viewed from below when two of the lighting devices are arranged side by side. FIG. 5B is a partially enlarged view in which a connecting portion of the two lighting fixtures of FIG. 5A is enlarged. FIG. 5C is a partially enlarged view showing a case where the cover is expanded in FIG. 5B. FIG. 6 is a partially enlarged view in which a connecting portion of two lighting fixtures when two lighting fixtures according to the first modification of the first embodiment are arranged side by side is enlarged. FIG. 7 is a partially enlarged view in which a connecting portion of two lighting fixtures when two lighting fixtures according to Modification 2 of Embodiment 1 are arranged side by side is enlarged.

  The following embodiments are merely one of various embodiments of the present invention. The following embodiments can be variously modified according to the design and the like as long as the object of the present invention can be achieved. 1 to 7 described in the following embodiments are schematic diagrams, and the size and thickness ratio of each component in FIGS. 1 to 7 does not necessarily reflect the actual dimensional ratio. Not necessarily.

(Embodiment 1)
(1.1) Overall Configuration Hereinafter, the lighting fixture 1 according to the present embodiment will be described in detail. As shown in FIGS. 1 and 3, the lighting fixture 1 has a light source unit 3 and a fixture main body 2 that holds the light source unit 3.

  In the following description, it is assumed that the lighting fixture 1 is installed on a wall that is a building material such as a building, for example. However, the construction material on which the lighting equipment 1 is installed is not limited to a wall, and the lighting equipment 1 may be installed on a construction material other than a wall such as a ceiling or a floor.

(1.2) Light source unit 3
As shown in FIG. 2, the light source unit 3 includes two LED modules 4, a lighting device 5, a housing 6, and a cover 90. The LED module 4 is a portion where components for emitting illumination light (such as a plurality of LEDs (light emitting diodes) 40 and a substrate 41) are combined. The lighting device 5 is a device that supplies power (DC power) to the LED module 4. The housing 6 is a member in which the lighting device 5 is housed. The cover 90 is a member that covers the component surface (the main surface on which the LEDs 40 are provided) of the LED module 4 and is assembled with the housing 6.

(1.2.1) LED module 4
The two LED modules 4 are arranged side by side in the left-right direction. Hereinafter, the left LED module 4 of the two LED modules 4 may be referred to as a first LED module 4A, and the right LED module 4 may be referred to as a second LED module 4B.

  The first LED module 4A includes a plurality of LEDs 40 (first LEDs 40A, light emitting units), a board 41 (first board 41A), a pair of receptacle connectors 42, and a pair of electric wires 43. The substrate 41 has a front surface 41a (one main surface), and a plurality of first LEDs 40A are provided on the front surface 41a. The pair of receptacle connectors 42 are provided on the front surface 41a of the first substrate 41A. The pair of receptacle connectors 42 are electrically connected to a plug connector 45 via an electric wire 43. Plug connector 45 is electrically connected to output connector 500 of lighting device 5.

  The second LED module 4B has a plurality of LEDs 40 (second LEDs 40B, light emitting units) and a substrate 41 (second substrate 41B). The substrate 41 has a front surface 41a (one main surface), and a plurality of second LEDs 40B are provided on the front surface 41a. The first LED module 4A and the second LED module 4B are electrically connected to each other by the connection unit 9.

  Each board | substrate 41 is formed in the shape of a long rectangular flat plate which makes a left-right direction a longitudinal direction, for example by resin insulating board, such as a glass cloth base epoxy resin board. The first substrate 41A and the second substrate 41B are arranged so as to be adjacent to each other. Here, as an example, the two substrates 41 have different longitudinal dimensions, and the longitudinal dimension of the first substrate 41A is longer than the longitudinal dimension of the second substrate 41B. However, the dimensional relationship in the longitudinal direction of the two substrates 41 is not particularly limited, and may be the same as each other, or the dimensional relationship between the long and short sides may be reversed.

  Each LED 40 is, for example, a white LED for illumination. The plurality of first LEDs 40A are mounted so as to be arranged in a line at equal intervals along the longitudinal direction (lateral direction) of the first substrate 41A at the center of the first substrate 41A in the lateral direction (vertical direction) ( (See FIG. 2). The plurality of second LEDs 40B are mounted so as to be arranged in a line at equal intervals along the longitudinal direction (left-right direction) of the second substrate 41B at the center in the short direction (vertical direction) of the second substrate 41B. (See FIG. 2). The optical axis L1 of each LED 40 is perpendicular to the substrate 41. The direction of the optical axis L1 matches the front-back direction of the lighting fixture 1.

  In the present embodiment, two substrates 41 (41A and 41B) are provided in the light source unit 3, but the number of the substrates 41 provided in the light source unit 3 may be one or three or more. . In the present embodiment, a plurality of LEDs 40 are provided on one substrate 41, but the number of LEDs 40 provided on one substrate 41 may be at least one.

(1.2.2) Lighting device 5
The lighting device 5 includes a power conversion circuit that converts AC power supplied from an external power supply (for example, a commercial power system) into DC power, and a control circuit that controls the power conversion circuit according to a control signal received from the outside. have. The power conversion circuit has, for example, a power factor improvement circuit and a step-down chopper circuit (buck converter). The control circuit is configured to, for example, control the buck converter by PWM (Pulse Width Modulation) to adjust the DC current output from the output connector 500 to dimming the two LED modules 4. However, since the circuit configurations of such a power conversion circuit and a control circuit are conventionally well-known, detailed illustration and description of the circuit configuration will be omitted.

  The lighting device 5 includes a circuit board 50 (see FIG. 2). The circuit board 50 is formed, for example, in a rectangular flat plate shape. Various circuit components 58 constituting a power conversion circuit and a control circuit are mounted on the circuit board 50.

  The first terminal block 51 is mounted on the right end of the front surface of the circuit board 50. One of the first power supply lines 52 of the two first power supply lines 52 is electrically connected to each pole of the first terminal block 51. Each conductor of the two first power supply lines 52 is electrically connected to a corresponding one of the two contacts of the first power supply connector 53.

  A second terminal block 54 is mounted on the left end of the front surface of the circuit board 50. One of the two second power supply lines 55 is electrically connected to each of the poles of the second terminal block 54. Further, each conductor of the two second power supply lines 55 is electrically connected to a corresponding one of the two contacts of the second power supply connector 56. Each pole of the first terminal block 51 and each pole of the second terminal block 54 are electrically connected by a conductor of the circuit board 50. Although a detailed description is omitted, the plug connector that is the first power connector 53 is connected to another lighting device 1 so that the lighting device 1 is connected to another lighting device 1 so as to be arranged in the left-right direction. The second power supply connector 56 is configured to be connectable to a receptacle connector.

  Further, one output connector 500 and two control connectors 501 and 502 are mounted on the left end on the front surface of the circuit board 50. The output connector 500 is electrically connected to an output terminal of the buck converter via a conductor of the circuit board 50. Then, the output connector 500 is connected to the plug connector 45 provided at the ends of the two electric wires 43 of the first LED module 4A.

  Signal cables 503 and 504 for transmitting control signals are electrically connected to the two control connectors 501 and 502, respectively. A signal cable 503 electrically connected to one control connector 501 is drawn out to the left side of the circuit board 50. The signal cable 504 electrically connected to the other control connector 502 is drawn out to the right side of the circuit board 50. A first signal connector 505 is electrically connected to an end of one signal cable 503. A second signal connector 506 is electrically connected to a distal end of the other signal cable 504. The receptacle connector as the first signal connector 505 is configured to be connectable to a plug connector as the second signal connector 506 of another lighting fixture 1.

(1.2.3) Housing 6
As shown in FIG. 2, the housing 6 is formed in a square gutter shape having a long bottom wall 60 and a pair of side walls 61 protruding forward from upper and lower ends along the longitudinal direction of the bottom wall 60. ing. The housing 6 is an extruded body of a synthetic resin such as a polycarbonate resin. An inwardly recessed portion 610 is formed on the outer surface of each side wall 61. In each side wall 61, an engagement groove 63 into which the circuit board 50 is inserted from the left end of the housing 6 and engages, and an engagement protrusion 64 into which the cover 90 is inserted from the left end of the housing 6 and engages. Is provided.

(1.2.4) Cover 90
As shown in FIG. 1, the cover 90 extends in one direction (left-right direction), and has a D-shaped box shape in cross section orthogonal to the longitudinal direction. The front surface of the cover 90 is curved in an arc shape so as to protrude forward along the vertical direction. The cover 90 has an opening on the rear surface where the housing 6 is assembled.

  The cover 90 has a first end surface 91 and a second end surface 92. The first end surface 91 is one end surface (for example, the left end surface) of the end surfaces on both sides in the longitudinal direction (left-right direction) of the cover 90. The second end surface 92 is an end surface (for example, a right end surface) different from the first end surface 91 among the end surfaces on both sides in the longitudinal direction (left-right direction) of the cover 90.

  The first end face 91 and the second end face 92 have shapes that fit each other. More specifically, as shown in FIG. 4A, the first end surface 91 is a surface (for example, a flat surface) that is inclined forward and diagonally to the left with respect to the front-rear direction of the cover 90. The first end surface 91 has a first front end 91a and a first rear end 91b. The first front end 91a is a front end of the cover 90 on the first end surface 91 in the front-rear direction. The first rear end portion 91b is a rear end portion of the first end surface 91 in the front-rear direction of the cover 90. The front-back direction of the cover 90 matches the optical axis L1 direction. The first rear end portion 91b is disposed on the right side of the first front end portion 91a (that is, on the second end surface 92 side) in the longitudinal direction (left-right direction) of the cover 90. Therefore, the first end face 91 is inclined toward the second end face 92 from the first front end 91a toward the first rear end 91b.

  The second end face 92 is a plane (for example, a plane) parallel to the first end face 91 (see FIG. 3). That is, as shown in FIG. 4B, the second end surface 92 is also a surface (for example, a plane) inclined forward and leftward with respect to the front-rear direction of the cover 90, for example. The second end face 92 has a second front end 92a and a second rear end 92b. The second front end 92a is a front end of the cover 90 on the second end surface 92 in the front-rear direction. The second rear end 92b is a rear end of the cover 90 in the front-rear direction on the second end surface 92. The front-back direction of the cover 90 matches the optical axis L1 direction. The second front end 92a is disposed on the left side (that is, on the first end face 91 side) of the second rear end 92b in the longitudinal direction (left-right direction) of the cover 90. Therefore, the second end face 92 is inclined toward the first end face 91 from the second rear end 92b toward the second front end 92a.

  As shown in FIG. 4B, the inclination angle α2 of the second end face 92 is such that the second front end 92a of the second end face 92 is located at the rightmost end position 40a of the LED 40 and the second rear end 92b in the longitudinal direction of the cover 90. Is set to be placed between The position 40a is, for example, the right end of the rightmost LED 40.

  In FIG. 4B, the second front end 92a is disposed between the position 40a of the rightmost LED 40 and the second rear end 92b in the longitudinal direction of the cover 90. The arrangement is not so limited. For example, the second front end portion 92a is arranged in the longitudinal direction of the cover 90 at the same position as the position 40a of the rightmost (most) LED 40 (most end light emitting portion) among the arrangement of the plurality of LEDs 40 in the cover 90. May be done.

  Note that the inclination angle α2 is an angle between the second end surface 92 and the rear surface of the cover 90. The position 40a of the rightmost LED 40 is, for example, the rightmost position of the rightmost LED 40. Since the first end surface 91 is parallel to the second end surface 92, the inclination angle α1 of the first end surface 91 is set to the same inclination angle as the inclination angle α2 of the second end surface 92. The inclination angle α1 is an angle between the first end surface 91 and the rear surface of the cover 90.

  By setting the inclination angles α1 and α2 in this manner, the width of the first end face 91 in the left-right direction and the width of the second end face 92 in the left-right direction become too large when viewed from the front of the light source unit 3. Can be suppressed.

  The cover 90 is configured to transmit light and diffuse light. The cover 90 is formed of a light-transmitting member that transmits light (for example, a polycarbonate resin). The translucent member may be a transparent member, a translucent member, or a milky member. The LED module 4 is housed inside the cover 90. In this housed state, the LED module 4 is arranged with its front surface (component surface) facing forward. That is, the direction of the optical axis L1 of each LED 40 coincides with the front-back direction of the light source unit 3. In the present embodiment, the light (illumination light) emitted by the LED module 4 is transmitted through the cover 90 and emitted to the front, upper, and lower sides of the cover 90, and is transmitted through the first end face 91 and the second end face 92. And it is also radiated to the left and right sides. That is, both the first end face 91 and the second end face 92 transmit light from the LED 40. In the present embodiment, both the first end face 91 and the second end face 92 transmit light from the LED 40, but at least one of the first end face 91 and the second end face 92 transmits light from the LED 40. May be transmitted.

  The cover 90 has a cover body 7 and two end members 8. The cover main body 7 is a part configuring the front, upper, and lower surfaces of the cover 90. The two end members 8 are components constituting both ends of the cover 90 in the longitudinal direction (lateral direction). When distinguishing the two end members 8, the left end member 8 is described as an end member 8L, and the right end member 8 is described as an end member 8R.

  As shown in FIG. 2, the cover main body 7 has a main body 70 having a rectangular shape when viewed from the front, and a pair of legs 71 projecting rearward from each of a pair of long sides of the main body 70. are doing. The main body 70 is elongated in one direction (left-right direction), and has a C-shaped gutter-like cross section orthogonal to the longitudinal direction. The main body 70 is curved in an arc shape so as to protrude forward. The main body 70 has an open rear surface and left and right end surfaces 73L and 73R. The left and right end surfaces 73L, 73R of the main body 70 are planes orthogonal to the longitudinal direction (left and right rear) of the main body 70. The main body 70 and the pair of legs 71 are integrally formed by, for example, extrusion molding of a synthetic resin such as a polycarbonate resin. The main body 70 is configured to transmit and diffuse light emitted from the two LED modules 4 in the cover.

  The cover body 7 holds the first substrate 41A and the second substrate 41B so as to be sandwiched between the pair of legs 71. That is, the first substrate 41A and the second substrate 41B are accommodated in the cover main body 7. In this housed state, the front surface (component surface) of the first substrate 41A and the second substrate 41B (component surface) face the front side of the cover body 7. The optical axis L1 of the first LED 41A of the first substrate 41A and the optical axis L1 of the second LED 41B of the second substrate 41B coincide with the front-back direction of the cover body 7.

  The cover body 7 is attached so as to be hooked on the side wall 61 of the housing 6 while holding the first substrate 41A and the second substrate 41B. In other words, although detailed description is omitted, the pair of legs 71 of the cover body 7 has a hook structure for hooking the first substrate 41A and the second substrate 41B on the inner surface thereof, and further has the outer surface thereof. Has an engagement structure for engaging with the engagement protrusion 64 of the housing 6.

  The two end members 8 have substantially the same structure as each other (see FIG. 2). Each end member 8 includes a first end portion 81 formed in a substantially semi-disc shape, a second end portion 82 formed in a substantially rectangular flat plate shape, and a first end portion 81 and a second end portion 82. Are connected to each other. The first end portion 81 is a portion that closes the openings of the end faces 73L and 73R in the longitudinal direction (left-right direction) of the main body 70. The second end portion 82 is a member that closes an opening at an end face in the longitudinal direction of the housing 6. Each end member 8 further has a bottom plate portion 84 and a pair of side plate portions 85. The end member 8 is configured to transmit light and diffuse light. The end member 8 is formed of, for example, a molded body of a synthetic resin such as polybutylene terephthalate resin or polycarbonate resin. Hereinafter, the first end portion 81L of the left end member 8L and the first end portion 81R of the right end member 8R are also described.

  4A, the first end portion 81L has a left side surface 81a and a right side surface 81b. The right side surface 81b is orthogonal to the left and right direction of the cover 90. That is, the right side surface 81b is parallel to the left end surface 73L of the main body 70. The left side surface 81a forms a first end surface 91 of the cover 90. The left side surface 81a is inclined forward and leftward with respect to the front-rear direction. The thickness D1 in the left-right direction of the first end portion 81L is increased such that the left side surface 81a gradually moves away from the right side surface 81b from the rear end portion 81c to the front end portion 81d of the first end portion 81L. I have.

  The first end portion 81R has a left side surface 81e and a right side surface 81f, as shown in FIG. 4B. The left side surface 81e is orthogonal to the left-right direction of the cover 90. That is, the left side surface 81e is parallel to the right end surface 73R of the main body 70. The right side surface 81f forms a second end surface 92 of the cover 90. The right side surface 81f is inclined forward and leftward with respect to the front-rear direction. The thickness D2 in the left-right direction of the first end portion 81R is reduced so that the right side surface 81f gradually approaches the left side surface 81e from the rear end portion 81g to the front end portion 81h of the first end portion 81R. I have.

  As described above, the inclined first end surface 91 of the cover 90 is configured by attaching the first end portion 81L having the inclined left side surface 81a to the left end surface 73L of the main body 70. Similarly, the inclined second end surface 92 of the cover 90 is configured by attaching the first end portion 81R whose inclined right surface 81f is inclined to the right end surface 73R of the main body 70.

  The second power supply connector 56 is attached to the second end portion 82 of the left end member 8L. A signal cable 503 is attached to the second end portion 82 of the left end member 8. The signal cable 503 is attached to the second end portion 82 while penetrating the second end portion 82. The first power supply line 52 and the signal cable 504 are attached to the second end portion 82 of the right end member 8. The first power supply line 52 and the signal cable 504 are attached to the second end portion 82 while penetrating the second end portion 82. However, a tension stopper is attached to the first power supply line 52 and the signal cable 504.

  The bottom plate portion 84 is formed in a rectangular flat plate shape. The bottom plate portion 84 projects from the side surface of the second end portion 82 to the side opposite to the connecting portion 83 (see FIG. 2). The pair of side plate portions 85 protrude forward from both ends in the short direction (vertical direction) on the front surface of the bottom plate portion 84. Each side plate portion 85 is formed in a rectangular flat plate shape.

  In a state where the lighting device 5 and the cover main body 7 housing the LED board 41 are housed in the housing 6, the two end members 8 are inserted into the housing 6 from both left and right ends thereof, and are screwed or the like. Thereby, the two end members 8 are attached to the end faces on both sides of the cover body 7 and the end faces on both sides of the housing 6.

(1.3) Instrument body 2
The instrument main body 2 includes a main body 20 and a pair of support members 21 as shown in FIG.

  The main body part 20 is formed in a square gutter shape by a metal plate such as a zinc steel plate. The main body part 20 includes a bottom part 200 formed in a long rectangular flat plate shape, and a pair of side parts 201 protruding forward from both ends (upper and lower ends) along the longitudinal direction (left-right direction) of the bottom part 200. Have. The bottom 200 has a pair of mated portions 202 (only the right mated portion 202 is shown in the illustrated example), a pair of connecting portions 205, and a pair of mounting holes 206. Each side part 201 has a pair of openings 203 and a string locking part 208.

  The support member 21 has a pair of engaging portions 210 that engage with an engaged portion 62 (see FIG. 1) provided on the side wall 61 of the housing 6, and each of the engaging portions 210 contacts the outer surface of the side wall 61. A displacing portion 211 for displacing in a separating direction (vertical direction). The support member 21 includes a spring portion 212 that presses the housing 6 in a direction in which the engaging portion 210 engages with the engaged portion 62, and a fitting portion that engages with the engaged portion 202 of the main body 20. 213. Further, the support member 21 has a rectangular flat plate portion 214. Note that the pair of engaging portions 210, the pair of displacement portions 211, the spring portions 212, the engagement portions 213, and the plate portions 214 of the support member 21 are formed by punching and bending a metal plate such as a stainless steel plate. It is formed integrally.

  The support member 21 is fixed to the main body 20 in the following procedure. The mating portion 213 of the support member 21 is inserted into the mated portion 202 of the main body 20 from the front. When the support member 21 is moved in parallel with the bottom 200 of the main body 20, the movement with respect to the bottom 200 is restricted, and the support 21 is fixed to the main body 20. When the support member 21 is fixed to the main body 20, the engaging portion 210 and the displacement portion 211 of the support member 21 face the opening 203 of the side portion 201 of the main body 20 in the vertical direction. .

(1.4) Construction Procedure of Lighting Fixture 1 Next, a construction procedure of the lighting fixture 1 will be described.

  The worker who performs the construction work first attaches the tool body 2 to a building material (for example, a wall). An operator inserts a mounting screw such as a wood screw into a pair of mounting holes 206 of the main body 20 and screws the main body 20 to a wall.

  Subsequently, the operator inserts the housing 6 of the light source unit 3 into the main body 20 from the front. The operator presses the engagement portions 210 of the support member 21 at the upper and lower ends of the rear end of the housing 6 to flex the pair of displacement portions 211 of the support member 21 outward.

  The worker inserts the housing 6 into the main body 20 against the spring force (pressing force) of the spring 212 even after the spring 212 of the support member 21 contacts the rear surface of the housing 6 of the light source unit 3. . When the engaging portion 210 of the support member 21 reaches the concave portion 610 of the side wall 61, the displaced displacement portion 211 returns to the original state. Then, when the operator releases the light source unit 3, the housing 6 pressed by the spring portion 212 moves forward, and the engaging portion 210 of the support member 21 engages with the engaged portion 62 of the housing 6. Combine. In this way, the worker attaches the light source unit 3 to the main body 20 with the housing 6 supported by the pair of support members 21.

  As described above, the worker can attach the light source unit 3 to the appliance body 2 without using a tool such as a driver. Therefore, the lighting fixture 1 can reduce the work time required for installation.

  Next, with reference to FIGS. 5A to 5C, a case will be described in which a plurality (for example, two) of luminaires 1 (1A and 1B) having the same configuration are arranged in a line. Hereinafter, the light source unit 3 and the fixture main body 2 of the lighting fixture 1A are also described as a light source unit 3A and a fixture main body 2A, and the light source unit 3 and the fixture main body 2 of the lighting fixture 1B are also described as a light source unit 3B and a fixture main body 2B.

  As shown in FIGS. 5A and 5B, the two lighting fixtures 1A and 1B are arranged in a line along the longitudinal direction (left-right direction). In this arrangement state, in the adjacent lighting fixtures 1A and 1B, the adjacent end faces 2a and 2b of the adjacent fixture main bodies 2A and 2B are in contact with each other. Adjacent end faces 91 and 92 of the cover 90 of the adjacent light source units 3A and 3B are arranged with a gap D3 therebetween. That is, the adjacent end surfaces 91 and 92 are fitted with a gap D3 therebetween. The gap D3 is an interval in the longitudinal direction (left-right direction) of the light source unit 3. The gap D3 is a gap for absorbing the expansion of the cover 90 of the light source unit 3. The above-described expansion of the cover 90 is expansion due to heat generation of the light source unit 3 or expansion due to a change in humidity around the cover 90. The gap D3 has a size of, for example, 2 to 3 mm when the length of the light source unit 3 is, for example, 200 mm. The gap D3 is set to a size such that the adjacent end faces 91 and 92 do not contact each other even if the cover 90 expands (see FIG. 5C). As a result, even if the cover 90 expands, occurrence of excessive stress on the adjacent end faces 91 and 92 can be reduced.

  In the above arrangement, as shown in FIG. 5B, when viewed from the front of the light source unit 3, the first end face 91 of one of the two light source units 3A and 3B is adjacent to each other. The light source unit 3B overlaps the front side of the second end surface 92 with a gap D3. That is, the first front end 91a of the first end surface 91 of one light source unit 3A is disposed closer to the other light source unit 3B than the second rear end 92b of the second end surface 92 of the other light source unit 3B. As a result, when viewed from the front of the light source unit 3, the back side of the gap D3 between the two light source units 3A and 3B cannot be visually recognized. As a result, the gap D3 between the two light source units 3A and 3B can be suppressed while being noticeable.

  In addition, since the end surfaces (the first end surface 91 and the second end surface 92) on both sides of the light source units 3A and 3B are light transmitting surfaces that transmit light, the light from the LED module 4 in the light source unit 3 receives the first end surface. It is also emitted from the first end face 91 and the second end face 92. Thus, a decrease in the luminance of the illumination light can be reduced in the gap D3 between the adjacent light source units 3A and 3B. That is, continuous and uniform illumination light can be realized between the adjacent light source units 3A and 3B. Further, the gap D3 between the adjacent light source units 3A and 3B can be further suppressed.

  Further, since the first end surface 91 and the second end surface 92 of the light source unit 3 are inclined surfaces (for example, inclined planes), it is possible to suppress accumulation of dust and the like in the gap D3 between the adjacent light source units 3A and 3B.

(2) Modifications Some modifications are listed below. Hereinafter, the above-described embodiment will be referred to as a “basic example”. Each of the modifications described below can be applied in appropriate combination with the above-described basic example and other modifications.

(2.1) Modification 1
In the basic example, the first end surface 91 and the second end surface 92 of the cover 90 are both light-transmitting surfaces, but one of the first end surface 91 and the second end surface 92 (for example, the first end surface 91) is light-transmitting. In the light surface, the other end surface (for example, the second end surface 92) may be a non-light-transmitting surface that does not transmit light. In this case, the second end surface 92 may be a reflecting surface that reflects light.

  The non-light-transmitting surface may be configured by, for example, forming the end member 8 with a member having no light-transmitting property. Further, the reflection surface may be configured by providing a member having a function of reflecting light (reflection tape or reflection plate) on the second end surface 92, or a film (reflection film) that reflects light by metal deposition. ) May be formed on the second end surface 92.

  When the first end surface 91 is a light-transmitting surface and the second end surface 92 is a reflective surface, as shown in FIG. 6, when two luminaires 1A and 1B having the same configuration are arranged in a line, an adjacent light source unit is used. The illumination light C1 is emitted from the first end surface 91 of one of the light source units 3A among 3A and 3B. For this reason, a decrease in the luminance of the illumination light C3 in the gap D3 between the two light source units 3A and 3B can be reduced. As a result, the gap D3 between the two light source units 3 can be suppressed from being noticeable. Further, the illumination light C <b> 1 is reflected from the first end face 91 on the second end face 92. Thereby, the second end surface 92 is illuminated. For this reason, the reduction of the illumination light C3 in the gap D3 can be further reduced.

(2.2) Modification 2
In the basic example, the first end surface 91 and the second end surface 92 of the cover 90 are both inclined surfaces (for example, inclined planes), but the first end surface 91 and the second end surface 92 may both be stepped surfaces. Good (see FIG. 7). That is, the first end surface 91 may be displaced, for example, to the right in a stepwise manner from the first front end portion 91a toward the first rear end portion 91b. The second end surface 92 may be displaced, for example, to the left in a stepwise manner from the second rear end 92b toward the second front end 92a. In the example of FIG. 7, the first end face 91 and the second end face 92 have a two-step shape, but may have a plurality of three or more steps.

  In this case, as shown in FIG. 7, when two luminaires 1A and 1B having the same configuration are arranged in a line, adjacent end faces of the adjacent light source units 3A and 3B (first end face 91 and second end face 92). Are fitted with a gap D3 therebetween. Therefore, even if the gap D3 is viewed from a direction shifted from the front (front side) of the light source unit 3, the back side of the gap D3 cannot be visually recognized. As a result, the gap D3 between the adjacent light source units 3A and 3B can be further suppressed.

(2.3) Other Modifications In the basic example, the end member 8 has a first end portion 81, a second end portion 82, and a connecting portion 83, and the end portions 81, 82, and the connecting portion 83 are integrally formed. Although formed, the configuration of the end member 8 is not limited in this way. For example, the end member 8 may be composed of only the first end portion 81 among the first end portion 81, the second end portion 82, and the connecting portion 83.

(3) Advantage As described above, the light source unit (3) according to the first aspect has the substrate (41) and the cover (90). The substrate (41) has one main surface (41a), and at least one light emitting unit (40) is provided on one main surface (41a). The cover (90) has translucency and covers one main surface of the substrate (41). The cover (90) extends in one direction. The cover (90) has a first end surface (91) and a second end surface (92). The first end surface (91) is one of the end surfaces on both sides in one direction. The second end face (92) is an end face different from the first end face (91) among the end faces on both sides in one direction. The first end face (91) and the second end face (92) have shapes that fit together. At least one of the first end face (91) and the second end face (92) transmits light emitted by the light emitting section (40).

  According to this configuration, when two light source units (3) having the same configuration are arranged in a line with a gap (D3) therebetween, the first front end of the first end surface (91) of one of the light source units (3). (91a) can be arranged closer to the other light source unit (3) than the second rear end (92b) of the second end surface (92) of the other light source unit (3). Thereby, when viewed from the front side of the light source unit (3), the depth side of the gap (D3) between the adjacent light source units (3) cannot be visually recognized. As a result, it is possible to secure the gap (D3) between the adjacent light source units (3) and to suppress the gap from being noticeable.

  In the light source unit (3) according to the second aspect, in the first aspect, the direction of the optical axis (L1) of the light emitting section (40) is perpendicular to the substrate (41). In the first end surface (91), a first rear end portion (91b) on the rear side in the optical axis (L1) direction is, in one direction, higher than a first front end portion (91a) on the front side in the optical axis (L1) direction. Are also arranged on the side of the second end face (92). In the second end surface (92), a second front end portion (92a) on the front side in the optical axis (L1) direction is, in one direction, from a second rear end portion (92b) on the rear side in the optical axis (L1) direction. Are also arranged on the first end face (91) side.

  According to this configuration, the back side of the gap (D3) between the adjacent light source units (3) can be made invisible with a simple structure when viewed from the front side of the light source unit (3).

  In the light source unit (3) according to the third aspect, in the second aspect, the first end face (91) extends from the first front end (91a) toward the first rear end (91b) with the second end face (91). 92). The second end face (92) is inclined toward the first end face (91) from the second rear end (92b) toward the second front end (92a).

  According to this configuration, since the first end surface (91) and the second end surface (92) are both inclined surfaces, it is possible to prevent dust from collecting between the first end surface (91) and the second end surface (92). Can be suppressed.

  In the light source unit (3) according to the fourth aspect, in the second aspect, the first end surface (91) is such that the second end surface (91) moves from the first front end (91a) toward the first rear end (91b). It is shifted stepwise toward the end face (92). The second end face (92) is shifted stepwise toward the first end face (91) from the second rear end (92b) toward the second front end (92a).

  According to this configuration, the back side of the gap (D3) between the two light source units (3) can be made invisible even when viewed from the direction shifted to one of the two longitudinal sides of the light source unit (3). . As a result, the gap (D3) between the two light source units (3) can be further suppressed.

  In a light source unit (3) according to a fifth aspect, in any one of the first to fourth aspects, a plurality of light emitting units (40) are provided on the substrate (41). Among the arrangements of the plurality of light emitting units (40), the light emitting unit (40) arranged at the end on the side of the second end surface (92) in one direction is defined as the endmost light emitting unit (40). In one direction of the cover (90), the second front end portion (92a) of the second end surface (92) is disposed at the same position as the endmost light emitting portion (40), or the second end surface (92a) and the endmost light emitting portion (40). 2 between the rear end (92b).

  According to this configuration, of the second end face (92), the second front end (92a) is closer to the first end face (91) in one direction of the cover (90) than the second rear end (92b). Can be suppressed.

  In the light source unit (3) according to the sixth aspect, in any one of the first to fifth aspects, the first end face (91) and the second end face (92) are light-transmitting surfaces that transmit light. is there.

  According to this configuration, when two light source units (3) having the same configuration are arranged in a line with a gap (D3) therebetween, two adjacent light source units (3) have two adjacent end faces (first end face). (91) and the second end face (92)), the light from the light emitting section (40) can be emitted. Thereby, it is possible to reduce a decrease in luminance of the illumination light in the gap (D3) between the two adjacent light source units (3). As a result, the gap (D3) between two adjacent light source units (3) can be further suppressed from being noticeable.

  In the light source unit (3) according to the seventh aspect, in any one of the first to sixth aspects, one of the first end face (91) and the second end face (92) emits light. The other end surface is a reflecting surface that reflects light.

  According to this configuration, when two light source units (3) having the same configuration are arranged in a line with a gap (D3) therebetween, two adjacent light source units (3) have two adjacent end faces (91, 92). ), The light from the light emitting section (40) can be emitted from one end surface (light transmitting surface). Further, light from the light transmitting surface can be reflected on the other end surface (reflection surface). Thereby, it is possible to reduce a decrease in luminance of the illumination light in the gap (D3) between the two light source units (3). As a result, the gap (D3) between the two light source units (3) can be further suppressed.

  A lighting fixture (1) according to an eighth aspect includes the light source unit (3) according to any one of the first to seventh aspects, and a fixture main body (2). The instrument body (2) supports the light source unit (3).

  According to this configuration, it is possible to provide the lighting fixture (1) having the effects described in the light source unit (3).

DESCRIPTION OF SYMBOLS 1 Lighting fixture 2 Fixture main body 3 Light source unit 40 LED (light emitting part)
41 substrate 41a front surface (one main surface)
90 Cover 91 First end surface 91a First front end portion 91b First rear end portion 92 Second end surface 92a Second front end portion 92b Second rear end portion D3 Gap L1 Optical axis

Claims (8)

A substrate having one main surface, wherein the one main surface is provided with at least one light emitting unit;
A cover having a light-transmitting property and covering the one main surface of the substrate,
The cover extends in one direction,
The cover,
A first end face of one of the end faces on both sides in the one direction,
A second end face different from the first end face among end faces on both sides in the one direction,
The first end face and the second end face have a shape that fits each other,
At least one of the first end surface and the second end surface transmits light emitted by the light emitting unit,
Light source unit. The optical axis direction of the light emitting unit is perpendicular to the substrate,
The first rear end of the first end face on the rear side in the optical axis direction is disposed closer to the second end face than the first front end on the front side in the optical axis direction in the one direction. ,
The second front end of the front side in the optical axis direction of the second end surface is disposed closer to the first end surface than the second rear end of the rear side in the optical axis direction in the one direction. Was
The light source unit according to claim 1. The first end face is inclined toward the second end face from the first front end toward the first rear end,
The second end face is inclined toward the first end face from the second rear end toward the second front end.
The light source unit according to claim 2. The first end face is stepwise shifted toward the second end face from the first front end toward the first rear end,
The second end face is stepwise shifted toward the first end face from the second rear end toward the second front end,
The light source unit according to claim 2. The light emitting unit is provided in plurality on the substrate,
Among the arrangement of the plurality of light emitting units, the light emitting unit disposed at the end on the side of the second end surface in the one direction is an endmost light emitting unit,
In the one direction of the cover, the second front end of the second end face is disposed at the same position as the endmost light emitting unit, or between the endmost light emitting unit and the second rear end. Are placed,
The light source unit according to claim 1. The first end surface and the second end surface are light-transmitting surfaces that transmit light.
The light source unit according to claim 1. One of the first end surface and the second end surface is a light-transmitting surface that transmits light, and the other end surface is a reflection surface that reflects light.
The light source unit according to claim 1. A light source unit according to any one of claims 1 to 7,
And a tool main body that supports the light source unit.
lighting equipment.

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