JP6994850B2 - Light source unit and lighting equipment - Google Patents

Description

The present invention relates to a light source unit and a lighting device.

Conventionally, there is a lighting device including a light source unit having a long shape and an instrument main body to which the light source unit is attached.

For example, the lighting device described in Patent Document 1 has a cover and a frame, and the cover is slid and engaged in a relative longitudinal direction with respect to the frame.

International Publication No. 2016/052486 Pamphlet

In the lighting device described in Patent Document 1, the light source unit assembles the light source unit 200 by engaging the cover and the frame in the longitudinal direction. The cover may have a deformed shape of the opening at the longitudinal end, which may make it difficult to slide relative to the frame when engaged. In that case, the frame made of the metal material may scrape the cover made of the resin, and the inside of the cover may be scratched, which causes a problem of improving the assembleability of the light source unit.

Further, in the lighting device described in Patent Document 1, the frame is thinly formed in a plate shape. Therefore, it is conceivable that the frame is easily bent, and as a result, the light source unit is bent. In this respect as well, there is a problem of improving the assembleability of the light source unit of the light source unit.

An object of the present invention is to improve the assemblability of a light source unit assembled by engaging a cover and a frame in the longitudinal direction.

The light source unit of the present invention is
A frame that is long and has a light emitting part attached,
A cover that is formed in a long length and has a main cover portion that covers the light emitting portion,
A storage unit that is arranged at a position that sandwiches the frame with the main cover unit and that detachably stores the reinforcing material.
To prepare for.

INDUSTRIAL APPLICABILITY According to the present invention, the assembleability of a light source unit assembled by engaging the cover and the frame in the longitudinal direction can be improved.

FIG. 1 is a perspective view of the lighting device 1 in the figure of the first embodiment. FIG. 1 is a cross-sectional view taken along the line AA'in FIG. FIG. 1 is an exploded tilted view of the lighting device 1 in the figure of the first embodiment. FIG. 1 is a perspective view of the instrument main body 100 in the figure of the first embodiment. In the figure of Embodiment 1, the perspective view of the spring 140 and the connecting metal fitting 260. FIG. 1 is a cross-sectional view taken along the line BB'in FIG. FIG. 6 is an exploded sectional view of the light source unit 200 in the figure of the first embodiment. FIG. 1 is an exploded perspective view of a longitudinal end portion of the light source unit 200 in the figure of the first embodiment. The figure which corresponds to the side view of FIG. 8 in the figure of Embodiment 1. FIG. The figure which shows the assembly method of the light source unit 200 in the figure of Embodiment 1. FIG. FIG. 1 is an enlarged view of the first embodiment, excluding the second lid portion 242 of FIG. 10 (c). FIG. 1 is an enlarged view of FIG. 10 (d) in the figure of the first embodiment. FIG. 1 is a perspective view of the first lid portion 241 and the second lid portion 242 viewed from the X2 direction of FIG. 9 in the figure of the first embodiment. FIG. 1 is a perspective view in the X2 direction in a state where the second lid portion 242 is attached to the first lid portion 241 in the figure of the first embodiment. FIG. 1 is a perspective view of the end unit 240 side in a state where the light source unit 200 is cut at the position of the BB cross section of FIG. 9 in the figure of the first embodiment. FIG. 5 is a view of the second lid portion 242 in the figure of the first embodiment. FIG. 1 is a diagram showing a fitted state of the first lid portion 241 and the second lid portion 242 and a cross section of the light source unit 200 in the figure of the first embodiment. FIG. 1 is an enlarged view of a portion B of FIG. 17 in the figure of the first embodiment. FIG. 1 is an enlarged view of a part A in FIG. 17 in the figure of the first embodiment. The figure which shows the light source unit 200-1 which is the modification 1 of the light source unit 200 in the figure of Embodiment 1. FIG. The figure which shows the assembly method of the light source unit 200-1 in the figure of Embodiment 1. FIG. FIG. 6 is a perspective view illustrating a configuration of a light source unit 200-2 which is a modification 2 of the light source unit 200 in the figure of the first embodiment. FIG. 2 is a cross-sectional view of the light source unit 200A in the figure of the second embodiment. FIG. 3 is a cross-sectional view of the light source unit 200B in the figure of the third embodiment. FIG. 3 is a sectional view of a light source unit 200B-1 which is a modification of the light source unit 200B in the figure of the third embodiment. FIG. 3 is a sectional view of a light source unit 200B-2 which is a modification of the light source unit 200B in the figure of the third embodiment.

Embodiment 1.
The configuration of the lighting device 1 according to the first embodiment will be described. The feature of the lighting device 1 of the first embodiment is mainly in the end unit 240 of the light source unit 200.

In the first embodiment, as an example of the lighting device 1 according to the present invention, an inverted Fuji type lighting device 1 attached to a mounted portion such as a ceiling will be described. In the following description, for convenience, the longitudinal direction is defined as the longitudinal direction X, the lateral direction with respect to the longitudinal direction X is defined as the lateral direction Y, and the direction orthogonal to each of the longitudinal direction X and the lateral direction Y is defined as the vertical direction Z. Further, the side to which the lighting device 1 is mounted, such as the ceiling, is referred to as the upward direction Z1, and the side opposite to the upward direction Z1 and to which the lighting device 1 irradiates light is referred to as the downward direction Z2.

*** Explanation of configuration ***
(Lighting device 1)
FIG. 1 is a perspective view of the lighting device 1. FIG. 2 is a cross-sectional view taken along the line AA'of FIG. FIG. 3 is an exploded tilt view of the lighting device 1. FIG. 4 is a perspective view of the instrument main body 100. FIG. 5 shows the spring 140 and the connecting metal fitting 260. As shown in FIGS. 1 and 3, the lighting device 1 includes an instrument main body 100 installed so as to abut on the attached portion, and a light source unit 200 detachably attached to the instrument main body 100. A part of the light source unit 200 is inserted and attached to the instrument main body 100.

(Apparatus body 100)
The configuration of each part of the instrument main body 100 will be described with reference to FIGS. 3 and 4. The instrument body 100 is attached to the attached portion by using a fixing tool such as a bolt. The instrument body 100 includes a mounting portion 110, a side plate 120, a terminal block 130, and a spring 140. The light source unit 200 is attached to the mounting portion 110 with a part of the light source unit 200 inserted. The side plate 120 covers the longitudinal end of the mounting portion 110. A power line (not shown) drawn from the outside of the instrument body 100 is inserted into the terminal block 130. The spring 140 holds the light source unit 200 with respect to the instrument body 100.

(Mounting part 110)
The mounting portion 110 is formed along the longitudinal direction X. The mounting portion 110 includes a housing recess 111 into which the light source unit 200 is inserted and an inclined portion 112.

(Accommodation recess 111)
As shown in FIG. 2, the accommodating recess 111 is composed of a bottom portion 111a and a pair of side portions 111b rising from the respective side sides of the bottom portion 111a. The accommodating recess 111 is a concave portion represented by abcd in FIG. The inclined portion 112 is a portion from a to e1 and a portion from d to e2 in FIG. 2. An opening 111c into which the light source unit 200 is inserted is formed in the accommodating recess 111 at a position facing the bottom 111a. The opening 111c is shown in FIG. 4 as pqrs. The bottom portion 111a is formed with a power supply lead-in hole 111aa for drawing in a power supply line (not shown) for receiving power supply from a commercial power source, and a fixing hole 111ab for fixing to the attached portion by a fixing tool. As shown in FIG. 2, the accommodating recess 111 accommodates a part of the light source unit 200. Specifically, as shown in FIG. 2, a portion above the reference line 401 is accommodated. The reference line 401 is based on the height of the arrangement surface of the frame 220 on which the substrate 211 is arranged in the Z direction.

(Side plate 120)
The side plates 120 are arranged at both ends of the mounting portion 110 in the longitudinal direction X, and cover the accommodating recess 111 and the inclined portion 112.

(Terminal block 130)
As shown in FIG. 4, the terminal block 130 is fixed to the bottom 111a of the accommodating recess 111, is connected to a power supply line (not shown) drawn from the power supply lead-in hole 111aa, and uses the power supplied from the commercial power source as the light source unit. Supply to 200. The terminal block 130 includes a terminal block main body 131 formed in a rectangular box shape, and a terminal block connecting portion 132 for electrically connecting to the light source unit 200. The terminal block connection portion 132 includes a terminal block electric wire 132a and a terminal block connector 132b provided at the tip of the terminal block electric wire 132a.

(Spring 140)
FIG. 5A is a perspective view of the spring 140. As shown in FIG. 4, two springs 140 are arranged in a pair on the bottom portion 111a of the accommodating recess 111 along the longitudinal direction X. The spring 140 is one of the mounting mechanisms for attaching the light source unit 200 to the instrument main body 100. The spring 140 engages with the connecting metal fitting 260 ((b) in FIG. 5) described later. The spring 140 is made of an elastic material such as stainless steel material or spring steel material. As shown in FIG. 5A, the spring 140 is provided with a spring fixing portion 141 fixed to the bottom portion 111a, an arc-shaped spring arc portion 142, and a connecting metal fitting provided at the tip of the spring arc portion 142, which will be described later. A spring tip portion 143 that is hooked on the 260 is provided. Further, as shown in FIG. 4, the paired springs 140 are arranged on the bottom portion 111a so that the spring tip portions 143 face each other in opposite directions. The spring 140 may be formed by bending the elastic material of the plate material or by bending the elastic material of the wire material.

(Light source unit 200)
FIG. 6 is a cross-sectional view taken along the line BB'of FIG.
FIG. 7 is an exploded sectional view of the light source unit 200.
FIG. 8 is an exploded perspective view of the longitudinal end portion of the light source unit 200.
FIG. 9 is a view corresponding to the side view of FIG.
FIG. 10 is a diagram showing a method of assembling the light source unit 200.
11 is an enlarged view excluding the second lid portion 242 of FIG. 10 (c).
FIG. 12 is an enlarged view of FIG. 10 (d).
FIG. 13 is a perspective view of the first lid portion 241 and the second lid portion 242 as viewed from the X2 direction of FIG.
FIG. 14 is a perspective view in the X2 direction in which the second lid portion 242 is attached to the first lid portion 241.
FIG. 15 is a perspective view of the end unit 240 side in a state where the light source unit 200 is cut at the position of the BB cross section of FIG.
FIG. 16 is a five-view view of the second lid portion 242. The coordinates X, Y, Z1 shown in FIG. 16 are the same as the coordinates shown in FIG.
FIG. 17 is a diagram showing a fitted state of the first lid portion 241 and the second lid portion 242, and a cross section of the light source unit 200. FIG. 17A is a view of the light source unit 200 as viewed from the X direction of FIG. FIG. 17B is a cross-sectional view of the end unit 240 in the CC cross section of FIG. 17A, and the frame 220 and the cover 230 are omitted. FIG. 17 (c) is a DD cross section of (a).
FIG. 18 is an enlarged view of a portion B of FIG.
FIG. 19 is an enlarged view of part A in FIG.
The configuration of each part of the light source unit 200 will be described with reference to FIGS. 2, 3 and 6 to 19.
As shown in FIG. 3, the light source unit 200 is formed to be long. As shown in FIGS. 3 and 10, the light source unit 200 includes a light emitting unit 210, a frame 220, a cover 230, and an end unit 240. The light emitting unit 210 has a plurality of light emitting elements. In FIG. 1, the substrate 211 and the light emitting element 212 constituting the light emitting unit 210 are shown by broken lines. Since the broken line in FIG. 1 is for showing the arrangement state of the light emitting elements 212, the number and size of the light emitting elements 212 are not accurate. A light emitting unit 210 is attached to the frame 220. The cover 230 is attached to the frame 220 so as to cover the light emitting unit 210. As shown in FIG. 3, the end unit 240 is attached to the end 237 (FIG. 8) of the light source unit 200 in the longitudinal direction X. Further, the light source unit 200 includes a power supply device 250 that supplies electric power to the light emitting unit 210, and a connecting metal fitting 260 that engages with the spring 140.

(Light emitting unit 210)
As shown in FIGS. 1 and 2, the light emitting unit 210 includes a substrate 211 formed long along the longitudinal direction X and a plurality of light emitting elements linearly mounted on the substrate 211 along the longitudinal direction X. It is equipped with 212. Although the surface mount type LED element is used as the light emitting element 212 in the first embodiment, a COB type light emitting module may be used or an organic EL element may be used.

(Frame 220)
As shown in FIGS. 6 and 10 (b), the frame 220 is formed in a long shape, and a light emitting unit 210 is attached to the frame 220. The frame 220 includes a board mounting portion 221 and a frame side portion 222 and a fixing portion 223.
(1) The substrate mounting portion 221 is formed in the shape of a long rectangular plate along the longitudinal direction X.
The board mounting portion 221 is a portion of fg in FIG. 7A.
(2) The frame side portions 222 form a pair extending from each of the longitudinal side surfaces of the substrate mounting portion 221 in a direction orthogonal to the board mounting portion 221. The frame side portion 222 is a portion of fe and gh in FIG. 7A.
(3) The fixing portion 223 projects diagonally from the board mounting portion 221. The fixed portion 223 is a portion of e, e1 and h, h1 in (a) of FIG. 7.

The frame side portion 222 projects from the longitudinal side of the substrate mounting portion 221 so as to face the end surface 213 (FIG. 7) of the substrate 211. Further, the fixed portion 223 is provided with a side end portion 223a formed by bending the tip thereof. The bending process may be hemming process or roll process. The frame 220 has a frame side portion 222 and a fixing portion 223 with respect to the plate-shaped substrate mounting portion 221 to improve the rigidity. Further, since the rigidity of the frame 220 is improved by the frame side portion 222, the fixing portion 223, and at least two stages of bending, the frame 220 can be made thinner than the frame having a U-shaped cross section. Although the explanation is made on the premise that the frame 220 is formed by bending the sheet metal, the effects of the rigidity improvement and the thinning obtained from the shape of the frame 220 can be obtained even when the aluminum material is extruded and formed. Be done.

(Cover 230)
As shown in FIG. 3, the cover 230 is formed to be long. Although the details will be described later, the cover 230 has a frame fixing portion 236 for fixing the frame 220. The frame fixing portion 236 is composed of a first pressing portion 232b and a second pressing portion 233b (FIGS. 6 and 7). A part of the frame 220 fits into the frame fixing portion 236, and the frame fixing portion 236 fixes the frame 220. As shown in FIGS. 8 and 10, the cover 230 has an open end 237 in the longitudinal direction X.

The cover 230 is formed so as to cover the light emitting portion 210 and is attached to the frame 220. The cover 230 is made of a diffusible material such as a milky white acrylic resin, and diffuses the light emitted from the light emitting unit 210. As shown in FIG. 7, the cover 230 includes a main cover portion 231, an inner portion 232, a protruding portion 233, and a convex portion 235.
(1) The main cover portion 231 covers the light emitting portion 210, and is connected to a pair of cover side portions 234 protruding from the accommodating recess 111 in a state of being attached to the instrument main body 100. (2) The inner portion 232 is provided on the inner surface side of the cover 230, and has a reflecting portion 232a and a first pressing portion 232b. It extends from the upper end of one cover side portion 234 toward the other cover side portion 234. The reflective portion 232a is a resin material having reflective performance, and improves the luminous efficiency of the light source unit 200. The first pressing portion 232b holds the fixing portion 223 of the frame 220 together with the second pressing portion 233b described later. The reflecting portion 232a may be configured to fix the substrate 211 to the frame 220. Further, the first pressing portion 232b may also be made of a material having reflectivity. By using a reflective material for the first presser portion 232b, the luminous efficiency of the light source unit 200 can be improved.
(3) The projecting portion 233 projects upward from the cover side portion 234. The projecting portion 233 is provided at the end of the cover side portion 234, and has a second pressing portion 233b and an insertion portion 233a (FIG. 7) into which the second insertion portion 241b is inserted. The projecting portion 233 is inserted into the accommodating recess 111 in a state of being attached to the instrument main body 100 (FIG. 2).
(4) The cover side portion 234 is a wall-shaped portion connecting the main cover portion 231 and the inner portion 232 and the projecting portion 233.
(5) The cover 230 has a material having excellent transparency and diffusivity and a material having excellent reflectivity. The cover 230 is integrally formed by a processing method such as two-color molding. The main cover portion 231 may be made of a material having excellent permeability and diffusivity, and the inner portion 232 and the projecting portion 233 may be made of a material having excellent reflectivity, and may be integrally formed by two-color molding. As for the cover 230, as will be described later, the frame 220 is inserted into the groove 238 (FIGS. 6 and 7) formed by the first presser portion 232b and the second presser portion 233b, and the first presser portion 232b and the second presser portion 232b. It is fixed by the second presser portion 233b.

(End unit 240)
The end unit 240 includes a first lid portion 241 and a second lid portion 242, as shown in FIGS. 8, 9, and 13. The first lid portion 241 is fitted and attached to the end portion 237 of the cover 230 in the longitudinal direction X. The second lid portion 242 is inserted into and fixed to the first lid portion 241. The second lid portion 242 is arranged with a gap in the longitudinal direction X between the second lid portion 242 and the frame end portion 227 ((c) in FIG. 10), which is the end portion of the frame 220. The holding portion 242d of the second lid portion 242 hits the frame end portion 227 and stops the movement of the frame 220 when the frame 220 is displaced in the longitudinal direction X.

(First lid 241)
As shown in FIGS. 8, 9, and 13, the first lid portion 241 includes a first insertion portion 241a, a second insertion portion 241b, a protrusion 241c, a fixing piece 241d, a fixing hole 241e, and a guide portion 241f. I have.
(1) As shown in FIGS. 15 and 17 (c), the first insertion portion 241a is inserted inside the main cover portion 231 of the cover 230.
(2) The second insertion portion 241b is inserted into the opening 233aa formed by the insertion portion 233a of the projecting portion 233.
(3) The protrusion 241c is a protrusion as shown in FIG. The protrusion 241c is continuously formed in the range from q to r in FIG. In addition to the range from q to r, the protrusion 241c may be formed in either the range from p to q and the range from r to s, or may be formed in both. ..
Further, as shown by a broken line in FIG. 8, a groove portion 242aa into which the protrusion portion 241c is fitted is formed in the lid main body portion 242a of the second lid portion 242. FIG. 18 shows a fitted state between the protrusion 241c and the groove 242aa. As shown by the broken line in FIG. 8, the groove portion 242aa is a groove having a shape suitable for the protrusion portion 241c in the range from q to r.
In the first embodiment, the first lid portion 241 is provided with a protrusion 241c and the second lid portion 242 is provided with a groove portion 242aa. However, the first lid portion 241 is provided with a groove portion and the second lid portion 242 is provided with a protrusion. A part may be provided.
(4) As shown in FIG. 14, the claw portion 242b of the second lid portion 242 is hooked on the fixed piece 241d.
(5) The convex portion 242c of the second lid portion 242 is fitted into the fixing hole 241e.
(6) The guide portion 241f serves as a guide when the frame 220 is slid on the cover 230.

(Second lid 242)
As shown in FIGS. 8, 9, 13, and 16, the second lid portion 242 includes a lid main body portion 242a, a claw portion 242b, a convex portion 242c, a holding portion 242d, and a holding portion 242e.
(1) The lid main body portion 242a closes the opening at the end portion in the longitudinal direction in the state where the first lid portion 241 is attached. A groove portion 242aa is formed in the lid main body portion 242a as described in the description of the first lid portion 241.
(2) As shown in FIG. 14, the claw portion 242b is hooked on the fixed piece 241d.
(3) The convex portion 242c is fitted into the fixing hole 241e.
(4) The holding portion 242d ((c) in FIG. 16) faces the end portion of the frame 220 in the longitudinal direction X at a distance, and when the frame 220 moves, it hits the end portion of the frame 220 and of the frame 220. Stop moving.
(5) As shown in FIGS. 12, 15, and 17 (c), the pressing portion 242e presses the upper surface of the frame 220 from the Z2 direction.

(Power supply device 250)
2 and 3 show the power supply device 250. The power supply device 250 is fixed to the surface of the board mounting portion 221 opposite to the surface to which the light emitting portion 210 is mounted. The power supply device 250 supplies the electric power supplied from the commercial power source to the light emitting unit 210 via the terminal block 130 to light the light emitting unit 210. The power supply device 250 has a built-in power supply circuit (not shown), and includes a long-shaped power supply main body unit 251 and a power supply connection unit 252 that connects to a terminal block connection unit 132.

(Connecting bracket 260)
As shown in FIG. 5B, the connecting metal fitting 260 has a substantially L shape. The connecting metal fitting 260 includes a metal fitting fixing portion 261 and a spring connecting portion 262. The connecting metal fitting 260 is one of the mounting mechanisms for mounting the light source unit 200 to the instrument main body 100, and engages with the spring 140, which is the other of the mounting mechanisms. The metal fitting fixing portion 261 is fixed to the board mounting portion 221 with fixing parts such as screws. The spring connecting portion 262 is formed with a connecting opening 262a into which the spring 140 is hooked. The connecting opening 262a and the spring arc portion 142 of the spring 140 are engaged with each other, and the light source unit 200 is fixed to the instrument main body 100.

(How to assemble the light source unit 200)
The method of assembling the light source unit 200 will be described with reference to FIGS. 10A to 10D.

<First lid mounting process>
The first pressing portion 232b and the second pressing portion 233b of the cover 230 are a pair of pressing portions, and a long groove 238 into which a long frame 220 can be inserted (FIGS. 6 and 7). It is a pair of holding parts that form.
In the first lid portion attaching step, the end portion 237 of the cover 230 in the longitudinal direction X is attached to the end portion 237 of the cover 230 formed in a long length having the first presser portion 232b and the second presser portion 233b. The first lid portion 241 that suppresses the deformation of the groove 238 is attached in a state where the end portion 239 of the groove 238 is exposed. As shown in FIG. 10 (a), the operator or the assembling device attaches the first lid portion 241 to the end portion 237 of the cover 230 in the longitudinal direction X. At this time, the first insertion portion 241a of the first lid portion 241 is inserted inside the main cover portion 231 and the second insertion portion 241b is inserted into the opening 233aa of the protrusion portion 233. The end face of the cover 230 in the longitudinal direction X, which is the edge of the cover 230, abuts on the first lid portion 241 and is fixed by heat welding or adhesion such as an adhesive.
At this time, the first insertion portion 241a is inserted inside the main cover portion 231 and the second insertion portion 241b is inserted into the opening 233aa of the projecting portion 233, whereby the cover 230 is inserted in the longitudinal direction X. Deformation of the end 237 of the is corrected.
Further, by inserting the second insertion portion 241b into the opening 233aa, it is possible to correct deformation such as the space between the first pressing portion 232b and the second pressing portion 233b being crushed from the reference distance. Therefore, it is possible to solve the inconvenience that the frame 220 is difficult to be inserted into the cover 230 or cannot be inserted.
As shown in FIG. 11, the first lid portion 241 is fitted in the end portion 237 of the cover 230 in the longitudinal direction X with a part of the end portion 237 in the longitudinal direction X left open. The first lid portion 241 is fitted into the end portion 237 of the cover 230 in the longitudinal direction X to suppress deformation of the end portion 237 of the cover 230 in the longitudinal direction X.

<Frame insertion process>
In the frame insertion step, after the first lid portion 241 is attached, the frame 220 is inserted from the end portion 239 of the exposed groove of the groove 238 formed along the longitudinal direction X. As shown in FIG. 10 (b), from the state of FIG. 10 (a), the operator or the assembling device has the frame 220 along the guide portion 241f, with the first presser portion 232b and the second presser portion 233b. It is inserted into the groove 238 to be formed.

<Second lid mounting process>
In the second lid portion attaching step, the second lid portion 242 is attached to the first lid portion 241 to close the end portion 237 of the cover 230 in the longitudinal direction X. As shown in FIG. 10 (c), the operator or the assembling device attaches and fixes the second lid portion 242 to the first lid portion 241 with the frame 220 inserted in the cover 230. The second lid portion 242 is inserted into the first lid portion 241 from the Z1 side in the upward direction.
At this time,
(A) The groove portion 242aa of the lid main body portion 242a fits into the protrusion portion 241c of the first lid portion 241 and at the same time.
(B) The claw portion 242b is caught by the fixed piece 241d, and the claw portion 242b is caught by the fixed piece 241d.
(C) The convex portion 242c is fitted into the fixing hole 241e.
FIG. 18 shows a state in which the groove portion 242aa and the protrusion portion 241c are fitted, FIG. 14 shows a state in which the claw portion 242b is caught on the fixing piece 241d, and FIG. 19 shows a state in which the convex portion 242c is fitted into the fixing hole 241e. Shows the state. By these (A), (B) and (C), the second lid portion 242 is fixed to the first lid portion 241. In this way, the second lid portion 242 is attached to the first lid portion 241 and closes the end portion 237 of the cover 230 in the longitudinal direction X. A holding portion 242d ((d) in FIG. 16) faces the frame end portion 227 with a gap. When the frame end portion 227 moves in the longitudinal direction X, the holding portion 242d stops the movement.
As shown in FIG. 10 (c), the end portion 237 of the cover 230 in the longitudinal direction X forms an opening 201 together with the frame end portion 227 which is the end portion of the frame 220 in the longitudinal direction X, and is shown in FIG. As shown in (c), the second lid portion 242 closes the opening 201. The second lid portion 242 is detachably attached to the first lid portion 241. As shown in FIG. 11, in the light source unit 200, the end surface 228 of the frame end portion 227 is exposed to the opening 201 with the second lid portion 242 removed.

*** Effect of Embodiment 1 ***
(1) In the first embodiment, the end unit 240 includes a first lid portion 241 and a second lid portion 242. Since the first lid portion 241 is attached to the cover 230 so as to regulate or correct the shape of the end portion 237 of the cover 230 in the longitudinal direction X, the frame 220 can be easily inserted into the cover 230. Therefore, it is possible to improve the assembleability of the light source unit that can be assembled by engaging the cover and the frame in the longitudinal direction.
(2) When the frame 220 is inserted into the cover, the first lid portion 241 regulates the shape of the end portion 237 of the cover 230 in the longitudinal direction X, so that the frame which is a metal part inside the cover 230 which is a resin part. It is possible to suppress the collision of the 220 and prevent the cover 230 from being damaged.
That is, conventionally, in the light source unit, the cover and the frame are engaged from the longitudinal direction to assemble the light source unit 200, but the cover may have a deformed shape of the opening at the longitudinal end. Therefore, it may be difficult to slide when engaged with the frame.
In that case, it is conceivable that the frame made of the metal material scrapes the cover made of the resin and the inside of the cover is scratched. However, the light source unit 200 of the first embodiment has the end unit 240. Therefore, it is possible to prevent the frame from scraping the cover.

The holding portion 242d of the second lid portion 242 faces the frame end portion 227, which is the end portion in the longitudinal direction of the frame 220, and restricts the movement of the frame 220 in the longitudinal direction X, but the substrate 211. A mechanism for holding down the frame 220 may be provided.
Further, the second lid portion 242 may be provided with a mechanism for holding an electric wire (not shown) connecting the substrate 211 and the power supply device 250.

<Modification 1>
Next, the light source unit 200-1 which is a modification 1 of the light source unit 200 of the first embodiment will be described with reference to FIGS. 20 to 21. FIG. 20 is a diagram showing a light source unit 200-1. FIG. 21 is a diagram showing a method of assembling the light source unit 200-1. The light source unit 200-1, which is the first modification of the embodiment, has an L-shaped frame 220-1. Further, the light source unit 200-1 has an asymmetrical cover 230-1 that engages with the L-shaped frame 220-1. As shown in FIG. 21, the light source unit 200-1 has an end unit 240-1 including a first lid portion 241-1 and a second lid portion 242-1. In the end unit 240-1, the second lid portion 242-1 is attached to the first lid portion 241-1 from the longitudinal direction X.

As described above, even with the light source unit 200-1 having an asymmetrical shape in the lateral direction Y, the same effect as that of the light source unit 200 can be obtained.

<Modification 2>
FIG. 22 shows a light source unit 200-2 which is a modification 2 of the light source unit 200. FIG. 22A shows a state in which the frame 220-2 is inserted with the first lid portion 241-2 attached to the cover 230-2. FIG. 22B shows a state in which the second lid portion 242-2 is attached to the first lid portion 241 with the frame 220-2 inserted. FIG. 22 (c) shows a state in which the second lid portion 242-2 is attached to the first lid portion 241. FIG. 22 (d) is a schematic view of the first lid portion 241-2 as viewed from the X direction (FIG. 22 (b)).

An end unit 240-2 having a fixed piece 241d-2 which is a connecting member and a claw portion 242b-2 as shown in FIG. 22 may be used. The light source unit 200-2 is a variation of the light source unit 200-1 in which the boundary between the first lid portion and the second lid portion is changed.
The feature of the light source unit 200-2 is the shape of the first lid portion 241-2. The second lid portion 242-2 is attached to the first lid portion 241-2 by having a pair of claw portions 242b-2 hooked on the fixing piece 241d-2 of the first lid portion 241-2.
Here, the fixed piece 241d-2, which is a connecting member, connects both ends of the opening shown by the broken line of the ellipse as shown in FIG. 22 (d). Therefore, in FIG. 22D, even when a force for reducing the opening is applied as in the Y1-Y1 direction or a force for expanding the opening is applied as in the Y2-Y2 direction. The first lid portion 241-2 is not deformed by the fixed piece 241d-2. Since the first lid portion 241 shown in FIG. 8 has a U-shape as a whole and does not have a member corresponding to the fixed piece 241d-2, the force in the Y1-Y1 direction or the Y2-Y2 direction in FIG. 22 (d). The rigidity is lower than that of the first lid portion 241-2.

Embodiment 2.
The light source unit 200A of the second embodiment will be described. The second embodiment is characterized by the convex portion 235 of the cover 230 of the light source unit 200A. The convex portion 235 is the insertion portion 233a of the projecting portion 233 described in the first embodiment. Since the light source unit 200A is the same as the light source unit 200 of the first embodiment except for the convex portion 235, only the points different from the first embodiment will be described. The light source unit 200A is attached to the fixture main body 100 of the first embodiment to form the lighting device 1 together with the fixture main body 100.

FIG. 23 is a cross-sectional view of the light source unit 200A. Although not shown, a part of the light source unit 200A is housed in the housing recess 111 of the instrument body 100. The reference line 401 of FIG. 23 exists at the same position as the reference line 401 of FIG. 2 with respect to the accommodating recess 111 in which a part of the light source unit 200A is accommodated. That is, in the light source unit 200A, the portion above the reference line 401 in FIG. 23 is accommodated in the accommodating recess 111. As shown in FIG. 23, the convex portion 235, which is a reinforcing portion, also accommodates the accommodating recess 111.

With reference to FIG. 23, the rigidity of the cover 230, which is a feature of the light source unit 200A, will be described. In the light source unit 200 of the first embodiment, the frame 220 is made thinner in order to reduce the weight. Therefore, the long light source unit 200 is easily bent. Therefore, in the light source unit 200A, the rigidity of the light source unit 200A is increased by increasing the rigidity of the cover 230 by using the convex portion 235 as a reinforcing portion. As a configuration, the rigidity of the cover 230 is improved by using the convex portion 235, which is a portion of the insertion portion 233a of the cover 230 that is not involved in fixing the frame, as a reinforcing portion.

*** Explanation of configuration ***
As shown in FIG. 23, the main cover 230 includes a convex portion 235.
In FIG. 23, the pair of convex portions 235 are referred to as convex portions 235-1 and convex portions 235-2, but may be referred to as convex portions 235 when it is not necessary to distinguish them.
(1) The convex portion 235 is arranged at a position where the frame 220 is sandwiched between the convex portion 235 and the main cover portion 231.
(2) The convex portion 235 projects in a direction away from the main cover portion 231 and projects along the longitudinal direction X as shown in FIG. 10 (a).
(3) As shown in FIG. 23, the convex portion 235-1 and the convex portion 235-2 have an outer shape that is convex in the projecting direction in a cross section whose normal direction is the longitudinal direction X, and a space is provided inside. It is a hollowed-out convex cross-sectional shape that is formed. As shown in FIG. 23, the hollow convex shape is a U-shape or a hairpin curve shape.

In the convex portion 235, the thickness of a part of the hollowed-out convex shape is continuously thicker in the longitudinal direction X than the thickness of the portion other than the part. As shown in FIG. 23, in the convex portion 235 on the left side of FIG. 23,
Thickness Δt2> Thickness Δt1
Is.
again,
In the convex portion 235 on the right side of FIG. 23,
Thickness Δt4> Thickness Δt3.

A specific description of FIG. 23 is as follows.
(1) The cover 230 includes a first convex portion 235-1 which is a convex portion 235 and a second convex portion 235-2 which is a convex portion 235.
(2) The first convex portion 235-1 and the second convex portion 235-2 are arranged so as to face each other.
(3) The thickness Δt2 of the first convex portion 235-1 in the outer direction 402, which is the direction away from the second convex portion 235-2 in the cross section of the hollowed-out convex shape, is the second convex portion 235. It is thicker than the thickness Δt1 in the inner direction 403, which is the direction approaching -2.
(4) The thickness of the second convex portion 235-2 in the outer direction 404, which is the direction away from the first convex portion 235-1 in the cross section of the hollowed-out convex shape, is the thickness of the first convex portion 235-1. It is thicker than the thickness of the inner direction 405, which is the direction approaching.

*** Effect of Embodiment 2 ***
The features and effects of the convex portion 235 are summarized below.
(1) The rigidity and strength of the cover 230 are improved by partially thickening the convex portion 235. Further, since one convex portion 235 is doubly configured as a hollow convex shape and has a hollow shape inside, it is possible to obtain rigidity on both sides without making only one side extremely thick. Therefore, it is possible to make the structure less likely to cause molding defects due to the difference in material thickness. That is, in the conventional lighting device, since the frame is thinly formed like a plate, the frame is easily bent, and as a result, the light source unit may be bent. On the other hand, in the light source unit 200A, even when the frame is thinly formed in a plate shape, the rigidity and strength are improved by the convex portion 235 of the cover 230, so that the frame and the light source unit can be suppressed from bending. .. Therefore, it is possible to improve the assembleability of the light source unit that can be assembled by engaging the cover and the frame in the longitudinal direction.
(2) Since the rigidity of the convex portion 235 is improved only by the resin material, the weight can be reduced as compared with the thickness of the metal member. Further, since the convex portion 235 is a portion that does not engage with the frame 220, the shape can be freely formed to some extent.
(3) Since the convex portion 235 is a portion accommodated in the accommodating concave portion 111, the strength can be improved without affecting the optical performance of the light source unit 200.
(4) The convex portion 235 projects upward on the Z1 side. Therefore, the cross-sectional performance with respect to the deformation in the vertical direction Z is improved, and the cover 230 is less likely to bend.
(5) By improving the rigidity of the cover 230, the stress generated on the substrate 211 attached to the frame 220 can be reduced. In addition, it is possible to suppress the formation of a gap due to bending between the instrument main body 100 and the accommodating recess 111.
(6) Since the strength is improved by the cover 230, the amount of the frame 220, which is a metal member, can be reduced. Therefore, there is an effect that the light source unit can be reduced in weight.
(7) By reducing the weight of the light source unit 200, the load on the spring 140 and the instrument main body 100 can be reduced.
(8) By reducing the weight of the light source unit 200, it is possible to reduce the load of the operator on the work of attaching and removing the light source unit 200 to the fixture main body 100.

Embodiment 3.
Next, the light source unit 200B according to the third embodiment, which can improve the rigidity of the light source unit by adding a new member, will be described. Since the light source unit 200B has the same main configuration as the light source unit 200, a difference from the light source unit 200 will be described. The third embodiment is characterized by the storage portion 310 of the light source unit 200B. The light source unit 200B is attached to the fixture main body 100 of the first embodiment to form the lighting device 1 together with the fixture main body 100.

FIG. 24 is a cross-sectional view of the light source unit 200B. The light source unit 200B will be described with reference to FIG. 24.

In the light source unit 200B, the cover 230 has a storage portion 310 on the opposite side of the main cover portion 231. The storage portion 310 has a shape that protrudes in a hollow shape. Specifically, the storage portion 310 is arranged at a position where the frame 220 is sandwiched between the storage portion 310 and the main cover portion 231. The storage unit 310 detachably stores the reinforcing material 320. In FIG. 24, the storage portion 310 is integrally formed with the cover 230.

(Reinforcing material 320)
The storage portion 310 has the same effect as the convex portion 235 having the function of the reinforcing portion described in the second embodiment, and can store the reinforcing material 320 in the hollow hollow portion. The reinforcing material 320 has the same length as the light source unit 200B, and is inserted from the end side in the longitudinal direction X. The light source unit 200B can change the strength obtained from the reinforcing material 320 by changing the length of the reinforcing material 320 to be inserted. For example, when the light source unit 200B is formed to have a length equivalent to the fluorescent lamp 40W, the reinforcing material 320 is not used, and when the light source unit 200B is formed to have a length equivalent to the fluorescent lamp 80W, the storage unit 310 is used. In this way, the light source unit 200 can be made to have an intensity suitable for the length. After the reinforcing material 320 is stored, the end portion of the storage portion 310 in the longitudinal direction X is closed by the end unit 240 and is housed in the storage portion 310.

As a variation having the storage portion 310, the configuration shown in FIGS. 25 and 26 may be used.

In the light source unit 200B-1 shown in FIG. 25, the storage portion 310-1 has a shape in which the reinforcing material 320-1 is hooked. In FIG. 25, the storage portion 310-1 is integrally formed with the cover 230-1.

In the light source unit 200B-2 shown in FIG. 26, a storage portion 310-2 is formed in the frame 220-2. The storage portion 310-2 may be integrally formed with the frame 220-2.

Although not shown, a part of the light source unit 200B is housed in the housing recess 111 of the instrument body 100. The reference line 401 of FIG. 24 exists at the same position as the reference line 401 of FIG. 2 with respect to the accommodating recess 111 in which a part of the light source unit 200B is accommodated. That is, in the light source unit 200B, even in FIG. 24, the portion above the reference line 401 is accommodated in the accommodating recess 111. As shown in FIG. 24, the storage unit 310 is housed in the storage recess 111. Further, as shown in FIG. 24, the reinforcing material 320 accommodated in the accommodating portion 310 is also accommodated in the accommodating recess 111. The above description is the same for the light source unit 200B-1 and the light source unit 200B-2 of FIGS. 25 and 26.

*** Effect of Embodiment 3 ***
(1) In the third embodiment, since the light source unit 200B has a storage unit 310 that can store the reinforcing material, the strength can be made suitable for the length of the light source unit 200B. Therefore, it is possible to standardize the parts of the light source unit and avoid excessive specifications.
(2) Further, in the conventional lighting device, since the frame is thinly formed in a plate shape, it is considered that the frame is easily bent, and as a result, the light source unit is bent. On the other hand, in the light source unit 200B, even when the frame is thinly formed in a plate shape, the rigidity and strength of the light source unit are improved by storing the reinforcing material 320 in the storage portion 310 of the cover 230. Therefore, it is possible to suppress the bending of the frame and the light source unit. Therefore, it is possible to improve the assembleability of the light source unit that can be assembled by engaging the cover and the frame in the longitudinal direction.

In the above-described first to third embodiments, the specifications in which the terminal block 130 is provided in the instrument main body 100 and the power supply device 250 is provided in the light source unit 200 have been described. However, the instrument main body 100 may be provided with the power supply device 250, and the light source unit 200 may be provided with the terminal block 130, or one of them may be provided with both the terminal block 130 and the power supply device 250.

In the above-described first to third embodiments, the instrument main body 100 has been described using an inverted Fuji shape. However, the instrument body 100 is not limited to the inverted Fuji type, and may be an embedded type instrument body or a trough shape instrument body.

In the above-described first to third embodiments, the configuration in which the spring 140 is arranged on the instrument main body 100 and the connecting metal fitting 260 is arranged on the light source unit 200 has been described. However, the connection fitting 260 may be arranged on the fixture main body 100, and the spring 140 may be arranged on the light source unit 200.

Although the first to third embodiments of the present invention have been described above, two or more of these embodiments may be combined and carried out. Alternatively, one of these embodiments may be partially implemented. Alternatively, two or more of these embodiments may be partially combined and carried out. The present invention is not limited to these embodiments, and various modifications can be made as needed.

1 Lighting device, 100 Instrument body, 110 mounting part, 111 storage recess, 111a bottom, 111aa power lead-in hole, 111ab fixing hole, 111b side part, 111c opening, 112 inclined part, 120 side plate, 130 terminal block, 131 terminal block body Part, 132 terminal block connection part, 132a terminal block electric wire, 132b terminal block connector, 140 spring, 141 spring fixing part, 142 spring arc part, 143 spring tip part, 200,200-1,200-2,200-3, 200A, 200B light source unit, 201 opening, 210 light emitting part, 211 board, 212 light emitting element, 213 end face, 220 frame, 221 board mounting part, 222 frame side part, 223 fixing part, 223a side part end part, 227 frame end part 228 end face, 230 cover, 231 main cover part, 232 inner part, 232a reflection part, 232b first presser part, 233 projecting part, 233a insertion part, 233aa opening, 233b second presser part, 234 cover side part, 235 Convex part, 236 Frame fixing part, 237 Longitudinal X end, 238 groove, 239 groove end, 240 end unit, 241 first lid part, 241a first insertion part, 241b second insertion part , 241c protrusion, 241d fixing piece, 241e fixing hole, 241f guide part, 242 second lid part, 242a lid body part, 242aa groove part, 242b claw part, 242c convex part, 242d holding part, 242e holding part, 250 power supply device , 251 power supply main unit, 252 power supply connection part, 252a power supply wire, 252b power supply connector, 260 connection bracket, 261 metal fitting fixing part, 262 connection part, 262a connection opening, 310 storage part, 320 reinforcement, 401 reference line, 402 Outer direction, 403 inner direction, 404 outer direction, 405 inner direction.

Claims (6)

A frame that is long and has a light emitting part attached,
A cover that is formed in a long length and has a main cover portion that covers the light emitting portion,
A storage unit that is arranged at a position that sandwiches the frame with the main cover unit and that detachably stores the reinforcing material.
Equipped with
The storage portion is a light source unit supported by a surface portion formed on the cover in a direction from the main cover portion toward the light emitting portion and on the side of the light emitting portion with respect to the main cover portion . The light source unit according to claim 1, wherein the storage portion is arranged so as to project from the surface portion in a direction from the main cover portion toward the light emitting portion. The storage unit is
The light source unit according to claim 1 or 2 , which is integrally formed with the cover. The storage unit is
The light source unit according to claim 1 or 2 , which is integrally formed with the frame. The storage unit is
The light source unit according to any one of claims 1 to 4 , wherein the reinforcing material is housed. The light source unit according to any one of claims 1 to 5 .
An instrument body having a housing recess in which a part of the light source unit is housed, and
Equipped with
The light source unit is
A lighting device in which the storage portion is housed in the storage recess.

Images