JP2020177928A - Light unit and luminaire - Google Patents

Abstract

To provide a simple structure which absorbs a difference in expansion amounts between members especially in the longitudinal direction occurring corresponding to a use environment, in a long luminaire.SOLUTION: A light unit 100 includes: a translucent cover 10 having a cover insertion part 13L and a cover insertion part 13R; a cover fixture 40L having a screw hole 41L and inserted in the cover insertion part 13L; a cover fixture 40R having a screw hole 41R and inserted in the cover insertion part 13R; a long hole 61L for exposing the screw hole 41L so that a region which is notched exists left and right in the longitudinal direction from the screw hole 41L; a long hole 61R for exposing the screw hole 41R so that a region which is notched exists in both directions in the longitudinal direction from the screw hole 41R; a special screw 70L which is fastened to the screw hole 41L via the long hole 61L and for mounting the translucent cover 10 on a frame 60; and a special screw 70R fastened to the screw hole 41R via the long hole 61R and for mounting the translucent cover 10 on the frame 60.SELECTED DRAWING: Figure 3

Description

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

There is a lighting device in which a long light source unit is provided with a light source and a power source, and the light source unit is detachably attached to an instrument body (for example, Patent Documents 1 to 3).

Japanese Unexamined Patent Publication No. 2014-78426 Japanese Patent No. 5492344 Japanese Patent No. 5524656 Japanese Unexamined Patent Publication No. 2011-258476 Japanese Unexamined Patent Publication No. 2001-221940

In the conventional long-shaped lighting device, a simple configuration has not been adopted in order to absorb the difference in the amount of expansion between the members in the longitudinal direction, which is generated in response to the operating environment temperature.

An object of the present invention is to provide a simple configuration for absorbing a difference in the amount of expansion between members, particularly in the longitudinal direction, which occurs in response to the operating environment temperature in a long-shaped lighting device.

The light unit according to one aspect of the present invention is
It is a long light unit that can be detachably attached to the fixture body.
Light source and
A long hollow body formed by using a translucent material and holding the light source on the side of the device body in a state of being attached to the device body, and a hollow body outside the hollow body. A cover having a pair of projecting portions formed so as to face each other outside the light source held in the hollow body in the lateral direction of the body.
A fixture for attaching the light unit to the fixture main body while being fixed to the pair of projecting portions is provided.

According to the present invention, it is possible to provide a simple configuration for absorbing a difference in the amount of expansion between members, particularly in the longitudinal direction, which occurs in response to the operating environment temperature in a long-shaped lighting device.

FIG. 6 is a perspective view of the lighting device 300 in the figure of the first embodiment. In the figure of the first embodiment, the perspective view which disassembled the lighting apparatus 300 into a light unit 100 and a fixture main body 200. The perspective view which disassembled the light unit 100 in the figure of Embodiment 1. FIG. FIG. 1 is a top view, a front view, and a bottom view of the light unit 100. FIG. 1 is a cross-sectional view taken along the line AA of FIG. 1 (FIG. 8) and a sectional view taken along the line BB of the top view of FIG. The left side view of the light unit 100 in the figure of Embodiment 1. FIG. 4 is a cross-sectional view taken along the line CC of the front view of FIG. 4 in the view of the first embodiment. FIG. 5 is a sectional view taken along line DD of FIG. 5 in the front view of the first embodiment. FIG. 5 is a perspective view of cover packings 20L and 20R in the figure of the first embodiment. FIG. 5 is a perspective view of end covers 30R and 30L in the figure of the first embodiment. FIG. 1 is a partially enlarged view of a cross section taken along the line AA in the figure of the first embodiment. In the figure of Embodiment 1, the figure explaining the central attachment of the light unit 100. FIG. 1 is another diagram for illustrating central mounting of the light unit 100. In the figure of Embodiment 1, the figure explaining the attachment of the left end part of a light unit 100. FIG. 1 is an exploded perspective view of a waterproof power supply device. In the figure of the first embodiment, the figure explaining the attachment of the packing to the waterproof power-source device. FIG. 6 is a partial top view of the light unit 100 in the figure of the first embodiment. FIG. 5 is a diagram for explaining the drainage property (drainage property) of the lighting device 300 in the figure of the first embodiment. In the figure of the second embodiment, the variation of the lighting device 300. In the figure of the second embodiment, the variation of the lighting device 300. In the figure of the second embodiment, the variation of the lighting device 300. In the figure of the second embodiment, the variation of the lighting device 300. FIG. 2 is a perspective view of a lighting device 300-2 using two light units 100 in the figure of the second embodiment. The figure which shows the drainage hole 38L-1 in the figure of Embodiment 3. FIG. FIG. 3 is a perspective view of the end cover 30R-1 in the figure of the third embodiment. FIG. 3 is a perspective view of the end cover 30L-1 in the figure of the third embodiment. FIG. 3 is a cross-sectional view of the end cover 30L-1 in the figure of the third embodiment. FIG. 3 is a perspective view showing a state in which the mounting bracket 50L-1 is attached to the end cover 30L-1 in the figure of the third embodiment. FIG. 3 is a cross-sectional view showing a tubular guide 390L of the end cover 30L-1 and a side surface portion 511L of the mounting bracket 50L-1 in the figure of the third embodiment. FIG. 9 is a sectional view taken along the line EE of FIG. 29 in the figure of the third embodiment. FIG. 3 is a diagram for explaining the drainage property of the end cover 30L-1 in the figure of the third embodiment. In the figure of the fourth embodiment, (a) a perspective view of a frame 60-1 and (b) an arrow view in the X direction. FIG. 4 is a cross-sectional view corresponding to the CC cross section of FIG. 4 in the figure of the fourth embodiment. FIG. 5 is a perspective view showing attachment of the mounting bracket 50L-2 to the instrument main body 200 in the figure of the fifth embodiment. FIG. 5 is a perspective view of the mounting bracket 50L-1-1 in the figure of the fifth embodiment. FIG. 5 is a sectional view taken along the line FF of FIG. 34. In the figure of the sixth embodiment, the top view, the front view, and the enlarged perspective view of the hook portion of the light unit 100. In the figure of the sixth embodiment, the figure which shows the wire 240 with a hook. FIG. 6 is a diagram showing a process of attaching the light unit 100 to the fixture main body 200 in the figure of the sixth embodiment. FIG. 6 is a schematic view of a top view showing an arrangement of hooking portions in the figure of the sixth embodiment.

Embodiment 1.
The lighting device 300 of the first embodiment described below includes a light unit 100 and an instrument main body 200. The lighting device 300 mainly has the following features.
(1) The light unit 100 is subjected to thermal expansion in the longitudinal direction of the translucent cover 10 that houses the LED substrate (light source substrate) on which the LED (light source) is mounted, which is generated in response to the operating environment temperature, and the translucent cover. The difference from the thermal expansion in the longitudinal direction of the frame 60 to which the 10 is attached is absorbed by a simple configuration. This improves the reliability and workability of the light unit 100. In addition, the waterproofness (watertightness) of the translucent cover 10 is also ensured. As a result, the light unit 100 improves workability and waterproofness (watertightness), and reduces the risk of failure due to the ingress of liquid such as water.
(2) In the light unit 100, the LED substrate and the power supply device that supplies electric power to the LED substrate are housed in separate waterproof cases. As a result, the influence of mutual temperature rise is suppressed as compared with the case where the LED substrate and the power supply device are housed in one case, and the reliability of the light unit 100 is improved. It also improves assembleability and maintainability.
(3) The lighting device 300 provides a configuration having good drainage (drainage) even when a liquid such as water enters the inside of the fixture main body 200. This reduces the risk of failure due to liquids such as infiltrated water.
(4) Further, the waterproof power supply device 80 is outside the translucent cover 10 so as not to interfere with the hanging bolts for fixing the lighting device 300, for example, the hanging bolt 97L (or shown in FIG. 5A) described later. 98L) and hanging bolts (these are not shown) located on the right side of the waterproof power supply device 80 in FIG. 5A. As a result, the lighting device 300 can be made thinner. That is, the lighting device 300 can be made thinner by arranging the waterproof power supply device 80 at a position where it does not interfere with the hanging bolts.

The lighting device 300 of the first embodiment will be described with reference to FIGS. 1 to 18. The lighting device 300 described below includes a configuration in which the translucent cover 10 is attached to the frame 60 at the left end portion 11L (FIG. 1) and the right end portion 11R in the longitudinal direction, and the cover packings 20L and 20R and the end cover 30L. , 30R is characterized by a closed configuration.

FIG. 1 is a perspective view of the lighting device 300. FIG. 2 is a perspective view of the lighting device 300 disassembled into a light unit 100 and an instrument main body 200. FIG. 3 is an exploded perspective view of the light unit 100. The directions shown in FIG. 3 are referred to as upper side and lower side. 4 (a), (b), and (c) are a top view, a front view, and a bottom view of the light unit 100, respectively. 5A is a sectional view taken along the line AA of the lighting device 300 (FIG. 1), and FIG. 5B is a sectional view taken along the line BB of the light unit 100 (FIG. 4A). FIG. 6 is a left side view of the light unit 100. FIG. 7 is a cross-sectional view taken along the line CC of the light unit 100 (FIG. 4 (b)). The CC cross section is a cross section of the central portion of the light unit 100 in the longitudinal direction. FIG. 8 is a DD cross-sectional view (FIG. 5 (a)) of the lighting device 300 (the light unit 100 is attached to the fixture main body 200). The specific position of the DD cross section is a cross section at a position where the thickness of the cover packing 20L is slightly cut off as shown in FIG.

(Outline of configuration of lighting device 300)
As shown in FIGS. 1 and 2, the lighting device 300 includes a light unit 100 and an instrument main body 200. The light unit 100 is attached to the instrument main body 200 by screws 96L and screws 96R that penetrate the screw through holes 34L and 34R. The screw through holes 34L and 34R are covered with caps 90L and 90R.

As shown in FIG. 3, the light unit 100 includes a translucent cover 10, a cover packing 20L (first packing), a cover packing 20R (second packing), an end cover 30L (first end cover), and the like. End cover 30R (second end cover), cover fixture 40L (first fixture), cover fixture 40R (second fixture), mounting brackets 50L, 50R (third fixture), It includes a frame 60, a special screw 70L, a special screw 70R, a waterproof power supply device 80, caps 90L, 90R, and the like.

The assembly of the light unit 100 will be described with reference to FIGS. 2, 3, 10, 11, and 14. Inside the translucent cover 10, an LED substrate frame 8 to which an LED substrate 9 on which an LED (not shown) mounted as a light source is mounted is housed. Hereinafter, the left end portion 11L will be described as an example. With the LED board frame 8 housed in the translucent cover 10, the harness storage rubber 91 is attached to the end of the LED board frame 8. Next, a cover packing 20L that closes the opening 12L of the translucent cover 10 is attached. Next, the end cover 30L is attached to the translucent cover 10 so as to cover the cover packing 20L (FIG. 11).

Next, the insertion portion 42L (FIG. 11) of the cover fixture 40L, the end cover insertion portion 35L (FIGS. 10 and 11) of the end cover 30L, and the cover insertion portion 13L of the translucent cover 10 It is inserted into (FIGS. 11 and 14). Next, a stopper screw 94L for preventing the cover from coming off in the direction opposite to the insertion direction is attached to the cover fixing tool 40L. Next, a mounting bracket 50L for attaching the translucent cover 10 to the instrument main body 200 is placed on the upper surface side of the left end portion 11L. The above is the description of the left end portion 11L, but the same applies to the right end portion 11R. Next, the frame 60 is covered from the upper side of the mounting brackets 50L and 50R, and the special screws 70L and 70R are tightened into the screw holes 41L and 41R of the cover fixtures 40L and 40R to cover the frame 60 with a translucent cover. 10 is attached. Next, the mounting brackets 50L and 50R are attached to the fixture main body 200 by the screws 96L and 96R, so that the light unit 100 is attached to the fixture main body 200 (FIG. 2). The assembly order described above is an example, and may be any other order.

Subsequently, each component of the light unit 100 will be described with reference to the drawings.
(Translucent cover 10)
As shown in FIG. 3, the translucent cover 10 is a long hollow body (cylinder body) having both ends open. The translucent cover 10 is formed of a translucent material so as to transmit light emitted from an LED as a light source, and is manufactured by, for example, extrusion molding using acrylic. As shown in FIG. 3, the translucent cover 10 has protruding portions 14-1L, 14-2L, 14-3L, 14-4L and 14-1R, 14- on the left and right sides of the cover fixing plate 93 in the longitudinal direction. 2R, 14-3R, 14-4R, and the projecting portion 14-5C are formed in the central portion where the cover fixing plate 93 is located. Of the protruding portions continuous in the longitudinal direction from the leftmost protruding portion 14-1L to the rightmost protruding portion 14-1R, the space between the protruding portion 14-1L and the protruding portion 14-2L was cut off. It has a structure like this.
FIG. 12A is a top view of the central portion of the light unit 100, in which a part of the frame 60 is cut off so that the projecting portion 14-5C can be seen. FIG. 12B is a perspective view showing a protruding portion 14-5C at the center. The projecting portions 14-5C are made up of pairs having an F-shaped cross section. The protrusions 14-1L, 14-2L, 14-3L, 14-4L and the protrusions 14-1R, 14-2R, 14-3R, 14-4R have the same cross section as the protrusions 14-5C. Is. However, in the present embodiment, the length in the longitudinal direction is different. In the projecting portion 14-5C, the cover fixing plate 93C is inserted along the longitudinal direction into the gap formed by the F-shaped pair. As shown in FIG. 12B, the cover fixing plate 93C is formed with a screw hole 93C-1 into which the screw 96C is tightened.

(Cover insertion part 13L, 13R)
Further, the translucent cover 10 has a cover insertion portion 13L (first attachment portion) formed on the left end portion 11L and a cover insertion portion 13R (first attachment portion) formed on the right end portion 11R. Part) and. The cover insertion portion 13L and the cover insertion portion 13R are a protrusion portion 14-1L and a protrusion portion 14-1R (FIG. 3). The length of the cover insertion portion 13L and the cover insertion portion 13R in the longitudinal direction is shorter than the length of the projecting portion 14-5C in the longitudinal direction. The cover insertion portion 13L is arranged at the left end portion 11L, and similarly to the projecting portion 14-5C (FIG. 12), the insertion portion of the cover fixture 40L is inserted along the longitudinal direction into the gap between the F-shaped pairs. 42L is inserted (Fig. 11). The cover insertion portion 13R is arranged at the right end portion 11R, and like the protruding portion 14-5C (FIG. 12) and the cover insertion portion 13L (FIG. 11), the cover insertion portion 13R is located in the gap between the F-shaped pairs in the longitudinal direction. The insertion portion 42R of the cover fixture 40R is inserted along the above.

(Cover packing 20L, 20R)
9 (a) and 9 (b) are enlarged views of the cover packings 20L and 20R of FIG. In the present embodiment, the cover packing 20L on the left side and the cover packing 20R on the right side have the same structural shape. As shown in FIG. 9B, the cover packing 20R has a recessed portion 21R formed on the inner side of the translucent cover 10 so as to be recessed over the entire circumference. The tip of the right end portion 11R of the translucent cover 10 fits into the recessed portion 21R. Explaining with respect to the recessed portion 21L, as shown in FIGS. 8 and 11, the recessed portion 21L is attached so as to be in contact with the outer shell and the inner wall of the translucent cover 10. As shown in FIG. 11 (AA cross section), in the cover packing 20L, the recessed portion 21L forms a “U-shaped” frame, and is transparent between the “U-shaped” (recessed portion 21L). The structure is such that the end portion of the optical cover 10 enters. With such a structure, the cover packing 20L closes the opening 12L of the translucent cover 10. The same applies to the cover packing 20R.

(End covers 30L, 30R)
10 (a) and 10 (b) are enlarged views of the end covers 30L and 30R of FIG. In the present embodiment, the left and right end covers have the same structural shape. The end cover 30L has a storage portion 31L (first storage portion) for storing the cover packing 20L, and the storage portion 31L closes the opening 12L of the translucent cover 10 together with the cover packing 20L. Further, the end cover 30R has a storage portion 31R (second storage portion) for storing the cover packing 20R, and the storage portion 31R closes the opening 12R of the translucent cover 10 together with the cover packing 20R.
The left and right end covers 30L have drain holes 38L (drainage holes 38L) for discharging the liquid such as water to the outside when a liquid such as water enters a slight gap generated between the cover packing 20L and the cover packing 20L. It has a liquid hole) (FIG. 6, FIG. 10 (a), FIG. 11). The end cover 30R also has a drain hole 38L (drain hole, not shown).

(Cover fixture 40L, 40R)
Next, the cover fixtures 40L and 40R will be described. In the present embodiment, since the cover fixing tool 40R has the same structural shape as the cover fixing tool 40L, the cover fixing tool 40L will be described, and the description of the cover fixing tool 40R will be omitted. As shown in FIG. 3, the cover fixture 40L has an L-shaped appearance. The cover fixture 40L has a screw hole 41L into which a special screw 70L is tightened.
FIG. 11 is a partially enlarged view of the AA cross section. As shown in FIG. 11, the cover fixture 40L has an insertion portion 42L (first insertion portion), an extension portion 43L (first extension portion), and an facing portion 44L (first facing portion). The cover fixture 40R also has an insertion portion 42R (second insertion portion), an extension portion 43R (second extension portion), and an opposing portion 44R (second facing portion). The insertion portion 42L has a "flat plate shape" and is inserted into the cover insertion portion 13L (first mounting portion). The extension portion 43L extends from the insertion portion 42L toward the left end portion 11L. The facing portion 44L faces the bent end cover 30L from the extension portion 43L.

(Mounting bracket 50L, 50R)
Next, the mounting brackets 50L and 50R will be described. In the present embodiment, since the mounting bracket 50R has the same structural shape as the mounting bracket 50L, the mounting bracket 50L will be described, and the description of the mounting bracket 50R will be omitted. As shown in FIG. 3, the mounting bracket 50L is a flat plate portion 51L that is overlapped on the lower surface side of the frame 60, a side surface portion 52L that stands up from both sides of the flat plate portion 51L in the longitudinal direction, and a left end portion 11L of the flat plate portion 51L. It has an arm portion 53L formed in an L shape. Further, the mounting bracket 50L is formed with an elongated hole 54L that overlaps with the elongated hole 60L formed in the frame 60.

(Frame 60)
As shown in FIG. 3, the frame 60 has a long shape and is a frame to which the translucent cover 10 is attached. The frame 60 has a flat flat plate portion 62 and side surface portions 63 that stand up from both sides of the flat plate portion 62 in the downward direction along the longitudinal direction. As shown in FIG. 7, the cross-sectional shape of the frame 60 is a “U-shape”. The tip of the side surface portion 63 is bent inward at about 90 degrees, and has a positioning function when accommodating the mounting brackets 50L and 50R. The frame 60 has a recessed portion 64 having a through hole 65C formed in the central portion. This is a structure for lowering the position of the head of the screw 96C so that the head of the screw 96C does not interfere with the bottom surface of the waterproof power supply device 80. FIG. 13 shows an enlarged view of the recessed portion 64.

(Special screws 70L, 70R)
In the present embodiment, since the special screw 70R has the same structural shape as the special screw 70L, the special screw 70L will be described, and the description of the special screw 70R will be omitted. The special screw 70L shown in FIG. 3 is a stepped screw. As shown in FIG. 11, the flange portion of the head presses the frame 60, and the male screw is tightened into the screw hole 41L of the cover fixture 40L to attach the translucent cover 10 to the frame 60.

(Waterproof power supply device 80)
As shown in FIG. 3, a waterproof power supply device 80 is attached to the upper side of the flat plate portion 62 of the frame 60. FIG. 15 is an exploded perspective view of the waterproof power supply device 80. The waterproof power supply device 80 includes a power supply case main body 81, packing 82-1 (first power supply case packing), packing 82-2 (second power supply case packing), and packing fixture 83-1. (First fixture) and packing fixture 83-2 (second fixture) are provided. The power supply case main body 81 is a hollow body having both ends open, and houses a power supply device (not shown) that supplies power to the LED. The packing 82-1 closes one opening of the power supply case main body 81, and the packing 82-2 closes the other opening of the power supply case main body 81. The packing fixture 83-1 fixes the packing 82-1, and the packing fixture 832 fixes the packing 82-2. The packing fixture 83-1 is fastened to the screw holes 85 provided on both sides of the power supply case main body 81 by screws 84 to fix the packing 82-1 to the power supply case main body 81. FIG. 16 schematically shows the dimension A of the packing fixture 83-1, the outer dimension B of the packing 82-1, the inner dimension C of the packing 82-1, and the inner dimension D of the power supply case main body 81. In FIG. 16, the relationship is A> B, C <D and (AB) − (DC)> 0. In FIG. 16, when the dimensions in the depth direction (rectangular direction) corresponding to A to D are a, b, c, and d, that is, the packing fixture 83-1 is vertically A (mm) and horizontally a (mm). ), The outside of the packing 82-1 is vertical B (mm), the horizontal b (mm) rectangle, the inside of the packing 82-1 (on the side of the power supply case body 81) is vertical C (mm), horizontal c ( Assuming that the rectangle of (mm) and the opening of the case body 81 for the power supply device are rectangles of vertical D (mm) and horizontal d (mm), the depth direction is also a> b, c <d and (ab)-. The relationship is (dc)> 0. The same applies to the packing fixture 83-2 side. When such a relationship between dimensions A to D and dimensions a to d is set, in addition to the waterproof performance obtained by pressing the packings 82-1 and 82-2 against the end of the power supply case body 81. , Further high waterproofness (watertightness) can be obtained.

(Caps 90L, 90R)
As shown in FIG. 3, the screw through hole 34L of the end cover 30L through which the screw 96L penetrates is covered by attaching the cap 90L. This improves the design. The cap 90R also has the same effect.

(Absorption of difference in expansion amount of thermal expansion)
The light unit 100 absorbs the difference between the thermal expansion in the longitudinal direction of the translucent cover 10 and the thermal expansion in the longitudinal direction of the frame 60 to which the translucent cover 10 is attached with a simple configuration. This simple configuration will be described below with reference to FIGS. 3, 11, 13, and 17. As described above, the translucent cover 10 is formed by tightening the special screw 70L, the screw 96C, and the special screw 70R from the upper side of the frame 60 to the cover fixing tool 40L, the cover fixing plate 93C, and the cover fixing tool 40R, respectively. It is attached to 60. At this time, the through hole 65C (FIG. 13) through which the shaft of the screw 96C penetrates is large enough to allow the shaft diameter of the screw 96C to penetrate. As shown in FIG. 3, the cover fixing tool 40L and the cover fixing tool 40R are mounted with the frame 60 from above with the mounting brackets 50L and 50R interposed therebetween. FIG. 17 is a top view of the light unit 100, showing the relationship between the elongated hole 61L of the frame 60 and the elongated hole 54L of the mounting bracket 50L. The thicker shaft of the stepped screw portion of the special screw 70L is shown by the alternate long and short dash line. From the elongated holes 61L and the elongated holes 54L, the screw holes 41L of the cover fixture 40L can be seen. As shown in FIG. 17, the elongated hole 61L is shorter than the elongated hole 54L. The elongated hole 61L is included inside the elongated hole 54L in the top view of FIG. The elongated hole 61L (first notch) of the frame 60 is cut out in an elongated elliptical shape along the longitudinal direction, and the direction from the screw hole 41L (first screw hole) to the left end 11L in the longitudinal direction. The screw hole 41L is exposed so that the regions 61L-1 and 61L-2 notched in both directions from the screw hole 41L toward the right end portion 11R exist. The same applies to the elongated hole 61R (second notch) of the frame 60. The elongated hole 61L may have a notched shape with the left end cut off.

When the operating environment temperature rises in the assembled state shown in FIG. 11, the frame 60 and the translucent cover 10 expand in the longitudinal direction. The translucent cover 10 also expands due to moisture absorption. For example, when the translucent cover 10 is made of acrylic, the frame 60 is made of aluminum, and the total length of the translucent cover 10 is about 1.2 m, the translucent cover 10 is transparent as the expected usage environment conditions (temperature, humidity) change. The optical cover 10 expands or contracts more than the frame 60 in the longitudinal direction by about 10 mm. Since the light unit 100 is fixed to the frame 60 at the center in the longitudinal direction with a screw 96C penetrating the through hole 65C which is not a long hole, the left and right expansion (or contraction) amounts in the longitudinal direction with respect to the through hole 65C are respectively It is about 5 mm. This 5 mm expansion (or contraction) is absorbed by the notched regions 61L-1, 61L-2 and the notched regions 61R-1, 61R-2 (not shown) shown in FIG. When the translucent cover 10 expands (or contracts), the translucent cover 10, the cover fixture 40L, and the special screw 70L are displaced substantially as one in FIG.

(Watertightness)
The cover fixture 40L used in the configuration for absorbing the difference in the amount of expansion in the longitudinal direction has a tip facing portion 44L to prevent the end cover 30L from coming off. The length 47L in the longitudinal direction including the insertion portion 42L and the extension portion 43L of the cover fixture 40L is about 120 mm, and the expansion amount of the translucent cover 10 at that portion is about 1 mm. This degree of expansion or contraction is an amount that can be absorbed by the elastic deformation of the cover packing 20L. The cover fixture 40R also has the same effect.

(Prevention of movement of cover fixture 40L)
FIG. 14 is a top view of the left end portion 11L of the light unit 100, and is a view in which the cover fixture 40L is exposed. Two stopper screws 94L are tightened to the cover fixture 40L. When the cover fixture 40L moves to the left with respect to the translucent cover 10, the stopper screw 94L hits the cover insertion portion 13L, and the movement to the left is stopped. When the cover fixture 40L moves to the right with respect to the translucent cover 10, the facing portion 44L hits the end cover 30L and the movement to the right is stopped. The same applies to the cover fixture 40R.

(Functions of end covers 30L and 30R)
As shown in FIG. 10, the end cover 30R includes an outer peripheral facing portion 32R (second outer peripheral facing portion) facing at least a part of the outer circumference of the right end portion 11R of the translucent cover 10 and the translucent cover 10. An inner circumference facing portion 33R (second inner circumference facing portion) facing at least a part of the inner circumference of the right end portion 11R is provided. Similarly, the end cover 30L also includes an outer peripheral facing portion 32L (first outer peripheral facing portion) and an inner peripheral facing portion 33L (first inner peripheral facing portion). As shown in FIG. 11, the end cover 30L holds the end of the translucent cover 10 together with the cover packing 20L by the outer peripheral facing portion 32L and the inner peripheral facing portion 33R. As a result, the adhesion between the cover packing 20L and the end portion of the translucent cover 10 is maintained, and the deformation of the translucent cover 10 is prevented. With such a configuration, the translucent cover 10 is waterproof (watertight). Further, as described in the explanation of FIG. 14, the end cover 30L has a stopper screw 94L that hits the cover insertion portion 13L and moves to the left when the cover fixture 40L moves to the left with respect to the translucent cover 10. When the movement is stopped and the cover fixture 40L moves to the right with respect to the translucent cover 10, the facing portion 44L hits the end cover 30L and the movement to the right is stopped. That is, when this is viewed from the side of the end cover 30L, the sliding width of the end cover 30L in the longitudinal direction is regulated by the cover fixture 40L. Further, as shown in FIG. 11, the through hole forming portion 37L in which the through hole 36L through which the screw 96L penetrates is formed and the tip of the facing portion 44L of the cover fixture 40L are close to each other. Therefore, the roll motion that warps in the vertical direction when the end cover 30L slides can be regulated by the tip of the facing portion 44L interfering with the through hole forming portion 37L. The same applies to the end cover 30R.

(Drainage (drainage))
FIG. 18 is a diagram showing a CC cross section of the lighting device 300. As shown in FIG. 2, in the appliance main body 200, an opening 201 serving as a storage port for accommodating the light unit 100 is formed along the longitudinal direction, and one edge 202 of the opening 201 is along the longitudinal direction of the translucent cover 10. A gap is formed with the light-transmitting cover 10, and another edge 203 facing the one edge 202 forms a gap with the light-transmitting cover 10 along the longitudinal direction of the light-transmitting cover 10. In FIG. 18, the gap between the translucent cover 10 and the instrument body 200 in the CC cross section is about 0.6 mm, and the gap between the instrument body 200 and the end cover 30L in the DD cross section is about 1 mm. With such a gap, it is possible to improve the drainage property (drainage property) of discharging a liquid such as water that has entered the instrument body.
Further, an inclined surface 15 (FIGS. 7 and 18) is formed so that the central portion of the translucent cover 10 in the width direction (short direction) is the apex and the shoulder is lowered toward the end portion in the width direction. By forming the inclined surface 15, oil smoke and water droplets (droplets) adhering to the upper surface of the translucent cover 10 drip along the inclined surface 15, so that drainage (drainage) can be improved. Further, since the projecting portions 14-1L, 14-1R, 14-5C are divided into three blocks without being connected in the longitudinal direction, the projecting portions 14-1L, 14-1R, 14-5C Oily smoke and water (liquid) droplets adhering to the above-mentioned protrusions 14-1L, 14-1R, 14-5C do not collect, but easily drip along the above-mentioned inclined surface 15 in the width direction, and drainage property (drainage property ( Drainage) can be improved.

Embodiment 2.
The second embodiment will be described with reference to FIGS. 19 to 23. The second embodiment describes a variation of the lighting device 300 of the first embodiment. 19, FIG. 20, FIG. 21, and FIG. 22 are lighting devices of a trough type, a capped type, a V-type type 1, and a V-type type 2, respectively. The trough type of FIG. 19 is the lighting device 300 of the first embodiment. 19 (a), (b), and (c) are a left side view, a sectional view corresponding to CC, and a sectional view taken along the line DD, respectively. The CC sectional view is equivalent to the CC sectional view because the CC sectional view is a sectional view of the light unit 100 and FIG. 19B is a sectional view of the lighting device. The same applies to FIGS. 20 to 22. Although the shape of the fixture body of these lighting devices is different from that of the lighting device 300, the light unit is the same as the light unit 100 of the first embodiment. In the lighting devices of FIGS. 19 to 21, the positions of the harness outlet holes of the cover packing are different from those of the light unit 100.

(1) According to the lighting device 300 described above, as shown in FIG. 17, there are notched regions 61L-1 and 61L-2 (the same applies to the right end portion 11R) on both sides of the special screw 70L. Therefore, with a simple configuration consisting of a cover insertion portion 13L, a cover fixture 40L, a long hole 61L of the frame 60, a special screw 70L, etc., in a long lighting device, between members in the longitudinal direction (translucent cover 10, It is possible to absorb the difference in the amount of expansion due to the temperature change of the frame 60 etc.). Further, since the cover fixing tool 40L also has a function of preventing the end cover 30L fixing the cover packing 20L from coming off, the watertightness is improved by the above configuration.
(2) According to the lighting device 300 described above, the LED board 9 is housed in the translucent cover 10 and the power supply device is housed in the power supply case main body 81, so that the LED board 9 and the power supply device are integrated. The temperature rise can be suppressed as compared with the case where it is stored in one waterproof case. As a result, it is possible to prevent a decrease in light output due to a temperature rise. In addition, the required heat resistance (temperature resistance) of the parts is also lowered, so that the cost can be reduced. And the assembleability and maintainability can be improved.
(3) According to the lighting device 300 described above, since a gap is provided in the longitudinal direction between the translucent cover 10 and the fixture body 200, drainage property such as water that has entered the fixture body 200 is discharged. (Drainage) can be enhanced.
(4) According to the lighting device 300 described above, the outer peripheral facing portion 32L and the inner peripheral facing portion 33L of the end cover 30L support the outer shell and the inner wall of the translucent cover 10 end (also the right end 11R). Similarly). Therefore, it is possible to prevent the end portion of the translucent cover 10 from being deformed.
(5) According to the lighting device 300 described above, the waterproof power supply device 80 has two hanging bolts on the outside of the translucent cover 10 so as not to interfere with the hanging bolts for fixing the lighting device 300. Placed between. As a result, the lighting device 300 can be made thinner. By making the illuminating device 300 thinner, the overhanging dimension of the illuminating device 300 from the ceiling or the like is suppressed, so that the entire illuminating space can be irradiated with light from the illuminating device 300 and the illuminating space can be used more widely. can do.

Embodiment 3.
The third embodiment will be described with reference to FIGS. 24 to 31. The third embodiment relates to different configurations of the end covers 30L and 30R and the mounting brackets 50L and 50R described in the first and second embodiments. The end cover of the third embodiment will be described as end covers 30L-1 and 30R-1, and the mounting brackets will be described as mounting brackets 50L-1 and 50R-1.

First, the end cover 30L-1 will be described, but the end cover 30R-1 has the same configuration as the end cover 30L-1. The end cover 30L-1 has a tubular guide 390L with respect to the end cover 30L of the first embodiment, the shape of the drain hole 38L-1 is limited, and the surface of the bottom surface is the drain hole 38L. The difference is that it has a downward slope towards -1.

As shown in FIG. 27, the end cover 30L-1 (first end cover) has a screw 96L for attaching to the instrument body 200 when it is attached to the instrument body 200, similarly to the end cover 30L. A screw through hole 34L through which the screw passes through is formed.

25 and 26 are perspective views of the end covers 30R-1 and 30L-1, showing the tubular guides 390R and 390L. As shown in FIG. 27, which is a cross-sectional view, the end cover 30L-1 is upward from the bottom 310L, which is the bottom when attached to the instrument body 200, and the end 315L of the bottom 310L in the direction indicated by the arrow 314L. It is provided with an upright wall 320L in which a substantially circular drainage hole 38L-1 (including a circular shape) is formed at a position where it stands up and starts to stand up. The bottom portion 310L is a through-hole forming portion having a tubular guide 390L that rises in a tubular shape in the direction in which the screw 96L passes (arrow Z direction) from the peripheral edge 341L of the screw through hole 34L. In the end cover 30L-1, a tubular guide 390L, which is a tubular screw guide, surrounds the screw through hole 34L. As shown in FIG. 2, the light unit 100 is attached to the instrument body 200 using screws 96L and 96R, but the end cover 30L-1 surrounds the screw through hole 34L with a tubular guide 390L. The screw 96L does not come out from the inside of the tubular guide 390L. That is, when the light unit 100 is attached to the instrument main body 200, there is no possibility that the screw 96L will fall inside the end cover 30L-1. The same applies to the end cover 30R-1 (second end cover) and the screw 96R.

As shown in FIGS. 25 and 31, slits 391L and 391R are formed in the tubular guides 390L and 390R in the vertical direction (arrow Z direction) of the side surface of the tubular shape. The slit 391L is formed on the side surface facing the drain hole 38L-1. FIG. 31 is a view of FIG. 26 as an arrow in the X direction. As shown in FIG. 31, water (liquid) at the bottom 310L inside the tubular guide 390L due to the provision of the slit 391L in the tubular guide 390L. ) Can be discharged to the drain hole 38L-1 without being fixed inside the tubular guide 390L.

Further, as shown in FIGS. 25 and 26, the end covers 30R-1 and 30L-1 are provided with harness support portions 380R and 380L that sandwich and support the harness. The harness support portions 380R and 380L sandwich a harness provided for supplying electric power from the power supply device to the LED (not shown) mounted on the LED substrate 9 by the recessed portions formed by the two wall portions. It is a supportive configuration. The shapes of the harness support portions 380R and 380L are not limited to the shapes shown in the drawings.

As described above, the tubular guides 390L and 390R formed on the end covers 30R-1 and 30L-1 have screws 96L and 96R inside the end covers 30R-1 and 30L-1 when the lighting device 300 is assembled. Along with the effect of eliminating the risk of falling and improving workability, the tubular guides 390L and 390R have high watertightness against the ingress of water (liquid) from the screw through holes 34L and 34R to which the caps 90L and 90R are mounted. Has the effect of ensuring.

Next, the drain hole 38L-1 of the end cover 30L-1 will be described. The drain hole 38L-1 is shown in FIGS. 24, 26, 27 and the like. The opening area of the drain hole 38L-1 is the area with improved drainage, it is preferable that the opening area is 20mm ² ~30mm ^2, the opening area in this embodiment is 20 mm ^2. The cross-sectional shape of the opening is arbitrary, but it is preferable that the aspect ratio is close to 1. As shown in FIG. 24, the shape of the opening of the drain hole 38L-1 may be a semi-cylindrical shape. With such a shape, the water (liquid) inside the end cover 30L-1 can be effectively drained. The same applies to the end cover 30R-1 (second end cover).

Next, it will be described that the bottom surface 311L of the bottom 310L of the end cover 30L-1 has an inclination downward toward the drain hole 38L-1. As shown in FIG. 27, the bottom surface 311L (surface) of the bottom 310L has a downward slope in the direction indicated by the arrow 314L toward the drain hole 38L-1 in a state where the light unit 100 is attached to the fixture main body 200. It has a downhill region 316L (FIG. 31). As shown in FIG. 27, the bottom surface 311L is provided with a drainage gradient (inclination) 312L toward the drainage hole 38L-1 (direction of the solid arrow). The drainage gradient 312L is oriented so that the light unit 100 is illuminated horizontally and downward, and the bottom surface 311L of FIG. 27 is oriented at an inclination angle of approximately 1 degree in the end cover 30L-1 toward the drainage hole 38L-1. It is a downward slope. The inclination angle is determined in consideration of drainage and moldability. The drainage property will be described with reference to FIG. 31. In FIG. 31, the drainage gradient 312L in the center is indicated by a broken arrow arrow, but in the downhill gradient region 316L, the drainage gradient becomes lower toward the arrow of the drainage gradient 312L, so that the water on the bottom surface 311L goes toward the drainage hole 38L-1 and drains. It is discharged from the hole 38L-1. The same applies to the end cover 30R-1 (second end cover).

Next, the mounting bracket 50L-1 of FIG. 28 will be described. In the mounting bracket 50L shown in FIG. 11, when the light unit 100 is attached to the fixture body 200, the L-shaped horizontal portion of the arm portion 53L formed in the L shape is in contact with the fixture body 200 (the fixture body 200). Is fixed to).

First, as shown in FIG. 27, the end cover 30L-1 has a bottom 310L which is a bottom when attached to the instrument main body 200 of the first embodiment, and an outer shell which is continuously formed upward from the bottom 310L. It is equipped with 330L. The light unit 100 includes a mounting bracket 50L-1 (third mounting tool).

The mounting bracket 50L-1 of FIG. 28 has side surface portions 511L and 512L formed by bending both side ends of the L-shaped horizontal portion 502L of the arm portion 53L. In FIG. 28, the shape of the range surrounded by the broken line 501L is different from the mounting bracket 50L of the first embodiment, but the shape of the range surrounded by the broken line 501L may be the same as the mounting bracket 50L (FIG. 3).

Like the mounting bracket 50L, the mounting bracket 50L-1 is mounted on the light unit 100 by being sandwiched between the frame 60 and the translucent cover 10 (FIG. 11). Then, the mounting bracket 50L-1 is mounted so that the tips 513L and 514L (ends) of the side surface portions 511L and 512L press the inner wall 331L which is the inside of the outer shell 330L of the end cover 30L-1. The light unit 100 is attached to the instrument main body 200 at the tips 513 and 514 of the side surface portions 511L and 512L, as shown in FIG. 30 showing the EE cross section of FIG. 29 and the range 313L shown by the broken line ellipse of FIG. In this state (when the lighting device 300 is used), the end cover 30L-1 comes into contact with the inside (inner wall), so that rattling of the end cover 30L-1 is suppressed. In addition, since rattling is suppressed, watertightness (water stopping) is also improved. The same applies to the mounting bracket 50R-1 and the end cover 30R-1.

Embodiment 4.
The fourth embodiment will be described with reference to FIGS. 32 and 33. The fourth embodiment relates to a frame 60-1 having a shape different from that of the frame 60 described in the first embodiment. The light unit 100 of the fourth embodiment includes a translucent cover 10 having translucency and a frame 60-1 to which the translucent cover 10 is attached.

As shown in FIGS. 32 and 33, the frame 60-1 has bent portions 601, 602 (opposing portions) in which the ends of the side surface portions 63 are bent. The bent portions 601, 602 are formed over the longitudinal direction of the frame 60-1, and one surface side faces the flat plate portion 62. As shown in FIG. 33, the other surface side of the bent portions 601, 602 faces the translucent cover 10 with a gap 621 and 622 (first gap). The translucent cover 10 has a long shape, but as shown in FIGS. 3 and 32, the frame 60-1 has a long shape along the longitudinal direction of the long transmissive cover 10. The bent portions 601, 602 are formed along the longitudinal direction of the frame 60-1. As shown in FIG. 33, the gaps 621 and 622 are formed along the longitudinal direction of the frame 60. An opening 201 serving as a storage port for accommodating the light unit 100 is formed along the longitudinal direction of the translucent cover 10, and one edge 202 of the opening 201 is a gap with the translucent cover 10 along the longitudinal direction of the translucent cover 10. Another edge 203 facing one edge 202 is separated from the translucent cover 10 by a gap 605 (second gap) along the longitudinal direction of the translucent cover 10. To face each other.

(Frame surface treatment)
In the bent portions 601, 602, the lower lower surfaces 603 and 604 on which the LED substrate 9 is arranged are processed so as to have a reflectance higher than the reflectance of the material of the frame 60-1. It is desirable that the lower surfaces 603 and 604 are white with high reflectance. As a method of making the lower surfaces 603 and 604 have higher reflectance than the material of the frame 60-1, for example, a method of applying a highly reflective paint and drying and curing, a method of pasting a sheet material having a high reflectance, and a frame material. If is aluminum, there is a method of applying white alumite treatment. By treating the lower surfaces 603 and 604 to have a high reflectance, the light reflected by the lower surfaces 603 and 604 of the bent portions 601, 602, as shown by arrows 211 and 12 in FIG. The outside is irradiated from the gap 606 formed by one edge 202 and the translucent cover 10 and the gap 605 formed by another edge 203 and the translucent cover 10.

As shown in FIG. 33, the lower surfaces 603 and 604 of the frame 60-1 can be seen from the gaps 605 and 606 between the instrument main body 200 and the translucent cover 10. Therefore, among the light emitted from the LED (not shown) which is a light source in the state where the light unit 100 attached to the fixture main body 200 is lit, the light wrapping around from the translucent cover 10 toward the fixture main body 200 is below. Since the side surfaces 603 and 604 return to the irradiation side, it is possible to improve the efficiency of light utilization in the entire lighting device. Further, the gaps 605 and 606 have an effect of drainage (drainage), but even if the gaps 605 and 606 are viewed from all angles, the lower surface 603 and 604 on which light is reflected can be seen. The 605 and 606 do not become dark like streaks, and the designability in the state where the light unit 100 is lit is improved. Further, since the gaps 621 and 622 are formed, water can be discharged from the gaps 621 and 622.

Embodiment 5.
The fifth embodiment will be described with reference to FIGS. 34 to 36. The fifth embodiment relates to a mounting structure of a mounting bracket and a device main body. Hereinafter, the mounting brackets 50L-2 and 50L-1-1 will be mainly described, but the mounting brackets 50R-2 and 50R-1-1 have the same configuration as the mounting brackets 50L-2 and 50L-1-1.

The mounting bracket 50L-2 will be described with reference to FIG. 34. As shown in FIG. 34, the instrument body 200 has an instrument-side flat plate portion 230 in which the instrument-side through hole 210 is formed. The mounting bracket 50L-2 is attached to the flat plate portion 230 on the instrument side. The mounting bracket 50L-2 has a recessed portion 532L that is recessed toward the light unit 100 in the horizontal portion 531L (flat plate portion) of the L-shaped arm portion 53L with respect to the mounting bracket 50L shown in FIG. Is formed. The recessed portion 532L is formed with a through hole 533L through which the screw 96L penetrates in the recessed region. The screw 96L is used to attach the light unit 100 to the fixture body 200.

FIG. 36 shows a state in which FIG. 34 is assembled, and is a cross section taken along the line FF of FIG. 34. As shown in FIG. 36, the horizontal portion 531L is located under the flat plate portion 230 on the instrument side, the retaining washer 542L is arranged in the recess of the recessed portion 532L, and the retaining washer 542L is located below the recessing portion 532L. The washer 541L is arranged on the opposite side). The screw 96L has a screw shaft 962L in which a screw groove is formed and a screw head 961L. The screw shaft 962L of the screw 96L is screwed into the instrument side nut 220 (counterpart part) via the washer 541L, the through hole 533L, the retaining washer 542L, and the instrument side through hole 210, so that the lower surface of the screw head 961L has the washer 541L. Pressing, the horizontal portion 531L of the mounting bracket 50L-2 is pressed against the instrument side flat plate portion 230 of the instrument body 200. The shape of the recessed portion 532L is arbitrary as long as it has a shape in which the retaining washer 542L is housed. Further, the recess depth dimension H of the recessed portion 532L is determined according to the thickness dimension B of the retaining washer 542L. For example, if the thickness dimension B of the retaining washer 542L is 1 mm, the recess depth dimension H is preferably 1 mm or slightly larger than 1 mm. This is because the upper surface of the horizontal portion 531L and the lower surface of the flat plate portion 230 on the instrument side are widely and strongly adhered to each other without any gap.

The screw 96L, washer 541L, and retaining washer 542L are attached in the assembly process of the light unit 100. The screw 96L, washer 541L and retaining washer 542L are distributed integrally with the light unit 100. When distributing, Fig. 34
In, a washer 541L is arranged below the recessed portion 532L, a screw shaft 962L is passed through the washer 541L and a through hole 533L, and a retaining washer 542L is attached to the penetrating screw shaft 962L. In this way, in the light unit 100, the retaining washer 524L is arranged on the side of the recessed portion 532L of the mounting bracket 50L-2, and the washer 541L is arranged on the opposite side of the retaining washer 542L with the recessed portion 532L in between. With the screw shaft 962L of the screw 96L penetrating the washer 541L and the through hole 533L of the recessed portion 532L, the retaining washer 542L is attached to the screw shaft 962L, so that the washer 541L and the retaining washer are attached to the mounting bracket 50L-2. The 542L and the 96L screw are integrally attached.

As shown in FIG. 35, it is clear that the mounting bracket 50L-1 of the third embodiment may be provided with a recessed portion 532L to form the mounting bracket 50L-1-1.

According to the mounting bracket 50L-2, since it is not necessary to separately wrap the screws 96L in the process of wrapping the light unit 100, it is possible to shorten the wrapping work time and prevent forgetting to wrap the screws 96. That is, the manufacturing process of the light unit 100 can be simplified and improved in quality. Further, in the construction of the lighting device 300, since the screw 96L is integrated with the light unit 100, it is not necessary to take out the screw 96L and there is no risk of loss. Further, it is not necessary to use a special tool such as a magnet driver when tightening the screw 96L. Since the recessed portion 532L is provided, the adhesion between the mounting bracket 50L-2 and the fixture body 200 is increased, and the light unit 100 can be firmly fixed to the fixture body 200. Further, even when the retaining washer 542L is used, the end covers 30L and 30R (30L-1, 30R-1) do not float or tilt, so that the water stopping property and the design of the light unit 100 can be ensured.

Embodiment 6.
The sixth embodiment will be described with reference to FIGS. 37 to 40. The sixth embodiment relates to an attachment process when the light unit 100 is attached to the instrument main body 200. The sixth embodiment relates to the frame 60-2. FIG. 38 shows an example of a hooked wire 240 having a hook 241 and a wire 242. The hooked wire is not limited to the illustrated form. As shown in FIG. 37, the frame 60-2 has hooking portions 611 and 612 for hooking the hook 241 of the hooked wire 240 on the flat plate portion 62. Each hooked wire 240 is hooked on the hooking portions 611 and 612.

As shown in FIG. 37 (c), in the present embodiment, the hooking portions 611 and 612 have a roof shape composed of two surfaces in which a part of the flat plate portion 62 is cut up, but the hook 241 is hooked. It is sufficient that the light unit 100 has sufficient strength to be hooked and the light unit 100 can be maintained in a suspended state. Further, in addition to cutting and raising, the hooking portions 611 and 612 may be equipped with parts for hooking the hook 241 by a method such as welding or screwing.

The wire end portion 243 of FIG. 38 is attached to the wire end attachment portion 250 provided on the instrument main body 200 before the construction work. FIG. 29 shows an example of the wire end mounting portion 250. There is one wire end mounting portion 250 corresponding to the hooking portions 611 and 612. The wire end attachment portion 250 provided on the instrument main body 200 may have a function of a storage portion for accommodating the hooked wire 240. In the mounting process of mounting the light unit 100 to the fixture body 200, each wire end mounting portion 250 is substantially directly above the hooking portions 611 and 612. As long as the wire end portion 243 can be attached to the wire end attachment portion 250, the shape of the wire end portion 243 and the structure and shape of the wire end attachment portion 250 are not limited.

As shown in FIG. 37 (a), in the top view (plan view), the center of gravity 701 is offset from the line 616 connecting the hook portion 611 and the hook portion 612. That is, in the light unit 100, the line 616 (area corresponding line) connecting the hooking portions 611 and 612 is the light unit 100 in a plan view (FIG. 37 (a)) when the light unit 100 is attached to the instrument main body 200. Does not overlap with the center of gravity 701 of. Therefore, in a state where the hook 241 of the wire 240 with a hook is hooked on the hook portion 611 and the hook 241 of the wire 240 with a hook is hooked on the hook portion 612 to suspend the light unit 100, the hook portion 611 and the hook portion are suspended. Since a mechanical moment is generated around the line 616 connecting the 612 and the center line, the light unit 100 settles down in an inclined state as shown in FIG. 39.

Further, as shown in FIG. 37 (c), the two hooking portions 611 and 612 are cut and raised in two notches cut in the flat plate portion 62 of the frame 60-2 in the direction orthogonal to the direction of the line 616. Form a shape. It does not have to be actually cut up. For example, a part having a shape in which the hook 241 of the hooked wire 240 can be hooked is attached to the flat plate portion 62 of the frame 60-2 by a method such as welding or screwing. May be good.

As shown in FIG. 37 (c), the hook 241 (indicated by the alternate long and short dash line) is hooked so as to face the longitudinal direction, but as shown in FIG. 39, the hook 241 is hooked in a direction orthogonal to the swing direction. Therefore, even if the light unit 100 swings in the swing direction, the hook 241 does not come off from the hooking portions 611 and 612. Further, since the length of the wire 242 has a wide selection range, the length of the wire 242 can be easily selected so that the hook 241 can be attached to the hooking portions 611 and 612 at a height below the line of sight of the operator. Further, since the light unit 100 is tilted by the mechanical moment and the wiring surface can be directed to the operator side, the operator can safely and efficiently perform the wiring work by using both hands. Since the light unit 100 can be suspended from the fixture body 200 and the wiring work can be performed while the light unit 100 is temporarily held in this way, the workability is improved in the mounting process of attaching the light unit 100 to the fixture body 200.

Although the case where the frame 60-2 has two hooking portions (hooking portions 611 and 612) is described in FIG. 37, three or more hooking portions may be provided. As shown in FIG. 40, when three or more hooks are provided (four in FIG. 40), an area surrounded by a line connecting the plurality of hooks so as to form a polygon (quadrangle 620 in FIG. 40). Does not have the center of gravity 701 of the light unit 100 on the side of the polygon (quadrangle 620) and in the polygonal region in the plan view in the state where the light unit 100 is attached to the instrument body.

In the lighting device according to the above-described embodiment, the translucent cover 10 for accommodating an LED substrate (light source substrate) on which an LED (light source) is mounted, which is generated according to a change in usage environment conditions (temperature, humidity). The difference between the thermal expansion in the longitudinal direction of the light unit and the thermal expansion in the longitudinal direction of the frame 60 to which the translucent cover 10 is attached is absorbed by both ends (left and right) in the longitudinal direction of the light unit. Not limited to this, the light unit may be configured to absorb light at one end in the longitudinal direction. With such a configuration, a simpler configuration can be achieved.

Further, the lighting device according to the above-described embodiment uses a translucent cover which is a long hollow body (cylinder body) with both ends open, and both ends thereof are waterproofed by using an end cover and a cover packing. It has a property (watertightness). However, the present invention is not limited to this, and a translucent cover, which is a long hollow body (cylinder body) with one end closed, may be used, and the end cover and the cover packing may be used to close the opened other. Good. With such a configuration, it is possible to more easily configure the structure to have waterproofness (watertightness).

Further, although each of the lighting devices according to the above-described embodiment is described as having one light unit, the lighting device is not limited to this, and as shown in FIG. 23, the lighting device has a plurality of light units in the longitudinal direction. It may be a lighting device provided. FIG. 23 is a perspective view showing a lighting device 300-2 in which two light units 100 are mounted on the fixture main body 200-2. In FIG. 23, a gap is provided between the left and right light units to absorb expansion in the longitudinal direction. The lighting device is not limited to the case shown in FIG. 23, and may have a configuration having three or more light units. Further, the lighting device may be a lighting device including a plurality of light units in the lateral direction (horizontal direction). Further, the lighting device may include a plurality of light units in an oblique direction. Here, the oblique direction is, for example, an arrangement in which two light units are arranged side by side in the lateral direction and one of the light units is shifted in the longitudinal direction. With the configuration in which one lighting device has a plurality of light units in this way, a simpler configuration can be achieved.

In the above-described embodiment, the following light unit has been described.
A first fixture with a first screw hole and
A second fixture with a second screw hole,
A first, which is a hollow body having a long shape with both ends open and is arranged at one end of the long shape, and the first attachment is inserted along the longitudinal direction of the long shape. A translucent cover having a mounting portion and a second mounting portion arranged at the other end of the elongated shape and into which the second mounting tool is inserted along the longitudinal direction.
It has an elongated shape along the longitudinal direction, is cut out in an elongated shape along the longitudinal direction, and has one end side and the other end side with reference to the position of the first screw hole in the longitudinal direction. A first notch that exposes the first screw hole so that there is a continuous notched region in both, and an elongated notch along the longitudinal direction, the first in the longitudinal direction. The second screw hole is exposed so that a continuous notched region exists on both the one end side and the other end side based on the position of the second screw hole. With a frame to which the translucent cover is attached,
A first screw that is fastened into the first screw hole through the first notch and attaches the translucent cover to the frame.
A light unit including a second screw that is fastened into the second screw hole through the second notch and attaches the translucent cover to the frame.

In the above-described embodiment, the following light unit has been described.
The first fixture is
A flat plate-shaped first insertion part to be inserted into the first attachment part,
A first extension extending from the first insertion portion in a direction from the other end toward the one end,
It has a first facing portion that is bent from the first extension portion and faces at least a part of one end of the translucent cover.
The second fixture is
A flat plate-shaped second insertion part to be inserted into the second attachment part,
A second extension extending from the second insertion portion in a direction from one end to the other end,
A light unit that is bent from the second extension and has a second facing portion that faces at least a part of the other end of the translucent cover.

In the above-described embodiment, the following light unit has been described.
The light unit further
A first packing that closes the opening at one end of the translucent cover,
A second packing that closes the opening at the other end of the translucent cover,
A first end cover attached to the translucent cover so that the first packing is pressed against the end of the translucent cover.
A second end cover attached to the translucent cover so that the second packing is pressed against the end of the translucent cover.
A light unit characterized by being equipped with.

In the above-described embodiment, the following light unit has been described.
The first end cover is
It has a first storage portion for storing the first packing, and the first storage portion closes the opening of the one end portion of the translucent cover together with the first packing.
The second end cover is
A light having a second storage portion for storing the second packing, and closing the opening of the other end portion of the translucent cover together with the second packing by the second storage portion. unit.

In the above-described embodiment, the following light unit has been described.
The first end cover is
A first outer peripheral facing portion facing at least a part of the outer circumference of the one end of the translucent cover,
A first inner peripheral facing portion facing at least a part of the inner peripheral of the one end of the translucent cover is provided.
The second end cover is
A second outer peripheral facing portion facing at least a part of the outer circumference of the other end of the translucent cover,
A light unit including a second inner peripheral facing portion facing at least a part of the inner peripheral of the other end of the translucent cover.

In the above-described embodiment, the following light unit has been described.
The light unit is
The light source substrate on which the light source is mounted is housed in the translucent cover, and at the same time,
A power supply that supplies power to the light source and
A power supply case body in which the power supply device is housed inside a hollow body having both ends open,
The first power supply case packing that closes one opening of the power supply case body, and
A second power supply case packing that closes the other opening of the power supply case body, and
The first fixture for fixing the first power supply case packing and
It has a second fixture for fixing the case packing for the second power supply device, and has.
A waterproof case for power supply attached to the frame and
A light unit characterized by being equipped with.

In the above-described embodiment, the following lighting device has been described.
With the light unit
The long fixture body to which the light unit is attached and
A lighting device including a third fixture for attaching the light unit to the fixture body.

In the above-described embodiment, the following lighting device has been described.
The instrument body
An opening serving as a storage port for accommodating the light unit is formed along the elongated longitudinal direction, and one edge of the opening is spaced from the translucent cover along the longitudinal direction of the translucent cover. The lighting device is characterized in that the other edge facing the one edge is opposed to the translucent cover while maintaining a predetermined distance along the longitudinal direction of the translucent cover.

In the above-described embodiment, the following light unit has been described.
The light unit is
Attached to the instrument body,
The first end cover is
When attached to the instrument body, a through hole is formed through which the screw for attaching to the instrument body passes, and a tubular guide that stands up in a tubular shape in the direction in which the screw passes from the peripheral edge of the through hole is provided. A light unit having a through-hole forming portion.

In the above-described embodiment, the following light unit has been described.
The light unit is
Attached to the instrument body,
The first end cover is
The bottom, which is the bottom when attached to the instrument body,
A light unit including an upright wall that stands up from the end of the bottom in a direction from the other end of the translucent cover toward the one end and has a drainage hole formed at a position where the light-transmitting cover starts to stand.

In the above-described embodiment, the following light unit has been described.
The surface of the bottom
A light unit having a downward slope region in which a slope in a direction from the other end toward the drain hole toward the one end is a downward slope.

In the above-described embodiment, the following light unit has been described.
The light unit is
Attached to the instrument body,
The first end cover is
The bottom, which is the bottom when attached to the instrument body,
It is provided with an outer shell that is continuously formed upward from the bottom.
The light unit further
A light unit provided with a third attachment that is attached to the light unit by being sandwiched between the frame and the translucent cover and whose end presses against an inner wall that is inside the outer shell.

Although the embodiments 1 to 6 of the present invention have been described above, the embodiments may be combined and implemented. Alternatively, one of these embodiments may be partially implemented. Alternatively, these embodiments may be partially combined and implemented. The present invention is not limited to these embodiments, and various modifications can be made as needed.

8 Frame for LED board, 9 LED board, 10 Translucent cover, 11L left end, 11R right end, 12L, 12R opening, 13L, 13R cover insertion part, 14-1L, 14-2L, 14-3L , 14-4L, 14-1R, 14-2R, 14-3R, 14-4R, 14-5 Protruding part, 15 inclined surface, 20L, 20R cover packing, 21L, 21R recessed part, 30L, 30R, 30L- 1,30R-1 End cover, 31L, 31R storage, 32L, 32R Outer facing facing part, 33L, 33R Inner peripheral facing part, 34L, 34R Screw through hole, 35L, 35R End cover insertion part, 36L penetration Hole, 37L through hole formation site, 38L, 38R drain hole, 40L, 40R cover fixture, 41L, 41R screw hole, 42L, 42R insertion part, 43L, 43R extension part, 44L, 44R facing part, 50L, 50R, 50L-1, 50L-2, 50L-1-1, 50R-1 Mounting bracket, 60, 60-1, 60-2 frame, 61L, 61R long hole, 62 flat plate part, 63 side surface part, 64 recessed part, 65C Through hole, 70L, 70R special screw, 80 waterproof power supply, 81 power supply case body, 82-1, 82-2 packing, 83-1, 83-2 packing fixture, 84 screw, 85 screw hole, 88 Screws, 90L, 90R caps, 91L harness storage rubber, 92 fire spread prevention sheet, 93C cover fixing plate, 93C-1 screw holes, 94L, 94R stopper screws, 96L, 96R screws, 96C screws, 97L, 98L hanging bolts, 100 lights Unit, 200 Instrument body, 210 Instrument side through hole, 220 Instrument side nut, 230 Instrument side flat plate, 240 Wire with hook, 241 hook, 242 wire, 243 Wire end, 250 Wire end attachment, 300 Lighting device, 310L Bottom, 311L Bottom surface, 312L Drainage gradient, 313L range, 314L arrow, 315L end, 316L downslope area, 320L upright wall, 330L outer shell, 341L peripheral, 380L, 380R harness support, 391L, 391R slit, 501L broken line, 502L horizontal part, 511L, 512L side part, 5 13L, 514L tip, 532L recess, 533L through hole, 541L washer, 542L retaining washer, 601,602 bent part, 603,604 lower surface, 605,606 gap, 621,622 gap, 611,612,613 , 614 hook, 701 center of gravity, 961L screw head, 962L screw shaft.

Claims (5)

It is a long light unit that can be detachably attached to the fixture body.
Light source and
A long hollow body formed by using a translucent material and holding the light source on the side of the device body in a state of being attached to the device body, and a hollow body outside the hollow body. A cover having a pair of projecting portions formed so as to face each other outside the light source held in the hollow body in the lateral direction of the body.
A light unit including a fixture for attaching the light unit to the instrument body while being fixed to the pair of projecting portions. The pair of projecting portions
The light unit according to claim 1, which is formed with respect to the light source held in the hollow body toward the device main body side with respect to the light source and along the longitudinal direction of the hollow body. .. The fixture is
The light unit according to claim 1 or 2, wherein the light unit is fixed to the pair of protrusions while being arranged between the pair of protrusions. The light source is
It is mounted on the board and
The hollow body is
Claim 1 according to claim 1, which has a hollow main body portion that covers the substrate on which the light source is mounted, and holds the substrate closer to the appliance main body than the hollow main body portion in a state of being attached to the instrument main body. Item 3. The light unit according to any one of items 3. The light unit according to any one of claims 1 to 4, and the light unit.
A lighting device including an instrument body to which the light unit is attached.

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