JP2020170724A - Luminaire - Google Patents

Abstract

To achieve improvement in assemblability of a luminaire.SOLUTION: A luminaire includes: a cylindrical body 10 including an opening part on one side; a light source unit 20 including a light source, and including a frame for covering the opening part; a lighting device 30 arranged inside the body, and for supplying power to the light source; and a power source terminal block 50 existing in the depth center of the body 10, and having a cubic shape. The lighting device 30 includes a circuit board (lighting circuit board 331). The circuit board (lighting circuit board 331) is arranged traversing substantially the center of the body 10 when viewed from the opening part 101. The power source terminal block 50 is stored in a storage space between the circuit board (lighting circuit board 331) and a bottom of the body 101, and from an opening window (terminal exposure hole 113) formed at the bottom of the body 10, an electric wire insertion hole is exposed.SELECTED DRAWING: Figure 3

Description

The present invention relates to a luminaire.
The present invention is suitable for battery-powered luminaires and emergency luminaires.
The present invention is suitable for a lighting fixture such as an emergency lighting fixture that is embedded and fixedly arranged in a mounted portion such as a ceiling.

An emergency luminaire characterized by thermally coupling an LED substrate and a power supply substrate has been presented (see, for example, Patent Document 1).
However, in the configuration described in Patent Document 1, since the LED substrate and the power supply substrate are thermally coupled, when one of them is driven, it is not intended for the other non-driven substrate. There was a problem of giving heat.

Further, an emergency lighting fixture is presented in which two thermally separated spaces are provided in the main body of the fixture and a light source and a lighting circuit are housed in each space (see, for example, Patent Document 2).
However, in the configuration described in Patent Document 2, since the light source and the circuit board are housed in one of the storage spaces, there is a problem that heat is applied to the circuit board when the light source is turned on.

Further, an emergency lighting fixture is presented in which the heat generated by the LED is efficiently radiated and irradiated for a predetermined time by contacting the light source portion provided with the LED with the heat radiating portion provided with a plurality of heat radiating fins (for example). , Patent Document 3).
However, Patent Document 3 does not describe heat dissipation from the heat radiating portion of the emergency lighting fixture to the outside of the fixture. When the heat radiating part dissipates heat to the inside of the fixture, it is considered that the ambient temperature of the LED rises, and the luminous flux of the LED is attenuated and the life of the LED is shortened.

In addition, an emergency lighting fixture has been presented that makes it possible to miniaturize the fixture body by projecting a lighting device to the side of the fixture body, to reduce the diameter of the fixture installation hole, and to reduce the size of the design part (for example). , Patent Document 3).
However, in the emergency lighting fixture described in Patent Document 3, the lighting device protruding to the outside of the fixture body increases the space occupied by the fixture after installation, and it is necessary to consider adjacent construction materials and other fixtures. Will be done.

Further, an emergency lighting fixture in which a battery is inserted through a battery insertion opening and the battery is attached to a battery mounting portion is presented (see, for example, Patent Document 4).
However, Patent Document 4 does not describe the device of the guide used when inserting the battery of the emergency lighting equipment. If the guide is not devised, the connector connection may not fit properly, and there is a problem in the detachability of the battery.

In addition, an LED lighting device that serves as the main light source is placed outside the fixture, and an inspection switch and monitor LED are provided separately from the LED substrate that serves as the main light source, and an emergency lighting fixture that is placed next to the LED that serves as the main light source. Is presented (see, for example, Patent Document 3).
However, in the configuration described in Patent Document 3, since the LED substrate and the monitor LED are provided on the same substrate, the monitor LED is unintentionally affected by the heat of the LED of the main light source. Further, since the LED as the main light source and the monitor LED are arranged on the same substrate, there is a problem that the arrangement of the monitor LED cannot be easily changed even when the arrangement is desired to be changed.

Further, an emergency lighting fixture in which an LED for a monitor is mounted on the same substrate as an LED as a main light source and an inspection switch is used as a separate substrate has been proposed (see, for example, Patent Document 5).
In the configuration described in Patent Document 5, since the monitor LED and the inspection switch are provided separately from the substrate on which the LED as the main light source is arranged, there is a degree of freedom in arrangement, but the lighting device is arranged outside the appliance. Therefore, there is a problem that the installation work of the equipment is restricted.

Further, a battery storage box in which a connector is attached to a connector holding portion of a battery case has been proposed (see, for example, Patent Document 6).
In the configuration described in Patent Document 6, it is necessary to attach the lid to the connector holding portion of the battery case after attaching the connector. In addition, the connector could be attached only from the outside of the battery case.

Further, a lighting device has been proposed in which a confirmation hole is formed in the bottom plate of the sheet metal so that the insulating plate and the heat radiation pad can be confirmed from the outside through the confirmation hole (see, for example, Patent Document 7).
In the configuration described in Patent Document 7, since the case body of the lighting device is made of metal, it is necessary to arrange an insulating sheet inside. If the insulating sheet is transparent, the internal heat dissipation pad can be confirmed from the confirmation hole, but if the insulating sheet is a colored material, it cannot be seen.

Further, an LED lighting fixture is presented, which is characterized by further adding a heat sink to the heat radiating portion to improve the heat radiating effect. (See, for example, Patent Document 8.)
In the configuration described in Patent Document 8, mold costs are incurred when manufacturing a heat sink, and in the case of an appliance in which the heat sink is arranged in the main body, air convection is small even if the heat sink is added. Therefore, there is a concern that the heat dissipation effect is small.

Further, a lighting fixture in which a pair of cover mounting springs is attached to the fixture body is presented (see, for example, Patent Document 9).
In the configuration described in Patent Document 9, the cover mounting spring is hidden by the cover at the time of mounting, and there is a problem that the cover mounting spring cannot be mounted well at the time of mounting. In addition, there was no means for positioning the cover mounting spring, and there was a possibility of inserting it in a completely different place.

Japanese Unexamined Patent Publication No. 2012-004050 (see paragraph "0009") Japanese Unexamined Patent Publication No. 2012-185932 (see paragraph "0010") Japanese Unexamined Patent Publication No. 2014-032868 (see paragraphs "0064" to "0066") Japanese Unexamined Patent Publication No. 2008-262770 Japanese Unexamined Patent Publication No. 2012-08424 (see paragraph "0031") Japanese Unexamined Patent Publication No. 2004-185842 (see paragraphs "0010", "0011", "0027") Japanese Unexamined Patent Publication No. 2010-135263 (see paragraph "0012") Japanese Unexamined Patent Publication No. 2014-7124 (see paragraph "0009") JP-A-10-208533

In the event of a power outage due to a fire or the like, emergency lighting equipment has its structure and installation standards stipulated by the Building Standards Act so that a certain level of illuminance can be secured and evacuation can be carried out promptly.

An emergency lighting fixture that lights up in the event of a power outage in the event of a fire or the like must ensure a predetermined brightness (floor illuminance 1 lpx at high temperatures) even in an emergency such as a fire.

In recent years, LEDs that have become widespread as a light source have their luminous flux attenuated as the temperature rises. Therefore, it is an important issue to dissipate heat from the LED.

In addition, a dedicated type emergency lighting fixture equipped with only an emergency light source has a presence as a lighting fixture because the battery is charged and the light source is not lit during regular use other than during a power outage. Smaller ones are preferable, and there is a demand for reduction of equipment installation space and power saving.

In the embodiment of the present invention, it is desired to efficiently dissipate the heat generated from the light source of the lighting equipment.

Further, in the embodiment of the present invention, it is desired to improve the assembling property of the lighting equipment.

Further, in the embodiment of the present invention, it is desired to reduce the size and improve the reliability of the lighting equipment.

Further, in the embodiment of the present invention, it is desired to improve the mountability of the battery unit in a small space of the lighting equipment.

Further, in the embodiment of the present invention, it is desired to provide an inspection unit that can be used in different lighting fixtures.

Further, in the embodiment of the present invention, it is desired that the connector can be easily fixed from the inside of the case of the lighting device. Furthermore, we would like to make it possible to easily attach the connector even in a miniaturized case of the lighting device.

Further, in the embodiment of the present invention, it is desired to make the internal parts of the lighting device visible while ensuring the insulation of the internal parts of the lighting device.

Further, in the embodiment of the present invention, it is desired to efficiently dissipate the heat generated from the light source by standardizing the parts and reducing the cost as much as possible.

In the embodiment of the present invention, it is desired that the cover mounting spring can be inserted at the correct position at the time of mounting.

The luminaire of the present invention
A bottomed cylindrical body with an opening on one side,
A light source unit having a light source and a frame covering the opening,
A lighting device that is arranged inside the main body and supplies electric power to the light source,
It has a cube-shaped power terminal block located in the center of the back of the main body.
The lighting device has a circuit board and has a circuit board.
The circuit board is arranged across substantially the center of the main body as viewed from the opening.
The power terminal block is housed in a storage space between the circuit board and the bottom of the main body, and an electric wire insertion hole is exposed from an opening window formed on the bottom of the main body. ..

According to the present invention, workability is improved by the arrangement relationship between the power supply terminal block and the circuit board.

FIG. 5 is a side view, a cross-sectional view, and a perspective view of the lighting fixture 100 according to the first embodiment. 5 is a five-view view, a cross-sectional view, and an opening view of the lighting fixture 100 according to the first embodiment. It is an exploded perspective view of the luminaire 100 in Embodiment 1. FIG. It is a perspective view of the light source unit 20 of the luminaire 100 in Embodiment 1. FIG. It is an exploded perspective view of the light source unit 20 of the luminaire 100 in Embodiment 1. FIG. It is a side view of the light source unit 20 of the luminaire 100 in Embodiment 1. FIG. It is sectional drawing of the light source unit 20 of the luminaire 100 in Embodiment 1. FIG. It is a figure of the lens 21 and the socket 24 of the luminaire 100 in Embodiment 1. FIG. It is a perspective view of the light source attachment part 27 and the frame 29 of the luminaire 100 in Embodiment 1. FIG. It is a figure of the frame mounting bracket 25 of the luminaire 100 in Embodiment 1. FIG. It is a partial view of the light source attachment part 27 and the frame 29 of the luminaire 100 in Embodiment 1. FIG. FIG. 5 is a fixed view of a light source mounting portion 27 and a frame 29 by a frame mounting bracket 25 of the lighting fixture 100 according to the first embodiment. FIG. 5 is a layout drawing of a light source mounting portion 27, a frame 29, and a main body 10 of the lighting fixture 100 according to the first embodiment. It is an exploded perspective view of the internal part of the luminaire 100 in Embodiment 1. FIG. It is an exploded perspective view of the substrate unit 33 of the luminaire 100 in Embodiment 1. FIG. It is a figure of the battery unit 40 of the luminaire 100 in Embodiment 1. FIG. FIG. 5 is a mounting diagram of the battery unit 40 of the lighting fixture 100 according to the first embodiment to the lighting device 30. It is a figure of the battery attachment part 36 of the lighting device 30 of the luminaire 100 in Embodiment 1. FIG. It is a figure of the battery unit 40 of the luminaire 100 in Embodiment 2. It is a figure of the luminaire 100 in Embodiment 2. It is a figure of the battery unit 40 of the luminaire 100 in Embodiment 2. It is a figure of the luminaire 100 in Embodiment 2. It is a figure of the luminaire 100 in Embodiment 3. It is a figure of attachment of the inspection unit 60 in Embodiment 3. FIG. It is a figure of attachment of the inspection unit 60 in Embodiment 3. FIG. FIG. 5 is an exploded perspective view of the light source unit 20 according to the fourth embodiment. It is sectional drawing of the light source unit 20 in Embodiment 4. FIG. FIG. 5 is a mounting structure diagram of the board unit device 300 according to the fifth embodiment. It is a figure which shows the utilization state of the guide rib 552 in Embodiment 5. FIG. 5 is a plan view of the guide rib 552 according to the fifth embodiment. It is a figure which shows the other structure of the fixed structure of the connector in Embodiment 5. It is a figure which shows the visual structure of the component | material of the substrate unit apparatus 300 in Embodiment 5. FIG. 5 is a three-view view of the battery-side case 31 and a three-view view of the substrate holder 333 according to the fifth embodiment. FIG. 5 is an exploded perspective view of the substrate unit device 300 according to the fifth embodiment. It is sectional drawing of the substrate unit apparatus 300 in Embodiment 5. It is a side view and sectional view of the light source unit 20 which used the heat radiation member 651 for direct attachment in Embodiment 6. It is an exploded perspective view and the assembly perspective view of the light source unit 20 using the heat radiation member 651 for direct attachment in Embodiment 6. It is a figure of the light source attachment part 27 and the heat radiation member 651 for direct attachment in Embodiment 6. It is a side view and sectional view of the light source unit 20 using the embedded heat dissipation member 661 in Embodiment 6. FIG. 5 is an exploded perspective view and a perspective view of the light source unit 20 using the embedded heat radiating member 661 according to the sixth embodiment. FIG. 5 is a five-view view and a cross-sectional view showing a mounting structure of the main body 10 and the light source unit 20 in the seventh embodiment. It is an exploded perspective view of the lighting fixture 100 for direct attachment in Embodiment 7. FIG. FIG. 5 is an exploded perspective view of a main body 10 and a light source unit 20 of a direct-attached lighting fixture 100 according to a seventh embodiment. It is a figure which shows the fitting of the attachment spring 751 and the spring receiver 752 in Embodiment 7.

Embodiment 1.
The luminaire 100 of the present embodiment is a luminaire such as an emergency luminaire, and is suitable for a luminaire that is embedded or directly attached and fixed to a mounted portion such as a ceiling.

*** Explanation of terms ***
The meanings of the terms used in the following description are as follows.
Axis O: The central axis of the main body 10.
Diameter D: The diameter of the main body 10 passing through the axis O of the main body 10.
Radius R: The radius from the axis O of the main body 10 to the main body 10.
X, Y, Z directions: Direction that is orthogonal to each other.
Vertical direction: Axis O direction of the main body 10 shown in FIG. The Z direction shown in FIG. 1, that is, the vertical direction shown in FIG.
Horizontal direction: A direction orthogonal to the vertical direction shown in FIG. A direction orthogonal to the Z direction shown in FIG. 1, that is, a left-right direction in FIG.
Diameter direction: The direction of diameter D. A linear direction passing through the axis O of the main body 10. 180 degree direction.
Back direction: The direction from the opening of the main body 10 toward the back of the main body 10. The direction opposite to the light emission direction of the light source. Upward in FIG.
Opening direction: The direction from the back of the main body 10 toward the opening of the main body 10. Emission direction of the light source. Downward in FIG.
Work space arrangement direction X: The direction in which a pair of instrument mounting work spaces 70 inside the main body 10 exist. In FIG. 1, the radial direction connecting the pair of instrument mounting portions 102. X direction shown in FIG.
Lighting device longitudinal direction Y: A direction parallel to the long side L of the lighting device 30 inside the main body 10. In FIG. 1, the radial direction connecting the pair of light source mounting holes 124. Y direction shown in FIG.
Thermal connection: The two parts are in direct surface contact, or the two parts are in surface contact with a substance that has better thermal conductivity than the atmosphere in between. When two parts are connected by a simple electric wire or wire, it is not called a thermal connection.
Thermal separation: There is a space between the two parts, or there is a substance between the two parts that is less thermally conductive than the atmosphere. Even if two parts are connected by a simple electric wire or wire, it is said to be thermally separated.

*** Explanation of the configuration of the lighting fixture 100 ***
FIG. 1 is a perspective view, a side view, and a cross-sectional view of the lighting fixture 100 according to the first embodiment.
FIG. 2 is a five-view view and a cross-sectional view of the lighting fixture 100 in the first embodiment, excluding the fixture mounting bracket 14.
The DD opening view of FIG. 2 is a bottom view of the lighting fixture excluding the fixture mounting bracket 14, the light source unit 20, and the battery unit 40.
FIG. 3 is an exploded perspective view of the lighting fixture 100 excluding the fixture mounting bracket 14.

The luminaire 100 includes a main body 10, a light source unit 20, a lighting device 30, a battery unit 40, a power terminal block 50, and an inspection unit 60.
The lighting device 30, the battery unit 40, and the power terminal block 50 are internal parts housed in the lighting fixture 100.
The main body 10 has a tubular shape.
The main body 10 is made of a non-combustible material such as metal.
The main body 10 is mounted on the ceiling by the fixture mounting portion 102. As the instrument mounting portion 102, the instrument mounting bracket 14 is suitable.
The light source unit 20 has a light source 26 and is attached so as to close the opening of the main body 10.
The lighting device 30 is arranged inside the main body 10 and supplies electric power to the light source 26.
The lighting device 30 functions as a control device for lighting the light source 26.
The battery unit 40 is arranged inside the main body 10, stores a storage battery, and supplies electric power to the lighting device 30.
The power terminal block 50 is arranged at the back of the main body 10 and connects an electric wire from an external commercial power source to supply electric power to the lighting device 30.
The inspection unit 60 inspects the lighting of the lighting fixture 100.

The main body 10 will be described with reference to FIG.
The main body 10 has a bottomed cylindrical shape having an opening 101 on one surface.
The main body 10 is a metal housing that houses the lighting device 30, the battery unit 40, and the power terminal block 50.
One of the main body 10 is opened by the opening 101, and the opening 101 is covered by the light source unit 20.

The main body 10 has a back plate 11, a side plate 12, a collar 13, and an instrument mounting bracket 14.
The back plate 11 is a metal circular plate that closes the back direction of the main body 10.
The side plate 12 is a metal cylindrical plate having a pipe shape.
The brim 13 is formed in the shape of an eave at the end of the opening 101 of the side plate 12, and has a donut shape.
The diameter of the collar 13 is larger than the diameter of the fixture insertion hole in the ceiling, and the collar 13 is attached to the edge of the fixture insertion hole in the ceiling. The lighting fixture 100 is fixed to the ceiling by sandwiching the ceiling plate from above and below between the collar 13 and the fixture mounting bracket 14.

The back plate 11 has a screw hole 111, a screw hole 112, and a terminal exposed hole 113.
The screw hole 111 is a hole through which the screw 19 for fixing the power terminal block 50 penetrates.
The screw holes 111 may be arranged only on the side plate 12 of the main body 10 or on the back plate 11 and the side plate 12 to fix the lighting device 30.
The screw hole 112 is a hole for fixing the screw 18 for fixing the lighting device 30.
The terminal exposure hole 113 is an opening for exposing the power supply terminal block 50.
The wire 114 is a wire that is fixed to the main body 10 or the back plate 11 of the main body 10 and connects the light source unit 20. When the wire 114 is fixed to the main body 10 instead of the back plate 11 of the main body 10, the fixing position of the wire 114 may be near the opening 101 of the side plate 12 of the main body 10.
The lighting device 30 and the light source 26 built in the main body 10 are electrically connected by the light source harness 336, but prevent tension from being applied to the light source harness 336 when the light source unit 20 is attached to and detached from the main body 10. Therefore, a wire 114 shorter than the light source harness 336 is attached to the frame 29 and the main body 10. As the wire 114, a string, a metal wire, or the like is used to serve as a tension prevention wire.

The side plate 12 has a battery fixing metal fitting 121, a horizontal stopper 122, a slit 123, and a light source mounting hole 124 shown in the cross-sectional view taken along the line BB in FIG.
The battery fixing bracket 121 is a V-shaped leaf spring, and is fixed to the inner peripheral surface of the side plate 12 in a state of being opened in a V-shape in the depth direction. The battery unit 40 is fixed at the opening end opened in a V shape to prevent the battery unit 40 from falling in the opening direction.
The horizontal stopper piece 122 is a rectangular piece obtained by cutting a part of the side plate 12 into a rectangular shape in the lateral direction to form a screw hole and bending it inside the main body 10. The horizontal stopper piece 122 is used for screwing the lighting device 30 from the lateral direction.

The slit 123 is a linear opening formed in the vertical direction of the side plate 12.
Two slits 123 are formed so as to be elongated in the vertical direction of the side plate 12 and facing each other in the diametrical direction, and the instrument mounting bracket 14 is attached to each of the slits 123.
The instrument mounting bracket 14 is mounted in the work space arrangement direction X.
The fixture mounting bracket 14 is a bracket for mounting the lighting fixture 100 to the ceiling.
The instrument mounting bracket 14 is slidably mounted in the vertical direction with respect to the slit 123.
The fixture mounting bracket 14 slides the slit 123 vertically to the back surface of the ceiling to fix the lighting fixture 100 to the ceiling.
The light source mounting hole 124 is a rectangular opening formed in the opening direction of the side plate 12.
Two light source mounting holes 124 are formed so as to face each other in the diameter direction of the side plate 12, and the frame mounting bracket 25 of the light source unit 20 is mounted in the longitudinal direction Y of the lighting device.
The work space arrangement direction X and the lighting device longitudinal direction Y are orthogonal to each other.

As shown in the DD opening view of FIG. 2, the lighting device 30 has an oval shape when viewed from the vertical direction.
The long side L of the lighting device 30 is the same as the inner peripheral diameter of the main body 10.
Since the short side S of the lighting device 30 is shorter than the long side L, a pair of fixture mounting work spaces 70 are formed on both sides.
In the DD opening view of FIG. 2, the lighting device 30 has a dent space 74 for accommodating the battery unit 40 in the central portion of the right side surface, and the portion having the dent space 74 is shorter than the short side S. The width is W.
Therefore, on the right side of the lighting device 30, an appliance mounting work space 70 wider than the fixture mounting work space 70 on the left side is formed.
In the DD opening view of FIG. 2, the space length K1 in the radial direction of the fixture mounting work space 70 on the left side of the lighting device 30, the width W of the lighting device 30, and the diameter of the fixture mounting work space 70 on the right side of the lighting device 30. The ratio of the direction to the space length K2 is 2: 4: 4.
The reason why the instrument mounting work space 70 on the right side is wide is that it is used as a battery mounting space 71 for accommodating the battery unit 40.

As shown in the cross-sectional view taken along the line BB of FIG. 2, the light source unit 20 is attached via the heat blocking space 72 when viewed from the lateral direction.
In the cross-sectional view taken along the line BB of FIG. 2, the vertical length K3 of the heat blocking space 72 is 17% of the height T of the main body 10 of the lighting fixture 100, and is preferably 10% or more and 20% or less.

The lighting device 30 is composed of a case whose outer shell is made of resin.
The lighting device 30 has a storage space 73 for accommodating the power terminal block 50 in the back direction, facing the back plate 11. The storage space 73 is a recess recessed in the opening direction from the surface of the lighting device 30 in contact with the back plate 11.

As shown in the BB sectional view of FIG. 2, the battery unit 40 is arranged in the battery mounting space 71 inside the main body 10 and supplies electric power to the light source 26.
The battery unit 40 is detachably mounted in the battery mounting space 71.
The battery mounting space 71 occupies a part of one fixture mounting work space 70 of the pair of fixture mounting work spaces 70.

The power terminal block 50 is fixed to the back plate 11 and exists in the back center of the main body 10.
One side of the power supply terminal block 50 is exposed from the terminal exposure hole 113, and an electric wire from an external power source is connected from the terminal exposure hole 113.
The power terminal block 50 has a terminal body 51 and a terminal mounting plate 52.
The terminal mounting plate 52 is a cover for fixing the terminal body 51 to the back plate 11 with screws 19.
The power terminal block 50 is housed in the storage space 73 of the lighting device 30, and does not project outward from the side surface 353 of the lighting device 30.

*** Explanation of the structure and assembly of the lighting fixture 100 ***
The main body 10 is attached to the ceiling by using the fixture mounting bracket 14.
The fixture mounting bracket 14 is fitted in a slit 123 provided in the main body 10, and the main body 10 is fixed to the ceiling by installing the fixture on the ceiling and sliding the fixture mounting bracket 14 downward.
As a method of fixing the main body 10 to the ceiling, a method using a leaf spring may be used.

The lighting device 30 has a rectangular parallelepiped shape having a long side L, a short side S, and a height H.
The lighting device 30 is arranged so that the height H is in the vertical direction, and the long side L and the short side S can be seen from the opening 101.
The lighting device 30 is arranged across the center of the main body 10 when viewed from the opening 101.
The lighting device 30 is fixed so that the longitudinal direction of the lighting device 30 crosses the work space arrangement direction X.
That is, the work space arrangement direction X and the long side L of the lighting device 30 are orthogonal to each other, and the longitudinal direction Y of the lighting device 30 and the short side S of the lighting device 30 are orthogonal to each other.
A pair of fixture mounting work spaces 70 are formed between the side surface 353 having the long side L of the lighting device 30 and the inner peripheral surface of the main body 10. It is desirable to increase the instrument mounting work space 70 by setting the long side L >> short side S.
Since there is a pair of fixture mounting work spaces 70 in the work space arrangement direction X, the fixture mounting bracket 14 that slides the slit 123 in the vertical direction is not hindered from moving in the vertical direction.
The outer peripheral surface 354 having the short side S is a curved surface having the same radius R as the inner peripheral surface of the main body 10, and the outer peripheral surface 354 is inscribed in the inner peripheral surface of the main body 10.
The lighting device 30 has a screw fixing portion 37 protruding from the side surface 353 at the back of the side surface 353.

The assembly method and the mounting method of the luminaire 100 will be described with reference to FIG.
S1. The terminal body 51 is attached to the terminal mounting plate 52.
S2. The terminal body 51 and the lighting device 30 are connected by a terminal block harness 54. Further, one end of the light source harness 336 is connected to the lighting device 30.
S3. The terminal mounting plate 52 is attached to the lighting device 30. At this point, the power terminal block 50 is in a state of being housed in the storage space 73 of the lighting device 30.
S4. The lighting device 30 is inserted in the depth direction from the opening 101, and the lighting device 30 is housed in the main body 10. At this point, the power terminal block 50 is housed in the main body 10 together with the lighting device 30 while being housed in the storage space 73 of the lighting device 30.
S5. The screw 19 is screwed from the screw hole 111 into the screw hole 53 to fasten the power terminal block 50 to the back plate 11. The power terminal block 50 exposes one surface of the terminal body 51 from the terminal exposure hole 113 and is fixed to the center of the back plate 11 of the main body 10.
Further, the side stopper piece 122 of the main body 10 and the screw boss 325 of the lighting device 30 are fastened with the screw 191. Further, the screw 18 is screwed into the screw hole 112 of the back plate 11 of the main body 10 to fix the screw fixing portion 37 of the lighting device 30 to the main body 10.
The lighting device 30 is fixed to the main body 10 so that the long side L is in the longitudinal direction Y of the lighting device and the short side S is in the work space arrangement direction X.
The screw fixing portion 37 of the lighting device 30 is fixed to the back plate 11 with a screw 18 from the inside of the main body 10, but since the screw fixing portion 37 exists in the back of the fixture mounting work space 70, the screw 18 is screwed in. The work is easy.
At this point, the instrument mounting work space 70 is formed between the side surface 353 and the inner peripheral surface of the main body 10 in the work space arrangement direction X.
S6. An instrument mounting bracket 14 (not shown in FIG. 3) is attached to the slit 123 of the main body 10. Since the instrument mounting work space 70 exists around the slit 123 inside the main body 10, the instrument mounting bracket 14 can be easily mounted.
S7. The battery unit 40 is attached to the lighting device 30. The battery fixing bracket 121 on the inner peripheral surface of the main body 10 changes from a V-shape to an I-shape as the battery unit 40 is inserted, and returns to the V-shape after passing through the battery unit 40. In this way, the battery unit 40 is hooked on the battery fixing metal fitting 121 and fixed so that the battery unit 40 does not come off.
Do not make electrical connections to prevent over-discharging of the battery unit 40. Alternatively, the battery unit 40 may not be attached to the lighting device 30 and may be packaged separately.
S8. The light source unit 20 is attached to the wire 114. Further, the light source connector 3361 at the other end of the light source harness 336 is connected to the light source unit 20.
S9. The frame mounting bracket 25 is fitted into the light source mounting hole 124, and the light source unit 20 is mounted on the main body 10.

Next, the work at the site where the lighting fixture 100 is attached to the ceiling will be described.
First, the light source unit 20 is removed from the main body 10, and the light source unit 20 is removed from the wire 114. If the battery unit 40 is inside the main body 10, the battery unit 40 is removed from the main body 10. The battery unit 40 can be removed by manually pushing the battery fixing bracket 121 on the inner peripheral surface of the main body 10 from a V shape to an I shape.
Next, the electric wire behind the ceiling is connected to the power terminal block 50. The electric wire is inserted into a terminal on one surface of the terminal body 51 exposed from the terminal exposure hole 113.
Next, the main body 10 is inserted into the fixture insertion hole on the ceiling, the appliance mounting work space 70 is put in, the fixture mounting bracket 14 is moved in the opening direction where the opening 110 is located, and the main body 10 is fixed to the ceiling.
Next, the battery unit 40 is inserted from the opening 101 toward the back of one of the appliance mounting work spaces 70, that is, the battery mounting space 71.
Next, the light source unit 20 is attached to the wire 114, the frame mounting bracket 25 is fitted into the light source mounting hole 124, and the light source unit 20 is attached to the main body 10.

*** Explanation of the effect of the lighting fixture 100 ***
According to the present embodiment, the lighting device 30 is arranged in the center when viewed from the projection surface in the back direction from the opening of the main body 10, and is required when fixing the lighting fixture 100 to a construction material such as a ceiling. Space can be secured. In other words, the fixture mounting work space 70 can be secured by the shape and arrangement of the lighting device 30.
According to the present embodiment, since the fixture mounting work space 70 exists inside the main body 10, the mounting workability of the lighting fixture 100 is improved, and the lighting fixture 100 can be efficiently assembled.

According to the present embodiment, at the site where the lighting fixture 100 is attached to the ceiling, the construction work of the lighting fixture 100 can be performed without using any tools.

*** Explanation of the configuration of the light source unit 20 ***
4 to 13 are views for explaining the light source unit 20.
As shown in the exploded perspective view of FIG. 5, the light source unit 20 includes a lens 21, a socket 24, a light source 26, and a frame 29.
The lens 21 is a non-combustible material lens that controls the light distribution of the light emitted from the light source 26.
The lens 21 is arranged on the light emitting surface side of the socket 24.
As shown in FIG. 8, the lens 21 has three recesses 211 on the surface in contact with the socket 24.
The periphery of the lens 21 is protected by a ring-shaped packing 22.
The lens 21 projects from the surface of the frame 29.
The lens 21 is fixed by being sandwiched between the frame 29 and the socket 24.

The socket 24 has a disk shape having a recess in the center of the front surface and a flat surface on the back surface.
The socket 24 has an electrode for electrically connecting to the light source 26, and power is supplied to the light source 26 by a connection terminal built in the socket 24. The electric wire 242 is routed along the outer peripheral side surface of the socket 24 and is connected to the connector 243.
Power is supplied to the light source 26 via the socket 24.
As shown in FIG. 8, the socket 24 has three convex portions 241 on the surface in contact with the lens 21.
The socket 24 is fixed to the light source mounting portion 27 by a screw 23.

The light source 26 has a light emitting element, and a COB (Chip / On / Board) type LED is suitable.

The light source unit 20 has a pair of frame mounting brackets 25, a light source mounting portion 27, and a frame 29.
The frame mounting bracket 25 is a leaf spring bent in an L shape, and the light source unit 20 is mounted on the main body 10 by being hooked on the light source mounting hole 124.
The light source mounting portion 27 fixes the socket 24 on the light emitting surface side with screws 23, and mounts the light source 26 via the socket 24. The light source unit 20 is attached to the opening 101 of the luminaire 100 by the spring force of the mounting plate portion 253 at the other end of the frame mounting bracket 25 spreading outward.
The frame 29 is a ring-shaped decorative frame that covers the opening 101 of the main body 10.
The frame 29 is fixed to the light emitting surface side of the light source mounting portion 27.

As shown in FIG. 10, the frame mounting bracket 25 has a fixing plate portion 251, a flat plate portion 252, and a mounting plate portion 253.
The fixing plate portion 251 is fixed to the light source unit 20 and has a three-pronged portion 2511 having three teeth 254 at the tip.
The flat plate portion 252 is located between the fixing plate portion 251 and the mounting plate portion 253, and is urged so that the teeth 254 are located outside the side plate 12.
The mounting plate portion 253 is bent in a dogleg shape so that the doglegged portion is caught in the light source mounting hole 124 and the light source unit 20 is prevented from coming off due to the weight of the light source unit 20.
The width of the mounting plate portion 253 becomes narrower toward the tip. That is, as shown in FIG. 10, width W1> width W2.
The central tooth of the three teeth 254 of the three-pronged portion 2511 has a raised 255 raised in the opposite direction to the tooth 254. The teeth on both sides of the three teeth 254 of the three-pronged portion 2511 have a downwardly convex bent portion 256.

Since the light source mounting portion 27 is made of a lump of metal such as aluminum and has a function of a heat sink, a material having high thermal conductivity is preferable.
As shown in FIGS. 5 and 9, the light source mounting portion 27 includes a socket storage portion 271, a connector fixing hole 272, a bridge insertion hole 273, a knob storage portion 274, a thin wall portion 275, a notch portion 276, and a battery case storage portion 278. Has.
The socket storage portion 271 is a flat portion formed in the central portion of the light source mounting portion 27 and recessed one step from the periphery. The socket 24 and the electric wire 242 are arranged in the socket storage portion 271.
The connector fixing hole 272 is a hole formed at the edge of the light source mounting portion 27.
The connector fixing hole 272 penetrates and fixes the connector 243 of the electric wire 242.
The bridge insertion hole 273 is a rectangular hole in the thin-walled portion 275 formed at the edge of the light source mounting portion 27.
The knob storage portion 274 is a through hole for storing the knob 43 of the battery unit 40. The battery unit 40 has a knob 43 that protrudes in the opening direction, and the knob storage unit 274 stores the knob 43.
The battery case storage portion 278 is a dented portion for storing a part of the battery case of the battery unit 40.
The thin-walled portion 275 is a portion formed on the edge portion of the light source mounting portion 27, is formed with a connector fixing hole 272, and is a portion to which the fixing plate portion 251 of the frame mounting bracket 25 is mounted.
The notch 276 is an area through which the inspection switch 62 passes in the vertical direction. The notch 276 also serves as a line-of-sight passage area for checking the charging monitor 65.

The frame 29 is fixed to the light source mounting portion 27 by the fixing plate portion 251 at one end of the frame mounting bracket 25.
As shown in FIG. 9, the frame 29 has a protruding portion 291, a bridge processed portion 292, a bridge 293, an inspection hole 294, and a lens hole 295.
The lens hole 295 is a circular hole that exposes the lens 21.
The protruding portion 291 is an annular portion that protrudes in the light emitting direction along the outer circumference of the lens hole 295, and is a ring portion that covers the packing 22 that covers the brim portion 212 of the lens 21.
The bridge processing portion 292 is a portion in which one cut parallel to the frame 29 is made and a part of the frame 29 is rolled and deformed to the back side.
As shown in FIG. 11, the bridge 293 is a rectangular flat plate portion formed in a bridge shape from the back surface of the frame 29. Both ends of the bridge 293 are continuous with the frame 29. The distance I between the back surface of the bridge 293 and the front surface of the thin portion 275 is the same as or substantially the same as the plate thickness of the frame mounting bracket 25.

The inspection hole 294 is a hole that exposes the inspection switch 62 and the charging monitor 65 to the outside of the frame 29.

*** Explanation of the structure and assembly of the light source unit 20 ***
The light source 26 is mounted in a recess in the center of the surface of the socket 24.
The socket 24 has a structure in which the light source 26 is sandwiched between the light source 26 and the lens 21, and power is supplied to the light source 26 by a connection terminal built in the socket 24.
A connector 243 is attached to the tip of the electric wire 242 connected to the power supply terminal of the socket 24. The connector 243 is fixed to the connector fixing hole 272 of the light source mounting portion 27 to prevent tension from being applied to the power supply terminal of the socket 24.

The socket 24 is made of a material such as ceramics or resin.
Since the heat generated from the light source 26 is conducted to the light source mounting portion 27 via the socket 24, the material of the socket 24 is preferably a material having high thermal conductivity.
Further, a heat radiating sheet or grease for reducing the contact thermal resistance may be applied between the light source mounting portion 27 and the socket 24.

The lens 21 is arranged on the light emitting surface side of the socket 24.
In order to fix the positions of the lens 21 and the socket 24, the socket 24 and the lens 21 are provided with positioning mechanisms at positions facing each other.
Specifically, as shown in FIG. 8, the lens 21 is provided with a recessed recess 211 on the surface in contact with the socket 24, and the socket 24 has a protrusion-shaped protrusion at a position corresponding to the recess of the lens 21. A portion 241 is provided.
In FIG. 8, the concave portion 211 of the lens 21 and the convex portion 241 of the socket 24 are provided at three places, but the quantity may be appropriately changed according to the shape. The lens 21 may be provided with a convex portion and the socket 24 may be provided with a concave portion.

The lens 21 has a shape corresponding to a desired light distribution, and in the present embodiment, the lens 21 has a hemispherical or dome-shaped lens 21 protruding from the frame 29. The shape of the lens 21 may be appropriately changed according to the light distribution.
Further, the lens 21 does not have to protrude from the frame 29.
The lens 21 is preferably made of non-combustible glass, but may be made of a transparent resin such as polycarbonate or acrylic, silicon, or the like.
When used as an emergency lighting fixture, the outer shell of the fixture needs to be a non-combustible material. Therefore, when the lens 21 is made of a material other than glass, it is necessary to cover the outer shell of the lens 21 with a glass cover.

The lens 21 in the present embodiment has a hemispherical or dome-shaped protrusion from the lens hole 295 of the frame 29, and light is emitted from the protruding lens surface. At that time, if the inspection switch 62 protrudes from the frame 29, the emitted light may hit the inspection switch 62 and a desired light distribution may not be obtained.
The emergency lighting fixtures installed on a low ceiling with a height of 2 to 3 m have a light distribution with a peak of luminous intensity at a shallow angle (60 °), so the light is lit by the frame 29 and the pull rod type inspection switch 62. May be blocked.
Therefore, it is necessary to arrange the lens 21 and the inspection switch 62 in consideration of the direction (angle) emitted from the lens 21.
In the present embodiment, the lens 21 is projected in a hemispherical or dome shape so that the emitted light does not hit the inspection switch 62.
Further, a convex protrusion 291 is provided around the lens hole 295 of the frame 29, and the lens 21 is arranged in the light emitting direction. In this way, the positions of the lens 21 and the inspection switch 62 in the vertical direction are shifted so that the light distribution is not affected.

The lens 21 has a hemispherical or dome-shaped shape, and a brim portion 212 is provided on the outer peripheral portion of the lens 21. A ring-shaped packing 22 is attached to the brim 212, and when it comes into contact with another member, it is possible to prevent the lens 21 from being damaged by an impact. The packing 22 is made of, for example, silicon.

The frame mounting bracket 25 has a function of fixing the frame 29 and the light source mounting portion 27 and a function of fixing the light source unit 20 and the main body 10.

The light source unit 20 is fixed to the main body 10 by using the mounting plate portion 253 of the frame mounting bracket 25.
The shape of the mounting plate portion 253 of the frame mounting bracket 25 is such that the width becomes narrower toward the tip in accordance with the shape of the main body 10. As shown in FIG. 10, W1> W2.
Fixing the main body 10 and the frame 29 requires a holding force of a certain level or more. Therefore, a certain width is required when holding the frame mounting bracket 25 by utilizing its elasticity. On the other hand, since the main body 10 has a tubular shape and a circular cross section, and the cross-sectional shape of the frame mounting bracket 25 is straight, when the mounting plate portion 253 has a certain width or more, both ends of the mounting plate portion 253 become the main body. It interferes with the light source mounting hole 124 of 10.
Further, since the main body 10 has a cylindrical shape, if the width of the mounting plate portion 253 of the frame mounting bracket 25 is large, the spring must be flexed by that much for mounting.
Therefore, in order to maintain the holding force and not interfere with the main body 10, the mounting plate portion 253 at the tip of the frame mounting bracket 25 is adjusted to the shape of the main body 10 and the width is narrowed toward the tip so as not to interfere. It is possible to secure the holding power even in the state.

The light source mounting portion 27 is fixed to the frame 29 by the fixing plate portion 251 of the frame mounting bracket 25.
As shown in FIG. 11, the frame 29 is provided with a bridge 293 for fixing the frame mounting bracket 25, and the light source mounting portion 27 has a bridge insertion hole at a position corresponding to the bridge 293 provided on the frame 29. 273 is provided.
The fixing plate portion 251 that fixes the frame 29 and the light source mounting portion 27 is a three-pronged portion 2511 having a three-pronged shape, and three teeth are formed in the three-pronged portion 2511. The teeth at both ends of the three-pronged portion 2511 are present on both ends sides of the bridge insertion hole 273. The teeth at both ends of the three-pronged portion 2511 have a bent portion 256 bent in a V shape on the side of the light source mounting portion 27 with respect to the central tooth. Since the bent portion 256 presses the thin portion 275 against the frame 29, it has a function of bringing the frame 29 and the light source mounting portion 27 into close contact with each other.
As shown in FIG. 12, the central tooth of the three-pronged portion 2511 is inserted under the bridge 293. When the insertion of the central tooth of the three-pronged portion 2511 into the bridge 293 is completed, the cut-up 255 is caught on the outer wall of the bridge insertion hole, and the frame mounting bracket 25 cannot be removed. After fixing the light source mounting portion 27 to the frame 29, the cut-up 255 prevents the frame mounting bracket 25 from coming off.

As described above, the frame mounting bracket 25 has a function of bringing the frame 29 and the light source mounting portion 27 into close contact with each other. Further, since the frame mounting bracket 25 brings the frame 29 and the light source mounting portion 27 into close contact with each other, the frame mounting bracket 25 has a function of bringing the lens 21 into close contact with the frame 29 and the socket 24.

Here, a method of assembling the light source unit 20 will be described with reference to the exploded perspective view of FIG.
The socket 24 is fixed to the socket storage portion 271 of the light source mounting portion 27 with screws 23.
Next, the connector 243 is inserted into the connector fixing hole 272 to fix the connector 243 to the light source mounting portion 27.

Next, the packing 22 is put on the brim 212 of the lens 21.
Next, the concave portion 211 of the lens 21 is aligned with the convex portion 241 of the socket 24, and the lens 21 is aligned with the socket 24.
Next, the frame 29 is placed on the lens 21, and the lens 21 is sandwiched between the frame 29 and the socket 24. At this point, the lens 21 is in a state in which the movement in the horizontal direction is restricted by the positioning mechanism between the concave portion 211 and the convex portion 241 provided in the socket 24 and the protruding portion 291 of the frame 29.
When the frame 29 and the light source mounting portion 27 are aligned, as shown in FIG. 12, the bridge insertion hole 273 provided in the thin portion 275 of the light source mounting portion 27 is aligned with the bridge 293 provided in the frame 29. In this state, the bridge 293 of the frame 29 is higher than the thickness of the thin portion 275 of the light source mounting portion 27 by the height I, and the central tooth of the three-pronged portion 2511 of the frame mounting bracket 25 is inserted when viewed from the side surface. It will be ready.

As shown by the arrow in FIG. 12B, the frame mounting bracket 25 is inserted from the radial outside of the frame 29 toward the central axis O, and the central tooth cut-out 255 is inserted into the bridge insertion hole 273. The frame mounting bracket 25 is fixed to the frame 29 in this state.
The frame mounting bracket 25 has a raised 255 on the central tooth, and when the insertion is completed, the raised 255 is caught on the outer wall of the bridge insertion hole 273, so that the frame mounting bracket 25 can be removed even when a force is applied to the outside in the radial direction. Can be prevented.
In this way, the light source mounting portion 27 and the frame 29 are fixed only by the frame mounting bracket 25, and no screws or adhesives are used.
With the above, the light source unit 20 is completed.

The heat dissipation of the light source unit 20 will be described.
Since the light source 26 is fixed to the front surface of the socket 24 and the back surface of the socket 24 is fixed in surface contact with the socket storage portion 271 of the light source mounting portion 27, the heat of the light source 26 is transferred to the socket 24 and the light source is mounted. It is transmitted to the part 27.
The light source mounting portion 27 is fixed to the frame 29 by using the frame mounting bracket 25, and the frame 29 and the light source mounting portion 27 are in close contact with each other, so that the frame 29 and the light source mounting portion 27 are thermally coupled. The light source mounting portion 27 is in surface contact with the back surface of the frame 29 in the 360-degree direction with the light source 26 as the center, and the frame 29 and the light source mounting portion 27 are thermally connected.

On the other hand, as shown in the cross-sectional view taken along the line BB in FIG. 2, the light source unit 20 is arranged with respect to the lighting device 30 and the battery unit 40 via the heat cutoff space 72. Since the heat blocking space 72 exists between the light source mounting portion 27 and the lighting device 30, the light source unit 20 and the lighting device 30 are thermally separated from each other. Further, since the heat blocking space 72 exists between the light source mounting portion 27 and the battery unit 40, the light source unit 20 and the battery unit 40 are thermally separated from each other.

Further, as shown in FIG. 13, the back surface of the light source mounting portion 27 is arranged with respect to the collar 13 via the space S1. The light source mounting portion 27 has an outer peripheral surface 277 along the inner peripheral surface of the main body 10.
The outer peripheral surface 277 of the light source mounting portion 27 is arranged with respect to the inner peripheral surface of the main body 10 via the space S2. As described above, since the space S1 and the space S2 exist between the light source mounting portion 27 and the main body 10, the light source unit 20 and the main body 10 are thermally separated from each other.
In this way, most of the heat radiation to the outside air is performed from the frame 29.

*** Explanation of the effect of the light source unit 20 ***
According to the present embodiment, since the frame 29, the light source mounting portion 27, the socket 24, and the light source 26 are thermally connected, the heat generated from the light source 26 is dissipated through the light source mounting portion 27 and the frame 29. Therefore, the heat of the light source 26 can be efficiently dissipated from the frame 29 to the atmosphere.

According to the present embodiment, the frame 29 is thermally connected to the light source mounting portion 27, and the heat generated from the light source 26 can be dissipated through the frame 29, so that the life of the light source is extended.
According to the present embodiment, since the light source unit 20 is thermally separated from the lighting device 30 and the battery unit 40, which are internal parts of the main body 10, the degree of freedom of layout in the fixture is improved, and the fixture is made smaller. It becomes possible to realize the conversion.

According to the present embodiment, by using the socket 24, the light source 26 is electrically insulated from the light source mounting portion 27 and the frame 29.

According to the present embodiment, by fixing the frame 29 and the light source mounting portion 27 with the frame mounting bracket 25, the number of parts such as screws can be reduced and the assembling property can be improved.
Further, since the frame 29 and the light source mounting portion 27 are attached by sliding the frame mounting bracket 25 in the lateral direction, there is no possibility that the frame 29 will fall in the vertical direction.

According to the present embodiment, the mounting plate portion 253 of the frame mounting bracket 25 is tapered so as to follow the curved surface of the main body 10, and the amount of deflection can be reduced to improve workability and the spring. It is possible to prevent sagging.

According to this embodiment, the lighting fixture 100 can be used as an emergency lighting fixture by using a non-combustible material.

According to the present embodiment, by projecting the lens 21 with respect to the frame 29, it is possible to irradiate the floor surface without blocking the light.

According to this embodiment, since the light source mounting portion 27 and the frame 29 are only fixed by sandwiching the lens 21 only by sliding the frame mounting bracket 25, the assembling property is improved.
Further, since there is no fixing mechanism for fixing only the lens, the number of parts can be reduced.

According to this embodiment, since there is no misalignment of the lens 21, the light distribution is accurate.

*** Explanation of the configuration of the lighting device 30 ***
FIG. 14 is an exploded perspective view of the lighting device 30 of the present embodiment.
The lighting device 30 has a box-shaped device case 35.
The substrate unit 33 is housed inside the device case 35.

The device case 35 has a battery mounting portion 36 for mounting the battery unit 40 as a fitting structure with the battery unit 40. The battery mounting portion 36 is a guide mechanism provided on the side surface of the battery side case 31. The battery mounting portion 36 will be described later.

The device case 35 has an inspection unit mounting unit 351 for mounting the inspection unit 60 for checking the lighting of the light source 26. Reference numeral 351 is a recess formed at a corner of the inspection switch side case 32.
The inspection unit 60 is mounted on the outer surface of the device case 35.

The device case 35 has a battery-side case 31 and an inspection switch-side case 32.
The battery-side case 31 and the inspection switch-side case 32 are cases having a lid-like or shell-like shape with one side open and a central portion recessed.
The battery-side case 31 has a case claw hole 311 at the opening edge.
The inspection switch side case 32 has a case claw 321 on the opening edge.
The battery-side case 31 and the inspection switch-side case 32 have the same opening shape, and the case claws 321 are fitted into the case claw holes 311 to form a box-shaped device case 35.
The battery-side case 31 has a bottom surface 319, and has a harness slit 313 in which the bottom surface 319 is cut out in a narrow slit shape.
The connector surface 3121, which opposes the bottom surface 319, has a connector fixing hole 312 for fixing the connector. The bottom surface 319 and the connector surface 3121 are a pair of facing surfaces that are parallel and face each other.
The harness slit 313 is a groove into which the harness of the connector fixed to the connector fixing hole 312 is inserted.

The inspection switch side case 32 has a storage space 73 for accommodating the power terminal block 50 in the center of the bottom surface 319.
The inspection switch side case 32 has a screw boss 325 projecting laterally on the outer peripheral portion.
The screw boss 325 is screwed to the horizontal stopper piece 122 of the main body 10.
The inspection switch side case 32 has an opening 322 through which a harness is passed.
The inspection switch side case 32 has an inspection unit mounting portion 351 with a corner recessed inward.
Around the inspection unit mounting portion 351, there are a plurality of horizontal claw holes 323 that can be inserted in the lateral direction.
The inspection unit mounting portion 351 has a protruding claw 324 formed in the lateral direction in a bank shape.
The protruding claw 324 projects toward the inspection unit 60 and suppresses the inspection unit 60 from moving in the vertical direction.

FIG. 15 is an exploded perspective view of the substrate unit 33 of the present embodiment.
The board unit 33 has two circuit boards having a component mounting surface and a solder surface, and a board holder 333 holding the two circuit boards on both sides.
The substrate holder 333 has a claw 3331, a holder recess 3332, an insulating wall 3334, and a side wall 3335.
The claw 3331 is a claw formed laterally at the four corners of the insulating wall 3334.
The holder recess 3332 is a recess that forms the substrate holder 333 in a U shape.
The side wall 3335 is a vertical wall formed around the insulating wall 3334 and around the holder recess 3332.
The board holder 333 is arranged so that the solder surfaces of the two circuit boards face each other with the insulating wall 3334 sandwiched between them, and the two circuit boards are held by the claws 3331.
The two circuit boards are positioned by the side wall 3335 of the insulating wall 3334 and the side wall 3335 of the holder recess 3332.

The two circuit boards are a lighting circuit board 331 having a function of lighting the light source 26 in the event of a power failure of a commercial power source and a charging circuit board 332 having a function of charging the battery unit 40.
The lighting circuit board 331 has a component mounting surface 3313 and a solder surface 3314.
The charging circuit board 332 has a component mounting surface 3323 and a solder surface 3324.
The outer shape of the board holder 333 and the two circuit boards is rectangular, and has a long side LK and a short side SK.
The long side LK of the board holder 333 and the two circuit boards is substantially the same as the long side L of the lighting device 30, and the short side SK of the board holder 333 and the two circuit boards is the height H of the lighting device 30. The outer shape of the substrate holder 333 and the two circuit boards is almost the same as the inner peripheral shape of the open edge of the lighting device 30.
The lighting circuit board 331 has a board recess 3312, the charging circuit board 332 has a board recess 3322, and the boards of the two circuit boards have the same shape.
The board holder 333 has a holder recess 3332.
The board recess and the holder recess are in the same place, and the device case 35 forms a terminal block storage portion 352 for storing the power supply terminal block 50 in the place where the board recess and the holder recess are located.

The lighting device 30 includes a board connection harness 334 for connecting two circuit boards, a battery harness 335 for connecting the charging circuit board 332 and the battery unit 40, and an inspection switch for connecting the inspection board 64 and the lighting circuit board 331. Has a harness 337 for use.
The lighting device 30 has a light source connector 3361 for connecting a light source harness 336 that connects the lighting circuit board 331 and the light source unit 20.

*** Explanation of the structure and assembly of the lighting device 30 ***
The arrangement and structure of the lighting device 30 will be described.
The lighting device 30 is laid out in the center of the main body 10.
When the main body 10 is mounted on the ceiling, it is necessary to slide the fixture mounting bracket 14 for mounting, but it is necessary to secure a work space for sliding the main body 10.
The long side L of the lighting device 30 is arranged parallel to the longitudinal direction Y of the lighting device 30.
The short side S of the lighting device 30 is arranged parallel to the work space arrangement direction X.
The long side LKs of the two circuit boards are arranged in the same direction as the long side L of the lighting device 30, and the two circuit boards are arranged parallel to the longitudinal direction Y of the lighting device 30.
The short side SKs of the two circuit boards are arranged in the same direction as the height H of the lighting device 30.
The board holder 333 and the two circuit boards have a thin cube shape as a whole, and circuit components project on both sides. In this way, the lighting device 30 can also be formed into a thin cubic shape, and fixture mounting work spaces 70 can be formed on both sides of the lighting device 30.
Since the instrument mounting bracket 14 is arranged symmetrically in the 180-degree direction at two locations, an instrument mounting work space 70 is provided between the side surface 353 facing the instrument mounting bracket 14 and the inner surface of the main body 10.

The lighting device 30 is provided with a space for accommodating the power terminal block 50 as a terminal block accommodating portion 352.
The terminal block storage unit 352 for storing the power terminal block 50 of the lighting device 30 is provided in the center of the top surface side of the lighting device 30 and is a storage space 73.
The lighting circuit board 331 and the charging circuit board 332 of the lighting device 30 have a board recess 3312 and a board recess 3322 that are cut out in accordance with the terminal block storage portion 352 in which the power terminal block 50 is installed. The board holder 333 has a holder recess 3332 cut out in accordance with the terminal block storage portion 352 in which the power terminal block 50 is installed.

By adopting a synthetic resin for the outer shell of the lighting device 30, it is possible to secure the insulation performance with the fixture main body 10 and the like made of metal. As the synthetic resin, PC (polycarbonate), PP (polypropylene), PBT (polybutylene terephthate) and the like are suitable.

As shown in FIG. 15, the lighting device 30 supplies the charging circuit board 332 having a charging circuit for supplying the power of the external power source from the power supply terminal block 50 to the battery unit 40, and the discharge current from the storage battery to the light source 26. A lighting circuit board 331 having a lighting circuit is provided inside, and the charging circuit and the lighting circuit are electrically connected.
By arranging the circuit board of the lighting device 30 separately on the two circuit boards in this way, it is possible to suppress the height H of the lighting device 30.
Not limited to this, if necessary parts can be mounted, it is possible to make one circuit board without dividing it.

The divided charging circuit board 332 and the lighting circuit board 331 are engaged with each other by the board holder 333.
Since the distance between the circuit boards can be shortened by engaging the solder surfaces side with each other facing each other, the circuit board components inside the case of the lighting device 30 while suppressing the length of the short side S of the lighting device 30. It is possible to secure the mounting height of the work space arrangement direction X.

By adopting synthetic resin as the material of the substrate holder 333, the insulation performance between the charging circuit board 332 and the lighting circuit board 331 can be ensured, and the distance between the circuit boards can be shortened.

The charging circuit board 332 and the lighting circuit board 331 are electrically connected by a board connecting harness 334, and the board connecting harness 334 can be locked or stored by the harness fixing portion 3333 of the board holder 333. Is. The harness fixing portion 3333 has a structure for fastening electric wires or harnesses together.

The method of assembling the lighting device 30 will be described.
First, the lighting circuit board 331 and the charging circuit board 332 are attached to the board holder 333.
The mounting is fixed by fitting each board to the claws 3331 provided on the board holder 333.
The lighting circuit board 331 and the charging circuit board 332 can be attached by hand, and no tools are required. No screws or glue is used.
The circuit board is fixed in the left-right direction by fitting the concave shape of the substrate concave portion 3312 and the substrate concave portion 3322 in the center of the upper part of the substrate and the convex shape formed by the holder concave portion 3332 of the substrate holder 333.
After attaching the two circuit boards to the board holder 333, the board connection harness 334 is connected to each board.
The board connection harness 334 is inserted into the harness fixing portion 3333 provided on the upper part of the board holder 333 so as not to run wild inside the device case 35, and the position is fixed.

Next, after attaching the battery harness 335 to the charging circuit board 332, the battery side connector 3351 of the battery harness 335 is attached to the battery side case 31.
When a sufficient working space cannot be secured in the battery-side case 31, a harness slit 313 is provided on the top surface side of the battery-side case 31 in the back direction. By inserting the electric wire portion of the battery harness 335 into the harness slit 313 and extending the battery harness 335 linearly from the harness slit 313 to the outside of the battery side case 31, the battery side connector 3351 is connected to the arrow in FIG. It can be pierced straight toward the connector fixing hole 312 in the direction, and the battery-side connector 3351 can be easily fixed to the connector fixing hole 312.

If there is no harness slit 313, it is necessary to fix the battery side connector 3351 to the connector fixing hole 312 from an oblique direction in the recessed narrow space of the battery side case 31. Further, the work is carried out in a state where the electric wire portion of the battery harness 335 is hooked on the edge portion of the battery side case 31 and the battery harness 335 is bent in the recessed narrow space of the battery side case 31. turn into.

After fixing the battery side connector 3351 to the connector fixing hole 312 while passing the battery harness 335 through the harness slit 313, the battery harness 335 is removed from the harness slit 313, and the battery harness 335 is recessed in the battery side case 31. It is housed in a narrow space and the other end of the battery harness 335 is connected to the charging circuit board 332.

Next, the board holder 333 to which the two circuit boards are fixed is assembled to the battery side case 31. At this time, the charging circuit board 332 is housed in the battery-side case 31.
Next, the inspection switch harness 337 is attached to the inspection switch connector 66 provided on the lighting circuit board 331. With the inspection switch harness 337 connected, the inspection switch side case 32 is attached to the battery side case 31. At that time, the inspection switch side connector 3371 of the inspection switch harness 337 is put out from the opening 322 provided in the inspection switch side case 32.

*** Explanation of the effect of the lighting device 30 ***
According to the present embodiment, since the tubular main body 10 and the lighting device 30 whose outer shell built in the main body 10 is made of resin are provided, the lighting device 30 can be thermally separated. Therefore, the life of the circuit board is extended without affecting the lighting device 30 by the heat generated from the light source 26.

According to this embodiment, by arranging the lighting device 30 in the center of the cylindrical main body 10, it is possible to increase the component mounting area of the circuit board, and further improve the degree of freedom of layout in the fixture. However, it is possible to reduce the size of the equipment.

According to the present embodiment, the lighting device 30 has a rectangular parallelepiped shape, and the power supply terminal block 50 has a cubic shape. Therefore, in the space in the longitudinal direction Y of the lighting device on the side where the power supply terminal block 50 is arranged. However, the circuit board can be arranged, and the number of components mounted on the circuit board can be increased. Therefore, the lighting device 30 can be miniaturized.

*** Explanation of the configuration of the battery unit 40 ***
The battery unit 40 serves as an emergency power source in the event of a power failure or the like.
The battery unit 40 is arranged inside the main body 10 and is arranged between the side surface 353 having the long side L of the lighting device 30 and the inner peripheral surface of the main body 10. The battery unit 40 is slid from the vertical direction on the side of the lighting device 30.

The battery unit 40 has a battery 41, a battery case 42, and a knob 43.
The battery 41 is a rechargeable battery that can be charged.
The battery case 42 is a case in which the battery 41 is housed.
The knob 43 is a handle used for attaching / detaching the battery case 42.
The height of the battery unit 40 excluding the knob 43 is the same as the height of the lighting device 30. Alternatively, it is desirable that the heights be approximately the same.

The battery case 42 has an electric wire storage unit 421 and a battery storage unit 422.
The electric wire storage portion 421 has a duct shape and arranges electric wires.
The battery storage unit 422 has a tubular shape and arranges the battery 41.

The battery unit 40 has a battery connector 45.
The battery connector 45 is inserted into the battery-side connector 3351 and is electrically connected to the lighting device 30. The battery unit 40 is configured to use five AA cells (AA size).

The battery unit 40 has a fitting structure M with the lighting device 30.
The fitting structure M has a pair of rail-shaped guide ribs 46. The guide rib 46 has a rib tapered portion 461 having a curved surface at the end.
The fitting structure M has an overhanging portion 47 overhanging toward the lighting device 30 between the pair of guide ribs 46.
The fitting structure M has a battery connector 45 on the side of the overhanging portion 47.

The battery mounting portion 36 of the lighting device 30 will be described with reference to FIGS. 17 and 18.
The lighting device 30 has a pair of mounting guides 314 that slide the guide ribs 46.
The mounting guide 314 forms a guide groove 317 that gradually narrows in the depth direction of the main body 10.
The outer surface of the mounting guide 314 has an arc shape and is in contact with the inner peripheral surface of the main body 10.
The lighting device 30 has an auxiliary guide 315 that assists the guide rib 46 in going straight in the depth direction from the mounting guide 314.
The lighting device 30 has a slide wall 316 that limits the battery unit 40 from tilting diagonally to the left or right in the depth direction with respect to the mounting guide 314.
The lighting device 30 has a connector installation surface 318 provided at a position lower than the height H in the vertical direction of the lighting device 30. On the connector installation surface 318, a battery-side connector 3351 that receives power from the battery unit 40 is arranged.

The battery unit 40 is arranged along the side of the lighting device 30 and has a shape that does not interfere with the fixture mounting bracket 14. As shown in FIG. 16, the battery unit 40 has a vertical recess 44 formed in a vertical groove shape on the outer peripheral surface facing the slit 123 in order to avoid the fixture mounting bracket 14.

*** Explanation of the structure and assembly of the battery unit 40 ***

A battery unit 40 is connected to the lighting device 30.
The battery unit 40 is for turning on the light source 26 in an emergency.
The battery unit 40 is charged from the lighting device 30 when power is supplied from the commercial power source, and supplies power to the lighting device 30 when the commercial power supply fails.
The charging method of the battery unit 40 supplements the self-discharge of the battery unit 40 and is always in a fully charged state, so trickle charging is desirable.

The battery mounting portion 36 of the lighting device 30 is provided from the side surface 353 toward the fixture mounting work space 70. In this way, the battery mounting space 71 is formed in one of the pair of fixture mounting work spaces 70. The battery mounting space 71 is provided on the side of the lighting device 30 where the charging circuit board 332 is located, and is arranged on the side opposite to the inspection unit 60.

The battery unit 40 is inserted into the main body 10 after fixing the main body 10 to the ceiling, and is connected to and fixed to the lighting device 30. At this time, the lighting device 30 and the battery unit 40 are fitted to the battery side connector 3351 fixed to the lighting device 30 and the battery connector 45 of the battery unit 40, and to the battery fixing metal fitting 121 installed in the main body 10. It is fixed to the battery mounting portion 36 by fitting.

Since the battery unit 40 is connected after the main body 10 is fixed to the ceiling, the battery is located at a position where it overlaps with the equipment mounting work space 70 secured as a space for operating the equipment mounting bracket 14 on the projection surface in the vertical direction. The unit 40 can be arranged.

Further, it is desirable that the charging circuit board 332 of the lighting device 30 is arranged in consideration of the insertion position of the battery unit 40. That is, it is desirable that the tall circuit components of the charging circuit board 332 are laid out while avoiding the arrangement of the battery unit 40.
As shown in FIG. 17, the side surface 353 of the battery side case 31 has a dent space 74 recessed from the side surface 353, and has a structure in which the overhanging portion 47 is fitted. The dent space 74 is located in the central portion of the side surface 353.
As described above, when the insertion position of the battery unit 40 is the central portion of the charging circuit board 332, the tall circuit components of the charging circuit board 332 are not arranged in the central portion of the charging circuit board 332 but are arranged on both sides. Is good.

The fitting structure M of the battery unit 40 and the battery mounting portion 36 of the lighting device 30 will be described.
As shown in FIG. 17, the battery unit 40 is inserted into the battery mounting portion 36 of the lighting device 30 while sliding toward the back.
The battery unit 40 is provided with a guide rib 46 for sliding, and the lighting device 30 at a position corresponding to the guide rib 46 is provided with a mounting guide 314.

The lighting device 30 is installed in the main body 10, but a clearance is provided between the inner peripheral surface of the main body 10 and the outer peripheral surface of the device case 35 of the lighting device 30. If there is a space between the battery guide of the lighting device 30 and the main body 10, the guide rib 46 of the battery unit 40 may not be inserted at a predetermined position. That is, there is a possibility that the guide rib 46 is fitted in the space between the mounting guide 314 of the lighting device 30 and the main body 10. Therefore, the shape of the mounting guide 314 of the lighting device 30 is a trumpet-shaped shape in which the battery insertion side is widened to attract the guide rib 46 of the battery unit 40 so that the battery is inserted at an unintended position. Can be prevented.
Further, since the rib taper portion 461 is provided, the guide rib 46 can be smoothly inserted into the mounting guide 314.
The mounting guide 314 becomes narrower in the insertion direction, suppresses rattling as the battery unit 40 is inserted, and eliminates rattling when the battery unit 40 is completely inserted. ..

There is one mounting guide 314 on each side of the lighting device 30 of the present embodiment, and the right mounting guide 314 and the left mounting guide 314 are displaced in the vertical direction, that is, in the gravity direction. This is to make the position of the connector installation surface 318 in the height direction lower than the height H of the lighting device 30 to secure a space for fixing the battery connector 45 to the lighting device 30. If the positions of the left and right mounting guides 314 are displaced in the vertical direction, the battery unit 40 may be tilted to the left or right while the battery unit 40 is being inserted. Therefore, by providing a slide wall 316 that serves as a guide wall in the vertical direction at a position other than the trumpet-shaped mounting guide 314, the battery unit 40 can be inserted straight into a predetermined position evenly on the left and right sides.
The battery connector 45 and the battery side connector 3351 are automatically connected when the battery unit 40 is inserted straight.

A part or all of the outer peripheral surface of the battery case 42 is in contact with the inner peripheral surface of the main body 10. When inserting the battery unit 40, the battery unit 40 can be easily inserted by inserting the outer peripheral surface of the battery case 42 so as to be in contact with the inner peripheral surface of the main body 10.

The battery unit 40 has a limited life, and it is generally desirable to replace it within 4 to 6 years. Therefore, the battery unit 40 needs to be removed after the equipment is installed.
The battery unit 40 can be removed by pressing the battery fixing metal fitting 121 against the inner peripheral surface of the main body 10 while pushing the battery unit 40 inward to remove the fixing by the battery fixing metal fitting 121. Since the battery unit 40 is hooked by the battery fixing metal fitting 121, the battery unit 40 can be removed without tools by removing the hook of the battery fixing metal fitting 121.
A knob 43 is provided on the lower surface of the battery unit 40 so that the battery unit 40 can be easily taken out when the battery unit 40 is removed. It is desirable that the knob 43 is provided with ribs, grooves, holes, etc. for preventing slipping in order to improve operability.
When the battery case 42 of the battery unit 40 has a structure that is easy to grasp, the knob 43 may not be provided.

Since the knob 43 and the electric wire accommodating portion 421 provided in the battery unit 40 are in an interference position with the light source attaching portion 27 attached to the frame 29, it is necessary to avoid the knob 43 and the electric wire accommodating portion 421.
In order to reduce the overall height of the luminaire 100, it is desirable to provide reliefs such as holes, dents, and dents at positions corresponding to the knob 43 of the light source mounting portion 27 and the electric wire storage portion 421.
The knob storage portion 274 of the light source mounting portion 27 is a hole or a recess provided corresponding to the knob 43 of the battery unit 40, and realizes miniaturization of the luminaire 100.
The battery case storage portion 278 of the light source mounting portion 27 is a recess or dent provided corresponding to the electric wire storage portion 421 of the battery unit 40, and realizes miniaturization of the luminaire 100.

*** Explanation of the effect of the battery unit 40 ***
According to the present embodiment, the battery unit 40 can be efficiently and accurately mounted by the battery mounting portion 36 and the fitting structure M.

According to this embodiment, the battery unit 40 can be arranged in the fixture mounting work space 70 provided between the main body 10 and the lighting device 30, and the work space and the battery unit 40 required for mounting can be arranged. Since it is possible to share the arrangement space of the lighting fixture 100, it is possible to reduce the size of the lighting fixture 100.

*** Explanation of the configuration of the power terminal block 50 ***
The power terminal block 50 is a connector for supplying electric power from a commercial power source to the lighting device 30.
The power terminal block 50 has a cubic shape.
For example, a VVF cable is connected to the power terminal block 50.
One surface of the terminal body 51 is exposed to the outside from the terminal exposed hole 113 of the back plate 11 of the main body 10, and a cable is connected to the terminal body 51 from the terminal exposed hole 113.
The power terminal block 50 is provided with an output terminal to the lighting device 30, and power can be generated by connecting the output terminal and the input connector provided on the lighting circuit board 331 of the lighting device 30 with wiring. Will be supplied.

The terminal body 51 of the power terminal block 50 has a ground terminal, and is fixed to the back plate 11 by the terminal mounting plate 52.
The contact piece of the ground terminal is electrically connected to the metal terminal mounting plate 52.
By bringing the terminal mounting plate 52 into contact with the metal back plate 11 of the main body 10 and screwing it inside the main body 10 with a metal screw 19, grounding continuity of the instrument is ensured.

When reducing the height of the luminaire 100, the power terminal block 50 is all housed in the terminal block storage section 352 of the lighting device 30, and the back surface of the power terminal block 50 is the back surface of the lighting device 30. The power terminal block 50 is arranged so as to be aligned with. By bringing the terminal main body 51 into contact with the inner surface of the back plate 11 of the main body 10, it is possible to suppress the height of the appliance and secure the grounding continuity.
One surface of the power terminal block 50 is exposed to the outside from the back plate 11, but the remaining five surfaces are covered with the resin surface of the device case 35 of the lighting device 30 except for the hole portion through which the harness is passed.

*** Explanation of the effect of the power terminal block 50 ***
According to the present embodiment, the power terminal block 50 is arranged in the center of the main body 10 in the back direction and is arranged in the center of the lighting device 30, so that the fixture mounting work space 70 can be secured on both sides inside the main body 10. This leads to improvement in workability of the lighting fixture 100.

*** Explanation of the configuration of the inspection unit 60 ***
The inspection unit 60 is built in the luminaire 100 and is used for inspecting the luminaire 100.
When the luminaire 100 is an emergency luminaire, the lighting device 30 includes a circuit for switching between normal lighting and emergency lighting, and an inspection unit 60 is provided to perform the switching operation from the outside for the purpose of inspection.
The inspection unit 60 is externally attached to the outer surface of the corner of the device case 35, and is fitted and mounted in the lateral direction.

As shown in FIG. 14, the inspection unit 60 includes a unit housing 61, an inspection switch 62, a coil spring 63, and an inspection board 64.
The unit housing 61 is a resin cover to which the inspection switch 62 and the inspection board 64 are attached. The unit housing 61 has a flat surface portion 614 arranged on the same plane as the side surface 353, and a tubular arc portion 615 having the same radius as the outer peripheral surface 354. The flat surface portion 614 and the tubular arc portion 615 are substantially orthogonal to each other.
The inspection switch 62 is a switch that is vertically operated by a person from the outside of the luminaire. The figure shows a pull rod type switch.
The inspection switch 62 is laid out at a position where the inspection hole 294 and the notch 276 exist in the vertical direction.
The coil spring 63 is a spring for always pulling the inspection switch 62 inward.
The inspection board 64 is a circuit board that inspects the luminaire 100 based on the operation of the inspection switch 62.
The inspection board 64 is arranged in parallel with the lighting circuit board 331 and the charging circuit board 332.
The inspection board 64 inspects whether the light source 26 is turned on by the electric power of the battery unit 40.
The inspection board 64 has a charging monitor 65 for checking the charging state of the battery.
The unit housing 61 has a fixing mechanism 611.
The fixing mechanism 611 is a mechanism for fixing the inspection switch 62 and the inspection board 64 to the internal parts of the luminaire 100 or the inner surface of the luminaire.
As the fixing mechanism 611, a lateral claw 612 and a lateral claw 613 which are formed so as to project in the lateral direction and are fitted in the lateral direction are suitable.
The horizontal claw 612 is a claw formed so as to project laterally from the end of the flat surface portion 614 of the unit housing 61 toward the side surface 353.
The horizontal claw 613 is a claw formed so as to project laterally from the end of the tubular arc portion 615 of the unit housing 61 toward the outer peripheral surface 354.
The lateral claw 612 and the lateral claw 613 are claws formed in directions orthogonal to each other in the lateral direction.
The unit housing 61 is fixed to the outer surface of the lighting device 30 by the horizontal claws 612 and the horizontal claws 613 without using a tool.
The unit housing 61 does not protrude from the same plane as the side surface 353. Further, it does not protrude from the arc surface having the same radius as the outer peripheral surface 354.

The fixing mechanism 611 has a vertical movement limiting mechanism 67 that limits the vertical movement of the unit housing 61.
The vertical movement limiting mechanism 67 prevents the unit housing 61 from coming off in the vertical direction.
As the vertical movement limiting mechanism 67, it is preferable to use a protruding claw 671 protruding inward from the inner surface of the unit housing 61. The protruding claw 671 is caught by the protruding claw 324 protruding outward from the outer surface of the inspection unit mounting portion 351 to prevent the unit housing 61 from coming off in the vertical direction.

The inspection unit mounting portion 351 is formed by denting the corners of the device case 35, and the unit housing 61 has a cover shape that covers the dent of the inspection unit mounting portion 351. The device case 35 and the unit housing It has a cubic shape with the body 61.

*** Explanation of structure and assembly of inspection unit 60 ***
The method of assembling the inspection unit 60 will be described.
First, the coil spring 63 is set on the body of the inspection switch 62 and fitted into the unit housing 61.
The inspection switch 62 and the unit housing 61 are provided with a boss and a standing wall for fixing the coil springs, respectively, so that the inspection switch 62 is always positioned in a state of being pushed up in the inward direction in the state where the equipment is installed.

Next, the inspection board 64 is fitted into the board claws provided on the unit housing 61. In this state, the inspection switch side connector 3371 of the inspection switch harness 337 taken out from the device case 35 of the lighting device 30 is attached to the inspection switch connector 66 of the inspection board 64.
After that, the unit housing 61 is attached to the inspection unit mounting portion 351 provided in the inspection switch side case 32. When the unit housing 61 is attached to the inspection unit mounting portion 351, the horizontal claw 612 provided in the unit housing 61 is inserted into the horizontal claw hole 323 provided in the side surface 353 of the inspection switch side case 32, and the horizontal claw 613 Is inserted into the lateral claw hole 323 provided on the outer peripheral surface 354 of the inspection switch side case 32.
The direction of insertion is a horizontal direction orthogonal to the vertical direction in which the inspection switch 62 is operated. This is to prevent the unit housing 61 from coming off from the inspection switch side case 32 when the inspection switch 62 is operated.

On the other hand, if it is only hooked in the horizontal direction, it is not fixed in the vertical direction and easily comes off. Therefore, the protruding claw 671 is also provided in the vertical direction to fix it. That is, in order to limit the vertical movement, the unit housing 61 is used to move the unit housing 61 to the device case 35 in the lateral direction with respect to the wall surface in the back direction of the protruding claw 324 of the inspection unit mounting portion 351. The wall surface of the protruding claws 671 in the opening direction may be slid from the lateral direction to hook the protruding claws to each other. In the vertical direction, the wall surface of the protruding claw 671 of the unit housing 61 in the opening direction is in contact with the wall surface of the protruding claw 324 of the inspection unit mounting portion 351 in the back direction, so that the inspection unit 60 moves in the opening direction. Can't.

The inspection board 64 is provided with a charging monitor 65 together with an inspection switch 62, and the charging monitor 65 is provided so that the light emitting state of the charging monitor 65 can be confirmed from the frame 29 in a state where the inspection unit 60 is assembled to the device case 35. Is laid out at a position where the inspection hole 294 and the notch 276 are present in the vertical direction. For the charging monitor 65, for example, a green LED is used. The number of monitors may be two or more instead of one.

The place where the inspection switch 62 is fixed is on the lighting circuit board 331 side, but the lighting circuit board 331 and the inspection board 64 are arranged in parallel, and the lighting circuit board 331 and the inspection board 64 are on the board surface. They are arranged so as to overlap with each other in the vertical horizontal projection plane. Therefore, as for the circuit parts of the lighting circuit board 331, it is desirable to use parts having a height as low as possible at the place where the inspection board 64 is arranged.
By doing so, it becomes possible to arrange the three circuit boards in parallel, and the boards can be efficiently arranged even in the small space of the main body 10.

*** Explanation of the effect of the inspection unit 60 ***
According to the present embodiment, since the inspection unit 60 exists separately from the lighting device 30, the degree of freedom in the arrangement position of the inspection unit 60 is increased, and the same inspection unit 60 can be used in various lighting fixtures. ..

Embodiment 2.
In the second embodiment, the points different from the first embodiment will be described.
*** Explanation of structure and structure ***
Some emergency lighting fixtures have different illuminance ranges and some have different emergency lighting times depending on the battery unit.
The battery unit also needs to increase its capacity according to the output of the light source 26.

When the illuminance range is different, it is possible to deal with it by changing the output of the light source 26 and the shape of the lens 21.
Further, when the emergency lighting time is different, it is possible to deal with it by changing the capacity of the battery unit 40.

The battery unit 40 of the first embodiment is configured to use five AA cells (AA size), but when the capacity is increased, the battery unit 40 is located inside the main body 10 in the upward or downward direction or in the lateral direction. In addition, an enlarged battery unit 40 can be used, and the battery can be changed to C cell or the number of cells can be increased.

When increasing the capacity of the battery unit 40, it is possible to change the size or number of cells. At that time, it is necessary to change the shape of the battery unit 40, but this can be dealt with by enlarging the outer shell of the case of the battery unit 40 without changing the fitting structure M using the guide rib 46 with the lighting device 30. ..
Regarding the method of changing the shape of the battery unit 40, it is conceivable that the shape of the battery unit 40 is expanded in the height direction of the appliance as shown in FIGS. 19 and 20, and the diameter of the appliance is expanded as shown in FIGS. 21 and 22. ..
When it expands in the height direction of the fixture, it can be dealt with by changing the height of the fixture while keeping the diameter of the fixture the same.

On the other hand, when the diameter of the appliance is increased, it is possible to deal with it by changing only the outer shape of the appliance without changing the height of the appliance.
These are appropriately selected according to the form of the device.

In the fixture embedded in the ceiling shown in FIG. 20, since the fixture height does not affect the design surface, it is desirable to change the fixture height without changing the fixture diameter.
In the battery unit 40 shown in FIG. 19, a part of the battery unit is arranged from the lighting device 30 in the opening direction where the opening 101 is located.
The battery unit 40 shown in FIG. 19 has the same fitting structure M as in the first embodiment, and has an enlarged portion N in the vertical direction.
In the fixture embedded in the ceiling shown in FIG. 20, the enlarged portion N of the battery unit 40 is arranged on the side of the lighting device 30 where the light source unit 20 is located. The enlarged portion N of the battery unit 40 is located between the lighting device 30 and the light source unit 20, and as in the first embodiment, the fixture mounting work space 70 is secured on both sides of the lighting device 30, so that the fixture mounting work space 70 is secured. It does not hinder the movement of the metal fitting 14.
In the fixture embedded in the ceiling shown in FIG. 20, it is difficult to secure 10% or more of the height T of the lighting fixture 100 for the vertical length K3 of the heat blocking space 72, but a gap of 5% or more is provided. It is better to secure and insulate.

The battery unit 40 shown in FIG. 21 has a semi-cylindrical shape, has the same fitting structure M as that of the first embodiment in the center, and has an enlarged portion N in the radial direction. The outer peripheral radius of the battery unit 40 is the same as the inner peripheral radius of the enlarged main body 10.
In the fixture directly attached to the ceiling shown in FIG. 22, if the height of the fixture is changed, the amount of protrusion from the ceiling surface increases. Therefore, it is desirable to increase the diameter of the fixture while keeping the height the same.

In the fixture directly attached to the ceiling shown in FIG. 22, the main body 10 has a pair of fixture mounting holes 115 in the work space arrangement direction X.
The lighting device 30 is fixed to the main body 10 so as to cross the linear direction connecting the pair of fixture mounting holes 115 and not to block the fixture mounting holes 115.
The fixture directly attached to the ceiling is fixed to the ceiling with screws, but by laying out the lighting device 30 in the center of the main body 10, the fixture mounting work space 70 is formed at a position symmetrical with the center of the fixture. The instrument mounting hole 115 can be exposed in the opening direction. The instrument mounting hole 115 is formed in the work space arrangement direction X, similarly to the slit 123 of the first embodiment. That is, by forming the instrument mounting hole 115 in the depth direction of the instrument mounting work space 70 of the back plate 11, a screwing work space to the ceiling can be secured.

In the fixture directly attached to the ceiling shown in FIG. 22, a space is created between the outer peripheral surface 354 of the lighting device 30 and the inner peripheral surface of the main body 10, so that the left and right parts of the enlarged portion N of the battery unit 40 are lit. It is arranged in a space between a part of the outer peripheral surface 354 which is a side surface having a short side of the device 30 and the inner peripheral surface of the main body 10.

Even in the fixture directly attached to the ceiling shown in FIG. 22, it is desirable that the power terminal block 50 is arranged at the center of the main body 10. This is because when drilling a hole in the ceiling, the hole is drilled in the center where the fixture is attached, and the electric wire from the back of the ceiling can be easily attached to the power terminal block 50.

In the fixture directly attached to the ceiling shown in FIG. 22, the main body 10 is integrated with the frame 29 of the light source unit 20, and the main body 10 is exposed in the air.
Therefore, it is desirable to eliminate the spaces S1 and S2 between the light source mounting portion 27 and the main body 10 shown in FIG. 13, bring the light source mounting portion 27 into contact with the main body 10, and transfer heat from the light source mounting portion 27 to the main body 10.
Since the main body 10 is exposed in the air, the heat dissipation effect is enhanced and the temperature of the light source 26 can be lowered.

*** Explanation of effect ***
According to the present embodiment, by sharing the fitting structure M with the lighting device 30 using the guide rib 46 in the battery unit 40, only the battery unit 40 is changed while sharing the common lighting device 30. This makes it possible to support a plurality of types of lighting fixtures 100.

Embodiment 3.
In the third embodiment, the differences from the first and second embodiments will be described.

*** Explanation of configuration ***
In the present embodiment, the light source for civil time is turned on during normal use when the power is supplied from the commercial power supply, the light source for emergency is turned off, and the light source for normal use is turned off when the commercial power supply is cut off. Explains a device in which is turned off and an emergency light source is turned on.

FIG. 23 is a diagram of the luminaire 100 according to the third embodiment.
The luminaire 100 has a long main body 10.
The main body 10 is equipped with a civil time light source 80 and an emergency light source 90.
Here, as the civil time light source 80, for example, a straight tube type LED lamp, an LED module, a fluorescent lamp, or the like is used. The civil time light source 80 is covered with a resin cover 81 such as polycarbonate.
Further, as the emergency light source 90, for example, a COB type LED is used. The emergency light source 90 is covered with a glass lens 21.

The appliance of the present embodiment receives power from a commercial power source during normal use, the light source 80 for normal use is turned on, and the light source 90 for emergency is turned off. In addition, the battery is in a charged state.

In the present embodiment, the lighting device 30 is a lighting device for the emergency light source 90, and a civil time lighting device 82 is separately provided for the civil time light source 80. The separately provided lighting device 82 for normal use may be integrated with the lighting device 30 for an emergency light source.
The main body 10 has an inspection hole 294, and the inspection switch 62 is exposed. Further, there is a charging monitor 65 behind the inspection hole 294.

FIG. 24 is an installation diagram of the lighting device 30, the inspection unit 60, and the power terminal block 50 according to the third embodiment.
In FIG. 24, the emergency light source 90 is shown in a simplified manner, but the light source unit 20 described in the first or second embodiment can be used as it is, or the frame mounting bracket 25 can be shortened.
The lighting device 30, the battery unit 40, the power terminal block 50, and the inspection unit 60 in FIG. 24 are the same as those in the first embodiment.
Similar to the first embodiment, the lighting device 30 and the power terminal block 50 are fixed to the back plate 11 and housed inside the main body 10. One surface of the power terminal block 50 is exposed from the terminal exposure hole 113 of the back plate 11 and is connected to the power cable.

Further, as in the first embodiment, the inspection unit 60 has a shape that can be assembled from the outside of the lighting device 30, and the inspection unit 60 is independent of the lighting circuit board 331 and the charging circuit board 332 of the lighting device 30. It has a structure that is

The fitting of the inspection unit 60 to the lighting device 30 is in a direction orthogonal to the operation direction of the inspection switch 62. The inspection unit 60 can be attached to and detached from the lighting device 30 without tools.

Since the inspection unit 60 has a configuration independent of the lighting device 30, the inspection unit 60 can be attached to a place other than the lighting device 30 depending on the shape of the appliance. At that time, the shape of the unit housing 61 may be changed as appropriate.
For example, in an instrument having a high overall height, it may be difficult to visually recognize the charging monitor 65 mounted on the inspection board 64 when it is attached to a deep place.
In such a case, in the first embodiment, the inspection unit 60 may be fixed to the inner surface of the frame 29 of the light source unit 20 or the inner surface of the main body 10 close to the light source unit 20.
Further, as shown in FIG. 25, it is preferable to form the unit housing 61 of the inspection unit 60 in a box shape and fix the inspection unit 60 to the inner surface of the main body 10 close to the emergency light source 90. In FIG. 25, the unit housing 61 has a screw boss 69, and the unit housing 61 is screwed to the main body 10 from the lateral direction.
At that time, the unit housing 61 may be used as a design cover.

*** Explanation of effect ***
According to the present embodiment, the inspection unit 60 is assembled from the outside of the lighting device 30, and the inspection unit 60 has a configuration independent of the lighting circuit board 331 and the charging circuit board 332 of the lighting device 30. Therefore, the arrangement position of the inspection unit 60 can be changed according to the shape of the lighting fixture 100 or the shape of the lighting device 30.

According to this embodiment, the inspection unit 60 can be attached to an instrument having a different form by changing only the shape of the unit housing 61, and the inspection unit 60 can be used regardless of the form of the instrument. Therefore, it is possible to standardize parts such as the lighting device 30.

According to this embodiment, the lighting device 30 and the inspection unit 60 can be integrated, so that the equipment can be miniaturized.

Embodiment 4.
In the fourth embodiment, the differences from the first, second, and third embodiments will be described.

*** Explanation of configuration ***
FIG. 26 is an exploded perspective view of the light source unit 20 according to the fourth embodiment.
FIG. 27 is a cross-sectional view taken along the line PP of the light source unit 20 of FIG.
The frame 29 has a pair of conical screw receiving portions 296 in the radial direction. There is a screw hole 297 in the center of the conical screw receiving portion 296. The conical screw receiving portion 296 has a truncated cone shape without a top surface and a bottom surface.

The fixing plate portion 251 of the frame mounting bracket 25 has a holding plate portion 2513 and a standing plate portion 2512. The holding plate portion 2513 and the standing plate portion 2512 are orthogonal to each other, and the standing plate portion 2512 is parallel to or substantially parallel to the flat plate portion 252.
A fitting hole 2514 is formed in the center of the holding plate portion 2513.
The inner diameter of the fitting hole 2514 is the same as the outer diameter of the root of the conical screw receiving portion 296.
The shape of the head of the screw 298 is a dish shape with a flat upper surface and a conical seat surface. The screw 298 penetrates the screw hole 297 of the conical screw receiving portion 296 and the fitting hole 2514 of the holding plate portion 2513.

The light source mounting portion 27 has a pair of screw mounting portions 279 in the radial direction. The screw mounting portion 279 is formed on a thick portion 2791 that comes into surface contact with the back surface of the frame 29. The screw mounting portion 279 is formed with a screw hole 2792 in which a screw groove is formed. An annular tapered surface 2793 is formed at the screw insertion port of the screw hole 2792 of the screw mounting portion 279 so as not to interfere with the conical screw receiving portion 296.
The screw mounting portion 279 has an inclined portion 2794 in which the outer peripheral surface 277 of the light source mounting portion 27 is cut out. The inclined portion 2794 has a smaller radius than the outer peripheral surface 277. Further, the radius of the inclined portion 2794 becomes smaller toward the back. The width of the inclined portion 2794 is larger than the width of the flat plate portion 252 of the frame mounting bracket 25, and when the light source unit 20 is attached to or detached from the main body 10, the frame mounting bracket 25 can freely move in the radial direction as shown by an arrow.
The light source mounting portion 27 has a pair of recesses 270 on both sides of the socket housing portion 271. The recess 270 is a recess recessed in the depth direction from the surface of the socket storage portion 271.

*** Explanation of assembly method ***
First, the fitting hole 2514 of the frame mounting bracket 25 is fitted into the conical screw receiving portion 296 of the frame 29.
Next, the light source mounting portion 27 is attached to the frame 29 and the frame mounting bracket 25 while inserting the standing plate portion 2512 into the recess 270 of the light source mounting portion 27. By inserting the standing plate portion 2510 into the recess 270 of the light source mounting portion 27, the light source mounting portion 27 is positioned in the lateral direction, and the position of the screw hole 2792 of the screw mounting portion 279 of the light source mounting portion 27 is a cone-shaped screw. It coincides with the position of the screw hole 297 of the receiving portion 296.
Next, the screw 298 is inserted from the screw hole 297 of the conical screw receiving portion 296 and screwed into the screw hole 2792 of the screw mounting portion 279 of the light source mounting portion 27. The holding plate portion 2513 of the frame mounting bracket 25 is sandwiched between the front surface of the thick portion 2791 of the light source mounting portion 27 and the back surface of the frame 29. Since the inner diameter of the fitting hole 2514 is the same as the outer diameter of the root of the conical screw receiving portion 296, the frame mounting bracket 25 can be accurately positioned by tightening the screw 298.
In this way, the frame 29, the frame mounting bracket 25, and the light source mounting portion 27 are fixed by screws 298.
As described above, the frame mounting bracket 25 and the lens 21 are fixed by screwing the light source mounting portion 27 and the frame 29. The frame 29 is provided with a conical screw receiving portion 296 having an overhang shape for countersunk screws, and the light source mounting portion 27 is provided with a screw hole 2792 along the overhang provided in the frame 29. The frame mounting bracket 25 is fixed by being sandwiched between the frame 29 and the light source mounting portion 27. The frame mounting bracket 25 is provided with a fitting hole 2514 at a position corresponding to the conical screw receiving portion 296 of the frame 29, and has a structure that does not interfere with the conical screw receiving portion 296 when fixed.

*** Explanation of effect ***
According to this embodiment, the frame 29 has a screw hole 297 into which a screw 298 is inserted, the light source mounting portion 27 has a screw mounting portion 279, and the frame mounting bracket 25 is attached to the frame 29 and the light source mounting portion 27. Since it is arranged between them, the frame mounting bracket 25 can be fixed by fixing the frame 29 to the light source mounting portion 27 with screws 298.
Further, no part is required only for fixing the frame mounting bracket 25.

According to the present embodiment, since the conical screw receiving portion 296 is provided and the head of the screw 298 is housed, the head of the screw 298 does not protrude from the surface of the frame 29.

Embodiment 5.
The fifth embodiment will explain the differences from the first, second, third, and fourth embodiments.
In the fifth embodiment, the following improvements will be described with respect to the substrate unit device 300 which is an improvement of the above-mentioned lighting device 30.
(1) Fixed structure of connector of board unit device 300 (2) Visually visible structure of internal parts of board unit device 300 (3) Fixed structure of circuit board and board holder of board unit device 300 Improved in the fifth embodiment. The lighting device is referred to as a board unit device 300, but the lighting device is a preferable specific example of the board unit device 300, the board unit device 300 does not have to be a lighting device, and the board unit device 300 does not have a lighting circuit. It doesn't matter if.

*** Explanation of the structure of the fixed structure of the connector ***
FIG. 28 is a diagram showing a mounting structure of the battery-side connector 3351 in the battery-side case 31 of the board unit device 300.
The battery-side case 31 is a lid-shaped device case 35 having one side open and a central portion recessed.
The battery-side case 31 has a connector mounting portion 551 for fixing the connector. Hereinafter, the battery-side connector 3351 is also simply referred to as a connector. The battery-side connector 3351 has a body convex portion 558 and a knob 559 on the body portion 560 of the hexahedron. The body convex portion 558 is a linear protrusion that projects horizontally from the side surface of the body portion 560 on the wall surface side toward the wall surface 556. The knob 559 is a pair of movable pieces attached diagonally upward from both sides of the tip of the body portion 560 in a wing shape.

The connector mounting portion 551 has a connector fixing hole 312.
The connector surface 3121 for fixing the connector of the connector mounting portion 551 and the wall surface 556 of the battery side case 31 are orthogonal to each other.
As shown in FIG. 30, the connector fixing hole 312 has a rectangular shape with a short side having a width W6 and a long side having a width W10, and has the same shape as the horizontal cross-sectional shape of the body portion 560. By providing the key-shaped overhanging portions 3122 at the four corners of the connector fixing hole 312, notches are formed on the long side of the connector fixing hole 312 through which the knob 559 passes. The connector fixing hole 312 has a thick cross shape as a whole.

The wall surface 556 has a plurality of guide ribs 552 for inserting the connector into the connector fixing holes 312. The guide rib 552 is a rail-shaped rib that projects vertically from the wall surface 556 toward the inside of the battery-side case 31.
As shown in FIG. 29, the guide rib 552 has a lateral restraining rib 535, a back restraining rib 554, and a lateral restraining rib 555.
As shown in FIG. 30, the distance W5 between the two lateral restraining ribs is the same as the opening width W6 on the short side of the connector fixing hole 312, and the same distance as the horizontal width of the side surface side of the body portion 560 of the connector The intervals are almost the same.
The two lateral restraining ribs guide the position of the connector in the direction parallel to the wall surface 556 by inserting the body portion 560 of the connector between them.
The lateral restraining rib 553 is formed from the bottom surface 319 to the connector surface 3121.
The back restraint rib 554 and the lateral restraint rib 555 are not formed from the bottom surface 319 to the connector surface 3121, but are formed to about half the length from the bottom surface 319 to the connector surface 3121.
The lateral restraining rib 553 is continuously formed from one overhanging portion 3122 at the corner on the wall surface side to the bottom surface 319. That is, the surface of the lateral restraining rib 553 is formed continuously with the inner peripheral surface of the overhanging portion 3122 of the connector fixing hole 312.

The back restraint rib 554 is formed between the two lateral restraint ribs and is located in the center of the two lateral restraint ribs.
The height W7 of the back suppression rib 554 from the wall surface 556 is the same as the distance W8 between the connector fixing hole 312 and the wall surface 556. The height W7 of the back restraint rib 554 from the wall surface 556 is lower than the height W9 of the two lateral restraint ribs.
The back restraint rib 554 guides the position of the connector in the direction orthogonal to the wall surface 556. Further, if the height W9 of the lateral restraining rib is set to a height that contacts the side portion of the knob 559, the position of the connector in the direction orthogonal to the wall surface 556 can be guided.

As described above, the board unit device 300 shown in FIG. 28 includes a battery-side case 31 having a connector mounting portion 551 for fixing the connector of the battery harness 335. The battery-side case 31 has three guide ribs 552 in the vicinity of the connector mounting portion 551, and two outer guide ribs are arranged with a width substantially the same as the width of the connector. The rib between the two outer guide ribs is located in the center of the two guide ribs and is lower in height than the outer guide ribs.

Further, at least one of the two outer guide ribs is formed continuously with the connector fixing hole 312 of the connector mounting portion 551.

*** Explanation of the operation of the fixed structure of the connector ***
As shown in FIG. 29, when the battery-side connector 3351 is fixed to the battery-side case 31, the battery-side connector 3351 is inserted obliquely from the bottom surface 319 toward the connector mounting portion 551. Since the battery harness 335 can be bent in a substantially right angle direction, it is desirable to use an electric wire having bending resistance for the battery harness 335.
At the time of insertion, first, the lower end of the body portion 560 of the battery-side connector 3351 is brought into contact with the lateral restraining rib 553. At this point, the lower end of the body 560 of the battery-side connector 3351 is sandwiched between the two lateral restraint ribs.
After that, the body portion 560 of the battery-side connector 3351 is slid downward along the lateral restraint rib 553. As the battery side connector 3351 is slid, the body portion 560 of the battery-side connector 3351 approaches the vertical direction from the slanted state. As a result, the body convex portion 558 of the body portion 560 of the battery side connector 3351 moves below the back suppression rib 554 and the lateral suppression rib 555, and the body portion 560 above the body convex portion 558 becomes the back suppression rib 554. It contacts the lateral restraining rib 555. In this way, the body portion 560 of the battery-side connector 3351 is in the vertical direction. At this point, the upper portion of the body portion 560 of the battery-side connector 3351 is sandwiched between the two lateral restraining ribs, and cannot be completely moved in the left-right direction. At the same time, even if the body portion 560 is pressed against the wall surface 556, the battery-side connector 3351 cannot approach the wall surface 556 due to the back suppression rib 554.
On the side surface of the battery-side connector 3351 on the wall surface side, the body convex portion 558 projects toward the wall surface side, but the back suppression rib 554 and the lateral suppression rib 555 are up to about half the length from the bottom surface 319 to the connector surface 3121. It is formed. Therefore, the body convex portion 558 does not become an obstacle when the back restraining rib 554 and the lateral restraining rib 555 are slid from the slanted state to the vertical direction. That is, even if the battery-side connector 3351 is in the vertical state, the body convex portion 558 is located below the back suppression rib 554 and the lateral suppression rib 555, so that the body convex portion 558 corresponds to the back suppression rib 554 and the lateral suppression rib 555. Never.
After that, the battery-side connector 3351 is slid downward while the body portion 560 is pressed against the wall surface 556, that is, the positions in the left-right direction and the back direction are suppressed by the three guide ribs 552.
Since the lower end of the lateral restraint rib 553 and the inner peripheral surface of the connector fixing hole 312 are continuous, the battery side connector 3351 is fitted into the connector fixing hole 312 so as to slide into the connector fixing hole 312 by moving the battery side connector 3351 downward. ..
The knob 559 passes through the notch of the connector fixing hole 312 in a state of being pressed against the body portion 560. On the other hand, the body convex portion 558 cannot pass through the connector fixing hole 312. That is, the battery-side connector 3351 is inserted into the connector fixing hole 312 up to the front of the body convex portion 558, and the knob 559 is restored so as to expand after passing through the connector fixing hole 312 to prevent it from coming off, and the battery-side connector 3351 is attached to the connector. It is fixed to the portion 551.

*** Explanation of the effect of the fixed structure of the connector ***
According to this embodiment, the battery-side connector 3351 can be easily fixed by providing the guide rib 552 that matches the shape of the connector mounting portion 551. The guide rib 552 is effective when the shape is such that it is difficult to provide the harness slit 313 on the bottom surface 319 of the battery side case 31.
Further, since there are two lateral restraining ribs matching the width of the side surface of the battery-side connector 3351, the battery-side connector 3351 can be aligned in the left-right direction. That is, the battery-side connector 3351 is sandwiched between the two lateral restraint ribs to regulate lateral movement.
Further, at least one lateral restraining rib 553 is continuously provided from the opening end surface of the connector mounting portion 551, and the battery-side connector 3351 can be easily guided to the opening of the connector fixing hole 312.
Further, since there is a back restraint rib 554 provided at one place along the center of the side surface of the body portion 560 of the connector, when the connector is pushed against the wall surface 556 of the battery side case 31 when the connector is inserted, the back direction of the connector is obtained. Movement is regulated.
Further, at least, the length of the back suppressing rib 554 is shortened so that the uneven portion of the connector such as the body convex portion 558 does not come into contact with the back suppressing rib 554. It is possible to prevent the connector from floating when the connector is inserted due to the unevenness of the side surface of the body portion 560.

*** Explanation of other configurations of the fixed structure of the connector ***
As shown in FIG. 31 (a), the lateral restraint rib 555 may be eliminated, and the lateral restraint rib 535 and the back restraint rib 554 may be connected to form a hook shape in the horizontal cross-sectional shape of the guide rib 552. This key shape is formed continuously with the key-shaped overhanging portion 3122 at one position of the connector fixing hole 312.
As shown in FIG. 31 (b), the back restraint rib 554 may be present in the entire space between the lateral restraint rib 555 and the lateral restraint rib 555, and the horizontal cross-sectional shape of the guide rib 552 may be concave. This concave shape is formed continuously with the two key-shaped overhanging portions 3122 of the connector fixing hole 312.
As shown in FIG. 31 (c), the lateral restraint rib 555 and the lateral restraint rib 555 may be formed from the wall surface 556 parallel to the long side of the body portion 560.
As shown in FIG. 31 (d), the lateral restraining rib 553 may be formed from the wall surface 556 parallel to the long side of the body portion 560 and the wall surface 556 parallel to the short side.
Further, although not shown, all of the three guide ribs 552 or the two guide ribs 552 may be formed from the bottom surface 319 to the connector surface 3121 if there is no convex portion on the body portion on the wall surface side of the connector. In particular, if the three guide ribs 552 are continuously provided from the opening end surface of the connector mounting portion 551, the battery-side connector 3351 can be more easily guided to the opening of the connector fixing hole 312.
A harness slit 313 may be provided on the bottom surface 319 of the battery-side case 31, and a guide rib 552 may be provided on the wall surface 556.

*** Explanation of the structure of the visual structure of internal parts ***
FIG. 32 is a diagram showing a visual structure of parts / materials inside the substrate unit device 300.
FIG. 33 is a three-view view of the battery-side case 31 and a three-view view of the board holder 333.
In this embodiment, an example in which the heat conductive member is a component to be confirmed from the outside will be described.

As shown in FIG. 32, the lighting device 30 has two device cases 35. The device case 35 includes a battery-side case 31 and an inspection switch-side case 32. The battery-side case 31 has a case slit 562.
The case slit 562 is formed at the end of the outer peripheral surface 354 of the battery side case 31.
The case slit 562 is a notched space in which the end portion of the outer peripheral surface 354 is cut out in a U-shape or a U-shape.
The case slits 562 are provided at one position at different positions on the left and right sides of the battery side case 31.

As shown in FIG. 32 (d), the board unit 33 is housed inside the fitting portion of the battery side case 31 and the inspection switch side case 32. The board unit 33 has a board holder 333, a lighting circuit board 331, and a charging circuit board 332.

As shown in FIG. 33, the substrate holder 333 has a holder slit 561.
The holder slit 561 is formed on the side wall 3335.
The holder slit 561 is a notched space in which the end portion of the side wall 3335 is cut out in a U-shape or a U-shape.
The holder slits 561 are provided at one position at different positions on the left and right sides of the battery side case 31.

The holder slit 561 and the case slit 562 are formed in a straight line. The notch area of the holder slit 561 is larger than the notch area of the case slit 562.

As shown in the exploded perspective view of the substrate unit device 300 of FIG. 34, the substrate holder 333 has an insulating wall 3334, and the side wall 3335 projects from the end of the insulating wall 3334 and surrounds the insulating wall 3334. It is erected from the end of the insulating wall 3334.
Since the board holder 333 holds the solder surface of the lighting circuit board 331 and the solder surface of the charging circuit board 332 facing the insulating wall 3334, the periphery of the solder surface of the circuit board is covered by the side wall 3335. ..
As shown in FIG. 34, a heat conductive member 563 having the same shape as the insulating wall 3334 is sandwiched between the charging circuit board 332 and the board holder 333.
The heat conduction member 563 is a heat dissipation pad that transmits heat generated in the charging circuit board 332 to the board holder 333.

*** Explanation of the operation of the visual structure of parts and materials ***
The holder slit 561 and the case slit 562 are provided at positions corresponding to the heat conductive member 563. That is, the holder slit 561 and the case slit 562 are formed so that the space between the insulating wall 3334 and the charging circuit board 332 can be seen.
Looking inside the substrate unit device 300 from the direction of the arrow in FIG. 32, that is, from the lateral direction, the holder slit 561 and the case slit 562 are formed in a linear direction, so that the state of the built-in component of the substrate unit device 300 is formed. Can be confirmed. That is, even after the battery-side case 31 and the inspection switch-side case 32 are combined, the state of the built-in components of the board unit device 300 can be confirmed.

*** Explanation of the effect of the visual structure of parts and materials ***
According to the board unit device 300 of this embodiment, the board holder 333 has a holder slit 561 in which the circuit board parts can be visually recognized from the outside, and the device case 35 allows the circuit board parts to be seen from the outside through the holder slit 561. It has a visible case slit 562. Therefore, the internal components of the board unit device 300 can be inspected without disassembling the board unit device 300.
In particular, in this embodiment, the heat conductive member 563 between the insulating wall 3334 and the charging circuit board 332 can be confirmed from the outside.
Since the holder slit 561 and the case slit 562 are on both the left and right sides, the existence and state of the heat conductive member 563 can be easily confirmed from both sides.
Since the holder slit 561 of the substrate holder 333 housed inside the device case 35 is larger than the case slit 562 of the battery side case 31, the heat conductive member 563 can be easily used even when checking is performed from an oblique direction other than the front. Can be confirmed in.

*** Explanation of other configurations of the visual structure of internal parts ***
The case slit 562 may be in the inspection switch side case 32. It may be in both the battery side case 31 and the inspection switch side case 32.
The holder slit 561 may be on the side wall 3335 on the opposite side of the substrate holder 333, or may be on the side walls 3335 on both sides.
The components to be confirmed may be electronic components mounted on the board, connectors, wiring, and other components. The holder slit 561 and the case slit 562 may be positioned so that the parts to be confirmed can be seen directly.
The shapes of the holder slit 561 and the case slit 562 do not have to be U-shaped or U-shaped, and may be elliptical, semicircular, key-shaped, or trapezoidal according to the parts to be confirmed. The shapes of the holder slit 561 and the case slit 562 may be the same, similar, or different.
The case slit 562 does not have to be at the end of the outer peripheral surface 354, and may be at the end of the side surface 353 or the bottom surface 319 or the upper surface 557 as long as it is formed corresponding to the holder slit 561.
The case slit 562 does not have to be at the end, and may be formed as a through hole in the outer peripheral surface 354 or the side surface 353 or the bottom surface 319 or the upper surface 557 as long as it is formed corresponding to the holder slit 561. That is, the holder slit 561 and the case slit 562 may be arranged on any of the six surfaces forming the substrate unit device 300.

*** Explanation of the configuration of the fixed structure of the circuit board and the board holder ***
A structure for fixing the circuit board and the board holder inside the lighting device 30 will be described.
Hereinafter, the lighting circuit board 331 and the charging circuit board 332 are also simply referred to as circuit boards.
Since the board unit 33 is held by combining the battery side case 31 and the inspection switch side case 32, the circuit board attached to the board holder 333 by the battery side case 31 and the inspection switch side case 32 is the board unit device 300. It is fixed inside.
The circuit board is attached to the board holder 333 by a hook structure with four claws 3331. However, when the board unit 33 is simply housed inside the board unit device 300, vibration or shock is generated in the board unit device 300. When it is added, the circuit board may come off from the claw 3331 and the circuit board may fall off from the board holder 333.
Therefore, the device case 35 is provided with a drop-out prevention rib for holding the substrate unit 33. Specifically, dropout prevention ribs for holding the circuit board and the board holder 333 are provided at a plurality of positions corresponding to the ends of the circuit board and the board holder 333 inside the battery side case 31 and the inspection switch side case 32. Provide.

FIG. 35 is a cross-sectional view taken along the line TT when the substrate unit device 300 of FIG. 34 is assembled.
The dropout prevention rib 571 is a rib formed in a rail shape from the inner wall of the device case 35 toward the inside of the device case 35, and is a rib formed so as to come into contact with the lighting circuit board 331 and the board holder 333. is there.
The fall-out prevention rib 571 has a step-shaped portion in the middle, and the fall-out prevention portion 572 and the holder holding portion 573 are formed in the step-shaped portion. That is, the fall-off prevention portion 572 and the holder holding portion 573 are rib surfaces that intersect at right angles formed on the stepped ribs on the inner wall of the device case 35.
The dropout prevention portion 572 is a rib surface that presses the end edge 574 of the lighting circuit board 331 against the top portion 576 of the side wall 3335. The dropout prevention unit 572 is a rib surface parallel to the substrate surface of the lighting circuit board 331.
The holder holding portion 573 is a rib surface that presses the outer surfaces 577 at both ends of the substrate holder 333, that is, the outer surfaces of the side wall 3335, against the center of the substrate holder 333. The holder holding portion 573 is a rib surface orthogonal to the substrate surface of the lighting circuit board 331.

*** Explanation of the operation of the fixed structure of the circuit board and the board holder ***
The dropout prevention unit 572 prevents the lighting circuit board 331 from falling off from the board holder 333 in a direction perpendicular to the board surface of the lighting circuit board 331.
The board holder 333 holds the lighting circuit board 331 by placing the solder surface of the edge 574 of the lighting circuit board 331 on the top 576 of the side wall 3335. When the battery-side case 31 and the inspection switch-side case 32 are fitted to each other, the fall-out prevention unit 572 presses the component surface of the end edge 574 of the lighting circuit board 331 against the top 576 of the side wall 3335.

The dropout prevention unit 572 fixes the position of the lighting circuit board 331 in the direction perpendicular to the substrate surface of the lighting circuit board 331 by sandwiching the edge 574 of the lighting circuit board 331 with the top portion 576 of the side wall 3335.
Further, the dropout prevention portion 572 sandwiches the edge 574 of the lighting circuit board 331 with the top portion 576 of the side wall 3335, whereby the substrate is placed in the direction perpendicular to the substrate surface of the lighting circuit board 331 via the lighting circuit board 331. The position of the holder 333 is also indirectly fixed.

Holder holding portions 573 are provided on both sides of the substrate holder 333.
The distance between the holder holding portions 573 is the same as the length of the long side of the board holder 333, and the board holder 333 is arranged between the holder holding portions 573 to fit the battery side case 31 and the inspection switch side case 32. ..
The holder holding portion 573 fixes the position of the substrate holder 333 in the direction parallel to the substrate surface of the lighting circuit board 331.
Further, since the outer shape of the board holder 333 and the lighting circuit board 331 are the same, the holder holding portion 573 also holds the outer circumference 575 of the lighting circuit board 331, and the holder holding portion 573 is the board surface of the lighting circuit board 331. The position of the lighting circuit board 331 in the parallel direction is also fixed.

*** Explanation of the effect of the fixed structure of the circuit board and the board holder ***
According to this embodiment, by providing the dropout prevention rib 571, it is possible to prevent the circuit board from falling off from the substrate holder 333 in the state where the device case 35 is assembled.
Further, the structure of the fall prevention rib 571 is a step, and by providing a simple step on the fall prevention rib, the fall prevention portion 572 and the holder holding portion 573 can be formed, and both the circuit board and the board holder can be formed. Can be fixed.
Further, the dropout prevention portion 572 can prevent the circuit board from falling off from the substrate holder, and the holder holding portion 573 can suppress rattling between the circuit board and the case of the substrate holder.

*** Explanation of other configurations of the fixed structure of the circuit board and the board holder ***
It is desirable that the dropout prevention ribs 571 are provided at the same positions on both sides of the substrate unit 33. That is, when the dropout prevention ribs 571 are provided at two positions facing each other so as to sandwich the substrate unit 33, it is desirable to arrange them on a straight line.
There may be at least one drop-out prevention rib 571 on each side of the substrate unit 33, and it may be on the outer peripheral surface 354 or the side surface 353 or the bottom surface 319 or the entire inner surface of the upper surface 557.
Further, it is desirable that the fall prevention rib 571 presses the corners of each side, and it is desirable that the ribs 571 are present at one place at the end of each side, that is, at two places on each side.
The dropout prevention rib 571 may have only the dropout prevention portion 572, or may have only the holder holding portion 573.
The fall-out prevention rib 571 does not have to be a rail-shaped protrusion, and may have a dome-shaped, convex-shaped, or block-shaped protruding shape.

Embodiment 6.
In the sixth embodiment, the differences from the first, second, third, fourth, and fifth embodiments will be described.
In the sixth embodiment, the heat dissipation structure of the light source unit 20 provided with the heat dissipation member 650 will be described.
There are a plurality of models of lighting equipment or emergency lighting equipment having different light outputs. In a model with a high optical output, the input power is also high, so sufficient heat dissipation is required accordingly. In the case of such a model, the heat dissipation capacity is improved by further adding the heat dissipation member 650 to the light source mounting portion 27.

A case where the heat radiating member 650 is a direct mounting heat radiating member 651 will be described with reference to FIGS. 36, 37, and 38.
A case where the heat radiating member 650 is an embedded heat radiating member 661 will be described with reference to FIGS. 39 and 40.

*** Explanation of the configuration using the heat dissipation member 651 for direct mounting ***
FIG. 36 is a side view and a cross-sectional view of the light source unit 20 using the heat radiating member 651 for direct attachment.
FIG. 37 is an exploded perspective view and an assembled perspective view of the light source unit 20 using the heat dissipation member 651 for direct attachment.
FIG. 38 is a diagram of the light source mounting portion 27 and the heat radiating member 651 for direct mounting.

The light source unit 20 has a light source 26 that emits light, a light source attachment portion 27 to which the light source 26 is attached, and a heat dissipation member 651 for direct attachment attached to the light source attachment portion 27. The light source unit 20 has a frame 29 including a frame front plate 761 and a frame side plate 762.
The light source mounting portion 27 is a component commonly used in a plurality of types of lighting fixtures.
The direct mounting heat radiating member 651 is a heat radiating member having a shape corresponding to the lighting fixture in which the light source mounting portion 27 is used among a plurality of types of lighting fixtures. The heat radiating member 651 for direct mounting is a simple metal plate having no bent portion or screw hole and having a uniform thickness.

The light source unit 20 includes a frame 29 that covers the light source mounting portion 27, and the heat dissipation member 651 for direct mounting is sandwiched and fixed between the light source mounting portion 27 and the frame 29, and the heat of the light source mounting portion 27 is transferred to the frame 29. To do.

As shown in FIG. 38, the light source mounting portion 27 has a positioning recess 654 into which the opening 652 of the direct mounting heat radiating member 651 is fitted. There are two positioning recesses 654, one is an arcuate recess with a central angle of 40 degrees and the other is an arcuate recess with a central angle of 140 degrees. The positioning recess 654 positions the heat dissipation member 651 for direct attachment to the light source mounting portion 27.

The heat dissipation member 651 for direct attachment is a donut plate having an opening 652.
The direct-attached heat radiating member 651 has spring avoiding portions 656 having a part of the outer circumference cut out in an arc shape at two outer circumferences in the 180-degree direction.
The heat radiating member 651 for direct attachment forms an arc-shaped spring passing portion 657 having a central angle of 50 degrees at two inner circumferences of the opening 652 in the 180 degree direction. The direct mounting heat radiating member 651 forms an arc-shaped connector passing portion 658 and an arc-shaped switch passing portion 659 on the inner circumference of the opening 652. One of the spring passing portions 657, the connector passing portion 658, and the switch passing portion 659 each have a central angle of 50 degrees, and are formed adjacent to each other and continuously.
The pair of spring avoiding portions 656 and the pair of spring passing portions 657 are formed in the same radial direction, respectively.
The direct mounting heat dissipation member 651 forms an arc-shaped positioning convex portion 655 fitted into the positioning concave portion 654 on the inner circumference of the opening 652. There are also two positioning convex portions 655, and there are an arc-shaped convex portion having a central angle of 40 degrees and an arc-shaped convex portion having a central angle of 140 degrees.
Except for the spring mounting portion 660, the inner peripheral shape of the opening 652 and the outer peripheral shape of the horizontal cross section of the portion of the light source mounting portion 27 where the positioning recess 654 is located are the same.

*** Explanation of operation using the heat dissipation member 651 for direct mounting ***
When assembling the light source unit 20, perform the following work before screwing the light source mounting portion 27 and the frame 29.
First, the opening 652 of the direct mounting heat dissipation member 651 is fitted into the light source mounting portion 27.
When fitting, the positioning convex portion 655 of the direct mounting heat radiating member 651 is aligned with the positioning concave portion 654 of the light source mounting portion 27, so that the radial position and the rotational position of the direct mounting heat radiating member 651 are aligned. Determine.

By aligning the positioning convex portion 655 with the positioning concave portion 654, the positions of the connector passing portion 658 and the connector fixing hole 272 coincide with each other, so that the connector fixed to the connector fixing hole 272 emits the direct mounting heat dissipation member 651 as a light source. It does not become an obstacle when fitting into the mounting portion 27.
Similarly, since the positions of the spring avoidance portion 656 and the frame mounting bracket 25 are the same, the frame mounting bracket fixed to the inner surface of the frame 29 when the heat dissipation member 651 for direct mounting is moved to the back of the frame 29 and mounted. 25 does not become an obstacle.
Similarly, since the positions of the spring passing portion 657 and the spring mounting portion 660 coincide with each other, even when the frame mounting bracket 25 is mounted on the spring mounting portion 660, the frame mounting bracket 25 is used as the heat dissipation member 651 for direct mounting. Does not become an obstacle when fitting the light source into the light source mounting portion 27.
Similarly, since the positions of the switch passing portion 659 and the notch portion 276 match, the inspection hole 294 can be exposed to the internal space side, and the inspection switch 62 is inspected when the light source unit 20 and the main body 10 are attached. It can be inserted into the hole 294.

Next, the light source mounting portion 27 to which the heat radiating member 651 for direct mounting is mounted is screwed to the frame surface plate 761 of the frame 29. The heat radiating member 651 for direct attachment is sandwiched between the light source mounting portion 27 and the frame front plate 761 of the frame 29, and is attached so as to come into contact with the back surface of the frame front plate 761 of the frame 29.
The arc-shaped upper surface of the positioning convex portion 655 of the direct mounting heat radiating member 651 comes into surface contact with the arc-shaped lower surface of the positioning concave portion 654 of the light source mounting portion 27, and heat is transferred to the direct mounting heat radiating member 651. Further, since the inner peripheral surface of the opening 652 is in contact with the outer peripheral surface of the light source mounting portion 27, heat is also transferred to the heat dissipation member 651 for direct attachment from the inner peripheral surface of the opening 652.

Further, since the thickness of the heat dissipation member 651 for direct attachment and the depth of the positioning recess 654 are the same, the heat dissipation member 651 for direct attachment is directly attached to the surface 666 of the light source attachment portion 27 in a state where the heat dissipation member 651 for direct attachment is attached. The contact surface 672 of the heat radiating member 651 is flush with the same plane. Therefore, the entire surface of the surface 666 of the light source mounting portion 27 and the contact surface 672 of the heat radiating member 651 for direct attachment comes into surface contact with the back surface of the frame 29, and heat is transferred to the frame 29.

As the direct-attached heat-dissipating member 651, a plurality of types of direct-attached heat-dissipating members 651 having the same thickness of the direct-attached heat-dissipating member 651 and the shape of the opening 652 but different outer shapes or outer diameters are prepared. The optimum direct-attached heat-dissipating member 651 may be attached from a plurality of types of direct-attached heat-dissipating members 651 according to the difference in the shape of the luminaire, the size of the outer diameter of the luminaire, or the height of the output of the light source.
That is, the direct mounting heat radiating member 651 is a heat radiating member selected according to the specifications of the lighting fixture in which the light source mounting portion 27 is used from among a plurality of types of ring-shaped heat radiating members having the same thickness but different outer shapes. is there.

The direct mounting lighting fixture directly mounted on the ceiling has a limited height, and the heat radiating member cannot be mounted on the upper surface of the light source mounting portion 27. Therefore, the heat dissipation member 651 for direct attachment is sandwiched between the light source attachment portion 27 and the frame 29, and is attached so as to come into contact with the frame 29. By sandwiching the heat dissipation member 651 for direct mounting between the light source mounting portion 27 and the frame 29, the heat of the light source mounting portion 27 can be transferred to the frame 29, and the heat can be dissipated from the frame 29 to the outside air.

*** Explanation of the effect of using the heat dissipation member 651 for direct mounting ***
According to this embodiment, by sandwiching the heat radiating member 651 for direct attachment between the light source mounting portion 27 and the frame 29, the heat of the light source mounting portion 27 is transferred to the frame 29, and the heat is radiated from the frame 29 to the outside air. As a result, an effective heat dissipation effect is expected.
Further, by adding the heat dissipation member 651 for direct mounting, even if the heat generated from the light source 26 increases in the model having a high output of the light source 26, it is possible to cope with it while using the same light source mounting portion 27. Become.
Further, by using the heat radiating member 651 for direct mounting, the light source mounting portion 27 can be unified for different models, and by mounting a plurality of heat radiating members having different shapes to the light source mounting portion 27, the light source mounting portion 27 Can be standardized.
Further, the heat radiating member 651 for direct attachment can be manufactured by using a simple sheet metal that does not use a mold, and an effective heat radiating effect can be obtained while suppressing the mold cost.

*** Explanation of the configuration using the heat dissipation member 661 for embedding ***
FIG. 39 is a side view and a cross-sectional view of the light source unit 20 using the embedded heat radiating member 661.
FIG. 40 is an exploded perspective view and a perspective view of the light source unit 20 using the embedded heat radiating member 661.

Since the size of the embedded lighting fixture embedded in the ceiling is restricted in the horizontal direction by the embedded diameter of the ceiling, the embedded heat radiating member 661 is attached to the back surface 667 of the light source attaching portion 27 by screwing.

The embedded heat radiating member 661 is a heat radiating member that makes surface contact with the entire plane of the back surface 667 of the light source mounting portion 27 and transfers the heat of the light source mounting portion 27 to the space.
The embedded heat radiating member 661 is a plate-shaped metal member mounted on the opposite side of the light source mounting portion 27 from the light source 26. The heat-dissipating member 661 for embedding is a simple metal plate having a uniform thickness, which has no bent portion and has only two through holes for screwing.

The light source mounting portion 27 and the heat radiating member 661 for embedding are in the vertical direction in which the light source emits light except for the portion of the connector 243 protruding into the internal space of the main body 10 of the light source mounting portion 27 and the portion of the notch 276. The projected shape of is the same.

The light source mounting portion 27 has a notch portion 276 formed from the back surface 667 to the front surface 666, and the embedded heat dissipation member 661 covers the notch portion 276 in an eaves shape.

The light source mounting portion 27 has a recessed portion 668 such as a battery case storage portion 278 that is recessed from the back surface 667 to the front surface 666 by half the thickness, and the embedded heat dissipation member 661 has a recessed portion 668. It covers like an eaves.

The light source mounting portion 27 mounts a protruding component 669 that protrudes toward the space, and the embedded heat radiating member 661 has a cut portion 670 that exposes the protruding component 669. The cut portion 670 is a U-shaped recess in which the outer peripheral end portion of the embedded heat radiating member 661 is recessed toward the inner peripheral side. Specific examples of the protruding component 669 are the frame mounting bracket 25 and the connector 243, and specific examples of the cut portion 670 are the spring passage recess 662 and the connector passage recess 663. A spring passage recess 662 is formed in the frame mounting bracket 25, and a connector passage recess 663 is formed in the connector 243.

*** Explanation of operation using the heat dissipation member 661 for embedding ***
Assemble the light source unit 20, and then perform the following operations.
First, the embedded heat radiating member 661 is placed on the back surface 667 of the light source mounting portion 27 so that the cut portion 670 corresponds to the protruding component 669. Since the spring passage recess 662 corresponds to the frame mounting bracket 25 and the connector passage recess 663 corresponds to the connector 243 and the heat dissipation member 661 for embedding is placed on the upper surface of the light source mounting portion 27, the light source mounting portion 27 The entire flat surface of the back surface 667 comes into surface contact with the embedded heat radiating member 661.
Next, the screw 664 is inserted into the screw through hole 665, and the heat dissipation member 661 for embedding is screwed to the light source mounting portion 27. As shown in FIG. 7, the light source mounting portion 27 has a screw hole 673 penetrating the light source mounting portion 27 in order to fix the socket 24 from the light emitting surface side with screws 23. By screwing the screw 664 into the screw hole 673, the heat radiating member 661 for embedding is fixed to the back surface 667 of the light source mounting portion 27 from the side opposite to the light emitting surface. The embedded heat radiating member 661 is fixed in surface contact with the light source mounting portion 27. The screw hole 673 is used for both fixing the socket 24 and fixing the heat radiating member 661 for embedding.
Next, the light source unit 20 to which the embedded heat radiating member 661 is attached is attached to the main body 10 of the lighting fixture 100. The luminaire 100 has a main body 10 to which the light source mounting portion 27 is attached, and the main body 10 has a tubular internal space.
The embedded heat radiating member 661 is fixed to the light source mounting portion 27 and arranged in the internal space of the main body 10, and the heat of the light source mounting portion 27 is transferred to the internal space of the main body 10.

As the heat-dissipating member 661 for embedding, a plurality of types of heat-dissipating members 661 for embedding having the same outer shape or the same surface area but different thickness are prepared, and the height of the luminaire or the output of the light source is increased. The optimum embedded heat radiating member 661 may be attached from among a plurality of types of embedded heat radiating members 661 according to the height.

That is, the embedded heat radiating member 661 corresponds to the specifications of the lighting equipment in which the light source unit is used from among a plurality of types of disc-shaped heat radiating members having the same shape or area but different thicknesses of the embedded heat radiating member 661. It is a heat radiating member selected.

*** Explanation of the effect of using the heat dissipation member 661 for embedding ***
According to this embodiment, since the heat radiating portion is increased by the embedded heat radiating member 661, heat radiating can be effectively performed.
Further, since heat is radiated from the embedded heat radiating member 661 to the space, an effective heat radiating effect can be expected.
Since the screw hole 673 for fixing the socket 24 of the light source mounting portion 27 is used for fixing the embedded heat radiating member 661, there is no need to process the light source mounting portion 27 for fixing the embedded heat radiating member 661. Is.
Further, the same effect as that obtained by adding the heat dissipation member 651 for direct attachment can be obtained.

*** Explanation of other configurations using heat dissipation members ***
Depending on the specifications of the luminaire in which the light source unit 20 is used, the direct mounting heat radiating member 651 may be used for the embedded luminaire, or the embedded radiating member 661 may be used for the direct mounting luminaire. However, both the direct mounting heat radiating member 651 and the embedded heat radiating member 661 may be used.
In order to improve the heat dissipation effect, the outer diameter of the heat dissipation member 651 for direct attachment is made the same as the inner diameter of the frame side plate 762 of the frame 29, and the heat dissipation member 651 for direct attachment is directly attached to the frame side plate 762 of the frame 29. You may dissipate heat.
In order to improve the heat dissipation effect, the outer diameter of the embedded heat dissipation member 661 may be larger than the outer diameter of the light source mounting portion 27. Further, the outer diameter of the embedded heat radiating member 661 may be smaller than the outer diameter of the light source mounting portion 27 due to the arrangement relationship with other parts.
In order to improve the heat radiating effect, heat radiating fins may be formed in the exposed portion of the direct mounting heat radiating member 651 and the embedded heat radiating member 661 to the internal space.
A heat conductive sheet or thermal paste may be inserted between the light source mounting portion 27 and the direct mounting heat radiating member 651 in order to reduce the contact thermal resistance. Further, a heat conductive sheet or heat radiating grease may be inserted between the frame 29 and the heat radiating member 651 for direct attachment. Similarly, a heat conductive sheet or thermal paste may be inserted between the light source mounting portion 27 and the embedded heat radiating member 661 in order to reduce the contact thermal resistance.

Embodiment 7.
In the seventh embodiment, the differences from the first, second, third, fourth, fifth, and sixth embodiments will be described.
In the seventh embodiment, the mounting structure of the main body 10 and the light source unit 20 will be described.

*** Explanation of the configuration of the mounting structure of the main body 10 and the light source unit 20 ***
FIG. 41 is a five-view view and a cross-sectional view showing the mounting structure of the main body 10 and the light source unit 20.
FIG. 42 is an exploded perspective view of the direct-attached lighting fixture 100 directly attached to the ceiling.

The luminaire 100 has a main body 10 and a light source unit 20 having a light source.
The lighting fixture 100 has a lighting device 30, a battery unit 40, a power terminal block 50, and an inspection unit 60 attached to the main body 10.
The main body 10 has a pair of mounting springs 751 for mounting the frame 29.
The frame 29 has a tapered shape or a truncated cone shape in which the diameter increases as it approaches the ceiling side. The frame 29 has a tubular frame side plate 762 and an annular frame surface plate 761 that covers an opening at one end of the frame side plate 762.
In the center of the frame surface plate 761, there is an opening for exposing the lens 21 and an inspection hole 294 for exposing the inspection switch 62.
The diameter D1 on the ceiling side of the frame side plate 762 is larger than the diameter D2 on the floor side of the frame side plate 762.
Since the diameter D1 on the ceiling side of the frame side plate 762 is larger than the diameter D3 of the side plate 12 of the main body 10, a gap space K4 is formed between the side plate 12 of the main body 10 and the inner surface of the frame 29, and the gap space K4 is formed. A spring fixing bracket 763 is provided. The width of the gap space K4 is the same as or substantially the same as the radial thickness of the spring fixing bracket 763.
Further, an arrangement space K5 is formed between the outer surface of the lighting device 30 fixed to the main body 10 and the inner surface of the frame 29, and the attachment spring 751 and the spring receiver 752 are provided in the arrangement space K5.
The central angle θ1 of the maximum width of the spring receiver 752 is 30 degrees or more and 40 degrees or less, and is 35 degrees in FIG. 41. The central angle θ2 between the line connecting the centers of the two spring receivers 752 and the line connecting the center of the inspection hole 294 and the central axis of the frame 29 is 40 degrees or more and 50 degrees or less, and is 45 degrees in FIG. 41. ..

FIG. 43 is an exploded perspective view of the main body 10 of the direct mounting lighting fixture 100 and the light source unit 20.

A spring fixing bracket 763 is fixed to the side plate 12 of the main body 10, and the spring fixing bracket 763 has a mounting spring 751 rotatably attached in the direction of the arrow. A frame 29 is attached to the main body 10 by a mounting spring 751, and the main body 10, a lighting device 30, a battery unit 40, a power terminal block 50, and an inspection unit 60 are housed inside the frame 29.

The frame 29 has a spring receiver 752 for fitting the mounting spring 751 on the inner surface of the frame side plate 762.
The spring receiver 752 is a metal fitting, and has a pair of spring guides 753 on both sides, the spacing of which decreases as the diameter of the frame 29 decreases.

The luminaire 100 has an inspection switch 62 for checking the lighting of the light source of the light source unit 20.
The inspection switch 62 is attached to the inspection unit 60 attached to the main body 10. The inspection switch 62 has a pull rod. The tip of the pull rod passes through the inspection hole 294 and is exposed to the outside.

As shown in FIG. 44 (d), the mounting spring 751 is a wire rod, the diamond-shaped portion 754 on the tip side has a substantially diamond shape, and the root portion 765 faces outward from each other. The root portion 765 has a pair of straight portions 755 whose ends of the wire rod extend in the linear direction.
The mounting spring 751 has the same length as the height H of the lighting device 30. That is, in FIG. 43, the tip of the mounting spring 751 is at the same position as the upper surface 557 of the lighting device 30.
The widest spacing of the diamond-shaped wires of the mounting spring 751 is wider than the narrowest spacing of the spring receiver 752. The distance between the diamond-shaped wire rods of the mounting spring 751 at the widest distance is the same as the short side S of the lighting device 30 or a length equal to or less than the length of the short side S.

*** Explanation of the operation of the mounting structure of the main body 10 and the light source unit 20 ***
A method of mounting the mounting spring 751 and the spring receiver 752 will be described.
The spring fixing bracket 763 has two holes 764 through which the mounting spring 751 is passed, and after passing the straight portion 755 of the mounting spring 751 through the holes, insert the bracket so that the mounting spring 751 can rotate about the straight portion 755. By tightening, the mounting spring 751 is attached to the spring fixing bracket 763. At this time, the mounting springs 751 are in a state of being opened outward in the radial direction with each other.
Since the mounting spring 751 may be difficult to bend in the radial inward direction just by pushing it from below, a structure that is easy to bend by providing a sufficient clearance to bend in the radial inward direction when crimping the metal fitting at the straight portion 755 at the base. And.
The two spring fixing brackets 763 are fixed so as to face the outer periphery of the side plate 12.

The metal fitting of the spring receiver 752 is manufactured by bending the left and right sides of the trapezoidal sheet metal into a U shape.
Then, the two spring receivers 752 are fixed to the inner surface of the frame 29 by spot welding.

A method of fitting the mounting spring 751 and the spring receiver 752 at the construction site will be described.
First, the main body 10 to which the lighting device 30, the power terminal block 50, and the inspection unit 60 are attached is attached to the ceiling. Further, the battery unit 40 is incorporated into the main body 10.
Next, the frame 29 will be attached to the main body 10, but the frame 29 is supported from below by hand and provided in the main body 10 so that the position of the pull rod of the inspection switch 62 and the position of the inspection hole 294 match. The frame 29 is brought closer from the bottom to the top toward the mounting spring 751.
Since the central angle θ1 on the upper side of the spring receiver 752 is 35 degrees, if the tip of the mounting spring 751 is within the range of 35 degrees of the spring receiver 752, the tip of the mounting spring 751 is a pair of spring guides 753 of the spring receiver 752. It can pass between the spring guides 753 of the spring receiver 752.
Since the central angle θ2 between the line connecting the centers of the two spring receivers 752 and the line connecting the center of the inspection hole 294 and the central axis of the frame 29 is 45 degrees, the inspection hole 294 is connected from the straight line connecting the mounting springs 751. If the frame 29 is moved from the bottom to the top by rotating it by about 45 degrees, the tip of the mounting spring 751 will surely fall within the range of 35 degrees, and it will be necessary to repeat the up and down of the mounting frame 29 with the wrong angle in the rotation direction. Absent.
Theoretically, if the inspection hole 294 is in the range of 45 degrees + 35 degrees / 2 to 45 degrees-35 degrees / 2 from the straight line connecting the tips of the mounting springs 751, the tip of the mounting spring 751 is within the range of 35 degrees. Will enter.

Before the frame is mounted, the mounting springs 751 are open to each other in the radial direction outward. Therefore, when the frame is mounted, the mounting spring 751 is tilted inward in the radial direction along the inner surface of the frame 29. Slide the tip between the spring guides 753 of the spring receiver 752.
That is, before mounting the frame, the mounting spring 751 is wider than the outer diameter of the frame 29, and when the frame 29 is mounted, the spring gradually closes along the inner surface of the frame 29, and is finally pushed up to form the mounting spring 751. It fits with the spring receiver 752. When the mounting spring 751 and the spring receiver 752 are fitted, the positions of the inspection switch 62 and the hole inspection hole 294 are completely matched, and the inspection switch 62 is exposed from the inspection hole 294.
In this way, by attaching the frame 29 to the main body 10 so that the inspection switch 62 is exposed from the inspection hole 294, the attachment spring 751 is fitted into the spring receiver 752.
The pull rod of the inspection switch 62 and the inspection hole 294 of the frame 29 serve as a guide for positioning at the time of insertion, and at the same time, when the main body 10 is housed inside the frame 29, the light source 26 and the inspection switch 62 are pulled with respect to the frame 29. The stick and the stick are automatically in place.

As shown in FIG. 44, the spring receiver 752 has a structure in which the distance between the inlets of the spring guide 753 is wider than the distance between the outlets and the distance between the outlets of the spring guide 753 is narrower than the maximum width of the mounting spring 751. There is. This structure is such that the mounting spring 751 and the spring receiver 752 can be easily inserted.
When the main body 10 is housed inside the frame 29, the tip of the mounting spring 751 is inserted between the spring guides 753 by pushing up the frame 29 so that the pull rod is inserted into the inspection hole 294. After that, as the frame 29 is pushed up and the mounting spring 751 is fitted into the spring receiver 752, the main body 10 and the frame 29 are positioned in the rotational direction.
When the frame 29 is pushed in and the maximum width portion of the mounting spring 751 gets over the outlet portion of the spring receiver 752, the restoring force of the mounting spring 751 switches to the force of pulling the main body 10 with respect to the spring receiver 752, and this force is switched to the main body. It is the holding force of the frame 29 with respect to 10.

Next, the arrangement positions of the mounting spring 751 and the spring receiver 752 will be described.
The lighting device 30 is laid out in the center of the main body 10. When the light source unit 20 is mounted on the ceiling, it is necessary to slide the frame 29 upward, but it is necessary to secure a work space for sliding the light source unit 20. Since the mounting springs 751 are arranged symmetrically at two locations, they are mounted between the outer peripheral surface 354 of the lighting device 30 which is an internal component facing the inner surface of the frame 29 of the lighting device 30 and the inner surface of the frame side plate 762 of the frame 29. An arrangement space K5 into which the spring 751 is inserted is provided. The arrangement space K5 is a space formed by forming the frame 29 into a truncated cone shape. Since the gap space K4 is formed between the side plate 12 and the frame side plate 762, the maximum width of the arrangement space K5 in the radial direction is the same as the gap width of the gap space K4. When the outer peripheral surface 354 of the lighting device 30 is the same as the outer peripheral surface of the side plate 12 of the main body 10, the width of the arrangement space K5 in the radial direction becomes smaller toward the frame surface plate 761. The cross-sectional shape of the arrangement space K5 in the radial direction including the central axis of the frame 29 is a right triangle.

The lighting device 30 has a rectangular parallelepiped shape, and the lighting device 30 is arranged so as to have a long side L and a short side S across the center of the main body 10, and includes a mounting spring 751 and a spring receiver 752. Is fitted between the outer peripheral surface 354 on the short side S of the lighting device 30 and the inner peripheral surface of the frame side plate 762 of the frame 29.
Since the mounting spring 751 is inserted into the space between the outer peripheral surface 354 on the short side S of the lighting device 30 and the inner peripheral surface of the main body 10, the mounting spring 751 is likely to fall excessively inward in the radial direction. Even if this happens, there is no risk that the mounting spring 751 will fall inward due to the presence of the outer peripheral surface 354 of the lighting device 30.

*** Explanation of the effect of the mounting structure of the main body 10 and the light source unit 20 ***
According to this embodiment, since the mounting spring 751 is attached to the main body 10 instead of the frame 29, in the case of a direct mounting lighting fixture, the mounting spring 751 is not hidden by the design surface of the frame 29, and the mounting spring is not hidden at the time of mounting. Since the position of 751 can be visually recognized, it is easy to fit the mounting spring 751.

Since the frame 29 has a tapered shape or a truncated cone shape, a gap space K4 is formed between the frame 29 and the side plate 12, and the spring fixing bracket 763 can be arranged between the side plate 12 and the frame side plate 762.

Since the frame 29 has a tapered shape or a truncated cone shape, an arrangement space K5 can be formed between the outer peripheral surface 354 of the lighting device 30 and the inner peripheral surface of the frame 29, and the mounting spring 751 and the spring receiver 752 can be formed. Can be arranged in the arrangement space K5 between the outer peripheral surface 354 of the lighting device 30 and the inner peripheral surface of the frame 29.

Since the mounting spring 751 is arranged between the outer peripheral surface 354 of the lighting device 30 and the inner peripheral surface of the frame 29, the length from the tip of the mounting spring 751 to the root portion 765 is set to the outer circumference of the lighting device 30. It can be freely designed within the range of the height H or less of the surface 354. The width of the mounting spring 751 can be freely designed within the range of the length of the short side S of the lighting device 30 or less or the length of the arcuate surface of the outer peripheral surface 354 of the lighting device 30 or less.

Further, since all the parts fixed to the main body 10 are housed inside the cylindrical body having the diameter D3 of the main body 10, the inside of the arrangement space K5 formed on the inner circumference of the frame side plate 762 of the frame 29 of the truncated cone. If so, the mounting spring 751 may be made longer than the height of the lighting device 30. That is, the length from the tip of the mounting spring 751 to the base can be set to the same length as the height of the frame 29 at the maximum.

Further, the metal fitting of the spring receiver 752 is formed by bending both sides of the sheet metal, so that it is easy to process and the manufacturing cost can be suppressed.
Further, by aligning the pull rod of the inspection switch 62 with the inspection hole 294 of the frame 29 and then inserting the frame 29, the frame 29 can be mounted in the regular position in the regular orientation.
Further, the main body 10 and the frame 29 can be mounted in a space-saving space, and the size of the appliance can be reduced.

In addition, the mounting structure of this embodiment can be used for a plurality of types of direct mounting lighting fixtures, parts can be shared with other models, parts can be standardized, and a plurality of parts can be used without adding new parts. It is possible to suppress an increase in the number of unnecessary parts when manufacturing a model.

*** Explanation of other configurations of the mounting structure of the main body 10 and the light source unit 20 ***
By adjusting the angle of the substantially rhombus shape of the mounting spring 751, the force required for mounting the frame 29 and the force required for removing the frame 29 can be adjusted. For example, when the mounting spring 751 is adjusted to an angle such as the rhombus portion 754 in FIG. 44 (d) to the arrowhead portion 756 in (e), the holding force becomes larger than the force at the time of mounting.
The inspection hole 294 may be provided on the line connecting the centers of the spring receiver 752. If the central angle θ2 of the line connecting the center of the spring receiver 752 and the line connecting the inspection hole 294 and the central axis is set to 0 degrees, the inspection hole 294 can be fitted so as to match the straight line connecting the mounting spring 751. The frame 29 can be easily fitted.
If the length of the mounting spring 751 is set to half or less of the height of the frame 29, the size of the appliance can be reduced.
The inspection switch 62 is not a pull rod type switch, but may be a push button type switch exposed from the inspection hole 294.
The frame side plate 762 of the frame 29 may be a cylindrical body having an outer diameter of D1. The frame side plate 762 of the frame 29 may be a polygonal prism cylinder having a polygonal cross section.

Embodiment 8.
In the eighth embodiment, the differences from the first, second, third, fourth, fifth, sixth, and seventh embodiments will be described.

The luminaire 100 may be a general luminaire that does not include the battery unit 40 and the inspection unit 60.
The luminaire 100 does not have to be a ceiling-embedded type, and may be a ceiling-mounted type.
The attached portion of the luminaire 100 does not have to be a ceiling, but may be a beam, a girder, a crosspiece, a crossbar, a roof, a cover, or an eaves.
The main body 10 may have a polygonal column shape such as a quadrangular prism, a pentagonal prism, a hexagonal prism, or an octagonal prism. It may have a truncated cone shape such as a truncated cone or a truncated cone.
The back plate 11 does not have to be plate-shaped, and may be beam-shaped, ladder-shaped, or net-shaped.
Vents may be provided in the main body 10 and the back plate 11.

In order to facilitate the operation of the fixture mounting bracket 14 when the main body 10 is fixedly arranged on a mounted portion such as a ceiling, for example, a recessed shape may be provided on the outer shell of the lighting device 30. The place where the recess shape is provided may be changed depending on the arrangement position of the lighting device 30 and the fixture mounting bracket 14 inside the main body 10.

Although the fixture mounting bracket 14 and the fixture mounting hole 115 are shown as the fixture mounting portion 102, the fixture mounting portion 102 may have a structure for mounting the fixture to a mounted portion such as a ceiling. For example, a hook structure, a press-fitting structure, a spring structure, a screwing structure, or a combination structure thereof may be used.

The spaces S1 and S2 between the light source mounting portion 27 and the main body 10 shown in FIG. 13 may be eliminated, and the light source mounting portion 27 may be brought into contact with the main body 10 to transfer heat from the light source mounting portion 27 to the main body 10.

The lighting circuit board 331 and the charging circuit board 332 of the lighting device 30 do not have to have the same shape. For example, by reducing the charging circuit board 332 in half, the width of the reduced portion in the short side direction of the lighting device 30 can be reduced, and the fixture mounting work space 70 and the battery mounting space 71 can be increased.

Screws may be used or an adhesive may be used to fix the light source mounting portion 27 and the frame 29.
When forming the bridge 293, instead of processing the frame 29, a bridge-shaped metal plate may be screwed or welded to the back surface of the frame 29.

The circuit board of the lighting device 30 may be a single board without dividing the lighting circuit board 331 and the lighting circuit board 331. When using a single board, circuit components may be mounted on both sides. When a single board is used, the board holder 333 and the board connection harness 334 are not required, the lighting device 30 can be made thinner, and the number of parts can be reduced.

The periphery of the inspection hole 294 corresponding to the inspection switch 62 of the frame 29 may be formed in a concave shape so that the inspection switch 62 does not protrude from the surface of the frame 29.
Further, by setting the inspection switch as a push button switch that does not protrude from the surface of the frame 29, the light distribution may not be affected.

The light source 26 may be an incandescent lamp, a fluorescent lamp, or an LED light source on which a plurality of LEDs are mounted. Moreover, you may use organic EL.

The arrangement of the power terminal block 50 does not have to be the terminal block storage unit 352 in the center of the lighting device 30, and the terminal block storage unit 352 may be provided near the inner peripheral surface of the main body 10 in the longitudinal direction of the lighting device 30. Good. In that case, the shape of the circuit board may be changed to L-type, T-type, or the like instead of concave type according to the formation position of the terminal block storage portion 352 of the power terminal block 50.
Further, the power terminal block 50 may be arranged at another place inside the main body 10 in a state of being separated from the lighting device 30 while maintaining an electrical connection with the lighting device 30.

The inspection board 64 of the inspection unit 60 may be electrically connected to the charging circuit board 332.
The inspection unit 60 may be housed inside the device case 35 of the lighting device 30, and can be miniaturized.
The inspection unit 60 may be arranged at another location inside the main body 10 in a state of being separated from the lighting device 30 while maintaining an electrical connection with the lighting device 30.

100 Lighting equipment, 10 main body, 101 opening, 102 equipment mounting part, 11 back plate, 111 screw hole, 112 screw hole, 113 terminal exposed hole, 114 wire, 115 equipment mounting hole, 12 side plate, 121 battery fixing bracket, 122 Side stop piece, 123 slit, 124 light source mounting hole, 13 flange, 14 fixture mounting bracket, 17 fixing hole, 18 screw, 19 screw, 191 screw, 20 light source unit, 21 lens, 211 recess, 212 brim, 22 packing , 23 screws, 24 sockets, 241 convex parts, 242 electric wires, 243 connectors, 25 frame mounting brackets, 251 fixing plate parts, 2511 three-pronged parts, 2512 standing plates, 2513 holding plates, 2514 fitting holes, 252 flat plates, 253 mounting plate, 254 teeth, 255 cut-up, 256 bending, 257 fitting hole, 26 light source, 27 light source mounting part, 270 recess, 271 socket storage, 272 connector fixing hole, 273 bridge insertion hole, 274 knob storage , 275 Thin wall part, 276 Notch part, 277 Outer surface, 278 Battery case storage part, 279 Screw mounting part, 2791 Thick part, 2792 Screw hole, 2793 Tapered surface, 2794 Inclined part, 29 frame, 291 protruding part, 292 Bridge processing part, 293 bridge, 294 inspection hole, 295 lens hole, 296 cone-shaped screw receiving part, 297 screw hole, 298 screw, 30 lighting device, 31 battery side case, 311 case claw hole, 312 connector fixing hole, 3121 connector Surface, 313 Harness slit, 314 Mounting guide, 315 Auxiliary guide, 316 Slide wall, 317 Guide groove, 318 Connector installation surface, 319 Bottom surface, 32 Inspection switch side case, 321 Case claw, 322 opening, 323 Side claw hole, 324 protruding claws, 325 screw bosses, 33 board units, 331 lighting circuit boards, 3312 board recesses, 3313 component mounting surfaces, 3314 solder surfaces, 332 charging circuit boards, 3322 board recesses, 3323 component mounting surfaces, 3324 solder surfaces, 333 substrate holders. , 3331 claw, 3332 holder recess, 3333 harness fixing part, 3334 Insulation wall, 3335 Side wall, 334 Board connection harness, 335 Battery harness, 3351 Battery side connector, 336 Light source harness, 3361 Light source connector, 337 Inspection switch harness, 3371 Inspection switch side connector, 35 Device case, 351 Inspection unit mounting part, 352 terminal block storage part, 353 side surface, 354 outer peripheral surface, 36 battery mounting part, 37 screw fixing part, 40 battery unit, 41 battery, 42 battery case, 421 wire storage part, 422 battery storage part , 43 knobs, 44 vertical recesses, 45 battery connectors, 46 guide ribs, 461 rib taper parts, 47 overhangs, 50 power terminal blocks, 51 terminal bodies, 52 terminal mounting plates, 53 screw holes, 54 terminal block harnesses, 60 inspections Unit, 61 unit housing, 611 fixing mechanism, 612 horizontal claw, 613 horizontal claw, 614 flat surface, 615 tubular arc, 62 inspection switch, 63 coil spring, 64 inspection board, 65 charging monitor, 66 inspection switch connector, 67 Vertical movement restriction mechanism, 671 protruding claw, 69 screw boss, 70 equipment mounting work space, 71 battery mounting space, 72 heat blocking space, 73 storage space, 74 dent space, 80 normal light source, 81 resin cover, 82 lighting device , 90 Emergency light source, L long side, S short side, H height, LK long side, SK short side, X workspace placement direction, Y lighting device longitudinal direction, M fitting structure, N enlargement part, 300 board Unit device, 551 connector mounting part, 552 guide rib, 535 lateral restraint rib, 554 back restraint rib, 555 lateral restraint rib, 556 wall surface, 557 top surface, 558 body convex part, 559 knob, 560 body part, 561 holder slit, 562 case Slit, 563 heat conductive member, 571 fall prevention rib, 572 fall prevention part, 573 holder holding part, 574 edge, 575 outer circumference, 576 top, 577 outer surface, 650 heat dissipation member, 651 direct attachment heat dissipation member, 652 opening, 654 Positioning recess, 655 Positioning convex, 656 Spring avoidance, 657 Spring passage, 658 Connector passage , 659 Switch Passing Part, 660 Spring Mounting Part, 661 Embedded Heat Dissipating Member, 662 Spring Passing Recess, 663 Connector Passing Recess, 664 Screw, 665 Screw Through Hole, 666 Front, 667 Back, 668 Recess, 669 Protruding Parts , 670 Cut part, 672 contact surface, 673 screw hole, 751 mounting spring, 752 spring receiver, 753 spring guide, 754 diamond part, 755 straight part, 756 arrowhead part, 761 frame top plate, 762 frame side plate, 763 spring fixing bracket, 764 holes, 765 roots, K4 gap space, K5 placement space.

Claims (7)

A bottomed cylindrical body with an opening on one side,
A light source unit having a light source and a frame covering the opening,
A lighting device that is arranged inside the main body and supplies electric power to the light source,
It has a cube-shaped power terminal block located in the center of the back of the main body.
The lighting device has a circuit board and has a circuit board.
The circuit board is arranged across substantially the center of the main body as viewed from the opening.
The power terminal block is a lighting fixture that is housed in a storage space between the circuit board and the bottom of the main body, and has an electric wire insertion hole exposed from an opening window formed at the bottom of the main body. The power terminal block and the circuit board are arranged so as to overlap each other in the vertical direction in the cylinder of the main body.
The luminaire according to claim 1, wherein the circuit board is arranged substantially in the center of a cylinder of the main body. The luminaire according to claim 1 or 2, wherein the length of the circuit board is substantially equal to the diameter of the inner diameter of the main body. Any of claims 1 to 3, wherein the height of the component mounted on the circuit board is not limited by the power terminal block because the power terminal block is not arranged on any surface of the circuit board. The lighting equipment according to item 1. The lighting device has a rectangular parallelepiped shape and has a rectangular parallelepiped shape.
The lighting device is arranged across the center of the main body as viewed from the opening.
The lighting device is arranged so that a long side and a short side exist when viewed from the opening.
The outer peripheral surface of the lighting device having the short side is a curved surface inscribed in the inner peripheral surface of the main body.
There is an instrument mounting work space between the side surface having the long side of the lighting device and the inner peripheral surface of the main body.
The lighting device is a storage space recessed from the inner center of the main body toward the opening, and has a storage space for storing the power terminal block.
The lighting fixture according to any one of claims 1 to 4, wherein the power terminal block is housed in the storage space, and three or more surfaces of the terminal block are covered by the lighting device. The body has a pair of instrument attachments in the radial direction.
The lighting device according to any one of claims 1 to 5, wherein the lighting device is fixed to the main body so as to cross the diameter direction and expose the fixture mounting portion to the inside of the main body. lighting equipment. The luminaire is located inside the body and includes a battery unit that supplies power.
The lighting fixture according to claim 5, wherein the battery unit is mounted in the fixture mounting work space.

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