JP5455950B2 - Lighting fixture for construction - Google Patents

Description

  The present invention is suitable for use in, for example, the construction of a tunnel. The capacitor and the substrate on which the LED is mounted are arranged rationally and compactly, and the size and weight are improved and the appearance is improved. The present invention relates to a construction lighting apparatus that is suitable for use and that can improve normal life and provide safe and stable normal lighting and emergency lighting.

  Various lighting fixtures for construction are used depending on the type of construction and the situation at the construction site. For example, as a construction for road construction, a cylindrical case in which a fluorescent tube is accommodated in a transparent tubular portion, and this case. -There is one provided with a fixing base that is detachably mounted in a standing state and connected to a power source (for example, see Patent Document 1).

  However, the fluorescent lamp consumes a large amount of power, requires a large ballast, increases the overall weight of the apparatus, and generally has a short life. In addition, the fluorescent lamp is extinguished during a power failure, and the operation is interrupted or difficult. There was a problem such as.

  As a solution to such a problem, a reflection plate and a fluorescent lamp inside the instrument body, and a solar cell that generates power with the light of the lamp and its electric storage, an emergency light consisting of an LED that is lit by the electric storage, There is a tunnel lighting device that normally lights a fluorescent lamp to illuminate the inside of a tunnel during normal power outage, lights an emergency lamp with electric power of a power storage unit at the time of a power failure, and effectively uses light from the lamp (for example, see Patent Document 2).

  However, the lighting device is large and heavy and requires a large installation space, and the amount of emergency light is generally low, and it is difficult to obtain a sufficient effect as a guide light. Moreover, a fluorescent lamp, emergency light, power storage unit, etc. Since it is installed in the same way as normal lighting, it is unbearable for use under the construction of tunnels where dust is generated and vibration is severe.

  In addition, among other lighting devices, an LED lighting device is installed on the ceiling portion of the living space, the lighting device has a long lamp portion having a hollow rectangular cross section, and the lamp portion is formed into a concave shape. An aluminum chassis and a milky white diffusion cover having a U-shaped cross section connected to the chassis, and a plurality of printed circuit boards are arranged in a strip shape inside the chassis. A plurality of LEDs are mounted on the surface, both sides of the lamp unit are closed with side covers, and the LEDs are normally lit by external power, and in an emergency such as a power failure, a battery unit provided outside the lamp unit There is one in which the LED is turned on by supplying power so as to function as an emergency light (for example, see Patent Document 3).

  However, the LED lighting device is long and large in weight, requires various sensors for detecting ambient illuminance and the like, and a microcomputer unit for processing an input signal of the sensor. Since the battery unit and charger are installed in the unit, the configuration is complicated and the weight is increased, the cost is increased, and a large number of LEDs are mounted on the chassis, so the installation environment is severe. There was a problem of being unbearable for using the construction site.

JP-A-8-321208 JP 2005-183077 A JP 2010-287403 A

  The present invention solves such problems, and is suitable for use in, for example, tunnel construction. The capacitor and the substrate on which the LED is mounted are rationally and compactly arranged to reduce the size and weight and improve the appearance. It is an object of the present invention to provide a construction lighting fixture that is suitable for construction by making it robust, and that can improve normal life and provide safe and stable normal lighting and emergency lighting.

According to the first aspect of the present invention, a chassis is disposed inside the diffusion tube in the tube axis direction, a substrate on which a plurality of LEDs are mounted is disposed along the chassis, and the diffusion tube includes and emergency power unit therein, a capacitor fed power from the power source unit, arranged a substrate holder capable of mounting a substrate on a peripheral surface, the construction luminaire that enables lighting the LED in a non-constant The substrate holder is formed in a tubular shape, an inner holder is provided inside the substrate holder, and a pair of sandwiching pieces are arranged opposite to each other, the capacitor is sandwiched between the sandwiching pieces, and placed inside the diffusion tube. the capacitor and held reliably and securely by the clamping piece, and in so that to prevent strong movement or drop of the battery due to vibration or impact at the construction site.
According to the invention of claim 2, an annular retaining member having elasticity is attached to the tip of the sandwiching piece, and the pair of sandwiching pieces are pulled by the elasticity of the retaining member so that the battery can be held firmly and safely. Yes.

According to a third aspect of the present invention , an opening is formed along the axial direction on the peripheral surface of the substrate holder, a pair of overhanging portions projecting from the opening, and the substrate is interposed between the overhanging portions. So that the substrate can be easily attached .
A fourth aspect of the present invention, fitted with an annular latching member having elasticity on the outer periphery of the protrusion, attracted a pair of projecting portions by the elasticity of the latch member, to so that to hold the substrate firmly and safely ing.

In the invention of claim 5, the tip portions of the pair of sandwiching pieces are arranged facing the inner opening edge of the opening, and the tip portions of the sandwiching pieces are bent outward from each other, for example, the capacitor is pushed in from the opening. Therefore , the battery is easily held by the holding piece .
According to a sixth aspect of the present invention, the inner holder and the overhanging portion are integrally molded with the substrate holder by resin molding so as to facilitate and rationalize the production of parts, reduce the number of parts and simplify the configuration .
According to a seventh aspect of the present invention , a plurality of substrate holders are arranged apart from each other on the chassis, the capacitor is held across the plurality of substrate holders, and the capacitor is stably and safely held .
The invention of claim 8, the capacitor directly under the substrate, arranged capacitor and the substrate compactly, and in Figure so that the improvement in miniaturization and appearance of this kind work luminaires.

The invention according to claim 1, to form a substrate holder in a tubular, inner placed opposite a pair of clamping pieces on the inside of the substrate holder - provided holders, because I sandwiching a capacitor between the holding pieces, spreading Ju - the capacitor was placed inside of the probe held reliably and securely by clamping pieces, can you to prevent strong movement or drop of the battery due to vibration or impact at the construction site.
According to the second aspect of the present invention , since the elastic retaining member is attached to the tip of the sandwiching piece, the pair of sandwiching pieces can be attracted by the resilience of the retaining member to hold the battery firmly and safely. .

According to a third aspect of the present invention , an opening is formed along the axial direction on the peripheral surface of the substrate holder, a pair of overhanging portions projecting from the opening, and the substrate is interposed between the overhanging portions. the from nipping, the substrate can be easily attached Rukoto.
A fourth aspect of the present invention, from wearing the annular latching member having elasticity on the outer periphery of the protrusion, attracted a pair of projecting portions by the elasticity of the latch member, that holds the substrate firmly and safely Can do.

In the invention of claim 5, the tip portions of the pair of sandwiching pieces are arranged facing the inner opening edge of the opening portion, and the tip portions of the sandwiching pieces are bent outward from each other. pushed by tightly held clamping pieces can Rukoto easily by holding the capacitor.
The invention of claim 6, wherein the inner to the substrate holder - because the resin molded integrally with the holder and the projecting portion, the part manufactured easily and streamlined, the simplicity of reducing the construction of the parts may FIG Rukoto According to the seventh aspect of the present invention , since the plurality of substrate holders are separately arranged on the chassis and the capacitor is held across the plurality of substrate holders, the capacitor can be held stably and safely.
According to the eighth aspect of the present invention, since the capacitor is arranged directly under the substrate, the capacitor and the substrate can be arranged in a compact manner, and the size and appearance of the lighting equipment for seed construction can be improved.

It is explanatory drawing which shows the condition which used this invention for the construction site of a tunnel. In the top view which shows an example of this invention, the wiring of a lead wire is abbreviate | omitted and shown. In the front view of FIG. 1, the wiring of the lead wire is omitted, and a part thereof is shown in a sectional view. The left side view of FIG. 3 shows a slightly enlarged view. The right side view of FIG. 3 shows a slightly enlarged view.

It is sectional drawing which follows the AA line of FIG. 3, and has expanded and shown in figure. It is sectional drawing which follows the BB line of FIG. 3, and has expanded and shown in figure. It is sectional drawing which follows the CC line of FIG. 3, and has expanded and shown in figure. It is a top view which expands and shows the installation condition of the substrate holder applied to this invention. It is a wiring diagram which shows the connection condition of the board | substrate (LED) applied to this invention, an electrical storage device, and an emergency power supply unit.

In the top view which shows the application form of this invention, the wiring of a lead wire is abbreviate | omitted and shown In the front view of FIG. 1 1, it is omitted wiring leads are shown in cross section a part.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A description will now be given of an illustrated embodiment in which the present invention is applied at the time of tunnel construction. Reference numeral 1 denotes a tunnel in the middle of construction (including a shield tunnel and a mountain tunnel). A large number of luminaires 2 and 3 are installed in tandem along the tunnel in the middle and high positions of both side walls 1a.
The lighting fixtures 2 and 3 are configured so as to be lit by a commercial power source. Among them, the lighting fixture 2 is configured by a straight fluorescent tube, and a plurality of the lighting fixtures 2 are arranged adjacent to each other. A lighting fixture 3 is arranged between the two.

  The luminaire 3 is formed in a straight tube having substantially the same diameter and the same length as the luminaire 2, which is formed in a circular diffusion tube 4 and an inside of the tube 4 as shown in FIGS. The chassis 5 disposed, the emergency power supply unit 6 disposed at one end of the chassis 5, the plurality of substrate holders 7 disposed in the most part of the chassis 5, and mounted on the substrate holder 7 And a plurality of LEDs 9 that are light sources mounted on the surface of the substrate 8.

The diffusion tube 4 is made of a synthetic resin circular tube having excellent impact resistance, and the entire area thereof is made milky white so that the brightness of the light emitted from the LED 9 emitted from the diffusion tube 4 can be reduced. Yes.
The chassis 5 is formed by bending a steel plate into a substantially U-shaped cross section or an inverted U-shaped cross section, and an opening groove is formed in the length direction between both end edges.
The chassis 5 is formed to have a narrow width of about 1/3 of the inner diameter of the diffusion tube 4, and steel plate end plates 10 and 11 are screwed to both ends in the length direction.

The end plates 10 and 11 are formed in a substantially circular shape of the same shape, and their peripheral surfaces are arranged so as to be in close contact with the inner surface of the diffusion tube 4, and the chassis 5 can be inserted into one side of the outer peripheral portion. Rectangular cutout grooves 12 and 13 are formed.
The bent pieces 14 and 15 of the end plates 10 and 11 are bent inwardly at the edge portions of the cutout grooves 12 and 13, and the bent pieces 14 and 15 are superposed on the end portion of the chassis 5. 16 and 17 are fixed by screwing.

Cylindrical screw holes 18, 19 are formed in the center of the end plates 10, 11. Screws 22, 23 are screwed into the screw holes 18, 19 from the outside of the caps 20, 21. Is fixed to the end plates 10 and 11.
Through holes 24 and 25 are formed between the screw holes 18 and 19 and the cutout grooves 12 and 13, and a pin 26 protruding from the inside of the cap 21 is inserted into the through hole 25.

Through holes 27 and 28 are formed on opposite sides of the through holes 24 and 25 with the screw holes 18 and 19 interposed therebetween, and a power cord described later is inserted into the through hole 27, and one of the lead wires is inserted. Are connected to the emergency power supply unit 6, and some other lead wires (not shown) are grounded to the chassis 5.
In the figure, 31 is a rubber cap attached to the opening edge of the through hole 27.

One or two cutout grooves 32 to 34 are formed radially at positions adjacent to the cutout grooves 12 and 13, and protective tubes 34 and 35 are sandwiched between the cutout grooves 32 and 33. , 35 are inserted with an emergency power supply unit 6 and LEDs 9 and a plurality of lead wires 36 connected to a capacitor described later.
In the figure, 37 and 38 in the pin holes formed in the outer peripheral portion of the end plate 10, pins 39, 40 for positioning projecting from the inside of the cap 20 into the pin holes 37, 38 are inserted.

The caps 20 and 21 are formed in a cylindrical body made of synthetic resin with one end closed, screw holes into which the screws 22 and 23 can be inserted are formed at the closed ends, and mounting brackets 41 and 42 project from both sides. Has been. In the figure, reference numerals 43 and 44 denote insertion holes formed in the mounting brackets 41 and 42, respectively.
Legs 45 and 46 having a substantially U-shaped cross section project from one side of the outer peripheral surfaces of the caps 20 and 21, and a power cord 47 can be fitted inside the legs 45 and 46.

One end of the power cord 47 is introduced from the outside of the cap 20, and a nut 48 is screwed into a cylindrical portion of the introduction portion so that the introduction portion can be held.
In the figure, 49 is a push button switch for lighting the LED 9 provided on the side opposite to the nut 48, and 50 is an insertion plug provided on the other end of the power cord 47.

The emergency power unit 6 is screwed to one side of the chassis 5, and in the embodiment, a converter having a power conversion circuit for converting AC power into DC power is used as the power unit 6. Converts AC power into DC power, and a part of the power is supplied to a large number of LEDs 9 so that the LEDs 9 can be turned on, and the other part is supplied to the battery 51 so that the battery 51 can be charged.
In the figure, 52a, 52b, 53a, 53b are synthetic resin block pieces for wiring inserted between the output side of the emergency power supply unit 6, the LED 9 group and the battery 51, and are configured to be detachable. Yes.

The substrate holder 7 is formed into a substantially rectangular tubular shape with a synthetic resin, and an opening 54 is formed on one side thereof in the tube axis direction.
Overhangs 55, 55 project from the opening edge of the opening 54, and engaging grooves 56, 56 are formed at opposing positions inside the overhangs 55, 55. The substrate 8 is sandwiched

The substrate 8 is formed in an elongated rectangular plate shape that can be inserted into the engaging grooves 56, 56, a predetermined circuit is wired therein, and a pin terminal 9a of the LED 9 is mounted at a predetermined position of the circuit. .
In the figure, reference numeral 57 denotes a locking groove formed on the outer surface of the overhang portions 55, 55. An annular locking member 58 such as an O-ring or a rubber band is stretched over the locking grooves 57, 57, and the elasticity The overhang portions 55 and 55 are displaced inward so that both side portions of the substrate 8 can be press-contacted via the engagement grooves 56 and 56.

An inner holder 59 is integrally formed inside the substrate holder 7, and the inner holder 59 is provided with a pair of holding pieces 60, 60 having elasticity on the lower inner surface of the substrate holder 7 so as to face each other. .
An intermediate portion of the sandwiching pieces 60, 60 is formed in a concave shape so that the peripheral surface of the battery 51 can be sandwiched between the inner surfaces of the concave curved portions 60b, 60b.

The upper ends of the sandwiching pieces 60, 60 are bent outward, and a locking groove 62 is formed on the outer periphery of the base of the bent portion 60a.
An annular hooking member 63 such as an O-ring or a rubber band is mounted in the locking groove 62, and the upper portions of the sandwiching pieces 60, 60 are displaced inward by its elasticity, so that the battery 51 can be firmly pressed.

A tapered surface 64 and a screw hole 65 are formed between the base portions of the sandwiching pieces 60, 60, and a pair of locking projections 66 project from the other peripheral surface of the substrate holder 7. The chassis 5 is accommodated between the two.
A screw 68 is inserted into the screw hole 65 and screwed into a screw hole 67 formed in the chassis 5 to fix the substrate holder 7 to the chassis 5.

  In the embodiment, the battery 51 is composed of a plurality of chargeable / dischargeable storage batteries, the outer diameter of which is about ½ of the height of the substrate holder 7, and the length thereof is about ½ of the length of the substrate 8. The charging takes 24 hours, and the LED 9 group can be lit for 1 hour by the charging.

  The construction lighting fixture 3 constructed in this way is formed in a straight tube having the same diameter and the same length as the lighting fixture 2, which is a milky white circular diffusion tube 4, and the tube 4. A chassis 5 disposed inside, an emergency power supply unit 6 disposed at one end of the chassis 5, a plurality of substrate holders 7 disposed at intervals in most of the chassis 5, A substrate 8 mounted on the substrate holder 7, a plurality of LEDs 9 as light sources mounted on the surface of the substrate 8, and a chargeable / dischargeable battery 51 are provided.

Compared with a fluorescent lamp used as a conventional light source, the LED 9 has a power consumption that is ½ that of a fluorescent lamp and a lifetime that is approximately five times that of a fluorescent lamp. The charging / discharging capacity of the battery can be reduced and the size and weight can be reduced.
Accordingly, it is possible to reduce the capacity or size and weight of the emergency power supply unit 6, reduce the size and weight of the chassis 5 that supports the battery 51, and reduce the size and weight of the diffusion tube 4 that houses them. It is possible to reduce the size and weight of various types of construction lighting fixtures.

  In addition, since the capacitor 51 is stored directly under the substrate 8 via the substrate holder 7 and these are arranged compactly, compared to the case where the capacitor 51 and the light source are arranged in a plane, or the capacitor 51 is stored separately, The chassis 5 can be shortened to make the diffusion tube 4 shorter and smaller in diameter, and the appearance of this kind of lighting fixture can be improved.

  Moreover, since the inner holder 59 is integrally formed inside the substrate holder 7 and the substrate 8 and the capacitor 51 are attached as a single component, the number of components is reduced, the configuration is simplified, and a plurality of components are provided. Compared to the assembly of parts, it can be manufactured easily and rationally.

Next, when assembling the components, the chassis 5 is cut to a predetermined length, a plurality of screw holes are formed at predetermined positions at both ends and intermediate portions, and the end plates 10 and 11 are formed at both ends. The bent pieces 14 and 15 are superposed, and screws 16 and 17 are screwed and fixed thereto.
Thereafter, a plurality of substrate holders 7 are prepared and attached at intervals from the end plate 11 side. The substrate holder 7 is attached by inserting the chassis 5 between the locking projections 66 and 66, aligning both screw holes, and inserting screws 68 into the screw holes 65 from above the substrate holder 7. This is screwed into the screw hole 67 of the chassis 5 and fixed.

Thereafter, the battery 51 is prepared, and the battery 51 is supported on the inside of the substrate holders 7 and 7. In that case, the capacitor 51 is pushed between the holding pieces 60 and 60 from above the openings 54 and 54 of the substrate holders 7 and 7. This situation is as shown in FIG.
If it does in this way, clamping piece 60,60 will be pushed open against elasticity, and after inserting capacitor 51, clamping piece 60,60 will be restored and the peripheral surface of capacitor 51 will be clamped by the elasticity.
In the embodiment, the capacitor 51 is held between the two substrate holders 7 and 7 at an intermediate position depending on the length of the capacitor 51 and wiring conditions.

Then, after inserting the battery 51 between the substrate holders 7, 7, an annular latching member 63 such as an O-ring is latched in the latching grooves 62, 62 at the upper ends of the sandwiching pieces 60, 60. This situation is as shown in FIG.
If it does in this way, the upper end part of the clamping pieces 60 and 60 will be displaced inside by the elasticity of the latching member 63, the clamping force of the clamping pieces 60 and 60 will be strengthened, and the battery 51 will be held firmly.

Thereafter, the substrate 8 is mounted on the substrate holders 7 and 7. The substrate 8 is formed with a predetermined width and a predetermined length, and a plurality of LEDs 9 are mounted at predetermined positions of a circuit wired inside.
When the substrate 8 is to be mounted, the substrate 8 is inserted between the notched grooves 56 and 56 from one of the arranged substrate holders 7 and sequentially inserted between the notched grooves 56 and 56 of the adjacent substrate holder 7, and all the substrates are mounted. The substrate 8 is handed over the holder 7. This situation is as shown in FIGS.
In this way, both sides of the substrate 8 is sandwiched between the cutout grooves 56, 56, Ru is tightly held blocked the movement.

After mounting the substrate 8, an annular latching member 58 is latched in the latching grooves 57, 57 at the upper end of the substrate holder 7. This situation is as shown in FIGS.
If it does in this way, the overhang | projection parts 55 and 55 will be displaced inside by the elasticity of the latching member 58, the clamping force by the notch grooves 56 and 56 will be strengthened, and the board | substrate 8 will be hold | maintained firmly.
Thereafter, the emergency power supply unit 6 is accommodated on the chassis 5 near the end plate 10, screws are inserted into the leg pieces on both sides of the emergency power supply unit 6, and the screws are screwed into the screw holes of the chassis 5, thereby The unit 6 is fixed.

Then, one end of the power cord 47 is introduced into the inside of the cap 20, and this is inserted into the through hole 27 of the end plate 10, and one of the lead wires 30 is connected to the emergency power supply unit 6, and the other The lead wire 30 is grounded on the chassis 5, and the remaining lead wire 30 is inserted into the protective tube 34.
Also, the lead wire 36 drawn out from the battery 51 is connected to the connected block pieces 53a and 53b, one of the lead wires 36 is connected to the emergency power supply unit 6, and the other lead wire is connected. 36 is inserted into the protective tube 35.

Furthermore, the lead wire 36 that is electrically connected to the substrate 8 is connected to the connected block pieces 52a and 52b, the pair of lead wires 36 are connected to the emergency power supply unit 6, and both ends of the power supply unit 6 are connected. The lead wires 36 and 36 drawn out separately from each other are inserted into the protective tubes 34 and 35.
The protective tube 34 into which the lead wires 30 and 36 are inserted is inserted into the notch groove 32 of the end plate 10, and the protective tube 35 into which the lead wires 36 and 36 are inserted is connected to the end plate 10. The lead wires 30 and 36 are inserted into the notch groove 33 and pulled out to the outside of the end plate 10, and these are connected to the contacts of the switch 49. This situation is as shown in FIGS.

  In this case, the lead wire is drawn out from the upper left end of the capacitor 51 in FIG. 3, which is wired from the inside of the substrate holder 7 to the emergency power supply unit 6, and the lead wire of the substrate 8 is in FIG. It is pulled out from the left end and wired on the emergency power supply unit 6, and other lead wires are concentrated and wired on the emergency power supply unit 6.

Thus, after the lead wires 30 and 36 are wired, the screw 22 is inserted from the outside of the cap 20 and screwed into the screw hole 18 of the end plate 10 to fix the cap 20 to the end plate 10.
Then, the nut 48 is screwed into the shaft tube portion from the outside of the cap 20 to hold the base portion of the power cord 47 and prevent the cord 47 from coming off.

Thereafter, the diffusion tube 4 is inserted along the chassis 5 from the opposite side of the cap 20, and the chassis 5 and the substrate holder attached on the chassis 5 are installed inside the diffusion tube 4. 7, the emergency power unit 6, the board 8 and the LED 9 mounted on the board holder 7, and the lead wires wired to them are accommodated.
In this case, the lead wires are wired without protruding outward from the substrate holder 7 and the substrate 8 as described above, and other lead wires are concentrated on the emergency power supply unit 6 and wired. Therefore, the diffusion tube 4 can be inserted easily and smoothly.

Then, one end of the diffusion tube 4 is inserted between the end plate 10 and the cap 20 and brought into contact with the inner surface step portion of the cap 20.
Next, the cap 21 is fitted to the other end of the diffusion tube 4, the pin 25 projecting from the inner surface of the cap 21 is inserted into the through hole 25, and they are aligned.
Then, the screw 23 is screwed into the screw hole 19 from the outside of the cap 21, the cap 21 is attached to the end plate 11, and the diffusion tube 4 is sandwiched between the caps 20, 21. This situation is as shown in FIGS.

The construction lighting fixture assembled in this way is as shown in FIGS. 2 and 3. The lighting fixture 3 of the embodiment is formed in a substantially straight tube having a diameter of 65 mm and a length of 790 mm between the mounting brackets 41 and 42, and most of the surface is milky white. The diffusion tube 4 is exposed.
In the luminaire 3, the switch 49 is turned off when not in use, thereby preventing discharge from the battery 51. Further, the power cord 47 is fitted inside the legs 45 and 46 of the caps 20 and 21 on both sides as shown in FIGS. 4 and 5, and is neatly arranged along the axial direction on the peripheral surface of the diffusion tube 4. Yes. Therefore, the lighting fixture 3 can be easily and compactly stored when not in use.

Next, when the lighting fixture 3 is used, for example, for construction lighting at the time of tunnel construction, a large number of lighting fixtures 3 are prepared, and this is used together with a number of normal lighting fixtures 2 on both side walls in the tunnel. 1a is arranged in a column.
In the embodiment, the ratio of the luminaires 2 and 3 is 5: 1, and the luminaire 3 is arranged between a large number of luminaires 2. This situation is as shown in FIG. 1, and the mounting brackets 41 and 42 are used for installing the lighting fixture 3.

The luminaires 2 and 3 are connected to a commercial power source (AC power source). When the luminaires 2 and 3 are used, both are supplied with power, and the luminaires 2 and 3 are lit to irradiate the underground.
In this case, since the luminance of the irradiation light from the LED 9 of the lighting fixture 3 is suppressed by the milky white diffusion tube 4, irradiation light gentle to the eyes can be obtained.
At that time, the switch 49 is turned on when the lighting fixture 3 is used, AC power as a commercial power supply is input to the emergency power supply unit 6, and the AC power is converted into DC power by the converter function of the power supply unit 6. Is output.

  The output power branches to the substrate 8 and the capacitor 51 side, and the substrate 8 is energized from one of them, a large number of LEDs 9 mounted on the substrate 8 are lit, and the capacitor 51 is energized from the other, Charge. The battery 51 of the embodiment requires 24 hours for charging, and is lit for 1 hour by the discharge.

When the luminaires 2 and 3 are turned on, if the commercial power supply fails, the luminaire 2 is turned off. On the other hand, from the capacitor 51 DC power is discharged, is energized wiring circuit board 9 via the emergency power unit 6, is powered on LED9 mounted on the substrate 9, the LED9 is that remains lit.
Therefore, at the time of the power failure, the LED 9 is illuminated in the pit by the emergency power supply by the capacitor 51, and the safety of the worker at the time of the power failure is ensured.

Since the luminaire 3 accommodates the emergency power supply unit 6, the capacitor 51, and the substrate 8 on which the LED 9 is mounted inside the diffusion tube 4, the luminaire 3 is compared with the one in which the capacitor is disposed outside the luminaire. The installation space becomes compact and the appearance is good.
In addition, the capacitor 51 is arranged directly under the substrate 8 or the LED 9, and these are rationally and compactly arranged. Therefore, the inner diameter of the diffusion tube 4 is made as small as possible, and the size and weight of the diffusion tube 4 are reduced. Improvements can be made.

  Since the substrate 8 to the LED 9 and the battery 51 are sufficiently separated from each other and these are disposed in the diffusion tube 4 with a sufficient empty space, the substrate 8 to the LED 9 and the LED 9 are turned on. And heat dissipation of the heat generated by the capacitor 51 is promoted, and their function and life are prevented from being reduced.

On the other hand, in the lighting fixture 3, the capacitor 51 is held by a pair of holding pieces 60, 60, and the upper end thereof is hooked by a hooking member 63, so that it is firmly and securely held. Looseness and backlash due to vibration and shock are prevented.
Further, the board 8 is engaged and held in the engagement grooves 56, 56, and the latching member 58 is attached to the locking grooves 57, 57 outside the overhang portions 55, 55. 55 is displaced inward, and the substrate 8 is firmly and securely held. Therefore, loosening and backlash due to vibration and impact during tunnel excavation are prevented, and malfunctions of the substrate 8 to the LED 9 are prevented. Lighting is obtained.

Further, since both end portions of the diffusion tube 4 are disposed in close proximity to the outer peripheries of the end plates 10 and 11, the diffusion tube 4 can be held safely and reliably, and vibration during tunnel excavation. Prevents loosening and backlash due to shock.
Further, two notch grooves 32 and 33 are formed in the end plate 10, and protective tubes 34 and 35 are pushed into these to hold the internal lead wires 30 and 36 safely and reliably, thereby preventing disconnection. Ensure wiring safety.

11 and 12 show an application form of the present invention, and the same reference numerals are used for the components corresponding to the above-described configurations.
In this application form, the chassis 69 is formed to have a side height higher than that of the chassis 5 described above, and a horizontally long window 70 in which the battery 51 can be taken in and out is opened on the side surface of the middle part.
A plurality of locking claws 71 project from the lower opening edge of the window 70, and the lower peripheral surface of the battery 51 is sandwiched via the locking claws 71.
A wide opening groove (not shown) is formed in the longitudinal direction at the lower part of the chassis 69 in the same manner as the chassis 5 described above, and the battery 51 is latched to the edge of the opening groove.

On the other hand, a window 72 is formed on one side of the chassis 69, and the emergency power supply unit 6 is disposed inside the chassis 69 through the window 72.
A plurality of substrate holders 73 are screwed to the upper end of the chassis 69, and the substrate 8 on which a large number of LEDs 9 are mounted is attached to the substrate holder 73 in the same manner as described above.
The substrate holder 73 omits the inner holder 59 of the substrate holder 7 described above, and the other configuration is substantially the same as that of the substrate holder 7, and the inner holder 59 is reduced in size.

As described above, this application mode increases the side surface height of the chassis 69 and accommodates the capacitor 51 therein, thereby maintaining the upper and lower arrangement structures of the substrate 8 to the LED 9 and the capacitor 51. The structure of the holder 73 is simplified and reduced in size, and this type of lighting fixture is reduced in size and weight.

  The construction lighting fixture of the present invention is rationally and compactly arranged with a capacitor and a substrate on which an LED is mounted, while reducing the size and weight and improving the appearance, making it robust and suitable for construction, Moreover, it is suitable for use at the time of tunnel construction, for example, because it can improve the life and obtain safe and stable normal lighting and emergency lighting.

2,3 Lighting fixtures 4 Diffusion tube 5 Chassis 6 Emergency power supply unit 8 Substrate 9 LED

7 Substrate holder 51 Capacitor 54 Opening portion 55 Overhanging portion 56 Engaging groove 58 Hooking member

59 Inner holder 60 Clamping piece 63 Holding member 73 Substrate holder

Claims (8)

A chassis is arranged inside the diffusion tube in the tube axis direction, a substrate on which a plurality of LEDs are mounted is arranged along the chassis, and an emergency power supply unit is arranged inside the diffusion tube. , a capacitor fed power from the power source unit, arranged a substrate holder capable of mounting a substrate on a peripheral surface, the construction luminaire that enables lighting the LED in a non-constant, in a tubular said substrate holder A construction lighting fixture comprising: an inner holder formed and provided with an inner holder in which a pair of sandwiching pieces are arranged opposite to each other inside the substrate holder, and the capacitor is sandwiched between the sandwiching pieces . The construction lighting apparatus according to claim 1 , wherein an annular hooking member having elasticity is attached to a front end portion of the sandwiching piece . An opening is formed along the axial direction on the peripheral surface of the substrate holder, a pair of overhanging portions projecting from the opening, and the substrate is sandwiched between the overhanging portions. The construction lighting apparatus according to 1. The construction lighting apparatus according to claim 3, wherein an annular retaining member having elasticity is attached to an outer periphery of the overhanging portion . The construction lighting apparatus according to claim 3 , wherein the distal end portions of the pair of sandwiching pieces are arranged facing the inner opening edge of the opening portion, and the distal end portions of the sandwiching pieces are bent outward from each other . The construction lighting fixture according to claim 1 or 3 , wherein the inner holder and the overhanging portion are integrally molded with the substrate holder . The Shah - to and spaced a plurality of substrate holder, construction lighting device of claim 1, wherein holding said capacitor over the plurality of substrate holders. Construction lighting device of claim 1, wherein directly under the substrate the capacitor.

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