JP2002008417A5 - - Google Patents

Description

[Document name] statement
Patent application title: Lighting apparatus
[Claim of claim]
    1. An instrument body provided with a sealable body storage portion;
  A lighting device housed in the main body housing portion;
  A lamp housed in the main body housing and lit by the lighting device;
  A battery case housed in the main body housing and provided with a sealable battery housing;
  A battery housed in the battery housing and connected to the lighting device;
  A communication pipe, and a valve that normally closes the communication pipe and opens the communication pipe in a state where the pressure of the battery storage part is larger than the pressure outside the main body storage part by a predetermined ratio or more;Communication means for evacuably communicating the battery storage portion to the outside of the main body storage portion;
  A luminaire characterized by comprising.
    2. A device body provided with a sealable main body storage portion;
  A lighting device housed in the main body housing portion;
  A lamp housed in the main body housing and lit by the lighting device;
  A battery case housed in the main body housing and provided with a sealable battery housing;
  A battery housed in the battery housing and connected to the lighting device;
  Equipped with a filter that is breathable and does not allow liquids to pass through,Communication means for evacuably communicating the battery storage portion to the outside of the main body storage portion;
  A luminaire characterized by comprising.
    3. The communication means comprises a resiliently deformable communication tube.
  The luminaire according to claim 1 or 2, characterized in that.
    The battery case is provided with a heat reflecting portion on the outer surface
  The lighting fixture according to any one of claims 1 to 3, characterized in that.
    5. The battery case has a heat absorbing portion on the inner surface.
  The lighting fixture according to any one of claims 1 to 4, characterized in that.
    6. The communication means includes: a tubular portion having a tubular shape; a flange portion projecting from the outer periphery of the tubular portion; and a flange portion located on both ends of the flange portion and formed on the outer surface of the tubular portion A connector main body provided with a screw portion and a nut screwed to each screw portion
  Claim 1 or 2 characterized by5The lighting fixture any one description.
    7. A detection means for detecting gas in a battery case
  Claim 1 or 2 characterized by6The lighting fixture any one description.
    8. A timer is provided to indicate when to replace the battery.
  Claim 1 or 2 characterized by7The lighting fixture any one description.
Detailed Description of the Invention
      [0001]
    Field of the Invention
  The present invention relates to, for example, a lighting fixture in which a battery is housed in a sealable fixture body.
      [0002]
    [Prior Art]
  BACKGROUND Conventionally, for example, a closed type lighting fixture installed on a wall surface of a tunnel is used. The luminaire includes a main body and a lid closely attached to the main body, and the inside of the main body is sealed in a watertight manner. And, in addition to the lamp and ballast such as low pressure sodium lamp housed in the interior of the appliance body and to maintain lighting for a certain period of time even at the time of a power failure, the battery such as 12V and the emergency light unit such as inverter Is housed and also has a function as an emergency light.
      [0003]
    [Problems to be solved by the invention]
  In the above-described conventional configuration, in order to increase the brightness of the lamp and to reduce the size of the lighting apparatus, larger heat is dissipated from the lamp, and the battery needs to be enlarged, and the heat of the lamp is increased. Directly affects the battery, which lowers the performance of the battery, and also, when using a nickel cadmium battery as the battery, if the battery is abnormally heated during charging, the gas is released from the battery, etc. Have problems.
      [0004]
  The present invention has been made in view of these points, and it is an object of the present invention to provide a luminaire that can be sealed and can suppress the influence of heat on a battery.
      [0005]
    [Means for Solving the Problems]
  The lighting apparatus according to claim 1 comprises: an instrument body provided with a sealable main body storage portion; a lighting device stored in the main body storage portion; a lamp stored in the main body storage portion and lit by the lighting device; A battery case housed in the storage unit and provided with a sealable battery storage unit; a battery stored in the battery storage unit and connected to the lighting device;A communication pipe, and a valve that normally closes the communication pipe and opens the communication pipe in a state where the pressure of the battery storage part is larger than the pressure outside the main body storage part by a predetermined ratio or more;And a communication means for communicating the battery storage portion to the outside of the main body storage portion so as to be able to be exhausted.
      [0006]
  For example, the lighting device is a lighting device for tunnels, the lamp is a high pressure sodium lamp, and the battery is a nickel cadmium storage battery or a lead storage battery.
      [0007]
  In this configuration, since the battery is housed in the battery case, the heat of the lamp or the like does not directly affect the battery, and the performance of the battery is easily ensured even when using a lamp with high brightness. Release is suppressed. When the gas is released from the battery, the gas is exhausted to the outside of the main body storage by the communication means.
      [0008]
  Furthermore, in this configuration, the communication means always closes the communication pipe and the communication pipe, and opens the communication pipe in a state in which the pressure of the battery storage portion is larger than the pressure outside the main body storage portion by a predetermined ratio or more. Since the valve is provided, the configuration that suppresses the pressure increase more than necessary while maintaining the seal normally is realized with a simple configuration, and the manufacturing cost is suppressed.
      [0009]
  The lighting apparatus according to claim 2 comprises: an instrument body provided with a sealable main body storage portion; a lighting device stored in the main body storage portion; a lamp stored in the main body storage portion and lit by the lighting device; A battery case which is housed in the housing and which is provided with a sealable battery housing portion; a battery which is housed in the battery housing portion and connected to the lighting device; And a communication means for providing a filter and communicating the battery storage portion to the outside of the main body storage portion so that the battery storage portion can be exhausted.
      [0010]
  For example, the lighting device is a lighting device for tunnels, the lamp is a high pressure sodium lamp, and the battery is a nickel cadmium storage battery or a lead storage battery.
      [0011]
  In this configuration, since the battery is housed in the battery case, the heat of the lamp or the like does not directly affect the battery, and the performance of the battery is easily ensured even when using a lamp with high brightness. Release is suppressed. When the gas is released from the battery, the gas is exhausted to the outside of the main body storage by the communication means.
      [0012]
  The filter is made of, for example, chloroprene, and the gas emitted from the battery is allowed to pass through, and the rain water from the outside is prevented.
      [0013]
  And in this composition, since it had air permeability and had the filter which does not make a liquid pass easily, the gas emitted from the battery is exhausted outside, controlling penetration of rain water etc. by simple composition. .
      [0014]
  A lighting device according to claim 3 is the lighting device according to claim 1 or 2, wherein the communication means comprises a elastically deformable communication tube.
      [0015]
  And in this composition, a gap between positions of a battery case and an instrument main part is absorbed by a communicating pipe, and it is not necessary to raise dimensional accuracy more than necessary, and a manufacturing cost is held down.
      [0016]
  A lighting device according to a fourth aspect of the present invention is the lighting device according to any one of the first to third aspects, wherein the battery case is provided with a heat reflecting portion on the outer surface.
      [0017]
  In addition, a heat reflection part is implement | achieved by mirror surface coating, white gloss coating, adhesion of a reflective sheet, etc.
      [0018]
  In this configuration, the heat of the lamp or the like hardly affects the battery, and the performance of the battery is easily ensured and the discharge of gas is suppressed even when using a lamp with high brightness.
      [0019]
  According to a fifth aspect of the present invention, in the lighting device of any one of the first to fourth aspects, the battery case is provided with a heat absorbing portion on the inner surface.
      [0020]
  The heat absorbing portion is realized by black coating, disposing a metal having a high thermal conductivity, or the like.
      [0021]
  In this configuration, the heat of the lamp or the like does not easily affect the battery, and the performance of the battery is easily ensured and the discharge of gas is suppressed even when using a lamp with high brightness..
      [0022]
  Claim6The lighting apparatus described in claim 1 to5In the lighting device according to any one of the present inventions, the communication means includes a cylindrical portion having a cylindrical shape, a flange portion protruding from an outer periphery of the cylindrical portion, and an outer surface of the cylindrical portion positioned on both ends of the flange portion. The connector main body which provided the screw part formed in these, and the nut screwed together to each screw part are provided.
      [0023]
  The connector main body may be, for example, a so-called waterproof connector used when drawing an electric wire into a lighting fixture. Then, for example, the screw portion is inserted into the through hole formed in the instrument body and the battery case centering on the flange portion, and a nut is screwed and tightened on the screw portion, respectively. It is also easy to improve the waterproofness.
      [0024]
  And in this composition, a communication means is constituted by simple composition and manufacturing cost is reduced.
      [0025]
  Claim7The lighting apparatus described in claim 1 to6The lighting apparatus according to any one of the above, further comprising detection means for detecting a gas in the battery case.
      [0026]
  For example, the detection means detects the gas generated at the replacement time of the battery and turns on the lamp for display or stops charging of the battery, and the replacement time of the battery is clearly indicated.
      [0027]
  And, with this configuration, it is detected that the battery is at the replacement time by the detection means, and it becomes possible to specify the replacement time of the battery.
      [0028]
  Claim8The lighting apparatus described in claim 1 to7The lighting device according to any one of the present inventions includes a timer that indicates when to replace the battery.
      [0029]
  For example, the timer operates at the frequency of the AC power supply.
      [0030]
  And, with this configuration, it becomes possible to clearly indicate when to replace the battery.
      [0031]
    BEST MODE FOR CARRYING OUT THE INVENTION
  Hereinafter, an embodiment of a lighting fixture of the present invention will be described with reference to the drawings.
      [0032]
  FIG. 1 is a front view showing an embodiment of the lighting fixture of the present invention. FIG. 2 is a partially cut away bottom view showing the lighting fixture. FIG. 3 is a partially cut away side view showing the lighting fixture. FIG. 4 is an explanatory view showing a wire connection of the above-mentioned lighting fixture.
      [0033]
  In the figure, reference numeral 11 denotes a lighting fixture, and the lighting fixture 11 is a so-called closed-type lighting fixture for outdoor use, a so-called outdoor indenting apparatus with jet-proof emergency light installed on the wall of a tunnel The luminaire for tunnels is composed. And this lighting fixture 11 is provided with the instrument main body 15 provided with the main body 12 which provided the opening part in the front, and the lid 14 which covers the opening of the front face of this main body 12 so that opening and closing is possible. The inside is a main body storage portion 16. The main body 12 is made of stainless steel and has a box-like shape with an opening at the front, and two mounting legs 17 as direct attachment are attached to the rear surface. Further, the lid 14 includes a front frame 21 made of stainless steel, and a lighting cover 22 made of tempered glass that covers an opening of the front frame 21. The front frame 21 is rotatably attached to the main body 12 by two hinge mechanisms 24 provided on one side, and is fastened and fixed to the main body 12 side by two latch mechanisms 25 provided on the other side. Ru. Then, a packing 27 made of silicon is disposed between the main body 12 and the lid 14, and the opening is held in a liquid tight manner. The space between the front frame 21 and the illumination cover 22 is also held in a liquid tight manner by a silicon adhesive or the like.
      [0034]
  The inverter 31 constituting the lighting device, the voltage regulator 32, the down transformer 33, and the two power shutoff switches 34 and 35 are mounted in the main body storage portion 16 inside the appliance main body 15 in a state of being attached to the main body 12. , A terminal block 36, a pair of lamp sockets 37, 37, and a battery case 41 which is a storage battery storage box. In addition, a lamp L, which is a high pressure sodium lamp, is mounted between the lamp sockets 37 and 37. Further, a plurality of cylindrical batteries C, which are single type nickel nickel (Ni-Cd) storage batteries, are stored in the battery storage unit 42 inside the battery case 41, and the 24 V, 4000 mAh emergency light battery in total Are configured. Furthermore, a heat reflection portion is provided on the outer surface of the battery case 41 by mirror coating, white gloss coating, or adhesion of a glossy film, and the inner surface of the battery case 41 is black painted, or A metal having good heat conductivity is inserted to form a heat absorbing portion. Further, a reflector 44 including the lamp L is attached to the main body storage portion 16 inside the instrument main body 15 in a state of being attached to the main body 12. Further, on the lower side of the main body 12, there are provided a charge monitor lamp 45 made of a light emitting diode, a power supply line 46 of a commercial AC power supply connected to the terminal block 36, and a connector device 48 for electric wire lead-in for drawing in the ground line 47. It is done. Further, a unit plate 49 made of stainless steel is attached to the inside of the instrument body 15.
      [0035]
  Then, as shown in FIG. 4, the power supply wire 46 and the ground wire 47 drawn from the outside of the fixture body 15 are connected to the terminal block 36, and the power supply wire 46 is connected to the terminal block 36 as shown in FIG. Furthermore, it is connected to the inverter 31 via the first power shutoff switch 34, the down transformer 33, and the voltage regulator 32. Also, the battery C of the battery case 41 is connected to the inverter 31 via the two-terminal connector 50 and the second power shutoff switch 35. The output of the inverter 31 is connected to the lamp sockets 37, 37 via the terminal block 36. Therefore, the lamp L attached to the lamp sockets 37, 37 is normally lighted by a commercial AC power supply, and automatically switched to the power supplied by the battery C at a power failure to be lighted for 10 minutes or more. Further, the charge state of the battery C is displayed by the lighting state of the charge monitor lamp 45.
      [0036]
  Further, the lighting device 11 is provided with communication means 55 for communicating the inside of the battery case 41, that is, the battery storage portion 42 with the outside air which is the outside of the device main body 15, that is, the main body storage portion 16.
      [0037]
  And this communication means 55 is provided with the communicating pipe which connects the battery storage part 42 and external air, and the valve which opens and closes this communicating pipe. Further, the communication pipe does not communicate with the main body storage 16 inside the instrument main body 15. Then, this valve normally closes the communication tube in an airtight and liquid-tight manner when the pressure between the battery housing portion 42 and the outside air is the same or when the pressure ratio is within a predetermined range, and the battery housing portion When the pressure of 42 becomes larger than the predetermined ratio with respect to the pressure of the outside air, the valve is pushed by the pressure or the like to open the communicating pipe and release the gas of the battery housing portion 42 to the outside, Thus, the pressure of the battery storage unit 42 can be reduced.
      [0038]
  Then, according to the present embodiment, battery C is housed in battery case 41 in a sealed manner, and a heat countermeasure structure is provided on the inside and outside of battery case 41 to form a heat reflecting portion on the outer surface and heat absorption on the inner surface. In the case of using a lamp L which is a high-intensity high-pressure high-pressure sodium lamp that emits high heat due to a storage battery housing structure in which a portion is formed, for example, 12 cells or 24 cells to light such a lamp L. Even when using a large battery case 41 having a volume twice as large as usual, that is, accommodating a large number of batteries C, and the battery case 41 is disposed close to a heat source such as a lamp L, the battery C is used. There is no direct exposure to heat, the external heat is efficiently reflected, and the internal heat is efficiently absorbed and dissipated to be conducted to the instrument body 15 or the like, whereby the temperature rise of the battery C can be suppressed. Therefore, for example, with respect to the normal ambient temperature of 30 ° C., the battery rising temperature can be made 15 ° C. or less, and the specification that the temperature difference between the low temperature portion and the high temperature portion on the surface of each battery C is 5 ° C. or less As a result, deterioration of the battery C can be suppressed to secure performance, and release of hydrogen gas generated from a nickel cadmium (Ni-Cd) storage battery due to the deterioration of the battery C can be suppressed. Further, the battery case 41 can be positioned close to the heat source such as the lamp L, and the device body 15 can be miniaturized. In addition, the battery case 41 may be formed of a heat insulator, or a heat insulating material such as a noncombustible material may be disposed inside. Moreover, a partition plate can be arrange | positioned inside and the batteries C can be stuck so that it may not contact and overlap.
      [0039]
  Further, the battery C is sealed in and stored in the battery storage portion 42 of the battery case 41 to separate it from the other parts of the main body storage portion 16, and the battery case 41 is connected to the outside of the instrument main body 15 by the communication means 55. Therefore, even if hydrogen gas or the like is released from the battery C due to weighted charging or the like, the gas does not fill the inside of the device body 15, and the pressure of the gas in the battery storage portion 42 is increased. In the case, the communication means 55 can release the gas to reduce the pressure. Further, since the communication means 55 is provided with a valve, liquid tightness of the battery case 41 and the instrument body 15 can be ensured.
      [0040]
  The structure of the battery case, which is a storage battery storage box that reduces the temperature rise of the storage battery, and the structure of the communication means, which is a tube that is a gas release structure, can take various configurations.
      [0041]
  FIG. 5 is a partial perspective view showing another embodiment of the lighting fixture of the present invention. FIG. 6 is a partial cross-sectional view showing still another embodiment of the lighting fixture of the present invention. FIG. 7 is a partial sectional view showing still another embodiment of the lighting fixture of the present invention. FIG. 8 is a front view of a portion showing still another embodiment of the lighting fixture of the present invention. FIG. 9 is a partial cross-sectional view showing another embodiment of the lighting fixture of the present invention. FIG. 10 is a front view of a portion of the same lighting fixture. FIG. 11 is a cross-sectional view of a partially disassembled state showing still another embodiment of the lighting fixture of the present invention. FIG. 12 is a partial sectional view showing still another embodiment of the lighting fixture of the present invention. FIG. 13 is an exploded perspective view of a part of the lighting fixture. FIG. 14 is a partial cross-sectional view showing still another embodiment of the lighting fixture of the present invention. FIG. 15 is a partial cross-sectional view showing still another embodiment of the lighting fixture of the present invention. FIG. 16 is a cross-sectional view of a partially disassembled state showing still another embodiment of the lighting fixture of the present invention. FIG. 17 is a cross-sectional view of a part of the lighting fixture. FIG. 18 is a partial cross-sectional view showing still another embodiment of the lighting fixture of the present invention. FIG. 19 is a partial cross-sectional view showing still another embodiment of the lighting fixture of the present invention. FIG. 20 is a partial cross-sectional view showing still another embodiment of the lighting fixture of the present invention.
      [0042]
  For example, as shown in FIG. 5, the battery case 41 is composed of a box-like case main body 61 and a lid 62 covering the opening of the case main body 61, and the case main body 61 and the lid 62 are resilient. The battery storage portion 42 can be airtightly configured by being fixed by a fixing tool 64 such as a screw at a plurality of locations via a packing 63 such as rubber.
      [0043]
  Further, as shown in FIG. 5, the batteries C can be positioned at predetermined positions without being in close contact with each other by the partition plate 66 disposed in the battery storage portion 42. The partition plate 66 can also be supported by a receiving plate (not shown).
      [0044]
  Further, the communication means 55 communicates with the side of the instrument body 15 and, as shown in FIG. 6, communicates with the rear surface of the instrument body 15, ie, the wall surface side of the tunnel, or protrudes obliquely to have side and bottom surfaces. It can also be made to communicate with the corners of the
      [0045]
  Also, the device body 15 is recessed inward at a portion where the communication device 55 penetrates the device body 15 so that the communication device 55 communicating with the side surface or the bottom does not interfere with the installation on the wall surface of the device device 15 or the like. Alternatively, the end of the communication means 55 can be accommodated in the recessed portion.
      [0046]
  Further, the lid 62 can be fixed to the case main body 61 only with the fasteners 64 such as screws and thumbscrews, or can be fixed with one side as a hinge and the other side with three or four screws. In addition, as shown in FIG. 7, a latch structure 68 is provided on one side of the lid 62, and a pivotable hinge is provided on the other side to facilitate opening and closing of the lid 62 and to facilitate replacement of the battery C. It can also be
      [0047]
  In addition, when the cover 62 is disposed so as to open downward when the lighting fixture 11 is attached, replacement work of the battery C can be facilitated.
      [0048]
  In addition, battery C requires a wire connection with the lighting unit side outside battery case 41. For the handling of the wire of this portion, that is, for the connection method of the box storage battery, as shown in FIG. The connectors 71 and 72 of a pair of male and female are used for the connection part, but the connector 72 on the lighting unit side is drawn inside the box so that the connector 71 on the battery C side can be connected inside the battery case 41 The wire portion can be protected by a bushing 74 that keeps the air tight. In this configuration, since the wire connection work of the connector can be performed inside the battery case 41 and the battery C can be attached and detached and replaced, the workability can be improved. Further, the connector 71 on the battery C side or the connector 72 on the lighting unit side can be fixed to the battery case 41. Alternatively, without using the connector, the battery C can be pre-fixedly connected to the lighting unit. Moreover, it can also connect via the terminal block etc. which were provided in the instrument main body 15. FIG. Moreover, a connector with an electric wire can be used for either or both of the connector 71 on the battery C side and the connector 72 on the lighting unit side.
      [0049]
  The configuration shown in FIG. 9 and FIG. 10 can also be used to maintain the airtightness of the wire drawn out from the battery case 41. This configuration includes an annular bolt body 75, a nut body 76 provided with a nut portion 76a screwed to the bolt portion 75a of the bolt body 75, and elastically deformable between the bolt body 75 and the nut body 76 And the bush body 77 is used. The bush body 77 is elastically deformable, and a plurality of through holes 77a are formed along the axial direction, and the outer surface is an inclined surface. Further, on the inner surface of the bolt body 75, an inclined surface corresponding to the inclined surface of the bush body 77 is formed. Therefore, the bush body 77 is passed through the through hole formed in the battery case 41, the electric wire is passed through the appropriate through hole 77a of the bush body 77, and the bolt body 75 and the nut body 76 are screwed from the inner and outer surfaces of the battery case 41. Tighten together. Then, the through hole 77a which does not pass through the wire is crushed and closed, and the battery case 41 can be held airtight.
      [0050]
  Further, as shown in FIG. 11, the bolt body 75 and the nut body 76 may be fixed not by screwing but by using a fixing tool 79 such as a screw.
      [0051]
  On the other hand, the communication means 55 can also have various structures, and the communication pipe and the valve can be integrally configured, or the communication pipe and the valve can be connected in series. Further, the communication pipe can be elastically deformed, so that deformation of the communication pipe can absorb the displacement of the attachment position of the device body 15 and the battery case 41, the dimensional error of each member, etc., and the versatility is improved. While being able to do it, the assembly operation can be facilitated and the manufacturing cost can be reduced. In addition, valves can be configured inexpensively using safety valves and the like that are conventionally used in various fields as they are or in an improved manner. For example, pneumatic valves for bicycle tires, automobile tires, etc. The structure can be used. Furthermore, the outlet part exposed to the exterior of the instrument main body 15 can be equipped with the filter F which is hard to contain moisture and dust.
      [0052]
  For example, with regard to a communicating pipe having a connection pipe structure for connecting the device body 15 and the battery case 41, as shown in FIGS. 12 and 13, the connector devices 81 and 82 are connected to the device body 15 and the battery case 41, respectively. The connector devices 81 and 82 can be connected by a pipe 84 made of an elastic body. The connector devices 81 and 82 can be inserted into the holes 86 formed in the device body 15 and the battery case 41, respectively, and then can be fixed by fastening them with a metal nut 87.
      [0053]
  Further, for example, as shown in FIG. 14, the communicating pipe 91 can also be made of an elastic body such as a pipe-like rubber provided with stepped portions 91 a at both ends. Then, when the battery case 41 is attached to the instrument main body 15, the communication tube 91 inserts the step 91a into the hole 86 and positions it, and sandwiches and compresses between the battery case 41 and the instrument main body 15 Can be fixed by Furthermore, each step 91a can be fixed and bonded with a caulking material 93 as shown in the figure, or a screw groove can be formed in the step and fixed with a plate-like nut. In addition, in the connecting portion with the hole 86, the waterproof property can be improved by using a packing. Further, in this configuration, the valve can be configured with a configuration in which a tapered rubber is disposed in an outer tube made of resin, the taper is pushed by the internal pressure, and the gas is discharged by moving outside. Furthermore, the attachment portion on the instrument body 15 side can also be fixed using a cap nut made of resin or the like. As described above, in the configuration using the cap nut, a protrusion of about 30 mm is formed on the outside of the instrument body 15, but it may be attached to the back or the side of the instrument body 15 and used. Further, in the configuration using this cap nut, a sliding guide hole is provided at the center of the cap nut, a tapered rubber is inserted, a guide is formed on the upper surface of this rubber, and a coil around the guide in the cap nut. It is possible to form a valve by inserting a spring and bringing the resin taper and the rubber taper into close contact with each other. And in this composition, communicating tube 91 used as an outer tube can use an existing product, or it can form only by processing of rubber, and can reduce manufacturing cost. Moreover, the attachment and removal operations are easy, the processing on the side of the tool body 15 may be simple, and the manufacturing cost can be reduced.
      [0054]
  With regard to the valve, in addition to opening and closing the hole utilizing the deformation of the elastic body itself to be the valve, a valve body for opening and closing the air hole is provided inside the outer tube provided with the air hole so as to be able to advance and retract The valve body may be biased by an elastic body such as a coil spring, and the air hole may be communicated with the outside only when a predetermined pressure or more is applied.
      [0055]
  For example, as shown in FIG. 15, a valve body 102 is provided so as to be able to move forward and backward inside an outer tube 101 made of a hard rubber tube, and this valve body 102 is pressed toward the battery case 41 by an elastic body 103 which is a coil spring. When pressure is applied from the battery case 41 side, the valve body 102 is compressed against the pressure of the elastic body 103, a flow path is formed between the outer tube 101 and the valve body 102, and It can be released. In this configuration, the filter F is provided at the end of the device body 15 side.
      [0056]
  For example, as shown in FIG. 16 and FIG. 17, the tire tire inflating structure of a bicycle is applied, and the shaft 113 in which the rubber valve 112 which is a rubber tube is fitted inside the guide cylinder 111 is retractably accommodated. The cap 113, which is a cap screw, can be screwed into the guide cylinder 111 to hold the shaft 113 in a retaining manner. Further, two or more air holes 113 a are formed around the shaft 113 covered with the rubber valve 112. Then, in order to prevent the rubber valve 112 from coming off, several grooves are formed around the shaft body 113. The guide cylinder 111 is fixed at one end to the tool body 15 by the caulking material 115, and the step 111 a provided at the other end is engaged with the through hole 86 of the battery case 41. In this configuration, under normal conditions, the air hole 113a of the shaft 113 is closed, and when a pressure greater than a predetermined pressure is applied to the shaft 113, the rubber valve 112 is deformed and the air hole 113a is opened. The inside can communicate with the outside air. And in this structure, a structure can be simplified, a structure can be simplified and it can manufacture at low cost. In addition, downsizing is possible and replacement is easy. That is, it is comprised from a cab, a valve | bulb, and a connection pipe, and a tube can be made into the packing which served as sealing with external air. The rubber valve 112 can be replaced by removing the cap 114. If the rubber valve 112 is so weak that the gas can be released easily, it is easy for water to penetrate from the outside air side, and it is desirable to adjust by increasing or enlarging the surrounding air holes 113a.
      [0057]
  In addition, as shown in FIG. 18, by applying the air-filling structure of a tire of an automobile, it is possible to advance and retract a coil spring as an elastic body and a metal shaft 123 inside a guide cylinder 121 having a thread groove formed on the outer surface. The shaft body 123 can be retained and held by screwing the cap 124, which is a cap screw, into the guide cylinder 121. Further, on the tip end side of the shaft body 123, a pressing portion 125 is provided, and a guide body 126 for guiding the pressing portion 125 so as to be capable of advancing and retracting is provided. The guide tube 121 is fixed to the device body 15 and the battery case 41 by screwing the screw groove on the outer surface. Then, in this configuration, in the normal state, the large diameter portion 123a of the shaft body 123 is pressed against the guide cylinder 121 by the biasing force of the coil spring to close the flow path, and the pressing portion 125 has a predetermined size or more. When pressure is applied, the shaft 123 moves against the biasing force of the coil spring, and a gap is formed between the large diameter portion 123a of the shaft 123 and the guide cylinder 121, and the inside of the battery case 41 is exposed to the outside air It can communicate.
      [0058]
  Further, as shown in FIG. 19, a slide valve 132 which moves in a piston-like manner is disposed inside a guide pipe 131 having a plurality of holes 131a formed on the side, and a rod 133 is connected to the upper surface of the slide valve 132. And the other end is biased by an elastic body 137 which is a coil spring, and an E-shaped washer 138 is attached to a groove provided in the upper portion of the rod-like body 133. You can also stop 135. Then, in this configuration, the rod-like body 133 is pushed when pressure is applied from the battery case 41 side by providing a plurality of holes in the surface of the cap nut or simple nut, and under the hole 131a of the guide tube 131. Gas can be released.
      [0059]
  In addition, the valve having the configuration shown in FIG. 19 and the like can be attached in the battery case 41 and at a position that does not interfere with the battery C.
      [0060]
  In the configuration shown in FIG. 19 and the like, attachment and replacement can be easily performed with a simple and inexpensive structure, and the manufacturing cost can be reduced.
      [0061]
  Further, for example, as shown in FIG. 20, in the configuration in which the pressure valve 143 is provided so as to be able to move forward and backward inside the guide pipe 141 having the plurality of holes 141a formed on the side, a pressing operation to push this pressure valve 143 The portion 145 can also be made of an elastically deformable plate such as rubber fixed to the wall of the battery case 41 or the like.
      [0062]
  And in the structure using elastic bodies, such as a spring, the gas pressure to discharge | release can be easily adjusted correctly by adjusting the elastic force of a spring.
      [0063]
  Next, another embodiment of the lighting fixture of the present invention will be described with reference to the drawings.
      [0064]
  FIG. 21 is a front view showing still another embodiment of the lighting fixture of the present invention. FIG. 22 is a partially cut away bottom view showing the lighting fixture. FIG. 23 is a partially cutaway side view showing the lighting fixture. FIG. 24 is a partially cut away side view showing still another embodiment of the lighting fixture of the present invention. FIG. 25 is an exploded side view of the communication means showing still another embodiment of the lighting fixture of the present invention. FIG. 26 is a side view of the communication means of the lighting fixture attached. FIG. 27 is a front view of a part of communication means of the lighting fixture. FIG. 28 is an exploded side view of the communication means showing still another embodiment of the lighting fixture of the present invention. FIG. 29 is a front view of a battery case showing still another embodiment of the lighting fixture of the present invention. FIG. 30 is an end view showing a battery case of the lighting fixture. FIG. 31 is a cross-sectional view taken along line I-I of FIG. 30, showing a battery case of the lighting fixture. FIG. 32 is a side view of a portion showing still another embodiment of the lighting fixture of the present invention. FIG. 33 is a front view showing a battery case of the lighting fixture. FIG. 34 is a partial cross-sectional view showing still another embodiment of the lighting fixture of the present invention. FIG. 35 is a bottom view of a portion of the above luminaire. FIG. 36 is a front view of a battery case showing still another embodiment of the lighting fixture of the present invention. FIG. 37 is a side view showing a battery case of the lighting fixture. FIG. 38 is a partially cut away side view showing still another embodiment of the lighting fixture of the present invention. FIG. 39 is a front view showing still another embodiment of the lighting fixture of the present invention. FIG. 40 is a bottom view of the lighting fixture. FIG. 41 is a front view showing still another embodiment of the lighting fixture of the present invention. FIG. 42 is a front view showing still another embodiment of the lighting fixture of the present invention.
      [0065]
  In the figure, reference numeral 11 denotes a lighting fixture, and the lighting fixture 11 is a so-called closed-type lighting fixture for outdoor use, a so-called outdoor indenting apparatus, and a jet-proof emergency light installed on a wall in a tunnel. It constitutes a tunnel light fixture. And this lighting fixture 11 is provided with the instrument main body 15 provided with the main body 12 which provided the opening part in the front, and the lid 14 which covers the opening of the front face of this main body 12 so that opening and closing is possible. The inside is a main body storage portion 16. The main body 12 is made of stainless steel and has a box-like shape with an opening at the front, and two mounting legs 17 as direct attachment are attached to the rear surface. Further, the lid 14 includes a front frame 21 made of stainless steel, and a lighting cover 22 made of tempered glass that covers an opening of the front frame 21. The front frame 21 is rotatably attached to the main body 12 by two hinge mechanisms 24 provided on one side, and is fastened and fixed to the main body 12 side by two latch mechanisms 25 provided on the other side. Ru. Then, a packing 27 made of silicon is disposed between the main body 12 and the lid 14, and the opening is held in a liquid tight manner. The space between the front frame 21 and the illumination cover 22 is also held liquid tight by a glass packing 21 a such as a silicon adhesive.
      [0066]
  Then, in the main body storage portion 16 inside the instrument main body 15, in the state of being attached to the main body 12, a lighting device, that is, an inverter constituting a lighting unit, a constant voltage device, a down transformer, two power shutoff switches 34, terminals A base 36, a pair of lamp sockets 37, 37, a stainless steel battery case 201 which is a storage battery storage box, and the like are stored. Further, a lamp L such as a high pressure sodium lamp or a low pressure sodium lamp is mounted between the lamp sockets 37, 37. In addition, a plurality of cylindrical batteries C, which are single type nickel cadmium (Ni-Cd) storage batteries, are stored in the battery storage portion 202 inside the battery case 201, and the 24 V, 4000 mAh emergency light battery in total Are configured. Furthermore, a heat reflecting portion is provided on the outer surface of the battery case 41 by mirror coating, white gloss coating, or sticking of a glossy film, as necessary, and the inner surface of the battery case 41 is necessary. Accordingly, black coating or the like is performed, or a metal having good thermal conductivity is inserted to form a heat absorbing portion. Further, a reflector 44 including the lamp L is attached to the main body storage portion 16 inside the instrument main body 15 in a state of being attached to the main body 12. Also, at the lower side of the main body 12, if necessary, a charge monitor lamp made of a light emitting diode, and a connector device 48 for pulling in a wire for drawing in the power supply line and ground line of the commercial AC power supply connected to the terminal block 36 Is equipped. Further, a unit plate 49 made of stainless steel is attached to the inside of the instrument body 15.
      [0067]
  And in this lighting fixture 11, the power supply wire and ground wire drawn in from the exterior of the fixture main body 15 via the connector apparatus 48 are connected to the terminal block 36, and the power supply wire is the power supply via this terminal block 36. It is connected to the inverter via the shutoff switch 34, the down transformer, and the constant voltage device. Also, the battery C of the battery case 201 is connected to the inverter via the two-terminal connector and the second power shutoff switch. And the output of this inverter is connected to lamp socket 37, 37 via a terminal block. Therefore, the lamp L attached to the lamp sockets 37, 37 is normally lighted by a commercial AC power supply, and automatically switched to the power supplied by the battery C at a power failure to be lighted for 10 minutes or more. Further, the charge state of the battery C is displayed by the lighting state of the charge monitor lamp.
      [0068]
  Further, the lighting device 11 is provided with communication means 210 for communicating the inside of the battery case 201, that is, the battery storage portion 202 with the outside air which is the outside of the device main body 15 or the main body storage portion 16. The communication means 210 is provided so as to open downward in the installed state of the lighting apparatus 11, that is, in the side plate direction, as shown by the arrow A in FIGS. Alternatively, as shown by arrow B in FIG. 24, it can be opened in the back direction toward the installation surface.
      [0069]
  And this communication means 210 is provided with the communication pipe which connects the battery storage part 202 and external air via a filter. Further, the communication pipe does not communicate with the main body storage 16 inside the instrument main body 15. The filter is made of, for example, chloroprene and can pass gas such as hydrogen gas but is difficult to pass liquid such as rain water.
      [0070]
  And, by thus providing the communication tube provided with the filter as the communication means 210, the gas generated in the battery storage portion 202 is released to the outside, that is, the gas is exhausted to the outside with a simple configuration. The pressure can also be reduced.
      [0071]
  Next, the structure of the communication means 210 will be described.
      [0072]
  The communication means 210 can be configured inexpensively using the connector device 48, that is, parts of the waterproof connector, and the connector main body 211 made of resin and the first and second nuts 213 screwed to the connector main body 211, 214, a tightening packing 215, a filter 216, and the like. The connector main body 211 is integrally formed of, for example, a synthetic resin, and includes a substantially cylindrical cylindrical portion 211a and a flange portion 211b provided to protrude from the outer peripheral portion of the cylindrical portion 211a. That is, the cylindrical portion 211a is protruded outward and inward around the flange portion 211b, and the screw portions 211c and 211d are formed on the outer peripheral portion, respectively. Further, the outer diameter and the inner diameter of the cylindrical portion 211a are formed to be larger outward than the inner side of the flange portion 211b. The first nut 213 is screwed to the outer screw portion 211c, and is in the form of a nut having a front plate portion 213a. At the center of the front plate portion 213a, an insertion portion 213b is provided. It is formed. On the other hand, the second nut 214 is a hexagonal nut screwed to the inward screw portion 211 d. The tightening packing 215 is also referred to as a rubber bushing, and as shown in FIG. 25 and FIG. 27, it is made of elastically deformable rubber, and the outer end surface 215b is larger than the inner end surface 215a, and the outer peripheral surface 215c. Is formed in a substantially cylindrical shape that is a tapered surface. Further, the filter 216 is made of, for example, chloroprene and can pass gas such as hydrogen gas, but is difficult to pass liquid such as rain water.
      [0073]
  Then, in the mounting operation of the communication means 210, as shown in FIG. 26, the small diameter screw portion 211d is inserted into the through hole formed in the battery case 201, and the second nut 214 is screwed and tightened. On the other hand, the large diameter screw portion 211c is inserted into the through hole formed on the back surface of the main body 12 of the lighting device 11, and further, the tightening packing 215 is inserted into the connector main body 211 from the outside. Then, the first nut 213 is screwed on and tightened.
      [0074]
  In this state, the battery case 201 and the main body 12 of the luminaire 11 are fixed by the first and second nuts 213 and 214 with the flange portion 211 b interposed therebetween. Further, by the first nut-like nut 213 exposed to the outside of the lighting device 11, the tightening packing 215 is press-fit into the connector main body 211, and the filter 216 is prevented from coming off.
      [0075]
  As described above, with regard to the waterproof structure and the degassing structure of the tunnel lighting device, according to the degassing connection method of the tunnel device of the present embodiment, that is, the communication means 210, the waterproof connector for drawing out the power supply line etc. from the outside Can be used to reduce manufacturing costs by applying existing components. In addition, the assembly or attachment / detachment operation is easy, and the filter 216 can be held easily and reliably without dropping off the filter 216 by water or exhaust gas. In addition, by using the flange portion 211b of the connector main body 211, waterproofness can be easily ensured. In addition, by using the thin filter 216, the protrusion to the outside of the device can be reduced.
      [0076]
  In addition, the filter or the packing for waterproofing can also take other structures. For example, as shown by a broken line in FIG. 25, the filter 216 can be disposed by adding the filter 220 and adhering the filters 220 and 216 to the inside and the outside of the tightening packing 215. Furthermore, a coarse filter 222 or the like may be disposed on the outside air side or inside of the components 220 and 216 to prevent the inside of the battery case or the filter from being contaminated due to the intrusion of dust or the like. In addition, by arranging annular rubber packing 224 shown in FIG. 25 on both sides or one side of the flange portion 211b, by sandwiching it with the battery case 201 or with the main body 12 of the lighting fixture 11, Waterproofness can be easily improved. Further, as shown in FIG. 28, the flange portion 211b of the connector main body 211 is disposed on the outer surface of the main body 12 of the lighting fixture 11, and a separate rubber packing 226 is provided between the main body 12 and the battery case 201. It can also be arranged and held.
      [0077]
  Next, the structure of the battery case 201, that is, the storage battery case will be described with reference to FIGS. 24, 29 to 31. FIG.
      [0078]
  The battery case 201 includes a rectangular box-shaped box main body 231 provided with an opening 230 on one surface, and a lid 233 that covers the opening 230 so as to be openable and closable. That is, one end of the lid 233 in the longitudinal direction is rotatably supported by the hinge 234, and the other end is fastened and fixed to the box main body 231 by two mounting screws 235. A packing made of chloroprene is disposed between the lid 233 and the box main body 231 to ensure liquid tightness.
      [0079]
  Further, at one end face in the longitudinal direction of the box main body 231, a through hole 239 through which the electric wire 238 of the 2P connector 237 connected to the battery C is inserted is formed. The outer portion of the through hole 239 is covered with a packing 241 made of chloroprene, and the packing 241 is held by a packing retainer 244 fixed to the box main body 231 by three screws 243.
      [0080]
  Further, a waterproof connector through hole 246 into which the connector main body 211 of the communication means 210 is inserted is formed in a circular hole shape at the central part of the back surface of the box main body 231, that is, the surface of the luminaire 11 towards the main body 12. Further, mounting holes 249 for fixing the box body 231 to the main body 12 of the luminaire 11 with screws 248 are formed in the vicinity of the four corners on the back surface of the box body 231.
      [0081]
  On the other hand, inside the battery case 201, a battery pressing mechanism 250 for holding a battery C, which is a rod-like storage battery, is provided. The battery pressing mechanism 250 includes a screw rod 251, a nut 252, and a battery pressing plate 253. The screw rod 251 is formed to have a length dimension larger than the height of the batteries C arranged in an overlapping manner, and is disposed upright at the central portion of the batteries C arranged in a row. The battery holding plate 253 has a plate-like shape, and a hole 251a through which the tip of the screw rod 251 is inserted is formed at the center, and the dimension in the longitudinal direction is equal to the width of the batteries C arranged side by side It is small and both ends are inclined toward the battery C side. Here, a plurality of batteries C stored in the battery case 201 can be easily and detachably fixed without damaging the surface by screwing and tightening a nut 252 such as a wing nut or a cinch on the tip of the screw rod 251. It can be fixed in position.
      [0082]
  When the battery is box-shaped, two screw rods are set from both ends of the battery case 201 and the battery is disposed at the center. The battery can be fixed by inserting the holes of the battery holding plate into these screw rods and tightening them with a thumb screw. Further, one screw rod may be used, and one side of the battery holding plate may be fixed to the screw rod with a screw, and the other side of the battery holding plate may be fixed by hooking on a battery case or the like.
      [0083]
  Further, the communication means having the filter, which is a degassing structure of the storage battery, can integrally form the communication pipe and the filter, and the communication pipe can be made deformable, for example, to have elasticity. .
      [0084]
  For example, as shown in FIGS. 32 and 33, the communication means 260 includes a communication pipe 261 which is an elastically deformable circular cylindrical or hose-like discharge cylinder connected to the end of the battery case 201. The tube 261 can be led to the outside from the through hole 263 formed in the main body 12 of the lighting fixture 11. In addition, the communication tube 261 is fixed to the battery case 201 with a screw or the like at the attachment portion 264 provided at the base end, and a filter (not shown) is attached. Further, the communication pipe 261 has a double structure in which water and dust do not easily enter from the outside, the tip end portion is closed, and an opening portion 266 opened on the side surface in the vicinity of the tip end portion communicates with the outside air. Further, the portion of the main body 12 through which the communication tube 261 passes is sealed in a fluid-tight manner by the caulking 267, or is sealed by an annular bushing 268 shown in FIG. 34 and FIG.
      [0085]
  And by using the communication means 260 provided with the communication pipe 261 which elastically deforms in this way, it can be easily aligned with the through hole 263 formed in the main body 12 of the lighting fixture 11, and it is only inserted while being deformed While being easily removable, waterproofness can be secured.
      [0086]
  By providing a filter containing activated carbon in the communication pipe 261, it is possible to suppress the entry of exhaust gas, dust, or moisture even if there is air intake to the battery case 201 side through the communication pipe 261. So to speak, it is possible to release the gas by the filter integrated structure of the cylinder and to remove the moisture by the breathing action.
      [0087]
  In addition to being connected to the end portion of the battery case 201, the communication means 260 is formed to be connected to the side surface of the battery case 201 as shown by the arrow D in FIG. 36 to FIG. It can also be formed in connection.
      [0088]
  Further, in each embodiment of the lighting fixture for tunnels having a storage battery such as a lead storage battery or a nickel cadmium battery or the like and having a sealed structure with a jet flow, the battery case is provided with a hydrogen amount detection device When hydrogen more than a percentage is detected, the indicator blinks or lights up, or the switch is operated to stop charging, or charging is stopped and the battery discharging device is operated to make the storage battery completely discharged. You can also. Also, this discharge can be controlled to be started after a predetermined period such as half a year or one year from the termination of charging.
      [0089]
  And, with the configuration equipped with a device that detects hydrogen that is generated frequently at the end of the battery life, visually indicate the replacement time of the battery, and clearly indicate that there is hydrogen in the battery case, or By making it unusable, the time to replace the battery can be kept.
      [0090]
  In addition, for example, the indicator 270 which lights up can be provided in the position shown in FIG.38 and FIG.33.
      [0091]
  In addition, in each embodiment of the tunnel lighting fixture having a sealed battery-free construction having a storage battery such as a lead storage battery or a nickel cadmium battery, the life of the battery, for example, 6 years is counted in the lighting fixture. A timer is provided, and when the set battery life has passed, an indicator provided in the vicinity of the battery case can be turned on to indicate an appropriate replacement time. Also, this timer may be operated according to the frequency of the power supply, and it is also possible to reset the clocking by disconnection at the time of replacing the lead wire at the time of battery replacement. Also, the indicator can be a light emitting diode (LED) of a noticeable color, for example red. In addition, a reset switch may be provided to manually reset the timer upon battery replacement.
      [0092]
  In each of the road / tunnel lighting fixtures described above, as shown in FIGS. 39 and 40, the flat light-transmissive illumination cover 22 on the front surface, which is the lower surface of the fixture body 15, is a resin between glass plates. By using laminated glass sandwiching a film, etc., it is possible to prevent the falling of fragments etc. even when the glass is broken. That is, with the increase in the size of the lighting equipment, the size of the glass is also increased, and there is a risk that the glass may be damaged due to collision with foreign objects such as splashing stones of a passing vehicle, cutting of metal chains, or mischief. By using the laminated glass, it is possible to prevent the falling of fragments even when the glass is broken.
      [0093]
  Furthermore, the laminated glass can improve the fall prevention effect by making thickness 4 mm or more.
      [0094]
  Furthermore, as the laminated glass, it is also possible to use a glass in which two ordinary blue glasses are combined, or to use two laminated glass in which the inner side of the luminaire is ordinary blue glass and the outer side is tempered glass. Furthermore, laminated glass using two sheets of tempered glass can also be used.
      [0095]
  Moreover, in such a lighting fixture, as shown in FIGS. 41 and 42, in addition to the three ladder-like bars 280 or the widthwise direction supporting the outer surface of the lighting cover 22 made of glass, also in the longitudinal direction By providing the formed grid-like crosspieces 281, the weight of the glass can be dispersed, and the drop due to the breakage of the glass can be suppressed.
      [0096]
  As described above, large-sized illumination using a high intensity discharge lamp (HID) lamp or a straight tube fluorescent lamp of 20 W or more as a light source by using a laminated glass for the illumination cover 22 or providing the crosspieces 280 and 281 It can respond easily to an instrument.
      [0097]
    【Effect of the invention】
  According to the lighting device of claim 1, since the battery is housed in the battery case, the heat of the lamp or the like does not directly affect the battery, and the performance of the battery can be easily secured even when using a lamp of high brightness. In addition, the release of gas can be suppressed. Further, when the gas is released from the battery, the gas can be exhausted to the outside of the main body storage by the communication means.Furthermore, the structure which can suppress the pressure rise more than necessary can be implement | achieved by a simple structure, always maintaining sealing, and manufacturing cost can be suppressed.
      [0098]
  According to the lighting device of the second aspect, since the battery is housed in the battery case, the heat of the lamp or the like does not directly affect the battery, and the performance of the battery can be easily secured even when using a lamp with high brightness. In addition, the release of gas can be suppressed. Further, when the gas is released from the battery, the gas can be exhausted to the outside of the main body storage by the communication means. Furthermore, since the communication means is provided with a filter that is air-permeable and does not easily allow the liquid to pass therethrough, the gas released from the battery can be exhausted to the outside while suppressing the infiltration of rain water and the like with a simple configuration.
      [0099]
  According to the lighting device of the third aspect, in addition to the effect of the first or second aspect, the elastically deformable communicating tube can absorb the positional deviation between the battery case and the instrument main body, and the dimensional accuracy is required. There is no need to increase the above, and the manufacturing cost can be suppressed.
      [0100]
  According to the lighting device of the fourth aspect, in addition to the effect of any one of the first to third aspects, since the battery case is provided with the heat reflecting portion on the outer surface, heat of the lamp or the like hardly affects the battery, Even when using a lamp with high brightness, it is possible to easily ensure the performance of the battery and to suppress the discharge of gas.
      [0101]
  According to the lighting device of the fifth aspect, in addition to the effect of any one of the first to fourth aspects, since the battery case is provided with the heat absorbing portion on the inner surface, the heat of the lamp or the like hardly affects the battery, Even when using a high brightness lamp, the battery performance can be easily secured and the gas emission can be suppressed..
      [0102]
  Claim6According to the luminaire described, claim 1 to5In addition to the effect described in any one of the above, the communication means includes a cylindrical portion having a cylindrical shape, a flange portion protruding from the outer periphery of the cylindrical portion, and an outer surface of the cylindrical portion located on both ends of the flange portion. Since the connector main body provided with the formed screw part and the nut screwed to each screw part are provided, the communication means is configured with a simple configuration, and the manufacturing cost is reduced.
      [0103]
  Claim7According to the luminaire described, claim 1 to6In addition to the effects described in any one of the above, since the detection means for detecting the gas in the battery case is provided, it is possible to detect that the battery is at the time of replacement and to promote the replacement of the battery.
      [0104]
  Claim8According to the luminaire described, claim 1 to7In addition to the effects described in any one of the above, since the timer for instructing the battery replacement time is provided, battery replacement can be promoted.
Brief Description of the Drawings
    [Fig. 1]
  It is a front view showing one embodiment of a lighting fixture of the present invention.
    [Fig. 2]
  It is the bottom view which notched one part which shows a lighting fixture same as the above.
    [Fig. 3]
  It is the side view which notched one part which shows a lighting fixture same as the above.
    [Fig. 4]
  It is explanatory drawing which shows the wiring of a lighting fixture same as the above.
    [Fig. 5]
  It is a perspective view of a portion showing another embodiment of the lighting fixture of the present invention.
    [Fig. 6]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 7]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 8]
  It is a front view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 9]
  It is a sectional view of a part disassembled state showing other embodiment of the lighting fixture of the present invention.
    [Fig. 10]
  It is a front view of a part of same lighting fixture.
    [Fig. 11]
  It is a sectional view of a part disassembled state showing other embodiment of the lighting fixture of the present invention.
    [Fig. 12]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 13]
  It is a partial disassembled perspective view which shows a lighting fixture same as the above.
    [Fig. 14]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 15]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 16]
  It is a sectional view of a part disassembled state showing other embodiment of the lighting fixture of the present invention.
    [Fig. 17]
  FIG.
    [Fig. 18]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 19]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 20]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 21]
  It is a front view which shows other embodiment of the lighting fixture of this invention.
    [Fig. 22]
  It is the bottom view which notched one part which shows a lighting fixture same as the above.
    [Fig. 23]
  It is the side view which notched one part which shows a lighting fixture same as the above.
    [Fig. 24]
  It is the side view of the part which notched the part which shows the other embodiment of the lighting fixture of this invention.
    [Fig. 25]
  It is a side view of the decomposition | disassembly state of the communication means which shows the further another embodiment of the lighting fixture of this invention.
    [FIG. 26]
  It is a side view of the attachment state of the communication means of the illumination fixture same as the above.
    [Fig. 27]
  It is a front view of a part of communication means of a lighting fixture same as the above.
    [Fig. 28]
  It is a side view of the decomposition | disassembly state of the communication means which shows the further another embodiment of the lighting fixture of this invention.
    [Fig. 29]
  It is a front view of the battery case which shows other embodiment of the lighting fixture of this invention.
    [FIG. 30]
  It is an end elevation which shows the battery case of a lighting fixture same as the above.
    [FIG. 31]
  It is II sectional drawing of FIG. 30 which shows the battery case of a lighting fixture same as the above.
    [Fig. 32]
  It is a side view of a part which shows other embodiment of the lighting fixture of this invention.
    [Fig. 33]
  It is a front view which shows the battery case of a lighting fixture same as the above.
    [Fig. 34]
  It is a cross-sectional view of a portion showing still another embodiment of the lighting fixture of the present invention.
    [Fig. 35]
  It is a bottom view of a part of same lighting fixtures.
    [Fig. 36]
  It is a front view of the battery case which shows other embodiment of the lighting fixture of this invention.
    [Fig. 37]
  It is a side view which shows the battery case of a lighting fixture same as the above.
    [Fig. 38]
  It is the side view of the part which notched the part which shows the other embodiment of the lighting fixture of this invention.
    [Fig. 39]
  It is a front view which shows other embodiment of the lighting fixture of this invention.
    [Fig. 40]
  It is a bottom view of the lighting fixture same as the above.
    [FIG. 41]
  It is a front view which shows other embodiment of the lighting fixture of this invention.
    [Fig. 42]
  It is a front view which shows other embodiment of the lighting fixture of this invention.
    [Description of the code]
        11 Lighting fixtures
        15 Instrument body
        16 Main unit storage section
        31 Lighting device
        41 Battery case
        42 Battery compartment
        55 Means of communication
        211 connector body
        211b flange part
        211c, 211d threaded portion
        213, 214 nuts
        216 filter
        L lamp