JP2014096246A - Lighting system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve workability and to reduce an electromagnetic noise by arranging parts in a limited space appropriately.SOLUTION: A power terminal 15 connects power supply wiring 30 from an external power source. An emergency electric power source circuit 17 usually charges a storage battery 16 and outputs electric power charged in the storage battery in blackout. A lightning circuit 18 converts the electric power supplied from the external power source and the emergency electric power source circuit 17 into electric power to turn on a light source. A light source terminal (lamp holder 13) connects a lamp having the light source. Wiring 191 connects the power terminal 15 and the emergency electric power source circuit 17 electrically. Wiring 194 connects the emergency electric power source circuit 17 and the storage battery 16 electrically. Wiring 195 connects the lightning circuit 18 and the light source terminal electrically. The wiring 191 does not intersect with the wiring 194 and the wiring 195.

Description

  The present invention relates to a lighting device.

  In order to reduce the size of the lighting device, there is a technique for arranging components in a limited space.

JP 2011-204493 A

If the distance between the parts is too close, the efficiency of assembling and attaching the lighting device will be reduced, the influence of noise due to electromagnetic coupling will increase, and problems such as a shortened life due to temperature rise may occur.
An object of the present invention is to improve workability and reduce electromagnetic noise by, for example, appropriately arranging parts in a limited space.

  The lighting device according to the present invention charges the storage battery and is supplied with power from the external power supply when power is supplied from the power supply terminal, the storage battery, and the external power supply for connecting wiring from an external power supply. An emergency power supply circuit that outputs the power stored in the storage battery, a lighting circuit that converts power supplied from the external power supply and the emergency power supply circuit into power for lighting a light source, and the light source. A light source terminal for connecting the lamp, a first wiring for electrically connecting the power terminal and the emergency power circuit, a second wiring for electrically connecting the emergency power circuit and the storage battery, and the lighting circuit. It has 3rd wiring which electrically connects with the said light source terminal, Said 1st wiring, said 2nd wiring, and said 3rd wiring do not cross | intersect.

  According to the illuminating device concerning this invention, workability | operativity can be improved and electromagnetic noise can be reduced.

FIG. 3 is a perspective view showing an appearance of lighting apparatus 10 according to Embodiment 1. FIG. 3 shows a block configuration of lighting apparatus 10 according to Embodiment 1. FIG. 3 shows an arrangement in lighting apparatus 10 in the first embodiment. FIG. 6 shows an arrangement in lighting apparatus 10 in Embodiment 2. FIG. 10 shows an arrangement in lighting apparatus 10 according to Embodiment 3. FIG. 10 shows an arrangement in lighting apparatus 10 in a fourth embodiment. FIG. 10 shows an arrangement in lighting apparatus 10 in a fifth embodiment. FIG. 18 shows an arrangement in lighting apparatus 10 in a sixth embodiment. FIG. 18 shows an arrangement in lighting apparatus 10 in a seventh embodiment. FIG. 18 shows an arrangement in lighting apparatus 10 according to Embodiment 8. FIG. 20 is a perspective view showing an appearance of lighting apparatus 10 according to Embodiment 9. FIG. 10 shows a block configuration of lighting apparatus 10 according to Embodiment 9. FIG. 10 shows an arrangement in lighting apparatus 10 in a ninth embodiment.

Embodiment 1 FIG.
The first embodiment will be described with reference to FIGS.

  FIG. 1 is a perspective view showing the appearance of the illumination device 10 in this embodiment.

The lighting device 10 (lighting fixture) is used with a lamp 20 connected thereto.
The lamp 20 (straight tube LED lamp) has a straight tube shape. The lamp 20 has a built-in light source. The light source is a solid light emitting element such as an LED or an organic EL, and emits light by direct current power. Two power supply pins are provided at one end of the lamp 20. A fixing pin is provided at the other end of the lamp 20. The power supply pin and the fixing pin engage with the lighting device 10, whereby the lamp 20 is fixed to the lighting device 10. The power supply pin is electrically connected to the lighting device 10 and inputs DC power supplied from the lighting device 10.

The lighting device 10 has a long shape in accordance with the shape of the lamp 20. The illuminating device 10 includes, for example, a housing 14 (not shown; refer to FIG. 3), a reflecting plate 11, and two sockets 12 and 13.
The housing | casing 14 is a main body of the illuminating device 10, and has a long shape. Parts of the lighting device 10 are fixed to the housing 14.
The reflection plate 11 covers components arranged on the housing 14 and reflects the light emitted from the lamp 20.
The socket 12 is located at one end of the lighting device 10. The socket 12 is engaged with a fixing pin of the lamp 20 to fix the lamp 20.
The socket 13 is located at the other end of the lighting device 10 and faces the socket 12. The socket 13 is engaged with the power supply pin of the lamp 20 to fix the lamp 20.

  FIG. 2 is a diagram showing a block configuration of the illumination device 10 according to this embodiment.

The lighting device 10 lights the connected lamp 20.
The lighting device 10 has an emergency lighting function. When electric power is supplied from an external power source (normally), the lighting device 10 charges the storage battery while lighting the lamp 20 with the electric power supplied from the external power source. When power supply from the external power supply is stopped due to a power failure or the like (during a power failure or an emergency), the lighting device 10 turns on the lamp 20 with the power charged in the storage battery.

  The lighting device 10 includes, for example, a light source terminal 131, a power supply terminal 15, a storage battery 16, an emergency power supply circuit 17, a lighting circuit 18, and wirings 191 to 195.

Each of the wirings 191 to 195 is a two-line wiring. The wiring 191 (first wiring) electrically connects the power supply terminal 15 and the terminal 176 of the emergency power supply circuit 17. The wiring 192 electrically connects the terminal 177 of the emergency power circuit 17 and the terminal 187 of the lighting circuit 18. The wiring 193 electrically connects the terminal 178 of the emergency power supply circuit 17 and the terminal 188 of the lighting circuit 18. The wiring 194 (second wiring) electrically connects the storage battery 16 and the terminal 179 of the emergency power supply circuit 17. The wiring 195 (third wiring) electrically connects the terminal 185 of the lighting circuit 18 and the light source terminal 131.
The wiring 191 and the wiring 192 are AC wirings that transmit AC power. The wiring 193, the wiring 194, and the wiring 195 are DC wirings that transmit DC power.

The light source terminal 131 is built in the socket 13. The light source terminal 131 is electrically connected to the power supply pin of the lamp 20 and supplies DC power to the lamp 20.
The power supply terminal 15 is connected to an external power supply and inputs power supplied from the connected external power supply. The external power source is an AC power source such as a commercial power source.
The storage battery 16 (secondary battery) stores electric power.

  The emergency power supply circuit 17 (emergency power supply device) outputs the power supplied from the external power supply to the lighting circuit 18 and charges the storage battery 16 when the power is supplied from the external power supply. When the power supply from the external power supply is stopped, the emergency power supply circuit 17 outputs the power stored in the storage battery 16 to the lighting circuit 18. The emergency power supply circuit 17 includes, for example, an inspection circuit 171, a charging circuit 172, a charging notification circuit 173, a booster circuit 174, and four terminals 176 to 179.

  The inspection circuit 171 (inspection function unit) is a circuit for inspecting whether or not the lighting device 10 operates correctly when the power supply from the external power supply is stopped. The inspection circuit 171 includes, for example, an inspection switch. The inspection switch is interposed between the power supply terminal 15 and the charging circuit 172 and the lighting circuit 18. The inspection switch has a break contact. That is, the inspection switch is normally on, and the AC power supplied from the external power source is supplied to the charging circuit 172 and the lighting circuit 18. When the inspection switch is turned off for inspection, the AC power supplied from the external power supply is not supplied to the charging circuit 172 and the lighting circuit 18, and the state is the same as when the power supply from the external power supply is stopped.

  The charging circuit 172 (charging function unit) charges the storage battery 16 when power is supplied from an external power source.

  The charge notification circuit 173 (monitor function unit) notifies whether or not the storage battery 16 is sufficiently charged. The charging notification circuit 173 includes a display unit, for example. The display unit displays the state of charge of the storage battery 16.

  When the power supply from the external power supply stops, the booster circuit 174 (power failure detection function unit, power switching function unit, booster function unit) boosts the power stored in the storage battery 16 to the lighting circuit 18. Supply. The booster circuit 174 is, for example, an insulating type. This ensures insulation between the storage battery 16 and the lighting circuit 18.

  The lighting circuit 18 (light source lighting device) converts the power supplied from the emergency power supply circuit 17 into DC power for lighting the lamp 20. The lighting circuit 18 includes, for example, a DC generation circuit 181, an output setting circuit 182, a constant current circuit 183, and three terminals 185, 187 and 188.

  The DC generation circuit 181 (DC generation function unit) converts the power supplied from the emergency power supply circuit 17 into DC power. When power is supplied from an external power source, the DC generation circuit 181 converts AC power supplied from the external power source into DC power. When the power supply from the external power supply is stopped, the DC generation circuit 181 converts the DC power supplied from the booster circuit 174 into DC power having a different voltage.

  The output setting circuit 182 (power change function unit) sets a current target value of DC power that the lighting circuit 18 supplies to the lamp 20. For example, when the power supply from the external power supply is stopped, the output setting circuit 182 sets a smaller current target value than when power is supplied from the external power supply. Thereby, the emergency lighting time can be lengthened.

  The constant current circuit 183 (power supply function unit) further converts the DC power converted by the DC generation circuit 181 into DC power supplied to the lamp 20. The constant current circuit 183 has a converter circuit, for example. The constant current circuit 183 adjusts the DC power supplied to the lamp so that the current value of the DC power supplied to the lamp 20 matches the current target value set by the output setting circuit 182.

  FIG. 3 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The housing 14 has a substantially rectangular shape. A socket 12 is fixed to one end of the housing 14. At the other end of the housing 14. The socket 13 is fixed. The socket 13 incorporates a light source terminal 131. The housing 14 has a power supply hole 141.
The power supply hole 141 is a through hole for drawing the power supply wiring 30 (supply wiring) from the external power supply into the housing 14. The power supply hole 141 is provided near the socket 12.

  The power supply terminal 15, the storage battery 16, the emergency power supply circuit 17 and the lighting circuit 18 are arranged along the longitudinal direction of the housing 14. The order of arrangement is the order of the power terminal 15, the emergency power circuit 17, the lighting circuit 18, and the storage battery 16 in order from the side on which the socket 12 is fixed to the side on which the socket 13 is fixed.

  The emergency power circuit 17 has a long shape. A terminal 176 for connecting the wiring 191 is provided at one end of the emergency power supply circuit 17. Further, a terminal 177 for connecting the wiring 192, a terminal 178 for connecting the wiring 193, and a terminal 179 for connecting the wiring 194 are provided at the other end of the emergency power supply circuit 17. The terminal 177, the terminal 178, and the terminal 179 are provided side by side in the horizontal direction, for example. Among them, the terminal 178 is provided in the middle, and the terminals 177 and 179 are provided at the ends.

  The lighting circuit 18 has a long shape. A terminal 187 for connecting the wiring 192 and a terminal 188 for connecting the wiring 193 are provided at one end of the lighting circuit 18. A terminal 185 for connecting the wiring 195 is provided at the other end of the lighting circuit 18. The terminal 187 and the terminal 188 are provided side by side in the horizontal direction, for example. The terminals 187 and 188 are provided opposite to the terminal 177 that connects the wiring 192 and the terminal 178 that connects the wiring 193 in the emergency power supply circuit 17. For example, in the emergency power circuit 17, when the terminal 177 that connects the wiring 192 is provided on the right side of the terminal 178 that connects the wiring 193, the terminal 187 that connects the wiring 192 in the lighting circuit 18 has the wiring 193. It is provided on the left side of the terminal 188 to be connected.

The power supply terminal 15 is disposed near the power supply hole 141. Therefore, it is easy to connect the power supply wiring 30 drawn into the housing 14 from the power supply hole 141 to the power supply terminal 15.
The emergency power supply circuit 17 is disposed next to the power supply terminal 15. For this reason, the operation | work which connects the power supply terminal 15 and the emergency power supply circuit 17 with the wiring 191 is easy.
The lighting circuit 18 is disposed next to the emergency power supply circuit 17. Further, the terminal 177 for connecting the wiring 192 and the terminal 178 for connecting the wiring 193 in the emergency power supply circuit 17 and the terminal 187 for connecting the wiring 192 and the terminal 188 for connecting the wiring 193 in the lighting circuit 18 are provided to face each other. It has been. Thereby, the emergency power supply circuit 17 and the lighting circuit 18 can be connected without the wiring 192 and the wiring 193 intersecting, and the work of connecting the emergency power supply circuit 17 and the lighting circuit 18 with the wiring 192 and the wiring 193 is easy. is there.
A lighting circuit 18 is disposed between the storage battery 16 and the emergency power supply circuit 17. In the emergency power supply circuit 17, a terminal 177 that connects the wiring 192, a terminal 178 that connects the wiring 193, and the wiring 194 are connected. Since the terminal 179 is provided at the end among the terminals 179, the storage battery 16 and the emergency power supply circuit can be connected without passing the wiring 192 and the wiring 193 by passing the wiring 194 next to the lighting circuit 18. 17 can be connected, and the work of connecting the storage battery 16 and the emergency power supply circuit 17 with the wiring 194 is easy.
The storage battery 16 is disposed between the lighting circuit 18 and the socket 13. By passing the wiring 195 next to the storage battery 16, the wiring 195 does not cross the wiring 194 and the lighting circuit 18 and the light source are disposed. The terminal 131 can be connected, and the operation of connecting the lighting circuit 18 and the light source terminal 131 with the wiring 195 is easy.

When power is supplied from an external power supply, the power transmission wiring is the power supply wiring 30, the wiring 191, the wiring 192, the wiring 194, and the wiring 195, and the wiring 193 does not transmit power. Moreover, since the electric power transmitted by the wiring 194 is electric power which charges the storage battery 16, it is comparatively small electric power.
The wiring 192 and the wiring 194 are closest to each other in the vicinity of the terminal of the emergency power supply circuit 17. Between the terminal 177 that connects the wiring 192 and the terminal 179 that connects the wiring 194, there is a terminal 178 that connects the wiring 193, and the wiring 192 and the wiring 194 are separated from each other.
The wiring 191 and the wiring 194 are separated from each other by the length of the emergency power supply circuit 17.
The wiring 192 and the wiring 195 are separated from each other by the length of the lighting circuit 18.
The wiring 191 and the wiring 195 are separated by the total length of the length of the emergency power supply circuit 17, the length of the lighting circuit 18, and the interval between the emergency power supply circuit 17 and the lighting circuit 18.
As described above, since the wiring 191 and the wiring 192 that transmit AC power are separated from the wiring 194 and the wiring 195 that transmit DC power, noise due to electromagnetic coupling can be reduced.

  Since the wiring in the lighting device 10 can be performed without bringing the AC side wiring and the DC side wiring close to each other and without crossing each other, wiring workability is improved and electromagnetic noise can be reduced.

The emergency power supply circuit 17 may have a configuration having a noise filter. Then, electromagnetic noise can be further reduced.
The housing 14 may have a U-shaped or V-shaped groove along a route through which the wiring 191 and the wiring 192 are routed. If the groove portion of the housing 14 is made of metal, electromagnetic noise can be further reduced.

Embodiment 2. FIG.
Embodiment 2 will be described with reference to FIG.
In addition, about the part which is common in Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The appearance and block configuration of the illumination device 10 in this embodiment are the same as those in the first embodiment.

  FIG. 4 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The circuit is arranged in the order of the power terminal 15, the emergency power circuit 17, the storage battery 16, and the lighting circuit 18 from the side where the socket 12 is fixed toward the side where the socket 13 is fixed. Compared with Embodiment 1, the order of the storage battery 16 and the lighting circuit 18 is reversed.
In the emergency power supply circuit 17, the arrangement order of the terminal 177 to which the wiring 192 is connected, the terminal 178 to which the wiring 193 is connected, and the terminal 179 to which the wiring 194 is connected is different from that in Embodiment 1, and the terminal 179 is provided in the middle. Terminals 177 and 178 are provided at the ends.
The other points are the same as in the first embodiment.

The storage battery 16 is arranged next to the emergency power supply circuit 17. For this reason, the operation | work which connects the storage battery 16 and the emergency power supply circuit 17 with the wiring 194 is easy.
The lighting circuit 18 is disposed next to the socket 13. For this reason, the operation | work which connects the lighting circuit 18 and the light source terminal 131 with the wiring 195 is easy.
The storage battery 16 is disposed between the emergency power supply circuit 17 and the lighting circuit 18. In the emergency power supply circuit 17, a terminal 177 for connecting the wiring 192, a terminal 178 for connecting the wiring 193, and a terminal for connecting the wiring 194 are connected. 179, since the terminal 177 and the terminal 178 are provided at the ends, by passing the wiring 192 and the wiring 193 through the side of the storage battery 16, the wiring 192 and the wiring 193 do not cross the wiring 194, and the emergency power supply The circuit 17 and the lighting circuit 18 can be connected. Further, the terminal 177 for connecting the wiring 192 and the terminal 178 for connecting the wiring 193 in the emergency power supply circuit 17 and the terminal 187 for connecting the wiring 192 and the wiring 193 in the lighting circuit 18 are opposed to each other. Thus, the emergency power supply circuit 17 and the lighting circuit 18 can be connected without the wiring 192 and the wiring 193 crossing each other. Thereby, the operation | work which connects the emergency power supply circuit 17 and the lighting circuit 18 with the wiring 192 and the wiring 193 is easy.

The wiring 192 and the wiring 195 are separated from each other by the length of the lighting circuit 18.
The wiring 191 and the wiring 195 are separated by the total length of the length of the emergency power supply circuit 17, the length of the lighting circuit 18, and the interval between the emergency power supply circuit 17 and the lighting circuit 18.
Thus, since the wiring 191 and the wiring 192 that transmit AC power and the wiring 195 that transmit DC power are separated, noise due to electromagnetic coupling can be reduced. In particular, since the distance between the emergency power supply circuit 17 and the lighting circuit 18 is farther than that in the first embodiment, noise due to electromagnetic coupling between the wiring 191 and the wiring 195 can be further reduced.

The wiring 191 and the wiring 194 are separated from each other by the length of the emergency power supply circuit 17. Thereby, noise due to electromagnetic coupling between the wiring 191 and the wiring 194 can be reduced.
Although the wiring 192 and the wiring 194 are not so far away from each other, the length of the wiring 194 is shorter than that in Embodiment 1, so that noise due to electromagnetic coupling between the wiring 192 and the wiring 194 can be reduced.

  Since the wiring 195 to the light source terminal 131 having a high voltage among the DC wirings is separated from the storage battery 16, electromagnetic noise can be reduced.

Embodiment 3 FIG.
Embodiment 3 will be described with reference to FIG.
Note that portions common to Embodiment 1 or Embodiment 2 are denoted by the same reference numerals and description thereof is omitted.

  The appearance and block configuration of the illumination device 10 in this embodiment are the same as those in the first embodiment.

  FIG. 5 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The circuit is arranged in the order of the power terminal 15, the lighting circuit 18, the emergency power circuit 17, and the storage battery 16 from the side on which the socket 12 is fixed toward the side on which the socket 13 is fixed. Compared to the first embodiment, the order of the emergency power supply circuit 17 and the lighting circuit 18 is reversed.
In the emergency power supply circuit 17, the terminal 177 that connects the wiring 192 and the terminal 178 that connects the wiring 193 are not on the same side as the terminal 179 that connects the wiring 194, but on the same side as the terminal 176 that connects the wiring 191. It has been. Of the terminals 176, 177, and 178, the terminal 177 is provided in the middle, and the terminals 176 and 178 are provided at the ends.
In the lighting circuit 18, a terminal 187 that connects the wiring 192, a terminal 188 that connects the wiring 193, and a terminal 185 that connects the wiring 195 are all provided on the same side. Of the terminal 187, the terminal 188, and the terminal 185, the terminal 188 is provided in the middle, and the terminal 187 and the terminal 185 are provided at the ends.
The terminal 177 and the terminal 178 and the terminal 187 and the terminal 188 are provided to face each other. For example, when the terminal 178 is provided on the right side of the terminal 177, the terminal 188 is provided on the left side of the terminal 187.
The other points are the same as in the first embodiment.

The lighting circuit 18 is disposed between the power supply terminal 15 and the emergency power supply circuit 17. In the emergency power supply circuit 17, the terminal 176 that connects the wiring 191, the terminal 177 that connects the wiring 192, and the wiring 193 are connected. Since the terminal 176 is provided at the end among the terminals 178 to be operated, the wiring 191 does not cross the wiring 192 and the wiring 193 by passing the wiring 191 next to the lighting circuit 18, so that The power supply circuit 17 can be connected, and the work of connecting the power supply terminal 15 and the emergency power supply circuit 17 with the wiring 191 is easy.
The storage battery 16 is arranged next to the emergency power supply circuit 17. For this reason, the operation | work which connects the storage battery 16 and the emergency power supply circuit 17 with the wiring 194 is easy.
The lighting circuit 18 is disposed next to the emergency power supply circuit 17. Further, the terminal 177 for connecting the wiring 192 and the terminal 178 for connecting the wiring 193 in the emergency power supply circuit 17 and the terminal 187 for connecting the wiring 192 and the wiring 193 in the lighting circuit 18 are opposed to each other. Is provided. Thereby, the emergency power supply circuit 17 and the lighting circuit 18 can be connected without the wiring 192 and the wiring 193 intersecting, and the work of connecting the emergency power supply circuit 17 and the lighting circuit 18 with the wiring 192 and the wiring 193 is easy. is there.
The emergency power circuit 17 and the storage battery 16 are disposed between the lighting circuit 18 and the socket 13. In the lighting circuit 18, the terminal 187 that connects the wiring 192, the terminal 188 that connects the wiring 193, and the wiring 195 are arranged. Since the terminal 185 is provided at the end of the terminal 185 for connecting the wiring 195, the wiring 195 intersects with the wiring 192, the wiring 193, and the wiring 194 by passing the wiring 195 next to the emergency power supply circuit 17 and the storage battery 16. Therefore, the lighting circuit 18 and the light source terminal 131 can be connected, and the operation of connecting the lighting circuit 18 and the light source terminal 131 with the wiring 195 is easy.

The wiring 191 and the wiring 192 are separated from the wiring 194 by the length of the emergency power supply circuit 17.
The wiring 192 and the wiring 195 are closest to each other in the vicinity of the terminal of the lighting circuit 18. Between a terminal 187 that connects the wiring 192 and a terminal 185 that connects the wiring 195, there is a terminal 188 that connects the wiring 193, and the wiring 192 and the wiring 195 are separated from each other.
There are a wiring 192 and a wiring 193 between the wiring 191 and the wiring 195, and the wiring 191 and the wiring 195 are separated from each other.
As described above, since the wiring 191 and the wiring 192 that transmit AC power are separated from the wiring 194 and the wiring 195 that transmit DC power, noise due to electromagnetic coupling can be reduced.

  Since the AC wiring is almost up to the center of the lighting device 10 and is far from the DC wiring, electromagnetic noise can be reduced from being superimposed on the AC wiring from the wiring 195 to the light source terminal 131.

Embodiment 4 FIG.
The fourth embodiment will be described with reference to FIG.
In addition, about the part which is common in Embodiment 1- Embodiment 3, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The appearance and block configuration of the illumination device 10 in this embodiment are the same as those in the first embodiment.

  FIG. 6 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The power supply hole 141 is provided not in the vicinity of the socket 12 but in the approximate center of the housing 14.
The storage battery 16 is disposed near the socket 12.
The power supply terminal 15 is disposed near the power supply hole 141.
The emergency power supply circuit 17 is disposed between the power supply hole 141 and the socket 13.
The lighting circuit 18 is disposed near the socket 13.
The circuit is arranged in the order of the storage battery 16, the power supply terminal 15, the emergency power supply circuit 17, and the lighting circuit 18 from the side where the socket 12 is fixed to the side where the socket 13 is fixed.
The other points are the same as in the first embodiment.

The emergency power supply circuit 17 is disposed next to the power supply terminal 15. For this reason, the operation | work which connects the power supply terminal 15 and the emergency power supply circuit 17 with the wiring 191 is easy.
The lighting circuit 18 is disposed next to the emergency power supply circuit 17. Further, the terminal 177 for connecting the wiring 192 and the terminal 178 for connecting the wiring 193 in the emergency power supply circuit 17 and the terminal 187 for connecting the wiring 192 and the wiring 193 in the lighting circuit 18 are opposed to each other. Is provided. Thereby, the emergency power supply circuit 17 and the lighting circuit 18 can be connected without the wiring 192 and the wiring 193 intersecting, and the work of connecting the emergency power supply circuit 17 and the lighting circuit 18 with the wiring 192 and the wiring 193 is easy. is there.
The lighting circuit 18 is arranged next to the socket 13. For this reason, the operation | work which connects the lighting circuit 18 and the light source terminal 131 with the wiring 195 is easy.

Between the terminal 177 that connects the wiring 192 and the terminal 179 that connects the wiring 194, there is a terminal 178 that connects the wiring 193, so that the wiring 192 and the wiring 194 are separated from each other.
Further, the wiring 191 and the wiring 194 are separated from each other.
The wiring 192 and the wiring 195 are separated from each other by the length of the lighting circuit 18.
The wiring 191 and the wiring 195 are separated by the total length of the length of the emergency power supply circuit 17, the length of the lighting circuit 18, and the interval between the emergency power supply circuit 17 and the lighting circuit 18.
As described above, since the wiring 191 and the wiring 192 that transmit AC power are separated from the wiring 194 and the wiring 195 that transmit DC power, noise due to electromagnetic coupling can be reduced. In particular, since the length of the wiring 195 is shorter than that in Embodiment Mode 1, noise due to electromagnetic coupling between the wiring 191 and the wiring 192 and the wiring 195 can be further reduced.
Further, since the storage battery 16 is arranged away from the heat generating circuit such as the emergency power supply circuit 17 and the lighting circuit 18, the life of the storage battery 16 can be extended.

  Since the wiring 195 to the light source terminal 131 having a high voltage among the DC wirings is short, it is possible to reduce electromagnetic noise from being superimposed on the AC wiring from the wiring 195. Further, since the wiring can be shortened, the workability of the wiring can be improved.

Embodiment 5 FIG.
The fifth embodiment will be described with reference to FIG.
In addition, about the part which is common in Embodiment 1- Embodiment 4, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The appearance and block configuration of the illumination device 10 in this embodiment are the same as those in the first embodiment.

  FIG. 7 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The housing 14 has two mounting holes 142 and 143.
The attachment holes 142 and 143 are through holes for passing a fixture such as a bolt for fixing the lighting device 10 to a ceiling surface or the like. The two attachment holes 142 and 143 are provided apart in the longitudinal direction of the housing 14. The mounting hole 142 is provided at about a quarter of the center of the casing 14 in the longitudinal direction and close to the socket 12 side. The mounting hole 143 is provided at about a quarter of the position near the socket 13 on the central axis in the longitudinal direction of the housing 14.
The power supply hole 141 is provided between the attachment hole 142 and the attachment hole 143. The power supply hole 141 is provided not at the center of the housing 14 but at a position close to the attachment hole 142.
The circuit arrangement order is the same as that in the fourth embodiment. The power supply terminal 15, the emergency power supply circuit 17, and the lighting circuit 18 are disposed between the two mounting holes 142 and 143. The storage battery 16 is arranged outside the two mounting holes 142 and 143, near the socket 12.
The other points are the same as in the first embodiment.

Since the storage battery 16 is arranged away from the heat generating circuit such as the emergency power supply circuit 17 and the lighting circuit 18, the life of the storage battery 16 can be extended.
Further, there is no wiring other than the wiring 194 near the mounting hole 142, and there is no wiring other than the wiring 195 near the mounting hole 143. For this reason, the operation | work which fixes the illuminating device 10 to a ceiling surface etc. is easy.

  Since the lighting circuit 18 and the storage battery 16 are separated from each other, the temperature of the storage battery 16 can be lowered with respect to the heat generated by the lighting circuit 18. In addition, since AC wiring is short, wiring workability can be improved.

Embodiment 6 FIG.
Embodiment 6 will be described with reference to FIG.
In addition, about the part which is common in Embodiment 1- Embodiment 5, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The appearance and block configuration of the illumination device 10 in this embodiment are the same as those in the first embodiment.

  FIG. 8 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The circuit arrangement order is the same as that of the first embodiment. The power supply terminal 15, the emergency power supply circuit 17, and the lighting circuit 18 are disposed between the two mounting holes 142 and 143. The storage battery 16 is disposed outside the two mounting holes 142 and 143, near the socket 13.
The other points are the same as in the fifth embodiment.

  Since the wiring 191 and the wiring 192 that transmit AC power are separated from the wiring 194 and the wiring 195 that transmit DC power, noise due to electromagnetic coupling can be reduced.

  Since the wiring 194 to the storage battery 16 does not pass through the vicinity of the power supply terminal 15, electromagnetic noise can be reduced. Further, since direct current wiring is performed in the same direction with respect to the emergency power supply circuit 17, the workability of wiring can be improved.

Embodiment 7 FIG.
The seventh embodiment will be described with reference to FIG.
In addition, about the part which is common in Embodiment 1- Embodiment 6, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The appearance and block configuration of the illumination device 10 in this embodiment are the same as those in the first embodiment.

  FIG. 9 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The power supply device 19 (always / emergency power supply device) includes an emergency power supply circuit 17 and a lighting circuit 18. Since the emergency power supply circuit 17 and the lighting circuit 18 are electrically connected in the power supply device 19, it is not necessary to connect the wiring 192 and the wiring 193. The power supply device 19 has a long shape.
A terminal 176 of the emergency power supply circuit 17 to which the wiring 191 is connected is provided at one end of the power supply device 19. The terminal 179 of the emergency power supply circuit 17 that connects the wiring 194 and the terminal 185 of the lighting circuit 18 that connects the wiring 195 are provided at the other end of the power supply device 19.
The arrangement order of the circuits is the order of the power supply terminal 15, the power supply device 19, and the storage battery 16 in order from the side on which the socket 12 is fixed to the side on which the socket 13 is fixed.
The other points are the same as in the first embodiment.

Since the emergency power circuit 17 and the lighting circuit 18 are integrated, the number of wirings is reduced, and the work of connecting the wirings is easy.
In addition, since the wiring 191 that transmits AC power is separated from the wiring 194 and wiring 195 that transmit DC power, noise due to electromagnetic coupling can be reduced.

  Since there are few wirings, the workability of wiring can be improved. Since the storage battery 16 is separated from the power supply device 19 that generates a large amount of heat, the temperature of the storage battery 16 can be lowered. The left and right weights are well balanced with respect to the power supply hole 141.

Embodiment 8 FIG.
An eighth embodiment will be described with reference to FIG.
In addition, about the part which is common in Embodiment 1- Embodiment 7, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  The appearance and block configuration of the illumination device 10 in this embodiment are the same as those in the first embodiment.

  FIG. 10 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The power supply device 19 includes an emergency power supply circuit 17 and a lighting circuit 18 as in the seventh embodiment. Since the emergency power supply circuit 17 and the lighting circuit 18 are electrically connected in the power supply device 19, it is not necessary to connect the wiring 192 and the wiring 193. The power supply device 19 has a long shape.
A terminal 176 of the emergency power supply circuit 17 that connects the wiring 191 and a terminal 179 of the emergency power supply circuit 17 that connects the wiring 194 are provided at one end of the power supply device 19. A terminal 185 of the lighting circuit 18 to which the wiring 195 is connected is provided at the other end of the power supply device 19.
The circuit arrangement order is the order of the storage battery 16, the power terminal 15, and the power supply device 19 in this order from the side where the socket 12 is fixed to the side where the socket 13 is fixed.
The other points are the same as in the fourth embodiment.

Since the emergency power circuit 17 and the lighting circuit 18 are integrated, the number of wirings is reduced, and the work of connecting the wirings is easy.
In addition, since the wiring 191 that transmits AC power is separated from the wiring 195 that transmits DC power, noise due to electromagnetic coupling can be reduced.

Embodiment 9 FIG.
The ninth embodiment will be described with reference to FIGS.
In addition, about the part which is common in Embodiment 1- Embodiment 8, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  FIG. 11 is a perspective view showing the external appearance of the illumination device 10 according to this embodiment.

The illumination device 10 is used by connecting two lamps 20a and 20b.
The lamps 20a and 20b are the same as the lamp 20 described in the first embodiment.

The lighting device 10 has a long shape. The illuminating device 10 includes a housing 14 (not shown), a reflecting plate 11, and four sockets 12a, 12b, 13a, and 13b.
The casing 14 and the reflecting plate 11 are the same as in the embodiment.
The socket 12 a and the socket 13 b are located at one end of the lighting device 10. The socket 12 b and the socket 13 a are located at the other end of the lighting device 10.
The socket 12a engages with a fixing pin of the lamp 20a to fix the lamp 20a.
The socket 13a is opposed to the socket 12a. The socket 13a is engaged with the power supply pin of the lamp 20a to fix the lamp 20a.
The socket 12b engages with a fixing pin of the lamp 20b to fix the lamp 20b.
The socket 13b is opposed to the socket 12b. The socket 13b is engaged with the power supply pin of the lamp 20b to fix the lamp 20b.
Thereby, the lamp 20a and the lamp 20b are fixed in parallel to each other.

  FIG. 12 is a diagram showing a block configuration of the illumination device 10 according to this embodiment.

The lighting device 10 lights the two connected lamps 20a and 20b.
The lighting device 10 has an emergency lighting function. When electric power is supplied from the external power supply, the lighting device 10 charges the storage battery 16 while lighting the lamp 20a and the lamp 20b with the electric power supplied from the external power supply. When the power supply from the external power supply is stopped due to a power failure or the like, the lighting device 10 turns on the lamp 20b with the power charged in the storage battery 16.

  The lighting device 10 includes, for example, two light source terminals 131a and 131b, a power supply terminal 15, a storage battery 16, an emergency power supply circuit 17, two lighting circuits 18a and 18b, and wirings 191, 192a, 192b, 193, and 194. , 195a, 195b.

Each of the wirings 191 to 195 is a two-line wiring. The wiring 191 electrically connects the power supply terminal 15 and the terminal 176 of the emergency power supply circuit 17. The wiring 192a electrically connects the terminal 177a of the emergency power circuit 17 and the terminal 187a of the lighting circuit 18a. The wiring 192b electrically connects the terminal 177b of the emergency power circuit 17 and the terminal 187b of the lighting circuit 18b. The wiring 193 electrically connects the terminal 178 of the emergency power supply circuit 17 and the terminal 188b of the lighting circuit 18b. The wiring 194 electrically connects the storage battery 16 and the terminal 179 of the emergency power supply circuit 17. The wiring 195a electrically connects the terminal 185a of the lighting circuit 18a and the light source terminal 131a. The wiring 195b electrically connects the terminal 185b of the lighting circuit 18b and the light source terminal 131b.
The wiring 191, the wiring 192a, and the wiring 192b transmit AC power. The wiring 193, the wiring 194, and the wiring 195 transmit DC power.

The light source terminal 131a is built in the socket 13a. The light source terminal 131a is electrically connected to the power supply pin of the lamp 20a and supplies DC power to the lamp 20a.
The light source terminal 131b is built in the socket 13b. The light source terminal 131b is electrically connected to the power supply pin of the lamp 20b and supplies DC power to the lamp 20b.

  When power is supplied from an external power supply, the emergency power supply circuit 17 outputs the power supplied from the external power supply to the lighting circuit 18 a and the lighting circuit 18 b and charges the storage battery 16. When the power supply from the external power supply is stopped, the emergency power supply circuit 17 outputs the power stored in the storage battery 16 to the lighting circuit 18b. The emergency power supply circuit 17 includes, for example, an inspection circuit 171, a charging circuit 172, a charging notification circuit 173, a booster circuit 174, and five terminals 176, 177, 178a, 178b, and 179.

The lighting circuit 18a converts the power supplied from the emergency power supply circuit 17 into DC power for lighting the lamp 20a. The lighting circuit 18a includes, for example, a DC generation circuit 181a, an output setting circuit 182a, a constant current circuit 183a, and two terminals 185a and 187a.
The lighting circuit 18b converts the power supplied from the emergency power supply circuit 17 into DC power for lighting the lamp 20b. The lighting circuit 18b includes, for example, a DC generation circuit 181b, an output setting circuit 182b, a constant current circuit 183b, and three terminals 185b, 187b, and 188b.

  The other points are the same as in the first embodiment.

  FIG. 13 is a diagram showing an arrangement in the illumination device 10 according to this embodiment.

The housing 14 has a substantially rectangular shape. A socket 13 a and a socket 12 b are fixed to one end of the housing 14. A socket 12 a and a socket 13 b are fixed to the other end of the housing 14. The socket 13a has a built-in light source terminal 131a. The socket 13b has a built-in light source terminal 131b. The housing 14 has a power supply hole 141.
The power supply hole 141 is a through hole for drawing the power supply wiring 30 from the external power supply into the housing 14. The power supply hole 141 is provided at substantially the center of the housing 14.

  The power supply terminal 15, the storage battery 16, the emergency power supply circuit 17, the lighting circuit 18 a and the lighting circuit 18 b are arranged along the longitudinal direction of the housing 14. The order of arrangement is the lighting circuit 18a, the storage battery 16, the power terminal 15, the emergency power circuit 17, from the side where the socket 13a and the socket 12b are fixed to the side where the socket 12a and the socket 13b are fixed. The order of the lighting circuit 18b.

  The emergency power circuit 17 has a long shape. A terminal 176 for connecting the wiring 191 is provided at one end of the emergency power supply circuit 17. A terminal 177 a for connecting the wiring 192 a, a terminal 177 b for connecting the wiring 192 b, a terminal 178 for connecting the wiring 193, and a terminal 179 for connecting the wiring 194 are provided at the other end of the emergency power supply circuit 17. The terminal 177a, the terminal 177b, the terminal 178, and the terminal 179 are provided side by side in the horizontal direction, for example. The arrangement order of the terminals is, for example, the order of the terminal 177a, the terminal 177b, the terminal 178, and the terminal 179.

  The lighting circuit 18a has a long shape. A terminal 187a for connecting the wiring 192a is provided at one end of the lighting circuit 18a. A terminal 185a for connecting the wiring 195a is provided at the other end of the lighting circuit 18a.

  The lighting circuit 18b has a long shape. A terminal 187b for connecting the wiring 192b and a terminal 188b for connecting the wiring 193 are provided at one end of the lighting circuit 18b. A terminal 185b for connecting the wiring 195b is provided at the other end of the lighting circuit 18b. The terminal 187b and the terminal 188b are provided side by side in the horizontal direction, for example. The terminal 187 b and the terminal 188 b are provided to face the terminal 177 b connecting the wiring 192 b and the terminal 178 b connecting the wiring 193 in the emergency power circuit 17. For example, in the emergency power supply circuit 17, when the terminal 177b connecting the wiring 192b is provided on the right side of the terminal 178b connecting the wiring 193, the terminal 187b connecting the wiring 192b in the lighting circuit 18b is connected to the wiring 193. It is provided on the left side of the terminal 188b to be connected.

The power supply terminal 15 is disposed near the power supply hole 141. Therefore, it is easy to connect the power supply wiring 30 drawn into the housing 14 from the power supply hole 141 to the power supply terminal 15.
The emergency power supply circuit 17 is disposed next to the power supply terminal 15. For this reason, the operation | work which connects the power supply terminal 15 and the emergency power supply circuit 17 with the wiring 191 is easy.
The lighting circuit 18b is disposed next to the emergency power supply circuit 17. In the emergency power supply circuit 17, the terminal 177b connecting the wiring 192b and the terminal 178 connecting the wiring 193, and the terminal 187b connecting the wiring 192b and the terminal 188b connecting the wiring 193 in the lighting circuit 18b are provided to face each other. It has been. Thus, the emergency power supply circuit 17 and the lighting circuit 18b can be connected without the wiring 192b and the wiring 193 intersecting, and the work of connecting the emergency power supply circuit 17 and the lighting circuit 18b with the wiring 192b and the wiring 193 is easy. is there.
The lighting circuit 18b is disposed next to the socket 13b. For this reason, the operation | work which connects the lighting circuit 18b and the light source terminal 131b with the wiring 195b is easy.
The lighting circuit 18a is disposed next to the socket 13a. For this reason, the operation | work which connects the lighting circuit 18a and the light source terminal 131a with the wiring 195a is easy.
Between the lighting circuit 18a and the emergency power supply circuit 17, the storage battery 16 and the power supply terminal 15 are disposed. In the emergency power supply circuit 17, the terminal 177a for connecting the wiring 192a, the terminal 177b for connecting the wiring 192b, and the wiring Since the terminal 177a is provided at the end among the terminal 178 connecting the 193 and the terminal 179 connecting the wiring 194, the wiring 192a is connected to the other by passing the wiring 192a next to the storage battery 16 and the power supply terminal 15. The emergency power supply circuit 17 and the lighting circuit 18a can be connected without crossing the wiring. Thereby, the operation | work which connects the emergency power supply circuit 17 and the lighting circuit 18a with the wiring 192a is easy.

  In addition, since the wiring 191, the wiring 192a, and the wiring 192b that transmit AC power are separated from the wiring 194, the wiring 195a, and the wiring 195b that transmit DC power, noise due to electromagnetic coupling can be reduced.

  Further, since the storage battery 16 is arranged away from the heat generating circuit such as the emergency power supply circuit 17, the lighting circuit 18a, and the lighting circuit 18b, the life of the storage battery 16 can be extended.

  Since the wirings 195a and 195b to the light source terminals 131a and 131b having a high voltage among the DC wirings are short, electromagnetic noise can be reduced. Moreover, since the storage battery 16 is separated from the lighting circuits 18a and 18b that generate a large amount of heat, the temperature of the storage battery 16 can be lowered.

  According to the lighting device 10 described above, the lamp 20 is shared between the normal time and the emergency time, and the lighting circuit 18 is shared between the normal time and the emergency time. And electromagnetic noise can be reduced.

  As described above, the configuration described in each embodiment is an example, and another configuration may be used. For example, a configuration obtained by combining configurations described in different embodiments within a consistent range may be used, or a configuration in which a non-essential part is replaced with another configuration may be used.

  DESCRIPTION OF SYMBOLS 10 Illuminating device, 11 Reflector, 12, 13 Socket, 131 Light source terminal, 14 Case, 141 Power supply hole, 142,143 Mounting hole, 15 Power supply terminal, 16 Storage battery, 17 Emergency power supply circuit, 171 Inspection circuit, 172 Charging circuit , 173 Charge notification circuit, 174 booster circuit, 176 to 179, 185, 187, 188 terminal, 18 lighting circuit, 181 DC generation circuit, 182 output setting circuit, 183 constant current circuit, 19 power supply device, 191 to 195 wiring, 20 Lamp, 30 Power supply wiring.

Claims (6)

A power supply terminal to connect wiring from an external power supply,
A storage battery,
When power is supplied from the external power supply, the storage battery is charged, and when power is not supplied from the external power supply, an emergency power supply circuit that outputs the power stored in the storage battery;
A lighting circuit that converts power supplied from the external power supply and the emergency power supply circuit into power for lighting a light source;
A light source terminal for connecting a lamp having the light source;
A first wiring for electrically connecting the power supply terminal and the emergency power supply circuit;
A second wiring for electrically connecting the emergency power circuit and the storage battery;
A third wiring for electrically connecting the lighting circuit and the light source terminal;
The lighting device, wherein the first wiring, the second wiring, and the third wiring do not intersect each other. The lighting device has an elongated casing,
The lighting device according to claim 1, wherein the power supply terminal, the emergency power supply circuit, and the light source terminal are arranged in this order from one end of the housing to the other end. The lighting device according to claim 2, wherein the lighting circuit is disposed between the emergency power circuit and the light source terminal or between the power terminal and the emergency power circuit. The lighting device according to claim 2, wherein the storage battery is disposed between the emergency power supply circuit and the light source terminal or outside the power supply terminal. The housing has two mounting holes provided apart in the longitudinal direction,
The power supply terminal, the emergency power supply circuit, and the lighting circuit are disposed between the two mounting holes,
The lighting device according to claim 2, wherein the storage battery is disposed outside the two attachment holes. The housing has a power supply hole for drawing in wiring from the external power supply,
The lighting device according to any one of claims 2 to 5, wherein the power supply hole is provided at an end or substantially the center of the housing.

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