JP2016181453A - Lighting fixture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting fixture which stably secures a power supply source for outputting beacon.SOLUTION: A lighting fixture 1 includes a battery 103. The lighting fixture 1 includes an LED lighting part 109 using either of a commercial power supply 10 or the battery 103 as a power supply source. The lighting fixture 1 includes a beacon transmission part 101. The beacon transmission part 101 operates with electric power supplied from the commercial power supply 10 when the electric power is supplied from the commercial power supply 10, operates with electric power supplied from the battery 103 when the electric power supplied from the commercial power supply 10 is stopped, and outputs prescribed information.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a lighting fixture.

  In recent years, with the spread of portable terminal devices such as mobile terminals and smartphones, systems that perform information distribution using a network such as advertisement distribution via the network are increasing. As information distribution using the network, there are various forms such as distribution of information such as evacuation sites in emergency and distribution of event information in addition to advertisement distribution. For such information distribution, in particular, it is often desired to provide information according to the location where the terminal device exists.

  For example, the provision of information according to the position will be described by taking the case of advertisement distribution as an example. When a user with a terminal device enters a store, information such as products recommended by the store is transmitted to the terminal device. The user refers to the information distributed to the terminal device and determines a purchasing guideline.

  In information distribution according to such a position, it is difficult to place an information providing device at each point from the viewpoint of facilities and cost. For example, in the case of a franchise type of business, it is conceivable to provide the same information at a large number of stores. In such a case, it is inefficient to install an information providing server at each store.

  Therefore, a system using a beacon has been considered in order to reduce facilities and costs. A beacon is a signal for transmitting data of a small size by wireless communication such as infrared communication, and is also called a wireless sign. Hereinafter, information transmitted using a beacon is referred to as a “beacon message”. As a system using a beacon, for example, a relatively simple beacon message is transmitted to a relatively narrow range, and the terminal device that has received the beacon message is specified by accessing the upper server specified by the received beacon message. A system that obtains information can be considered.

  However, when installing a beacon transmitter alone, securing power is important to output a beacon, but it may be difficult to secure power due to various conditions such as radio wave arrival conditions and installation location environment. There is. Although it is conceivable to install a battery in the beacon transmission device, it is necessary to charge the battery and replace the battery, which makes the management complicated.

  In this regard, the lighting fixture is in a state where power is easily supplied due to its nature. Therefore, it is conceivable to attach a beacon transmission device to the lighting fixture.

  2. Description of the Related Art Conventionally, as a lighting fixture that performs wireless communication, an illumination light source that performs lighting control by receiving a radio signal with an antenna on a substrate provided at a position that does not block a light emitting unit has been proposed.

JP 2012-227021 A

  However, when the power source of the lighting fixture is simply used for the information transmission device, there is a possibility that the power supply to the lighting device may be stopped when the main power source of the lighting power supply is turned off and the lighting is turned off. Therefore, even if a beacon transmission device is mounted on a lighting fixture, the output of the beacon may stop when the illumination is turned off. Further, even in the case of a conventional luminaire with a built-in wireless device that performs lighting control, when the main power source is turned off, power supply to the wireless device is stopped and beacon output may be stopped. .

  The disclosed technology has been made in view of the above, and an object of the present invention is to provide a lighting fixture that stably secures a power source for beacon output.

  The lighting fixture which this application discloses is equipped with a battery in one mode. The light emitting unit emits light using either a commercial power source or the battery as a power supply source. The information output unit operates with power supplied from the commercial power source when power is supplied from the commercial power source, and operates with power supplied from the battery when power supplied from the commercial power source is stopped. Operates and outputs predetermined information.

FIG. 1 is a system configuration diagram of an information providing system using a beacon. FIG. 2 is a block diagram of the luminaire according to the first embodiment. FIG. 3 is a circuit diagram showing details of the LED illumination unit. FIG. 4 is a schematic diagram illustrating an example of a lighting fixture. FIG. 5A is a side view of another example of a lighting fixture. FIG. 5B is a cross-sectional view taken along the line A-A ′ in FIG. 5A. FIG. 6 is a flowchart of a beacon transmission process performed by the lighting apparatus according to the first embodiment. FIG. 7 is a block diagram of a luminaire according to the second embodiment.

  The luminaire 1 according to the embodiment described below includes a battery 103, a light emitting unit, and a beacon transmitting unit 101. The light emitting unit emits light using either the commercial power supply 10 or the battery 103 as a power supply source. The beacon transmission unit 101 operates with the power supplied from the commercial power supply 10 when power is supplied from the commercial power supply 10, and the power supplied from the battery 103 when the power supplied from the commercial power supply 10 stops. To output predetermined information.

  In addition, a light emitting element according to the embodiment described below is a light emitting diode (LED) element 131.

  Moreover, the lighting fixture 1 which concerns on embodiment described below is an emergency light or a guide light.

  Moreover, the beacon transmission part 101 which concerns on embodiment described below outputs a radio | wireless sign.

  In addition, the beacon transmission unit 101 according to the embodiment described below outputs a normal beacon message when operating with power supplied from the commercial power supply 10, and operates with power supplied from the battery 103. An emergency beacon message is output.

  Also, the beacon transmission unit 101 according to the embodiment described below receives a power supply switching notification from the charging control unit 102 and switches information to be output.

  The commercial power supply side switch 104 according to the embodiment described below is provided on the connection between the commercial power supply 10 and the light emitting unit and at a place other than the connection between the commercial power supply 10 and the beacon transmission unit 101, and the light emitting unit The power supply from the commercial power supply 10 is cut off. The beacon transmission unit 101 is connected on the connection between the commercial power source and the battery and on the connection between the battery and the light source.

  Hereinafter, a control system according to an embodiment will be described with reference to the drawings. In the embodiment, the same parts are denoted by the same reference numerals, and redundant description is omitted.

(First embodiment)
First, the control system according to the first embodiment will be described with reference to FIGS. In the following description, a case where an LED (Light Emitting Diode) is used as an illumination member will be described as an example, but the illumination member is not limited to this. For example, an incandescent lamp may be used.

[Configuration of information provision system]
FIG. 1 is a system configuration diagram of an information providing system using a beacon. The lighting fixture 1 is a guide light installed in a public facility, for example. The luminaire 1 includes a beacon transmission unit 101 that outputs a beacon that is a wireless sign. The lighting fixture 1 will be described in detail later. The beacon transmission unit 101 outputs a beacon using short-range wireless communication. Specifically, the beacon transmission unit 101 outputs a normal beacon at normal time as described later. In addition, when the power supply from the commercial power supply is stopped, the beacon transmission unit 101 outputs an emergency beacon.

  The terminal device 2 is a portable terminal device such as a smartphone or a tablet PC (Personal Computer). The terminal device 2 receives the beacon output from the beacon transmission unit 101. When receiving the normal beacon, the terminal device 2 transmits a message acquisition request from the advertisement message server 4 to the base station 3. When the emergency beacon is received, the terminal device 2 transmits a message acquisition request from the emergency message server 5 to the base station 3. Thereafter, the terminal device 2 acquires a message corresponding to the message acquisition request from the base station 3 and provides it to the operator by displaying it on the display.

  The base station 3 is a device that mediates access by the terminal device 2 to a network such as a telephone network. When receiving the message acquisition request from the advertisement message server 4 from the terminal device 2, the base station 3 transmits a message acquisition request to the advertisement message server 4. Thereafter, the base station 3 acquires an advertisement message from the advertisement message server 4. Then, the base station 3 transmits an advertisement message to the terminal device 2.

  When receiving a message acquisition request from the emergency message server from the terminal device 2, the base station 3 transmits a message acquisition request to the emergency message server 5. Thereafter, the base station 3 acquires an emergency message from the emergency message server 5. Then, the base station 3 transmits an emergency message to the terminal device 2.

  The advertisement message server 4 stores in advance advertisement messages such as advertisements related to facilities where the lighting fixtures 1 are arranged. When the message server for advertisement 4 receives a message acquisition request from the base station 3, the advertisement message server 4 outputs the stored advertisement message to the base station 3.

The emergency message server 5 stores in advance an emergency message such as information on an evacuation destination in a facility where the lighting apparatus 1 is arranged. When the emergency message server 5 receives a message acquisition request from the base station 3, the emergency message server 5 outputs the stored emergency message to the base station 3.
[Configuration of lighting device]

  FIG. 2 is a block diagram of the luminaire according to the first embodiment. Here, lines connecting the respective parts in FIG. 2 represent electrical transmission lines. Moreover, the arrow in FIG. 2 represents the flow of the control signal. The lighting fixture 1 is connected to a commercial power source 10 as shown in FIG. The commercial power supply 10 supplies alternating current electricity to the lighting fixture 1.

  The luminaire 1 includes a beacon transmission unit 101, a charge control unit 102, a battery 103, a commercial power source side switch 104, a battery side switch 105, an LED power source control unit 106, an emergency power source control unit 107, a power source selection switch 108, and an LED lighting unit. 109.

  The charging control unit 102 receives power supply from the commercial power supply 10. Then, when receiving power supply from the commercial power source 10, the charging control unit 102 turns on the commercial power source side switch 104 and turns off the battery side switch 105. Further, the charging control unit 102 switches the power source selection switch 108 to connect the LED power source side, that is, the LED power source control unit 106 and the LED illumination unit 109. As a result, the power supplied from the commercial power supply 10 is supplied to the LED illumination unit 109.

  When receiving power supply from the commercial power source 10, the charging control unit 102 adjusts the voltage of electricity supplied from the commercial power source 10 to the charging voltage of the battery 103. Then, the charging control unit 102 supplies electricity with adjusted voltage to the battery 103.

  Further, the charging control unit 102 also supplies the power supplied from the commercial power supply 10 to the beacon transmission unit 101. When receiving power supply from the commercial power supply 10, the charging control unit 102 outputs a commercial power supply use notification to the output unit 111 of the beacon transmission unit 101.

  On the other hand, when the power supply from the commercial power source 10 is stopped, the charging control unit 102 turns off the commercial power source side switch 104 and turns on the battery side switch 105. In addition, the charging control unit 102 switches the power source selection switch 108 to connect the emergency power source 107 side, that is, the emergency power source control unit 107 and the LED illumination unit 109. As a result, the transmission path from the commercial power supply 10 to the LED illumination unit 109 is disconnected, and the power output from the battery 103 is supplied to the LED illumination unit 109.

  In this case, since the supply power from the commercial power supply 10 is stopped, the supply of the power supplied from the commercial power supply 10 to the battery 103 is stopped.

  Furthermore, when receiving power supply from the commercial power supply 10, the charging control unit 102 outputs a battery usage notification to the output unit 111 of the beacon transmission unit 101.

  The battery 103 stores the electricity supplied from the commercial power supply 10 when power is supplied from the commercial power supply 10.

  When the power supply from the commercial power supply 10 is interrupted, the battery 103 outputs the stored electricity. In this case, the power output from the battery 103 is transmitted to the beacon transmission unit 101 and the emergency power control unit 108.

  The commercial power supply side switch 104 is a switch for connecting and disconnecting a transmission line connecting the commercial power supply 10 and the LED power supply control unit 106. When there is power supply from the commercial power supply 10, the commercial power supply side switch 104 is turned on in response to an instruction from the charging control unit 102. Further, the commercial power supply side switch 104 is in a state where an on instruction is received from the charging control unit 102, that is, in a state where power is supplied from the commercial power supply 10, an external power button (not shown) is connected to the user. Is pressed on and off. Thus, the user can control the lighting of the LED lighting unit 109 by turning on and off the commercial power supply side switch 104 by the power button of the lighting fixture 1. The commercial power supply side switch 104 is an example of a “shut-off mechanism”.

  Here, the commercial power supply side switch 104 is not on the connection between the commercial power supply 10 and the beacon transmission unit 101. Therefore, even if the LED lighting unit 109 is turned off by the user while power is being supplied from the commercial power supply 10, the beacon transmission unit 101 can continuously receive power supply from the commercial power supply 10. . Further, in this embodiment, the lighting and extinguishing control of the LED illumination unit 109 is performed by the commercial power supply side switch 104 in a state where power is supplied from the commercial power supply 10, but another switch may be provided. . However, the switch for turning on / off the LED illumination unit 109 is preferably arranged at a place other than the line connecting the commercial power supply 10 and the beacon transmission unit.

  When the power supply from the commercial power supply 10 is interrupted, the commercial power supply side switch 104 is turned off in response to an instruction from the charging control unit 102.

  The battery-side switch 105 is a switch for connecting and disconnecting a transmission line connecting the battery 103 and the emergency power supply control unit 107. When the power supply from the commercial power supply 10 is interrupted, the battery switch 105 is turned on in response to an instruction from the charge control unit 102. Further, when power is supplied from the commercial power supply 10, the battery-side switch 105 is turned off in response to an instruction from the charging control unit 102.

  When power is supplied from the commercial power supply 10, the LED power control unit 106 receives electrical input via the commercial power supply side switch 104. And the LED power supply control part 106 converts the received electricity from alternating current (AC: Alternating Current) to direct current (DC: Direct Current). The LED power supply control unit 106 adjusts the AC / DC converted electrical voltage to the drive voltage of the LED illumination unit 109. Then, the LED power supply control unit 106 converts electricity into a constant current and inputs it to the LED illumination unit 109 via the power supply selection switch 108.

  The emergency power supply control unit 107 receives an electric input via the battery-side switch 105 when the power supply from the commercial power supply 10 is interrupted. Then, the emergency power supply control unit 107 adjusts the received electricity to the drive voltage of the LED illumination unit 109. Thereafter, the emergency power supply control unit 107 inputs electricity to the LED illumination unit 109 via the power supply selection switch 108 with a constant current.

  The power source selection switch 108 is a switch for selecting either the LED power source control unit 106 or the emergency power source control unit 107 as a power source for the LED illumination unit 109. The power selection switch 108 connects the LED power control unit 106 and the LED illumination unit 109 in response to an instruction from the charge control unit 102 when power is supplied from the commercial power supply 10. Further, when the power supply from the commercial power supply 10 is interrupted, the power supply selection switch 108 connects the emergency power supply control unit 107 and the LED illumination unit 109 in response to an instruction from the charge control unit 102.

  The LED illumination unit 109 is a light emitting member having an LED element. FIG. 3 is a circuit diagram showing details of the LED illumination unit. For convenience of explanation, FIG. 3 shows the case where the LED illumination unit 109 is connected to the LED power supply control unit 106, but the LDE power supply control unit 106 is also connected to the emergency power supply control unit 107. The configuration is the same as the emergency power supply control unit 107.

  As shown in FIG. 3, the LED illumination unit 109 has a plurality of LED elements 191 connected in series. The LED element 191 is disposed on the substrate. The LED element 191 corresponds to an example of “light emitting element”.

  The LED illumination unit 109 receives a constant current input from the LED power source 106. Each LED element 191 emits light upon receiving a constant current.

  Returning to FIG. 2, the description will be continued. The beacon transmission unit 101 includes an output unit 111 and a message storage unit 112. The beacon transmission unit 101 is realized by LSI (Large Scale Integration) or the like.

  The message storage unit 112 is a storage device such as a memory. The message storage unit 112 stores a normal beacon message and an emergency beacon message in advance. The normal beacon message includes, for example, identification information of the advertisement message server 4. Further, the emergency beacon message includes, for example, identification information of the emergency message server 5. This normal beacon message corresponds to “first information”. An emergency beacon message corresponds to “second information”.

  When the lighting apparatus 1 is supplied with power from the commercial power supply 10, the output unit 111 receives a notification of use of the commercial power supply 10 from the charging control unit 102. When receiving the notification of the use of the commercial power supply 10, the output unit 111 acquires a normal beacon message from the message storage unit 112. Then, the output unit 111 outputs a normal beacon that transmits a normal beacon message.

  Further, the output unit 111 receives a notification of use of the battery 103 from the charging control unit 102 when the power supply from the commercial power supply 10 to the lighting fixture 1 is interrupted. When the output unit 111 receives a notification that the battery 103 is used, the output unit 111 acquires an emergency beacon message from the message storage unit 112. Then, the output unit 111 outputs an emergency beacon that transmits an emergency beacon message.

  Next, an example of a lighting fixture according to the present embodiment will be described with reference to FIG. FIG. 4 is a schematic diagram illustrating an example of a lighting fixture. FIG. 4 shows a plan view of the lighting fixture with the light source cover 110 attached and a plan view with the light source cover 110 removed. Specifically, the right side in FIG. 4 represents the state with the light source cover 110 attached, and the left side represents the state with the light source cover 110 removed.

  The luminaire 1 is covered with the light source cover 110 when the luminaire 1 is actually installed in the facility. The light source cover 110 is made of, for example, resin or glass.

  A plurality of LED elements 191 are disposed inside the light source cover 110. The LED element 191 is mounted on the substrate 192. Further, the wireless module 200 is mounted on the same surface as the LED element 191 of the substrate 192. The wireless module 200 includes an antenna, a signal transmission circuit, and the like. The wireless module 200 is an example of the beacon transmission unit 101.

  In FIG. 4, the entire wireless module 200 is arranged on the same surface as the LED element 191 of the substrate 192. However, if the antenna is on the same surface as the LED element 191, the arrangement of the wireless module 200 is not limited thereto. . For example, the antenna may be arranged as a pattern on the substrate 192 on the same surface as the LED element 191, and members other than the antenna of the wireless module 200 may be installed on the surface opposite to the substrate 192. Further, members other than the antenna of the wireless module 200 may not be on the substrate 192.

  Furthermore, with reference to FIG. 5A and 5B, the other example of the lighting fixture which concerns on this embodiment is demonstrated. FIG. 5A is a side view of another example of a lighting fixture. FIG. 5B is a cross-sectional view taken along the line A-A ′ in FIG. 5A.

  The light fixture in FIG. 5A is also covered with a light source cover 110 on the outside. The light source cover 110 is also made of, for example, resin or glass.

  A substrate 192 is disposed inside the light source cover 110, and the LED element 191 is mounted on the substrate 192. In FIG. 5B, the LED element 191 is described as one light source, but actually, a plurality of LED elements 191 are combined to form one light source. Further, the wireless module 200 is mounted on the same surface as the LED element 191 of the substrate 192. Also in this case, the arrangement of the wireless module 200 is not limited to this.

[Procedure for processing by lighting device]
Next, with reference to FIG. 6, the flow of the beacon transmission process by the lighting apparatus according to the present embodiment will be described. FIG. 6 is a flowchart of a beacon transmission process performed by the lighting apparatus according to the first embodiment.

  The charging control unit 102 determines whether there is power supply from the commercial power supply 10 (step S1). When there is power supply from the commercial power source 10 (step S1: affirmative), the charging control unit 102 turns on the commercial power source side switch 104 and turns off the battery side switch 105 (step S2).

  Further, the charging control unit 102 switches the power source selection switch 108 to the LED power source control unit 106 side (step S3).

  Next, the charging control unit 102 transmits a notification of use of the commercial power supply 10 to the output unit 111 of the beacon transmission unit 101 (step S4).

  On the other hand, when the power supply from the commercial power source 10 is interrupted (No at Step S1), the charging control unit 102 turns off the commercial power source side switch 104 and turns on the battery side switch 105 (Step S5). ).

  Furthermore, the charging control unit 102 switches the power selection switch 108 to the emergency power control unit 107 side (step S6).

  Next, the charging control unit 102 transmits a notification of use of the battery 103 to the output unit 111 of the beacon transmission unit 101 (step S7).

  The output unit 111 of the beacon transmission unit 101 receives a notification of use of the commercial power supply 10 or a notification of use of the battery 103 from the charge control unit 102. Then, the output unit 111 determines whether or not the commercial power supply 10 is used (step S8).

  When the commercial power supply 10 is used (step S8: Yes), the output unit 111 acquires an advertising beacon message from the message storage unit 112. And the output part 111 transmits the beacon for advertisement which transmits the beacon message | telegram for advertisement to the terminal device 2 (step S9).

  On the other hand, when the battery 103 is used, that is, when the commercial power supply 10 is not used (No at Step S8), the output unit 111 acquires an emergency beacon message from the message storage unit 112. . Then, the output unit 111 transmits an emergency beacon that transmits an emergency beacon message to the terminal device 2 (step S10).

  Next, the charging control unit 102 determines whether or not to stop the operation of the lighting fixture 1 (step S11). For example, the charging control unit 102 determines to stop the operation when power supply is stopped and beacon transmission is instructed by pressing a beacon transmission switch or the like.

  When it is determined that the charging control unit 102 does not stop the operation (No at Step S11), the charging control unit 102 determines whether or not the power source has been changed (Step S12). The case where the power source is changed is, for example, the state where the lighting apparatus 1 is operating with the power supplied from the commercial power source 10 and the power supply from the commercial power source 10 is interrupted, or the battery 103 is being driven. This is the case when power supply from the commercial power supply 10 is restored.

  If the power has not been changed (No at Step S12), the process returns to Step S8. On the other hand, when the power source is changed (step S12: affirmative), the process returns to step S1.

  On the other hand, when it determines with stopping operation | movement (step S11: Yes), the beacon transmission part 101 stops transmission of a beacon, the charge control part 102 stops operation | movement of the lighting fixture 1, and complete | finishes a process.

[Effect of the first embodiment]
As described above, the lighting fixture according to the present embodiment is either in the case where there is a power supply from a large power source that supplies power to a lighting device such as a commercial power supply, or in the case where the power supply from the large power source is interrupted. In addition, a power supply for beacon output can be secured stably. Further, on the connection between the commercial power source and the LED illumination unit, there is a switch for turning on and off the LED illumination unit at a place other than the connection between the commercial power source and the beacon transmission unit. Therefore, even if the LED lighting unit is turned off by the user while power is supplied from the commercial power source, the beacon transmission unit can continuously receive power from the commercial power source. For this reason, the lighting fixture which concerns on this embodiment can transmit a beacon continuously. Therefore, it is possible to stably continue providing information to the terminal device regardless of the power supply state.

  Also, by changing the message when the power supply from the main power supply is different from the normal message, it is possible to provide advertisements in normal times, emergency information in emergency, and provide information according to the situation be able to.

(Second Embodiment)
FIG. 7 is a block diagram of a luminaire according to the second embodiment. The lighting fixture 1 which concerns on this embodiment is an emergency light, for example.

[Configuration of lighting device]
In the lighting fixture 1 according to the present embodiment, as shown in FIG. 7, the LED lighting unit 109 has only a power transmission path from the battery 103. This is because the luminaire 1 according to the present embodiment is an emergency light and is normally turned off, and causes the LED illumination unit 09 to emit light when power supply from the commercial power supply is stopped.

  When there is power supply from the commercial power supply 10, the charging control unit 102 turns off the battery-side switch 105. In this case, the charging control unit 102 adjusts the voltage of the electricity supplied from the commercial power supply 10 and then supplies it to the beacon transmission unit 101 and the battery 103. In addition, the charging control unit 102 notifies the output unit 111 of the beacon transmission unit 101 that the commercial power supply 10 is used. Thereby, in a normal state in which power is supplied from the commercial power supply 10, the beacon transmission unit 101 outputs a normal beacon.

  When there is power supply from the commercial power supply 10, the charging control unit 102 turns off the switch 105. In this case, the charging control unit 102 adjusts the voltage of the electricity supplied from the commercial power supply 10 and then supplies it to the beacon transmission unit 101 and the battery 103. In addition, the charging control unit 102 notifies the output unit 111 of the beacon transmission unit 101 that the commercial power supply 10 is used. Thereby, in a normal state in which power is supplied from the commercial power supply 10, the beacon transmission unit 101 outputs a normal beacon.

  In addition, when the power supply from the commercial power supply 10 is interrupted, the charging control unit 102 turns on the battery side switch 105. Thereby, the electric power from the battery 103 is supplied to the LED illumination unit 109, and the LED illumination unit 109 is turned on. Then, the charging control unit 102 notifies the output unit 111 of the beacon transmission unit 101 that the commercial power supply 10 is used. As a result, when an emergency occurs when the power supply from the commercial power supply 10 is interrupted, the beacon transmission unit 101 outputs an emergency beacon.

[Effects of Second Embodiment]
As described above, even in an emergency light, the beacon transmission unit is constantly supplied with power, so that a power source for beacon output can be stably secured and beacon transmission can be continued.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1 Lighting fixture 2 Terminal device 3 Base station 4 Advertising message server 5 Emergency message server 10 Commercial power supply 101 Beacon transmission part 102 Charging control part
DESCRIPTION OF SYMBOLS 103 Battery 104 Commercial power supply side switch 105 Battery side switch 106 LED power supply control part 107 Emergency power supply control part 108 Power supply selection switch 109 LED illumination part 110 Light source cover 111 Output part 112 Message | telegram memory | storage part 191 LED element 192 Board | substrate 200 Wireless module

Claims (5)

With a battery;
A light emitting unit that emits light using either a commercial power source or the battery as a power supply source;
When power is supplied from the commercial power supply, the power supply operates from the commercial power supply, and when power supplied from the commercial power supply stops, the power supply from the battery operates. An information output unit for outputting the information of;
A lighting fixture comprising:   The said information output part outputs 1st information, when operating with the electric power supplied from the said commercial power supply, and outputs 2nd information when operating with the electric power supplied from the said battery. lighting equipment.   The luminaire according to claim 1 or 2, wherein the luminaire is an emergency light or a guide light.   4. The device according to claim 1, further comprising: a switch unit that selects the battery as the power supply source, wherein the information output unit receives a power supply source switching notification from the switch unit and switches output information. The lighting fixture as described in one.   The information output unit is connected on the connection between the commercial power source and the battery and on the connection between the battery and the light emitting unit. lighting equipment.

Images