JP5131417B2 - Display system with illuminator - Google Patents

Description

  The present invention relates to a display system using an illuminator.

  An illuminator that uses a light-emitting element such as an LED element has been proposed in order to realize a long life and low power consumption. In addition, there is a display using a light emitting element for a desired display.

  A conventional illuminator and a display are devices having different functions from each other, and dedicated devices are required to obtain the respective functions. In addition, a conventional indicator that indicates an evacuation route for a disaster such as a fire with an arrow or the like always shows only one fixed direction. For this reason, in the case where a fire has occurred in the middle of the evacuation route, there is a problem that if the evacuation is performed as indicated on the display unit, the location of the fire may be approached.

  The present invention has been made to solve the above-described problems, and the illuminator can display a desired display such as an arrow indicating an appropriate evacuation route according to a disaster occurrence location, for example. An object is to obtain a display system using an illuminator that can be used as a display.

A display system using an illuminator according to the present invention includes an illuminator having a light emitting element array in which a plurality of light emitting elements are arranged in a matrix, and light emission of the light emitting element array in the illuminator in an illumination mode and a display mode. Controllable control means and a sensor for detecting a predetermined disaster , wherein the control means illuminates the illuminator by causing the plurality of light emitting elements in the light emitting element array to emit light entirely in the illumination mode. was carried out, in the display mode, by selectively emitting the plurality of light emitting elements in the light-emitting element array, rows that have a desired display using the lighting device as a display unit, wherein, the A light emitting element array control unit provided inside the illuminator; and an illuminator control device provided outside the illuminator, the light emitting element array control Controls light emission of the light emitting element array according to a control signal transmitted from the illuminator control device, and the illuminator control device displays the illuminator in response to a detection signal of the sensor. The control signal for controlling in the mode is transmitted to the light emitting element array control unit .

  According to the display system using the illuminator of the present invention, the illuminator can be used as a display that can perform a desired display such as an arrow indicating an appropriate evacuation route according to the disaster occurrence location, for example. A display system using an illuminator can be obtained. Thereby, the operation | work which attaches a display apparatus separately from an illuminator, and cost can be reduced. Furthermore, it is possible to evacuate safely from a disaster.

<Embodiment 1>
FIG. 1 is a block diagram illustrating a configuration of a display system using an illuminator according to the present embodiment. As shown in the drawing, it includes an illuminator 1, an illuminator control device 11, a power line 12, an alarm monitoring device 13, and a sensor 14.

  The sensor 14 is a sensor that detects a predetermined disaster. For example, a heat sensor or a smoke sensor that detects a fire by heat or smoke is used. The sensor 14 is provided in an alarm monitoring system that notifies the outside that a predetermined disaster has occurred. The alarm monitoring device 13 shown in the drawing constitutes an alarm monitoring system, and when a fire is detected by the sensor 14, the fact is notified to the outside via, for example, a public line. The illuminator control device 11 is connected to the alarm monitoring device 13 and receives a detection signal of the sensor 14 from the alarm monitoring device 13. In addition to the function as a general power line that supplies power to the connected devices, the lamp line 12 also has a function as a communication line for communicating between the connected devices. The illuminator control device 11 and the illuminator 1 are connected via a power line 12.

  FIG. 2 is a block diagram showing the configuration of the illuminator 1. The illuminator 1 includes a light emitting element array 2, a light emitting element array control unit 3, a power supply unit 4, a power storage unit 5, a power line communication module 6, and a storage unit 7. In the light emitting element array 2, a plurality of light emitting elements 8 such as white LED elements are arranged in a matrix.

<Mode control>
The display system using the illuminator according to the present embodiment includes control means capable of controlling the light emission of the light emitting element array 2 in the illuminator 1 in the illumination mode and the display mode. The illumination mode is a mode in which illumination by the illuminator 1 is performed by causing the plurality of light emitting elements 8 in the light emitting element array 2 to emit light over the entire surface. FIG. 3 shows the light emitting element array 2 controlled in the illumination mode. One square represents one light emitting element 8, and a white square represents that the light emitting element 8 emits light. The display mode is a mode in which a desired display is performed using the illuminator 1 as a display by selectively causing a plurality of light emitting elements in the light emitting element array 2 to emit light. 4 and 5 show the light emitting element array 2 controlled in the display mode. The black square represents that the light emitting element 8 does not emit light. The character “fire” is displayed in FIG. 4, and the graphic “→” is displayed in FIG. The storage unit 7 stores a plurality of patterns for selectively causing the light emitting element 8 to emit light as shown in FIGS. 4 and 5.

  The control means for controlling the illumination mode and the display mode includes a light emitting element array control unit 3 provided inside the illuminator 1 and an illuminator control device 11 provided outside the illuminator 1. The electric light line 12 has a function as a communication line for communicating between connected devices. The power line communication module 6 of the illuminator 1 reads a signal from the power line 12 and transmits the signal to the light emitting element array control unit 3. As a result, the illuminator control device 11 can communicate with the light emitting element array control unit 3 via the lamp line 12. The light emitting element array control unit 3 controls the light emission of the light emitting element array 2 in the illumination mode and the display mode in accordance with a control signal transmitted from the illuminator control device 11 via the lamp line 12.

  Next, the correspondence between the control signal and each mode will be described. In response to the detection signal of the sensor 14, the illuminator control device 11 transmits a control signal for controlling the illuminator 1 in the display mode to the light emitting element array control unit 3. In this case, the light emitting element array control unit 3 controls the light emission of the light emitting element array 2 in the display mode according to the transmitted control signal. On the other hand, when the light emitting element array control unit 3 does not receive a control signal from the illuminator control device 11, the light emitting element array control unit 3 controls the illuminator 1 in the illumination mode.

  The operation of the display system using the illuminator having the above configuration will be described. When no fire is detected by the sensor 14, the light emitting element array control unit 3 does not receive a control signal from the illuminator control device 11. In this case, the light emitting element array control unit 3 controls the light emitting element array 2 in the illumination mode, so that the illuminator 1 performs illumination by light emission from the entire surface as shown in FIG.

  When a fire is detected by the sensor 14, the alarm monitoring device 13 notifies the outside through a public line that a fire has occurred. At the same time, the illuminator control device 11 transmits a control signal for controlling the illuminator 1 in the display mode to the light emitting element array control unit 3 via the lamp line 12 in response to the detection signal of the sensor 14. . In this case, the light emitting element array control unit 3 controls the light emitting element array 2 in the display mode, so that the illuminator 1 performs a desired display as shown in FIGS.

  Thus, the display system by the illuminator according to the present embodiment can use the illuminator 1 as a display. Thereby, the cost which produces a display apparatus separately from an illuminator, and the attachment operation | work can be reduced. Moreover, the illuminator 1 can be remotely operated from the outside by providing the illuminator controller 11 outside the illuminator 1 and transmitting a control signal from the illuminator controller 11.

  In addition, if the lighting mode is switched to the display mode in accordance with a detection signal for detecting a fire, an evacuation route or the like can be automatically displayed. In the present embodiment, the desired display is an arrow indicating the same evacuation route as the conventional display or a display notifying that a fire has occurred, but the display is not limited to this. May be performed. In the present embodiment, the desired display is performed by the light emitting element 8 that does not emit light. However, on the contrary, the desired display may be performed by the light emitting element 8 that emits light. However, in this case, since the number of light emitting elements 8 to be issued is smaller than that in the present embodiment, it is desirable to perform a desired display using the light emitting elements 8 that do not emit light as in the present embodiment.

<Power control>
The electric lamp line 12 is connected to the illuminator 1, and the power supply unit 4 supplies the electric power supplied from the electric lamp line 12 to the light emitting element array 2. The power storage unit 5 stores electric power supplied from the power line 12. The power supply unit 4 supplies the light stored in the power storage unit 5 to the light emitting element array 2 when power is not supplied from the lamp line 12. The power supply unit 4 has a function of reducing the power supplied from the power storage unit 5 to the light emitting element array 2 more than the power supplied from the lamp line 12. When the power is reduced, the amount of light emission per light emitting element 8 is reduced. Alternatively, the number of light emitting elements 8 that emit light may be reduced. In addition, the light emitting element array control unit 3 displays when the power is not supplied from the power line 12 when the power is not supplied from the power line 12 while the illuminator 1 is used as a display. Control to display continuously.

  By the above, since the illuminator 1 is supplied with electric power from the lamp line 12 used as a communication line, the number of wirings can be omitted. In addition, even when the power from the power line 12 is stopped, the power stored in the power storage unit is supplied to the light emitting element array 2, so that illumination or display can be continued. At that time, by reducing the power for causing the light emitting element 8 to emit light, the time during which illumination or display can be continued can be extended.

  If an LED element is used for the light emitting element 8, the power consumption of the illuminator 1 can be reduced, and when the power is not supplied, the time during which illumination or display can be continued is increased. Can do.

<Embodiment 2>
FIG. 6 shows a configuration of a display system using an illuminator according to the present embodiment. A plurality of illuminators 1 are connected to one illuminator control device 11, and a plurality of sensors 14 are connected to an alarm monitoring device 13. It is connected to the. In order to use these, the function shown below is added to the illuminator control device 11 and the power line communication module 6 of the illuminator 1. Other configurations are the same as those of the display system using the illuminator according to Embodiment 1, and the same components are denoted by the same reference numerals, and redundant description is omitted.

  The plurality of illuminators 1 are grouped, and the illuminator control device 11 generates a control signal for each group. As a control signal transmission method, the illuminator control device 11 transmits a control signal to the light emitting element array control units 3 of the plurality of illuminators 1 by a multicast method via the power line 12. This multicast method is a method of attaching an address to a control signal. The illuminator 1 is given the same address within the same group and different addresses between different groups. The power line communication module 6 reads a control signal corresponding to the address given to its own illuminator 1 from the power line 12 and transmits the read control signal to the light emitting element array control unit 3.

  Furthermore, the illuminator control device 11 dynamically derives an evacuation route for avoiding the fire based on the position of the sensor 14 that detects the fire. Then, based on the derived result, the illuminator control device 11 emits a control signal for each of the illuminators 1 to display an arrow indicating an evacuation route toward a predetermined evacuation exit or the like. The data is transmitted to the element array control unit 3. Arrows indicating evacuation routes are “↑”, “↓”, “→”, “←”, and the like.

  The operation of the display system using the above illuminator will be described with reference to FIGS. 7 and 8 are views in which a plurality of illuminators 1 are provided indoors. The broken line divides the indoor space into eight indoor blocks 21a to 21h. Here, the plurality of illuminators 1 are grouped for each indoor block. One sensor is provided in one block.

  FIG. 7 is a diagram when no fire has occurred indoors. Since the sensor 14 does not detect a fire, the light emitting element array control unit 3 does not receive a control signal from the illuminator control device 11. In this case, the light emitting element array control unit 3 controls the light emitting element array 2 in the illumination mode. In this way, all the illuminators 1 perform illumination by full light emission as shown in FIG. FIG. 7 shows that the illuminator 1 is used as an illuminator without performing a desired display.

  FIG. 8 is a diagram when a fire has occurred in the indoor block 21d. When the sensor 14 provided in the block 21d detects a fire, the illuminator control device 11 dynamically derives an evacuation route to the evacuation ports 15 and 16 based on the position of the sensor 14 that has detected the fire. Then, the illuminator control device 11 transmits, based on the derived result, a control signal for each of the plurality of illuminators 1 to display an arrow indicating an evacuation route via the lamp line 12. Transmit to the control unit 3.

  This control signal is transmitted by a multicast method. For this reason, an address is attached to the control signal. The power line communication module 6 reads a control signal attached with an address that matches the address of its own illuminator 1 from the power line 12 and transmits the control signal to the light emitting element array control unit 3. Thus, since the same control signal is transmitted to the light emitting element array controller 3 of the illuminator 1 in the same group, the same desired display is performed by the illuminator 1 in the same group. Thus, as shown in FIG. 8, all the illuminators 1 display arrows having the same direction in the same block. Based on the derived evacuation route, for example, the illuminators 1 of the blocks 21a, 21b, 21c, 21e, and 21f are directed to the evacuation port 15, and the illuminators 1 of the blocks 21g and 21h are directed to the evacuation port 16. So that the arrow is displayed.

  As described above, the display system using the illuminator according to the present embodiment can display the arrow indicating an appropriate evacuation route according to the disaster occurrence place, in addition to obtaining the same effect as the first embodiment. it can. Thereby, it can evacuate safely from a disaster. Moreover, the illuminator 1 can be controlled for each group rather than individually. Thereby, since the communication amount of the control signal can be reduced, the time for transmitting the control signal can be shortened even when a large number of illuminators are installed. In addition, although the arrow which shows an evacuation route was displayed on all the illuminators in FIG. 8, you may make it display characters, such as "fire" and "warning."

1 is a block diagram illustrating a display system using an illuminator according to Embodiment 1. FIG. 3 is a block diagram illustrating an illuminator according to Embodiment 1. FIG. 2 is a diagram illustrating an illuminator according to Embodiment 1. FIG. It is the figure which used the illuminator which concerns on Embodiment 1 as a display. It is the figure which used the illuminator which concerns on Embodiment 1 as a display. 6 is a block diagram illustrating a display system using an illuminator according to Embodiment 2. FIG. 6 is a block diagram illustrating the operation of a display system using an illuminator according to Embodiment 2. FIG. 6 is a block diagram illustrating the operation of a display system using an illuminator according to Embodiment 2. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Illuminator 2 Light emitting element array 3 Light emitting element array control part 4 Electric power supply part 5 Power storage part 6 Electric power line communication module 7 Memory | storage part 8 Light emitting element 11 Illuminator control apparatus 12 Electric power line 13 Alarm monitoring apparatus 14 Sensor 15, 16 Escape port 21a-21h indoor block

Claims (11)

An illuminator having a light emitting element array in which a plurality of light emitting elements are arranged in a matrix;
Control means capable of controlling light emission of the light emitting element array in the illuminator in an illumination mode and a display mode ;
A sensor for detecting a predetermined disaster ,
The control means includes
In the illumination mode, performing illumination by the illuminator by causing the plurality of light emitting elements in the light emitting element array to emit light entirely.
In the above display mode, by selectively emitting the plurality of light emitting elements in the light-emitting element array, rows that have a desired display using the lighting device as a display unit,
The control means includes
A light emitting element array controller provided in the illuminator;
An illuminator control device provided outside the illuminator,
The light emitting element array controller is
In accordance with a control signal transmitted from the illuminator control device, the light emission of the light emitting element array is controlled,
The illuminator control device includes:
In response to the detection signal of the sensor, the control signal for controlling the illuminator in the display mode is transmitted to the light emitting element array control unit.
Display system with illuminator. Further comprising a power line connected to the illuminator,
The illuminator is
A power supply unit that supplies power supplied from the power line to the light emitting element array;
The display system by the illuminator of Claim 1. Before Symbol illuminator,
A power storage unit for storing electric power supplied from the power line;
The power supply unit
When power is not supplied from the power line, the power stored in the power storage unit is supplied to the light emitting element array.
The display system by the illuminator of Claim 2 . Before Symbol power supply unit,
Reducing the power supplied from the power storage unit to the light emitting element array than the power supplied from the lamp line ,
The display system by the illuminator of Claim 3. The illuminator control device can communicate with the light emitting element array control unit via the power line,
The light emitting element array controller is
In accordance with a control signal transmitted from the illuminator control device via the power line, the light emission of the light emitting element array is controlled.
The display system by the illuminator in any one of Claims 2 thru | or 4. Before SL emitting element array controller,
If not receiving the pre-SL control signal from the illuminator control device, for controlling the illuminator in the illumination mode,
The display system by the illuminator in any one of Claims 1 thru | or 5. The sensor is a sensor provided in an alarm monitoring system that notifies the outside that the predetermined disaster has occurred.
The display system by the illuminator in any one of Claims 1 thru | or 6. A plurality of the illuminators are connected to one illuminator control device via the power line,
The one illuminator control device includes:
The control signal is transmitted to the light emitting element array control unit of the plurality of illuminators by a multicast method.
The display system by the illuminator in any one of Claims 2 thru | or 5 . The plurality of illuminators are grouped,
The one illuminator control device generates the control signal in the group unit;
The display system by the illuminator of Claim 8. The sensors are installed at a plurality of locations,
Before KiTeru Meiki control device,
Based on the position of the sensor that has detected the predetermined disaster, the control signal for the arrow indicating the evacuation routes to avoid the disaster plurality of illuminators are respectively displayed, the light emission of the plurality of illuminators Send to the element array controller,
The display system by the illuminator in any one of Claims 1 thru | or 9. The light emitting element includes a white LED element,
The display system by the illuminator in any one of Claims 1 thru | or 10.

Images