JP4340925B1 - Network fluorescent lamp type LED lighting system and fluorescent lamp type LED lighting body used therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a network fluorescent lamp type LED lighting system capable of switching on / off and adjusting illuminance by interlocking a large number of fluorescent lamp type LED lighting apparatuses existing in a building or an office building, and a fluorescent lamp type LED lighting body used therefor provide.
A fluorescent lamp type LED illuminating body 10 is housed in a fluorescent lamp mounting fixture 20, and at least a plurality of LED illuminating bodies 13 mounted in a housing 11 whose light projecting surface is transparent or translucent, and a fluorescent lamp A terminal 12 connected to the socket, a wireless communication unit 14 that exchanges data with the outside wirelessly, and a current control unit 15 that adjusts the illuminance of the LED illumination body, and the LED illumination by the power supplied from the fluorescent lamp socket The body 13 is caused to emit light. The fluorescent lamp type LED illuminating body 10 constructs a network with the central control device 50 by wireless data transmission / reception, and controls the current control unit 15 via wireless to adjust the illuminance of the LED illuminating body 13. Built-in optical sensor, human sensor, thermal sensor, camera, etc., various operations are possible.
[Selection] Figure 1

Description

  The present invention relates to a fluorescent lamp type LED illuminating body using an LED (light emitting diode) element that fits in a fluorescent lamp mounting fixture and is directly attached to a fluorescent lamp socket, and a network fluorescent lamp type in which a plurality of them are linked via a network. The present invention relates to an LED lighting system.

In the prior art fluorescent lamp, mercury vapor and inert gas are sealed inside a cylindrical glass tube with a phosphor on the inner surface, electrodes are provided at both ends of the tube, and terminals connected to the electrodes are connected to both ends of the glass tube. It has a configuration protruding from The fluorescent lamp is fitted and attached to a socket portion of the fluorescent lamp, and is supplied with power via a terminal.
The development of LED elements has progressed, and white LEDs have become widespread, and have attracted attention as alternative lighting for conventional fluorescent lamps.

For example, Japanese Laid-Open Patent Publication No. 2001-351402 discloses a fluorescent lamp type LED lighting device. The fluorescent lamp type LED illuminating device disclosed in the publication is directly attached to a fluorescent lamp socket portion in a conventional fluorescent lamp mounting fixture, and includes a transparent or translucent pipe and a support plate provided inside the pipe. A terminal that is provided at both ends of the support plate and fits into a fluorescent lamp socket portion of a conventional fluorescent lamp mounting device, and an AC / DC converter that is connected to the terminal and provided on the upper surface of the support plate; And a current control unit that adjusts the current supplied to each of the plurality of LEDs provided on the bottom surface of the support plate.
It is a great advantage that it can be mounted as it is on the fluorescent lamp socket of a conventional fluorescent lamp mounting fixture.

JP 2001-351402 A JP 2002-133910 A

  Conventional fluorescent lamps are supplied with an AC voltage necessary for starting the fluorescent lamp and flowing a suitable current through the ballast, and the starting voltage is boosted by the glow lamp and turned on. Time is required and is not suitable for finely switching on and off. In addition, the fluorescent lamp emits visible light by applying ultraviolet rays generated by glow discharge to the phosphor, and is not suitable for fine adjustment of light illuminance. For this reason, the intensity of the room illumination is adjusted by changing the number of fluorescent lamps to be lit.

  On the other hand, it can be said that the above-described fluorescent lamp type LED lighting apparatus can quickly turn on and off the LED elements, and is suitable for finely switching on and off the entire fluorescent lamp type LED lighting apparatus. In addition, since a large number of LEDs are arranged in the fluorescent lamp type LED lighting device of one housing, the number of LED elements that are lit inside can be finely adjusted. It can be said that it is suitable for finely adjusting the illuminance of the entire lamp-type LED lighting device.

Most of the lighting in buildings and office buildings is conventional fluorescent lamps, and when this conventional fluorescent lamp is replaced with a fluorescent LED lighting device as it is, many fluorescent lamps are found in the buildings and office buildings. There will be a type LED lighting device.
However, the conventional fluorescent lamp type LED lighting apparatus as disclosed in the above publication is simply an LED lighting apparatus that is directly attached to the fluorescent lamp socket portion of a conventional fluorescent lamp mounting fixture, and is a building or office building. There is no suggestion or disclosure of means for switching on / off or adjusting the illuminance of the fluorescent lamp type LED illuminating devices that exist in large numbers within the system.

In view of the above problems, the present invention is a network that can be switched on / off and adjusted in illuminance by interlocking fluorescent lamp type LED lighting devices existing in a building or office building without requiring special construction. An object of the present invention is to provide a fluorescent lamp type LED illumination system and a fluorescent lamp type LED illuminator used therefor.
The present invention also provides a lighting environment control according to the movement of a person in a building or office building, a lighting environment control according to the influence of external light, a route for the movement of a person, a disaster prevention in the event of a fire, a human entry It is an object of the present invention to provide an application configuration in which what is conventionally provided as a system separate from the illumination system, such as monitoring control associated with leaving the room, is incorporated in the network fluorescent lamp type LED illumination system of the present invention.

In order to achieve the above object, a network fluorescent lamp type LED lighting system of the present invention includes:
A plurality of LED illuminating bodies that are housed in a fluorescent light mounting fixture and are mounted in a housing having at least a light-transmitting surface that is transparent or translucent; a terminal that is connected to a fluorescent light socket in the fluorescent light mounting fixture; A fluorescent lamp-type LED illuminator that includes a wireless communication unit that exchanges data wirelessly and a current control unit that adjusts the illuminance of the LED illuminator, and causes the LED illuminator to emit light by power supplied from the fluorescent lamp socket When,
Light that is incorporated in the fluorescent lamp type LED illuminating body, and is provided at a position and an angle at which the irradiation light of the LED illuminating body does not directly enter so as to detect the brightness at the spot illuminated by the fluorescent lamp type LED illuminating body according to the incorporation. A sensor,
A central control device that provides current control data for controlling the current control unit by wireless data transmission and reception with respect to the fluorescent lamp type LED illuminating body, and adjusts the illuminance of the LED illuminating body,
By attaching the fluorescent lamp type LED illuminating body as an illuminating body to the existing fluorescent lamp mounting fixture on the ceiling or wall surface, a wireless network is automatically constructed between the plurality of fluorescent lamp type LED illuminating bodies, respectively. Transmitting the light environment data indicating the brightness of the spot detected by the light sensor to the central control device,
The central control device adjusts the illuminance of the fluorescent lamp type LED illuminator based on light environment data obtained from each of the fluorescent lamp type LED illuminators .
Here, unique identification information is given to each of the fluorescent lamp type LED illuminators, and the central controller adds the identification information of the fluorescent lamp type LED illuminator selected as a control target and adds the current. The fluorescent lamp type LED illuminator that transmits control data wirelessly and is given identification information that matches the identification information attached to the wireless transmission executes current control based on the current control data. Preferably there is.

By the said structure, each fluorescent lamp type LED illuminating body and central control apparatus which were installed in the ceiling or the wall surface can perform data transmission / reception via a radio | wireless. To construct a network with a conventional fluorescent lamp type LED illuminator, it is necessary to construct a communication line between the fluorescent lamp mounting fixtures on the ceiling or wall surface. Although the LED lighting device can be directly attached to the lamp socket portion, each fluorescent lamp type LED lighting body can be provided as a fluorescent lamp type LED lighting system in which a network connection is made via a central control device.
Further, since unique identification information is given to each fluorescent lamp type LED illuminating body, the central control device can select and designate the fluorescent lamp type LED illuminating body and transmit / receive current control data.

  Here, the network fluorescent lamp type LED lighting system according to the present invention includes, in the configuration described above, an optical sensor that detects brightness of a spot illuminated by the fluorescent lamp type LED illuminating body in the fluorescent lamp type LED illuminating body, Light environment data indicating the brightness of the spot detected by an optical sensor is transmitted to the central control device via the wireless communication unit, and the central control device obtains light obtained from each of the fluorescent lamp type LED illuminators. It is preferable that the illuminance of each of the fluorescent lamp type LED illuminators can be individually adjusted based on environmental data.

  With the above configuration, the lighting environment in each fluorescent lamp type LED lighting body is grasped by taking into account the influence of external light entering from the window, etc.・ The illuminance can be finely adjusted according to the direction, the presence or absence of obstacles, etc., and an ideal lighting environment can be obtained.

  Next, the network fluorescent lamp type LED lighting system according to the present invention has a human sensor for detecting a human movement in the fluorescent lamp type LED lighting body in the above configuration, and the human movement detected by the human sensor is detected. Sent to the central control device via the wireless communication unit, the central control device, each of the fluorescent lamp type based on the human feeling data obtained from each of the fluorescent lamp type LED illuminating body It is preferable that the illuminance of the LED illuminator is individually adjusted.

  For example, the central control device increases the illuminance of the fluorescent lamp type LED illuminating body at a spot where a person is present based on the human sensation data, and the fluorescent lamp type LED illumination is located at a position other than the spot where the person is present. When the human movement is performed to adjust the illuminance of the body weakly and the person moves, the illuminance of the fluorescent lamp type LED illuminating body that illuminates the spot of the moving destination according to the movement of the human by the human movement control. It becomes possible to control to become stronger.

  With the above configuration, it is comfortable for users of buildings and office buildings if the illumination of spots where people are present is secured with sufficient illuminance, and there is no inconvenience for users even if the illuminance of spots where there are no people is reduced. Power saving can be realized as a whole building or office building.

  Next, the network fluorescent lamp type LED lighting system according to the present invention is configured such that, in the above configuration, the central control device controls each fluorescent lamp type LED lighting body to be in a light-off state in a state where there is no person in entrance / exit management. When a human motion is detected by the human sensor of any one of the fluorescent lamp type LED illuminators, and the central controller receives the human data, the central controller detects the human motion. It is preferable that the fluorescent lamp type LED illuminating body at the spot is turned on and the central control unit contributes to crime prevention management in conjunction with the alarm system.

  According to the above configuration, there is a lighting fixture that is conventionally provided with a human sensor and simply controls on / off by the reaction of the human sensor, for example, for crime prevention purposes. Fluorescent lamp-type LED illuminator is linked to the network, and the position of the spot illuminated by the fluorescent lamp-type LED illuminator to which the human sensor responds is specified, and crime prevention management is performed in conjunction with the alarm system while illuminating the spot. be able to.

  Next, in the network fluorescent lamp type LED lighting system of the present invention, in the configuration described above, the central control unit provides the user with instructions for the route that the user should move to the user in the building. A spot in which the intensity of the fluorescent lamp type LED illuminating body installed on the ceiling or wall surface is sequentially switched from a spot to the path to which the user should move, and the illuminance is high in front of the user It is preferable to provide a route guidance function for guiding the user by successively moving the position or the spot position with low illuminance.

  Further, the network fluorescent lamp type LED lighting system of the present invention is capable of emitting a specific color such as red or blue in addition to white as an illumination color of the fluorescent lamp type LED illuminating body in the above configuration, When the user is instructing the route that the user should move, the central control unit moves from the spot where the user is located toward the route that the user is to move to the ceiling or wall surface. A route guidance function for guiding the user by sequentially switching the illumination color of the fluorescent lamp type LED illuminating body installed and moving the spot position that becomes the illumination color one after another in front of the user It is preferable that it is provided.

With the above-described configuration, it is possible to adjust the illumination of the fluorescent lamp type LED illuminators that are installed on the ceiling or the wall surface in conjunction with the central control device, and guide the user in the so-called light flow direction.
The route guidance function for guiding the user in the direction of light flow can be assumed to guide an emergency evacuation route in the event of a fire, for example.

  Next, the network fluorescent lamp type LED lighting system of the present invention has the above-described configuration, and the fluorescent lamp type LED lighting body includes a thermal sensor that detects heat in the fluorescent lamp type LED lighting body, and the fluorescent lamp type LED lighting body detected by the thermal sensor. Temperature environment data indicating a nearby temperature state is transmitted to the central control unit via the wireless communication unit, and the central control unit is based on temperature environment data obtained from each of the fluorescent lamp type LED illuminators. When the abnormal heat generation in the fluorescent lamp type LED lighting body is detected, the abnormal heat generation control is performed to operate the current control unit of the fluorescent lamp type LED lighting body in which the abnormal heat generation is detected to stop the power supply. Preferably there is.

  With the above configuration, the power supply to the fluorescent lamp type LED illuminator that has caused abnormal heat generation due to malfunction or deterioration of the elements can be dynamically stopped by linking the central control unit and each fluorescent lamp type LED illuminator. It is possible to prevent the element from being burnt or causing a fire.

  Moreover, the network fluorescent lamp type LED lighting system of the present invention has a thermal sensor for detecting heat in the fluorescent lamp type LED lighting body in the above configuration, and the vicinity of the fluorescent lamp type LED lighting body detected by the thermal sensor. Is transmitted to the central control device via the wireless communication unit, and the central control device transmits each temperature environment data obtained from each of the fluorescent lamp type LED illuminators. When a fire at a spot illuminated by the fluorescent lamp type LED illuminator is detected, it is preferable that the central controller contributes to disaster prevention management in conjunction with the disaster prevention system.

  With the above configuration, it is possible to identify the occurrence of a fire that occurred in a building or office building and the location where the fire broke out by linking the central controller and each fluorescent lamp type LED illuminating body. Disaster prevention management can be performed in conjunction.

  Next, the network fluorescent lamp type LED lighting system according to the present invention has the above-described configuration, and includes a camera that captures a captured image in the fluorescent lamp type LED lighting body, and is provided under the fluorescent lamp type LED lighting body photographed by the camera. Image data is transmitted to the central control device via the wireless communication unit, and the central control device allows people in the building to enter and exit and move based on the image data obtained from each of the fluorescent lamp type LED illuminators. It is preferable to have a camera monitoring function to manage.

  With the above configuration, it is possible to monitor the movement of people in buildings and office buildings by linking the central controller and each fluorescent lamp type LED illuminating body, and attach a number of security cameras as in the past. In addition, a camera monitoring function can be provided.

The fluorescent lamp type LED illuminating body of the present invention is a fluorescent lamp type LED illuminating body used in the network fluorescent lamp type LED lighting system of the present invention, and can be accommodated in a fluorescent lamp mounting fixture, and at least the light projecting surface is transparent or A number of LED illuminators mounted in a translucent housing, a terminal connected to a fluorescent light socket in the fluorescent light mounting device, a wireless communication unit for wirelessly exchanging data with the outside, and the LED lighting A current control unit that adjusts the illuminance of the body, and causes the LED illumination body to emit light by electric power supplied from the fluorescent lamp socket.
For example, if the fluorescent lamp type LED illuminating body includes a light sensor that detects the brightness of a spot illuminated by the fluorescent lamp type LED illuminating body, the LED illuminating body is connected with electric power supplied from the fluorescent lamp socket. It becomes a fluorescent lamp type LED illuminator that emits light.
For example, in a fluorescent lamp type LED illuminating body, if it is configured to include a human sensor that detects the movement of a person at a spot illuminated by the fluorescent lamp type LED illuminating body, the LED illumination is performed by the electric power supplied from the fluorescent lamp socket. It becomes a fluorescent lamp type LED illuminating body that emits light from the body and drives the human sensor.
For example, if the fluorescent lamp type LED illuminator has a temperature sensor that detects heat at a spot illuminated by the fluorescent lamp type LED illuminator, the LED illuminator emits light by power supplied from the fluorescent lamp socket. Thus, a fluorescent lamp type LED illuminator for driving the temperature sensor is obtained.
For example, if the fluorescent lamp type LED illuminator has a camera that captures an image at a spot illuminated by the fluorescent lamp type LED illuminator, the LED illuminator is caused to emit light by power supplied from the fluorescent lamp socket. It becomes a fluorescent lamp type LED illuminator for driving the camera.

According to the network fluorescent lamp type LED lighting system of the present invention, each installation installed on the ceiling or wall surface can be performed by simply mounting the fluorescent lamp socket portion of a conventional fluorescent lamp mounting fixture as it is without performing any particular work. As a fluorescent lamp type LED lighting system in which a fluorescent lamp type LED illuminating body and a central control device can perform data transmission / reception wirelessly, and each fluorescent lamp type LED illuminating body is network-connected via the central control device. Can be provided.
In addition, according to the network fluorescent lamp type LED lighting system of the present invention, it is possible to install the fluorescent lamp socket in a building or office building by simply attaching it to the fluorescent lamp socket part of a conventional fluorescent lamp mounting fixture without performing any special work. Incorporate various functions such as control of lighting environment according to the movement of people, control of lighting environment according to the influence of external light, route guidance of movement of people, disaster prevention at the time of fire, monitoring control according to people entering and leaving the room it can.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a network fluorescent lamp type LED lighting system of the present invention and a fluorescent lamp type LED lighting body used therefor will be described with reference to the drawings. However, it goes without saying that the scope of the present invention is not limited to the specific application, shape, number, etc. shown in the following examples.

The example of the network fluorescent lamp type LED lighting system of this invention concerning Example 1 is shown.
FIG. 1 is a diagram schematically showing a configuration example of a fluorescent lamp type LED illumination body 10 used in the first network fluorescent lamp type LED lighting system of the present invention. (A) is a figure which shows typically a mode that the structural example of the fluorescent lamp type LED lighting body 10 was seen from the bottom face side (light projection surface side), (b) is a side view of the structural example of the fluorescent lamp type LED lighting body 10 The figure which shows a mode typically seen from the side, (c) is a figure which shows typically the structure inside the fluorescent lamp type LED illumination body 10 as a block. In each figure, the electric circuit and detailed components are not shown.
FIG. 2 shows a network fluorescent lamp in which a large number of fluorescent lamp type LED illuminating bodies 10 shown in FIG. 1 are arranged in a fluorescent lamp mounting device 20 on the ceiling, and a network with the central control unit 50 is constructed wirelessly. It is the figure which showed the structural example of the type | mold LED lighting system 100 typically. In the figure, the fluorescent lamp type LED illuminating body 10 is arranged in the ceiling fluorescent lamp mounting device 20 so that the long axis is in the depth direction of the drawing. In FIG. 2, a part of the fluorescent lamp type LED illuminating body 10 is schematically seen from the front. The same applies to the drawings corresponding to FIG. 2 in other embodiments.

  As shown in FIG. 1, in the configuration example of the first embodiment, the fluorescent lamp type LED illuminating body 10 includes a housing 11, a terminal 12, an LED illuminating body 13, a wireless communication unit 14, and a current control unit 15. It has become.

  The housing | casing 11 is equipped with the external dimension which fits in the fluorescent lamp attachment tool 20 provided in the ceiling or the wall surface. Of the outer shape of the housing, at least the surface to be the light projecting surface is made of a transparent or translucent material. For example, the outer shape is formed of a glass tube or the like, and a support plate on which LED elements are mounted, an electric circuit (not shown) for supplying power to each LED element, and the like are incorporated therein as will be described later.

  The terminal 12 has a shape to be fitted to the fluorescent lamp socket in the fluorescent lamp mounting device 20, and electrical connection is ensured by inserting the terminal 12 into the fluorescent lamp socket.

  The LED illuminator 13 is attached to a support plate in the housing 11 at a position or an angle at which irradiation light irradiated by light emission is efficiently projected from the light projecting surface of the housing 11. The electrode of the LED illuminating body 13 has an electrical contact with the electrode on the support plate side, and is attached so that power can be supplied from the fluorescent lamp socket via an electric circuit (not shown) and the terminal 12. In this example, a large number of LED elements are mounted.

  The wireless communication unit 14 is a wireless module that wirelessly exchanges data with a central control device 50 described later. Central control device 50 and each fluorescent lamp type LED illuminating body 10 installed on the ceiling or wall surface are connected via radio.

  The current control unit 15 is a part that adjusts the illuminance of the LED illumination body 13 by controlling the current supplied to the LED illumination body 13. The current control unit 15 has a remote control function for controlling current by receiving current control data that is instruction data related to current control from the central control device 50, and from the central control device 50 received via the wireless communication unit 14. The current supplied to the LED illuminating body 13 is controlled by receiving the current control data and the illuminance of the LED illuminating body 13 is adjusted. By remote control of the central control device 50 with respect to the current control unit 15, a network system of each fluorescent lamp type LED illuminating body 10 using the central control device 50 as a hub is constructed.

  The central control device 50 includes a wireless communication unit 51 and controls the current control unit 15 in the fluorescent lamp type LED illuminating body 10 by supplying current control data to the fluorescent lamp type LED illuminating body 10 by wireless data transmission / reception. Thus, the illuminance of the LED illumination body 13 is adjusted.

As shown in FIG. 2, each fluorescent lamp type LED illuminating body 10 is attached to a fluorescent lamp socket (not shown) in each fluorescent lamp mounting device 20 installed on a ceiling or a wall surface and supplied with electric power. . In the example of FIG. 2, ten fluorescent lamp mounting devices 20a to 20j are provided on the ceiling.
As shown in FIG. 2, each fluorescent lamp type LED illuminating body 10 is constructed with a network with the central control device 50 through transmission and reception of wireless data, and a network fluorescent lamp type LED lighting system 100 is constructed. Yes.

  If a network is constructed using a conventional fluorescent lamp type LED illuminator, it is necessary to construct a communication line or the like between the fluorescent lamp sockets on the ceiling or wall surface. In the system 100, as shown in FIG. 2, the fluorescent lamp type LED illuminating body 10 is simply an LED illuminating device that is directly attached to the socket of the conventional fluorescent lamp mounting fixture 20, but each fluorescent lamp type LED illuminating body 10 is provided. Can be provided as a fluorescent lamp type LED lighting system 100 connected to a network via the central controller 50. If the central controller 50 incorporates a current control program for each fluorescent lamp type LED illuminating body 10, various and fine control is possible.

  Here, when a plurality of fluorescent lamp type LED illuminating bodies 10 exist in the network of the fluorescent lamp type LED lighting system 100, the central controller 50 identifies the individual fluorescent lamp type LED illuminating bodies 10 and their illuminance. A method for controlling the above will be described. In this embodiment, unique identification information is given to each fluorescent lamp type LED illuminating body 10, and the central controller 50 identifies each fluorescent lamp type LED illuminating body 10 using the identification information as a clue. In addition, by transmitting and receiving current control data wirelessly with identification information, each fluorescent lamp type LED illuminating body 10 side controls current according to current control data to which identification information matching its own identification information is attached. Current control is performed by the unit 15.

As described above, various applications can be realized by constructing the network fluorescent lamp type LED lighting system 100 wirelessly by the plurality of fluorescent lamp type LED lighting bodies 10 and the central controller 50.
For example, there is illuminance adjustment control by interlocking with a timer provided in the central controller 50 and an office building management program. By linking with the timer and the office building management program, it is possible to systematically control the brightness of the lighting in the office in the morning, noon, evening, night, and a specific time zone. For example, in an office where a break time is determined, it is possible to perform control such as lowering the illuminance of the fluorescent LED illuminator 10 in the office during the break time.

  The example of the network fluorescent lamp type LED illumination system of this invention concerning Example 2 is shown. In the network fluorescent lamp type LED lighting system 100A of the second embodiment, in addition to the configuration of the network fluorescent lamp type LED lighting system 100 shown in the first embodiment, each fluorescent lamp type LED lighting body 10 includes a light sensor 16. It has become.

  FIG. 3 is a diagram schematically illustrating a configuration example of a fluorescent lamp type LED lighting body 10A used in the network fluorescent lamp type LED lighting system 100A of the second embodiment. (A) is a figure which shows typically a mode that the structural example of 10 A of fluorescent lamp type LED illumination bodies was seen from the bottom face side (light projection surface side), (b) is a side view of the structural example of 10 A of fluorescent lamp type LED illumination bodies. The figure which shows a mode typically seen from the side, (c) is a figure which shows typically the structure inside 10 A of fluorescent lamp type LED illumination bodies as a block. In each figure, the electric circuit and detailed components are not shown.

  FIG. 4 shows a network fluorescent lamp in which a large number of fluorescent lamp type LED illuminators 10A shown in FIG. 3 are arranged in a fluorescent lamp mounting device 20 on the ceiling, and a network with the central control unit 50 is constructed wirelessly. It is the figure which showed typically the example of a structure of type | mold LED lighting system 100A. In addition, the control which considered the influence of the external light which enters from a window is demonstrated.

  In the network fluorescent lamp type LED lighting system 100A of the second embodiment, as shown in FIG. 3, the fluorescent lamp type LED lighting body 10A includes a housing 11, a terminal 12, an LED lighting body 13, a wireless communication unit 14, and a current control unit. In addition to 15, the light sensor 16 for detecting the brightness of the spot illuminated by the fluorescent lamp type LED illuminating body 10A is provided. In FIG. 3A, the light intake port of the optical sensor 16 is schematically shown.

The light sensor 16 does not directly receive the irradiation light of the LED illuminating body 13, but the position and angle at which the irradiation light of the LED illuminating body 13 does not directly enter so as to detect the brightness at the spot illuminated by the fluorescent lamp type LED illuminating body 10A. Is provided.
Light environment data indicating the brightness of the spot detected by the optical sensor 16 is transmitted to the central control device 50 via the wireless communication unit 14, and the central control device 50 is obtained from each fluorescent lamp type LED illuminating body 10A. Based on the light environment data, the illuminance of each fluorescent lamp type LED illuminating body 10A can be individually adjusted.

  In the network fluorescent lamp type LED lighting system 100A according to the second embodiment, the light sensor 16 grasps the light environment in consideration of the influence of external light entering from a window or the like, and the light environment data is centered from each fluorescent lamp type LED illuminating body 10A. It transmits and receives wirelessly to the control device 50. That is, in the second embodiment, data is wirelessly transmitted from the fluorescent lamp type LED illuminator 10A side to the central controller 50 side.

  By analyzing the light environment data transmitted from each fluorescent lamp type LED illuminating body 10A by the central control device 50, the lighting of the room is finely divided according to the situation such as the position / direction from the window, presence / absence of obstacles, etc. Current control data can be given by specifying the illuminance of the fluorescent lamp type LED illuminating body 10A, and the illuminance of the LED illuminating body 13 can be adjusted by the current control unit 15 to create an ideal lighting environment in the room. it can.

  FIG. 4 is a diagram schematically illustrating illuminance adjustment when external light enters from a window or the like. In this example, the window is on the left side, and a lot of external light enters the left side simply. In other words, the light environment data detected by the light sensor 16a of the fluorescent lamp type LED illuminating body 10Aa attached to the fluorescent lamp mounting fixture 20a closest to the window is the largest, and the fluorescent lamp mounting fixture 20j farthest from the window The light environment data detected by the light sensor 16j of the attached fluorescent lamp type LED illuminating body 10Aj is the smallest. Each fluorescent lamp type LED illuminating body 10A wirelessly transmits light environment data to the central controller 50, and the central controller 50 determines the current of each fluorescent lamp type LED illuminator 10A based on the received light environment data. Control data is given to the control unit 15. Here, the fluorescent lamp type LED illuminating body 10Aa at the position closest to the window is darkest, and the fluorescent lamp type LED illuminating body 10Aj at the position farthest from the window is controlled to be brightest.

FIG. 5 is a diagram illustrating another control example using the network fluorescent lamp type LED lighting system 100A according to the second embodiment.
In conventional fluorescent lamp mounting fixtures and fluorescent lamps, as schematically shown by the dotted lines in FIG. 5 due to the characteristics of the ballast in the fluorescent lamp mounting fixture, the characteristics of each fluorescent lamp type LED illuminating body 10, and the like. In addition, there may be variations in illuminance between the plurality of fluorescent lamp type LED illuminators 10.
However, in the network fluorescent lamp type LED lighting system 100A of the second embodiment, since the illuminance of the spot illuminated by each fluorescent lamp type LED illuminating body 10A can be detected by the optical sensor 16, each fluorescent lamp type LED as described above is used. A difference in illuminance between the illuminating bodies 10A can also be detected and transmitted to the central controller 50 as light environment data. If the central controller 50 can grasp the variation in the illuminance, the current control adjustment is remotely controlled so as to eliminate the variation in the illuminance with respect to the current controller 15 of each fluorescent lamp type LED illuminating body 10A via the network. Thus, as schematically shown by the solid line in FIG. 5, the difference in illuminance between the respective fluorescent lamp type LED illuminators 10 can be eliminated.
As described above, the network fluorescent lamp type LED illumination system 100a according to the second embodiment can automatically correct this variation.

  The example of the network fluorescent lamp type LED lighting system 100B of this invention concerning Example 3 is shown. In addition to the configuration of the network fluorescent lamp type LED lighting system 100 shown in the first embodiment, each fluorescent lamp type LED lighting body 10B includes a human sensor 17 in the network fluorescent lamp type LED lighting system 100B of the third embodiment. It has a configuration.

  FIG. 6 is a diagram schematically illustrating a configuration example of a fluorescent lamp type LED lighting body 10B used in the network fluorescent lamp type LED lighting system 100B according to the third embodiment. (A) is a figure which shows typically a mode that the structural example of the fluorescent lamp type LED illumination body 10B was seen from the bottom face side (light projection surface side), (b) is a side view of the structural example of the fluorescent lamp type LED illumination body 10B. The figure which shows a mode seen from the side, (c) is a figure which shows typically the structure inside fluorescent lamp type LED illumination body 10B as a block. In each figure, the electric circuit and detailed components are not shown.

  FIG. 7 shows a network fluorescent lamp in which a large number of fluorescent lamp type LED illuminating bodies 10B shown in FIG. 6 are arranged in a ceiling fluorescent lamp mounting fixture 20 and a network is established between the central control unit 50 via radio. It is the figure which showed typically the structural example of the type | mold LED lighting system 100B. In addition, the human feeling control with respect to the person who exists in a room is demonstrated.

  The network fluorescent lamp type LED lighting system 100B according to the third embodiment includes the fluorescent lamp type LED illuminating body 10B and the central controller 50 as in the first embodiment. However, as shown in FIG. The illuminating body 10B includes a housing 11, a terminal 12, an LED illuminating body 13, a wireless communication unit 14, and a current control unit 15, and a human sensor 17 that detects human movement.

There are various types of human sensor 17. Either the infrared method or the radio wave method can be adopted as long as it can be accommodated in the housing 11.
Human motion data indicating human movement detected by the human motion sensor 17 is transmitted to the central controller 50 via the wireless communication unit 14. The central controller 50 can individually adjust the illuminance of each fluorescent lamp type LED illuminating body 10B based on the human feeling data obtained from each fluorescent lamp type LED illuminating body 10B.

In the network fluorescent lamp type LED lighting system 100B of the third embodiment, various controls as described below are possible using the human feeling data indicating the movement of the person detected by the human feeling sensor 17.
FIG. 7 schematically shows an example of human control. The human presence control is based on the human detection data detected by the human detection sensor 17 to increase the illuminance of the fluorescent lamp type LED illuminating body 10B at the spot where the person is present, and the fluorescent lamp type located at a position other than the spot where the person is present. This is control for weakly adjusting the illuminance of the LED illumination body 10B. In addition, when a person moves, it controls so that the illumination intensity of the fluorescent lamp type | mold LED illumination body 10B which illuminates the spot of a movement destination according to a person's movement becomes strong.

  How weak the illuminance of the fluorescent lamp type LED illuminating body 10B in a spot other than a spot where a person is present may be determined by application or operation, and at least the illuminance of the fluorescent lamp type LED illuminating body 10B in a spot where a person exists What is necessary is just to provide a difference between the illuminance of the fluorescent lamp type LED illuminating body 10 at a spot other than a spot where a person is present.

  As shown in FIG. 7, it is detected by the human sensors 17d, 17e, 17f in the fluorescent lamp type LED illuminators 10Bd, 10Be, 10Bf attached to the fluorescent lamp mounting devices 20d, 20e, 20f located at a spot where a person is present. Fluorescent data LED illuminators 10Ba, 10Bb, 10Bc attached to fluorescent lamp mounting devices 20a, 20b, 20c, 20g, 20h, 20i, 20j located at spots other than the spot where people are present. , 10Bg, 10Bh, 10Bi, 10Bj, the human detection data detected by the human detection sensors 17a, 17b, 17c, 17g, 17h, 17i, 17j is small, and each human detection data is transmitted to the central controller 50 wirelessly. Is done. On the central control device 50 side, each current control data is wirelessly transmitted to each current control unit 15 according to the human sensation data, and the illuminance adjustment is performed by each fluorescent lamp type LED illumination body. In this example, as shown in FIG. 7, the illuminance of the fluorescent lamp type LED illuminators 10Bd, 10Be, 10Bf at the spot where the person is present is high, and the other fluorescent lamp type LED illuminators 10Ba, 10Bb, 10Bc, 10Bg, 10Bh. , 10Bi, 10Bj have low illuminance.

As shown in FIG. 7, if the illumination of a spot where there is a person is secured with sufficient illuminance, it is comfortable for users of buildings and office buildings. There is no inconvenience, and power savings can be realized as a whole building or office building.
It should be noted that the above human feeling control can be linked with a crime prevention system. FIG. 8 is a diagram schematically illustrating a configuration example in which human motion control is linked to the crime prevention system 60. The content of the security system 60 is not particularly limited.

  For example, the central control device 50 controls each fluorescent lamp type LED illuminating body 10B to be in an extinguished state in a state where there is no person in entrance / exit management. When human motion is detected by the human sensor 17 of any one of the fluorescent lamp type LED illuminating bodies 10B and the human motion data is transmitted to the central control device 50, the central control device 50 receives the human motion data, The fluorescent lamp type LED illuminating body 10B at the spot where the movement of the person is detected is turned on, and the central control device 50 notifies the crime prevention system 60 of the presence of a suspicious person. In the example of FIG. 8, human movements are detected by the human sensors 17d, 17e, 17f in the fluorescent lamp type LED illuminators 10Bd, 10Be, 10Bf, and the fluorescent lamp type LED illuminators 10Bd, 10Be, 10Bf at the spot are turned on. This is an example. The security system 60 is notified of the presence of a suspicious person.

The network fluorescent lamp type LED lighting system 100C according to the fourth embodiment instructs the route in which the user should move by switching the illuminance of the fluorescent lamp type LED illuminating body 10C to the user in the building. Is. Conventionally, in order to give such a route instruction, it is necessary to specially install an electric bulletin board, a display board, etc. In the network fluorescent lamp type LED lighting system 100C of the fourth embodiment, It is possible to realize a system for instructing a route only by installing the fluorescent lamp type LED illuminating body 10C of the present invention and building a network wirelessly with the central controller 50.
As a case for guiding the route that the user should take, for example, guidance of an emergency evacuation route during a fire can be assumed.

  The configuration of the fluorescent lamp type LED illuminating body 10C may be the same as that of FIG. 6 of the third embodiment, and illustration is omitted, but the fluorescent lamp type LED illuminating body 10C includes a housing 11, a terminal 12, and an LED illuminating body. 13. In addition to the wireless communication unit 14 and the current control unit 15, a human sensor 17 for detecting human movement is provided.

FIG. 9 is a diagram schematically illustrating a configuration example of the network fluorescent lamp type LED lighting system 100C according to the fourth embodiment. As shown in FIG. 9, the central controller 50 is linked to the route guidance program 70.
FIG. 10 is a diagram schematically showing an example of guiding an emergency evacuation route at the time of a fire using the network fluorescent lamp type LED lighting system 100C of the fourth embodiment.

  First, a spot where a user is present is detected by the human sensor 17 and transmitted to the central controller 50 through the wireless communication unit 14 as human data. The central control device 50 identifies a spot where a user is present based on the human feeling data obtained from each fluorescent lamp type LED illuminating body 10 and notifies the route guidance program 70 of the spot.

Next, when it is necessary to guide an emergency evacuation route at the time of a fire or the like, the route guidance program 70 determines an emergency evacuation route to be followed by the user from a spot where the user is present.
As shown in FIGS. 10 (a) to 10 (b), the central controller 50 instructs the user on the route to be moved, and the route on which the user should move from the spot where the user is located. Toward the current control unit of each fluorescent lamp type LED illuminating body 10C wirelessly so as to sequentially switch the strength of the fluorescent lamp type LED illuminating body 10C installed on the ceiling or wall. That is, a spot guidance function that guides the user is performed by controlling the spot position with a strong illuminance or the spot position with a weak illuminance one after another in front of the user. In FIG. 10, as indicated by the arrows, the spot positions having strong illuminance schematically move in front of the user one after another, and route guidance is performed for the user.

  As the illumination color of the LED illuminating body 13 of the network fluorescent lamp type LED illumination system 100C according to the fourth embodiment, a color that can emit a specific color such as red or blue in addition to white is adopted. Those that perform color display such as blue display are also preferable.

  That is, when the user in the building is instructed on the route that the user should move, the fluorescent lamp type LED illuminating body 10 is directed from the spot where the user is moving toward the route that the user is to move. The user is guided by sequentially switching the illumination colors, for example, by sequentially moving the spot positions that emit red light in front of the user. In emergency evacuation, the evacuation route can be clearly shown to the user.

  In the network fluorescent lamp type LED lighting system 100D of the fifth embodiment, the fluorescent lamp type LED illuminating body 10D includes the thermal sensor 18, and the temperature at the position where the fluorescent lamp type LED illuminating body 10D is located is detected and applied to various applications. Is. As an application using the thermal sensor 18, for example, guidance of an emergency evacuation route during a fire can be assumed.

FIG. 11 is a diagram schematically illustrating a configuration example of a fluorescent lamp type LED illumination body 10D used in the network fluorescent lamp type LED lighting system 100D of the fifth embodiment. (A) is a figure which shows typically a mode that the structural example of fluorescent lamp type LED illumination body 10D was seen from the bottom face side (light projection surface side), (b) is a side view of the structural example of fluorescent lamp type LED illumination body 10D. The figure which shows a mode that it saw from the side, (c) is a figure which shows typically the structure inside fluorescent lamp type LED illumination body 10D as a block. In each figure, the electric circuit and detailed components are not shown.
The network fluorescent lamp type LED lighting system 100D according to the fifth embodiment includes the fluorescent lamp type LED illuminating body 10D and the central controller 50 as in the first embodiment. However, as shown in FIG. The illuminating body 10D includes a thermal sensor 18 that detects the temperature of the spot illuminated by the fluorescent lamp type LED illuminating body 10 in addition to the housing 11, the terminal 12, the LED illuminating body 13, the wireless communication unit 14, and the current control unit 15. It has a configuration.

  The temperature environment data indicating the heat of the spot detected by the thermal sensor 18 is transmitted to the central control device 50 via the wireless communication unit 14, and the central control device 50 obtains the temperature environment obtained from each fluorescent lamp type LED illuminating body 10. The illuminance of each fluorescent lamp type LED illuminating body 10D can be individually adjusted based on the data.

  For example, as shown in FIG. 12, when abnormal heat generation occurs due to a defect or deterioration of an element or electric circuit of the fluorescent lamp type LED lighting body 10D, the temperature detected by the thermal sensor 18 of the fluorescent lamp type LED lighting body 10D. Environmental data shows that high fever is generated. When the central controller 50 detects abnormal heat generation in the fluorescent lamp type LED illuminating body 10D based on the temperature environment data obtained from each fluorescent lamp type LED illuminating body 10D, the fluorescent lamp type LED in which the abnormal heat generation is detected. An abnormal heat generation control for stopping the power supply by operating the current control unit 15 of the illuminating body 10D is performed.

  In the network fluorescent lamp type LED lighting system 100D of the fifth embodiment, the fluorescent lamp type LED lighting in which abnormal heat is generated due to malfunction or deterioration of the elements due to the wireless network of the central controller 50 and each fluorescent lamp type LED lighting body 10D. The power supply to the body can be stopped dynamically, and it is possible to prevent the element from being burnt or causing a fire.

  In the example of FIG. 12, the abnormal heat generation of the fluorescent lamp type LED illuminating body 10 </ b> D is detected, but it is also possible to detect a fire and perform disaster prevention management. FIG. 13 is a diagram schematically illustrating an example in which a fire is detected and disaster prevention management is performed by the network fluorescent lamp type LED lighting system 100D of the present invention.

The configuration of the network fluorescent lamp type LED lighting system 100D of the present invention for performing fire detection may be the same as that shown in FIG. When a fire occurs, the temperature environment data detected by the thermal sensors 18d, 18e, and 18f in the fluorescent lamp type LED illuminators 10Dd, 10De, and 10Df attached to the fluorescent lamp mounting devices 20d, 20e, and 20f at the fire occurrence spot is abnormal. High temperature data is obtained, and the fluorescent lamp type LED illuminators 10Da, 10Db, 10Dc, and 10Dg attached to the fluorescent lamp mounting devices 20a, 20b, 20c, 20g, 20h, 20i, and 20j located at spots other than the fire spot , 10Dh, 10Di, 10Dj, the temperature sensor 18a, 18b, 18c, 18g, 18h, 18i, 18j cannot detect abnormally high temperature data in the initial temperature environment data. Each temperature environment data is wirelessly transmitted to the central controller 50. On the central controller 50 side, the location of the fire occurrence spot is determined according to the temperature environment data, and the disaster prevention system 80 is notified. The content of the disaster prevention system 80 is not particularly limited.
In addition, after detecting the occurrence of a fire, the central control device 50 preferably links the route guidance program 70 and guides the evacuation route shown in the fourth embodiment to the users remaining in the building.

  As described above, according to the network fluorescent lamp type LED lighting system 100D of the fifth embodiment, the occurrence of a fire occurring in a building or an office building and the place where the fire broke out due to the linkage between the central controller and each fluorescent lamp type LED lighting body. The central control device can perform disaster prevention management in conjunction with the disaster prevention system.

  In the network fluorescent lamp type LED lighting system 100E of the sixth embodiment, the fluorescent lamp type LED lighting body 10E includes the image camera 19, and images under the fluorescent lamp type LED lighting body 10E are taken and applied to various applications. is there. As an application using the image camera 19, for example, a crime prevention system can be assumed.

  FIG. 14 is a diagram schematically illustrating a configuration example of a fluorescent lamp type LED lighting body 10E used in the network fluorescent lamp type LED lighting system 100E of the sixth embodiment. (A) is a figure which shows typically a mode that the structural example of the fluorescent lamp type LED illumination body 10E was seen from the bottom face side (light projection surface side), (b) is a side view of the structural example of the fluorescent lamp type LED illumination body 10E. The figure which shows a mode that it saw from the side, (c) is a figure which shows typically the structure inside the fluorescent lamp type LED illumination body 10E as a block. In each figure, the electric circuit and detailed components are not shown.

  FIG. 15 shows a network fluorescent lamp in which a large number of fluorescent lamp type LED illuminators 10E shown in FIG. 14 are arranged in a ceiling fluorescent lamp mounting fixture 20 and a network is established between the central controller 50 via radio. It is the figure which showed typically the structural example of the type | mold LED lighting system 100E.

  The network fluorescent lamp type LED lighting system 100E of the sixth embodiment includes the fluorescent lamp type LED illuminating body 10E and the central controller 50 as in the first embodiment. However, as shown in FIG. The illuminating body 10E is configured to include a camera 19 that captures a captured image in addition to the housing 11, the terminal 12, the LED illuminating body 13, the wireless communication unit 14, and the current control unit 15.

  The camera 19 is attached at a position where image data under the fluorescent lamp type LED illuminating body 10 can be photographed. For example, when a person is present under a certain fluorescent lamp type LED illuminating body 10, an image of the person can be captured.

  As shown in FIG. 15, the image data under the fluorescent lamp type LED illuminating body 10 </ b> E captured by the camera 19 is transmitted to the central controller 50 via the wireless communication unit 14. The central controller 50 exhibits a camera monitoring function for managing the entrance and exit and movement of people in the building based on image data obtained from each fluorescent lamp type LED illuminator 10E. By linking the central controller 50 and each fluorescent lamp type LED illuminating body 10E, it is possible to monitor the movement of a person in a building or office building without attaching a large number of security cameras as in the past. A camera monitoring function can be provided.

In addition, in conjunction with the crime prevention system 60 shown in the third embodiment, the action of the suspicious person or the like can be captured using the photographed image, thereby contributing to crime prevention.
Further, for example, it may be possible to specify who the person is in the image by linking with the person image database.

As mentioned above, although preferred embodiment of this invention was illustrated and demonstrated, this invention is widely applicable to the fluorescent lamp type LED illumination attached to the conventional fluorescent lamp attachment fixture.
It will be understood that various modifications can be made without departing from the scope of the invention.

The figure which shows typically the structural example of the fluorescent lamp type LED lighting body 10 used for the network fluorescent lamp type LED lighting system 100 concerning Example 1. FIG. The figure which showed typically the example of a structure of the network fluorescent lamp type LED lighting system 100 which built the network wirelessly between the fluorescent lamp type LED lighting body 10 and the central control apparatus 50 The figure which shows typically the structural example of the fluorescent lamp type LED lighting body 10a used for the network fluorescent lamp type LED lighting system 100a concerning Example 2. FIG. The figure which showed typically about illuminance adjustment when outside light enters from a window etc. The figure which shows the other example of control using the network fluorescent lamp type LED lighting system 100a of Example 2. FIG. The figure which shows typically the structural example of the fluorescent lamp type LED lighting body 10b used for the network fluorescent lamp type LED lighting system 100b concerning Example 3. FIG. The figure which shows typically the example of human presence control in the network fluorescent lamp type LED lighting system 100b concerning Example 3. FIG. The figure which shows typically the example of a structure which links | links human feeling control with the crime prevention system 60 The figure which showed typically the example of a structure of the network fluorescent lamp type LED lighting system 100C of the present Example 4. The figure which shows typically guidance of the emergency evacuation route at the time of a fire using the network fluorescent lamp type LED lighting system 100c of the present Example 4. The figure which shows typically the structural example of the fluorescent lamp type LED illumination body 10d used for the network fluorescent lamp type LED lighting system 100d concerning Example 5. FIG. The figure which shows typically abnormality detection when abnormal heat_generation | fever generate | occur | produces by the malfunction and deterioration of the element and electric circuit of the fluorescent lamp type LED lighting body 10 The figure which shows typically the example which detects a fire and performs disaster prevention management by the network fluorescent lamp type LED lighting system 100d of Example 5. The figure which shows typically the structural example of the fluorescent lamp type LED lighting body 10e used for the network fluorescent lamp type LED lighting system 100e concerning Example 6. FIG. The figure which shows a mode that the image data under the fluorescent lamp type LED illumination body 10e image | photographed with the camera 19 is transmitted to the central control apparatus 50 via the wireless communication part 14. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Fluorescent-lamp type LED illuminating body 11 Housing | casing 12 Terminal 13 LED illuminating body 14 Wireless communication part 15 Current control part 16 Optical sensor 17 Human sensor 18 Thermal sensor 19 Camera 20 Fluorescent lamp installation tool 50 Central controller 51 Wireless communication part 60 Crime prevention system 70 Route guidance program 80 Disaster prevention system 100 Network fluorescent LED lighting system

Claims (14)

A plurality of LED illuminating bodies that are housed in a fluorescent light mounting fixture and are mounted in a housing having at least a light-transmitting surface that is transparent or translucent; a terminal that is connected to a fluorescent light socket in the fluorescent light mounting fixture; A fluorescent lamp-type LED illuminator that includes a wireless communication unit that exchanges data wirelessly and a current control unit that adjusts the illuminance of the LED illuminator, and causes the LED illuminator to emit light by power supplied from the fluorescent lamp socket When,
Light that is incorporated in the fluorescent lamp type LED illuminating body, and is provided at a position and an angle at which the irradiation light of the LED illuminating body does not directly enter so as to detect the brightness at the spot illuminated by the fluorescent lamp type LED illuminating body according to the incorporation. A sensor,
A central control device that provides current control data for controlling the current control unit by wireless data transmission and reception with respect to the fluorescent lamp type LED illuminating body, and adjusts the illuminance of the LED illuminating body,
By attaching the fluorescent lamp type LED illuminating body as an illuminating body to the existing fluorescent lamp mounting fixture on the ceiling or wall surface, a wireless network is automatically constructed between the plurality of fluorescent lamp type LED illuminating bodies, respectively. Transmitting the light environment data indicating the brightness of the spot detected by the light sensor to the central control device,
The central control device adjusts the illuminance of the fluorescent lamp type LED illuminator based on light environment data obtained from each of the fluorescent lamp type LED illuminators. Unique identification information is given to each of the fluorescent lamp type LED illuminators,
The central control device wirelessly transmits the current control data with the identification information of the fluorescent lamp type LED illuminating body selected as a control target,
The network fluorescent lamp type according to claim 1, wherein the fluorescent lamp type LED illuminator to which identification information matching the identification information attached to the wireless transmission is assigned executes current control based on the current control data. LED lighting system. A human sensor for detecting the movement of a person in the fluorescent lamp type LED illumination body,
Sending human feeling data indicating human movement detected by the human sensor to the central control device via the wireless communication unit,
The said central control apparatus adjusts the illumination intensity of each said fluorescent lamp type LED lighting body separately based on the human sensitive data obtained from each said fluorescent lamp type LED lighting body, The said 1 or 2 characterized by the above-mentioned. The network fluorescent lamp type LED illumination system according to any one of the above. The central control unit increases the illuminance of the fluorescent lamp type LED illuminator at a spot where a person is present based on the human feeling data, and the fluorescent lamp type LED illuminator is located at a position other than the spot where the person is present. Execute human control to adjust the illuminance weakly,
The network fluorescence according to claim 3, wherein when the person moves, the illuminance of the fluorescent lamp type LED illuminating body that illuminates the spot of the moving destination is controlled in accordance with the movement of the person according to the movement of the person. Lamp type LED lighting system. In a state where there is no person in the entrance / exit management, the central control device controls each fluorescent lamp type LED illuminating body to be in an extinguished state,
When the human motion is detected by the human sensor of any one of the fluorescent lamp type LED illuminators, and the central controller receives the human data, the spot where the central controller detects the human motion The network fluorescent lamp type LED lighting system according to claim 3 or 4, wherein the fluorescent lamp type LED lighting body is turned on, and the central controller contributes to crime prevention management in conjunction with an alarm system.   In instructing the user in the building on the route that the user should move, the central control unit moves from the spot where the user is located toward the route on which the user is to move. By sequentially switching the intensity of the fluorescent lamp type LED illuminating body installed on the user, the spot position having a strong illuminance or the spot position having a weak illuminance in the front of the user is moved one after another. The network fluorescent lamp type LED illumination system according to any one of claims 1 to 5, further comprising a route guidance function for guiding the light. The fluorescent lamp type LED illuminating body can emit a specific color such as red or blue in addition to white as an illumination color,
In instructing the user in the building on the route that the user should move, the central control unit moves from the spot where the user is located toward the route on which the user is to move. Route guidance for guiding the user by sequentially switching the illumination color of the fluorescent lamp type LED illuminating body installed on the front and moving the spot position that becomes the illumination color one after another in front of the user The network fluorescent lamp type LED illumination system according to any one of claims 1 to 5, comprising a function. In the fluorescent lamp type LED illumination body, provided with a thermal sensor for detecting heat,
Sending temperature environment data indicating the temperature state in the vicinity of the fluorescent lamp type LED illuminating body detected by the thermal sensor to the central control unit via the wireless communication unit,
When the central control unit detects abnormal heat generation in each of the fluorescent lamp type LED illuminators based on temperature environment data obtained from each of the fluorescent lamp type LED illuminators, the fluorescent lamp in which the abnormal heat generation is detected The network fluorescent lamp type LED illumination system according to any one of claims 1 to 7, wherein abnormal heat generation control is performed to stop power supply by operating the current control unit of the LED illumination body. In the fluorescent lamp type LED illumination body, provided with a thermal sensor for detecting heat,
Sending temperature environment data indicating the temperature state in the vicinity of the fluorescent lamp type LED illuminating body detected by the thermal sensor to the central control unit via the wireless communication unit,
When the central controller detects a fire at a spot illuminated by each of the fluorescent lamp type LED illuminators based on temperature environment data obtained from each of the fluorescent lamp type LED illuminators, the central controller and the disaster prevention system The network fluorescent lamp type LED lighting system according to any one of claims 1 to 7, which is linked to contribute to disaster prevention management. In the fluorescent lamp type LED illumination body, provided with a camera for capturing a photographed image,
Sending the image data under the fluorescent lamp type LED illuminator photographed by the camera to the central control unit via the wireless communication unit,
The said central control apparatus was equipped with the camera monitoring function which manages the entrance / exit and movement of the person in a building based on the image data obtained from each said fluorescent lamp type | mold LED illuminating body. The network fluorescent lamp type LED illumination system according to any one of the above. A fluorescent lamp type LED illuminating body used in a network fluorescent lamp type LED lighting system, wherein the LED illuminating body is housed in a fluorescent lamp mounting fixture and is mounted in a housing having at least a light projecting surface transparent or translucent. A terminal connected to a fluorescent light socket in the fluorescent light mounting device, a wireless communication unit for wirelessly exchanging data with the outside, a current control unit for adjusting the illuminance of the LED illuminator, and the fluorescent LED A fluorescent lamp type that is incorporated in a lighting body, includes a light sensor that detects the brightness of a spot illuminated by the fluorescent lamp type LED lighting body, and emits the LED lighting body by power supplied from the fluorescent lamp socket. LED illuminator. A fluorescent lamp type LED illuminating body used in a network fluorescent lamp type LED lighting system, wherein the LED illuminating body is housed in a fluorescent lamp mounting fixture and is mounted in a housing having at least a light projecting surface transparent or translucent. A terminal connected to a fluorescent light socket in the fluorescent light mounting device, a wireless communication unit for wirelessly exchanging data with the outside, a current control unit for adjusting the illuminance of the LED illuminator, and the fluorescent LED A human sensor that detects a movement of a person at a spot illuminated by the fluorescent lamp type LED illuminator that is incorporated in the illuminating body, and causes the LED illuminator to emit light by electric power supplied from the fluorescent lamp socket; A fluorescent lamp type LED illuminator for driving the human sensor. A fluorescent lamp type LED illuminating body used in a network fluorescent lamp type LED lighting system, wherein the LED illuminating body is housed in a fluorescent lamp mounting fixture and is mounted in a housing having at least a light projecting surface transparent or translucent. A terminal connected to a fluorescent light socket in the fluorescent light mounting device, a wireless communication unit for wirelessly exchanging data with the outside, a current control unit for adjusting the illuminance of the LED illuminator, and the fluorescent LED A temperature sensor that is incorporated in the illuminating body and detects heat at a spot illuminated by the fluorescent lamp type LED illuminating body, and the LED illuminating body emits light by the electric power supplied from the fluorescent lamp socket; Fluorescent lamp type LED illuminating body for driving. A fluorescent lamp type LED illuminating body used in a network fluorescent lamp type LED lighting system, wherein the LED illuminating body is housed in a fluorescent lamp mounting fixture and is mounted in a housing having at least a light projecting surface transparent or translucent. A terminal connected to a fluorescent light socket in the fluorescent light mounting device, a wireless communication unit for wirelessly exchanging data with the outside, a current control unit for adjusting the illuminance of the LED illuminator, and the fluorescent LED A camera is incorporated in the lighting body and captures an image at a spot illuminated by the fluorescent lamp type LED lighting body according to the mounting. The LED lighting body is caused to emit light by power supplied from the fluorescent lamp socket, and the camera is driven. Fluorescent lamp type LED illuminator.

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