JP2013025909A - Light emitting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a light emitting device which converts a power supplied externally into illumination light and can achieve illumination along with the formation of a desired wireless zone without losing the time.SOLUTION: The light emitting device comprises a light-emitting element which converts a power supplied externally into illumination light, and a first lead-in wire which delivers the power to the light-emitting element. Furthermore, an antenna element used for transmission or reception of a wireless signal by an external wireless device, and a second lead-in wire forming the part or whole of feeding path from the antenna element to the antenna terminal of the wireless device are built in the light emitting device.

Description

  The present invention relates to a light emitter that converts electric power supplied from outside into illumination light.

  In recent years, with the development of wireless communication technology, for example, wireless devices are used in various fields as described below, and the necessity of installing antennas is increasing everywhere.

(1) Easy digital terrestrial broadcasting as an amusement
(2) Wireless LAN that enables use of the Internet
(3) Mobile communication services including mobile phones

FIG. 2 is a diagram illustrating an example of a ceiling where an antenna is installed.
In the figure, wireless devices 21-1 to 21-m are installed at equal intervals in a passage in a building or in an underground shopping center, and these wireless devices 21-1 to 21-m have antennas 21A-1 to 21A, respectively. -M is provided. Further, light bulbs 22-1 to 22-n are installed at equal intervals in the passage or ceiling, and a passerby 23 who travels in the passage or underground shopping area carries the terminal 24.

  The wireless devices 21-1 to 21-m form a wireless zone on the passage or ceiling via the antennas 21A-1 to 21A-m, as indicated by broken lines in FIG. The terminal 24 receives a desired wireless service via any of these wireless zones. In addition, the light bulbs 22-1 to 22-n convert electric power supplied from the outside into illumination light.

  As a prior art related to the present invention, as disclosed in claims 4 and 7 of Patent Document 1 to be described later, “a PLC that is a relay for power line communication in a socket portion that connects a light bulb to a power source” The adapter is integrated and the power and the signal are separated at an integrated part with the illumination light source attached to the socket part. The PLC adapter is used for various communication from the position of the illumination light source in combination with a wireless router having a wireless transmission function. There was a lighting fixture characterized by “having a communication function” by being able to send and receive calls toward the terminal device.

JP 2009-141766 A

By the way, in the above-described conventional example, in order to form the above-described wireless zone, antennas 21A-1 to 21A-m must be installed separately from the light bulbs 22-1 to 22-n. Since -1 to 21 Am entered the pedestrian's field of view, the landscape often deteriorated.
An object of this invention is to provide the light-emitting device which can implement | achieve formation of a desired wireless zone in combination with illumination, without impairing aesthetics.

In the invention according to claim 1, a light emitting element that converts electric power supplied from the outside into illumination light;
The light emitting device includes a first lead-in line that delivers the power to the light emitting element, and the antenna element is used for transmission or reception of a wireless signal by an external wireless device. The second lead-in line forms all or part of the feed path from the antenna element to the antenna terminal of the wireless device.
That is, the light emitting device according to the present invention incorporates an antenna element used for transmission or reception of a radio signal in addition to the light emitting element, and furthermore, a power supply path for these light emitting elements and a feeding path for the antenna element. Are formed as separate first introduction lines and second introduction lines, respectively.

According to a second aspect of the present invention, there is provided a light emitting device comprising: a light emitting element that converts electric power supplied from outside into illumination light; and a first introduction line that delivers the electric power to the light emitting element. The lead-in line forms all or part of a power feed path used for connection with an antenna terminal of an external wireless device. The light emitting element functions as an antenna for a radio signal transmitted or received by the radio apparatus.
That is, the light emitting device according to the present invention includes a light emitting element, and an antenna element used for transmitting or receiving a radio signal also serves as the light emitting element.

In invention of Claim 3, the light emitting element which converts the electric power supplied from the outside into illumination light,
The light emitting device includes a first lead wire that delivers the power to the light emitting element, and a part of the light emitting element is formed as an antenna element for a radio signal transmitted or received by an external wireless device. The second lead-in line forms all or part of the feed path from a part of the antenna element to the antenna terminal of the wireless device.
That is, in the light emitter according to the present invention, an antenna element used for transmitting or receiving a radio signal also serves as a part of the light emitting element.

According to a fourth aspect of the present invention, in the light emitting device according to the third aspect, a part of the first introduction line also serves as the second introduction line.
That is, all or a part of the power feeding path to the antenna element also serves as a power supply path to the light emitting element.

In the invention according to claim 5, a light emitting element that converts electric power supplied from the outside into illumination light;
A light-emitting device including a first lead-in line that delivers the power to the light-emitting element, and a power feeding path from an antenna element used for transmission or reception of a radio signal by an external radio device to an antenna terminal of the radio device A second lead-in line is formed which forms all or part of The antenna element is formed as all or part of the first lead-in line.
That is, the light emitting device according to the present invention includes a light emitting element, and an antenna element used for transmission or reception of a radio signal also serves as a power supply path to the light emitting element.

In the invention according to claim 6, a light emitting element that converts electric power supplied from the outside into illumination light;
A light-emitting device including a first lead-in line that delivers the power to the light-emitting element, and a power feeding path from an antenna element used for transmission or reception of a radio signal by an external radio device to an antenna terminal of the radio device A second lead-in line is formed which forms all or part of The antenna element is formed as a row of all or part of the first lead-in line and all or part of the light-emitting element.
That is, the light-emitting device according to the present invention includes a light-emitting element, and all or a part of a power supply path to the light-emitting element and a column of all or a part of such a light-emitting element include a radio signal. Also serves as an antenna element for transmission or reception.

According to the present invention, the configuration and arrangement of the light emitting element, as well as without significant restrictions due to the power supplied to the light emitting element, and without the installation of the antenna element in conjunction with the installation of the light emitting element, A wireless zone can be formed with a desired frequency, polarization, directivity, and the like.
Further, according to the present invention, the configuration, size, and arrangement of the light-emitting elements of each component do not hinder the formation of the radio zone by a desired frequency, polarization, directivity, etc. The number of components is reduced, and the possibility of low cost and miniaturization is increased.
Therefore, in the wireless system to which the present invention is applied, the formation and expansion of the wireless zone can be realized inexpensively and easily without impairing the illumination and light emission forms to be performed in the desired space or place, and the installation of the antenna It is easy to solve the shortage of space and landscape degradation.

It is a figure which shows one Embodiment of this invention. It is a figure which shows an example of the ceiling in which an antenna is installed.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram showing an embodiment of the present invention.
1, components having the same configuration and function as those shown in FIG. 2 are given the same reference numerals, and descriptions thereof are omitted here.
The difference between the present embodiment shown in FIG. 1 and the conventional example shown in FIG. 2 is as follows.

(1) Antennas 21A-1 to 21A-n are not provided.
(2) Instead of the light bulbs 22-1 to 22-n, light bulbs 11-1 to 11-n having a common configuration are provided.
(3) The light bulb 11-1 includes the following elements.

(3-1) Filament 11F-1
(3-2) One end of each of the first and second terminals (which may be a component of the connector) used for supplying commercial power is connected to the other end of the filament 11F-1. Lead wires 11L-1a and 11L-1b connected respectively to
(3-3) Antenna element 11A-1 formed as a separate conductor from filament 11F-1 and supported or erected in bulb 11-1
(3-4) One end is connected to each of the third and fourth terminals (which may be components of the connector) connected to the two antenna terminals of the wireless device 21-1 described above, and The other ends are connected to both ends of the antenna element 11A-1, so that the introduction lines 11AL-1a and 11AL-1b constituting the feeding path of the antenna element 11A-1
Note that the introduction lines 11AL-1a and 11AL-1b inside the light bulb 11-1 are hindered by the shape, structure and arrangement of the filament 11F-1 and the introduction lines 11L-1a and 11L-1b described above. As long as it functions as a feed path for the antenna element 11A-1, it may be configured as any feed line listed below.
(1) Parallel lines that realize balanced feeding of the antenna element 11A-1, such as a ribbon feeder, a glasses feeder, and a ladder feeder (if the antenna element 11A-1 should function as a grounded antenna, a wireless device) It may be connected to the antenna terminal 21-1 via a balun or the like.)
(2) Like a coaxial cable, the wireless device 21-1 realizes unbalanced feeding of the antenna element 11A-1 and can suppress unnecessary electromagnetic radiation from other than the antenna element 11A-1 with a desired accuracy. The balanced feeders (one of the lead wires 11AL-1a and 11AL-1b and the other of the lead wires 11AL-1b may not correspond to the inner conductor and the outer conductor, respectively. For example, these 11AL-1a and 11AL-1b (It may be configured as a two-core coaxial cable arranged without contacting the hollow portion of “individual outer conductors grounded via the wireless device 21-1”.)
When the lead-in wires 11AL-1a and 11AL-1b are configured as the coaxial cable, the filament 11F-1 is replaced with a plurality of antenna elements formed by configuring the coaxial cable as a leaky coaxial cable. Also good.
Since the configurations of the light bulbs 11-2 to 11-n are the same as the configuration of the light bulb 11-1, the number added to the reference numerals of the corresponding components is “2” to “n”, respectively. Assuming that there is, the illustration and detailed description are omitted here.

The operation of this embodiment will be described below with reference to FIG.
In the following, for the matters common to the light bulbs 11-1 to 11-n, the symbol “c” which means that it applies to any of “1” to “n” as the first serial number described above. It describes using.
In the light bulb 11-c, the filament 11F-c emits illumination light in the same manner as the conventional example when commercial power is supplied through the above-described lead wires 11L-ca and 11L-cb.
In addition, the antenna element 11A-c is either or both of the supply of the transmission wave and the delivery of the reception wave to and from the antenna terminal of the wireless device via the introduction lines 11AL-ca and 11AL-cb described above. Is done.
Inside the light bulb 11-c, the antenna element 11A-c is configured and supported (built) separately from the filament 11F-c, and has various desired shapes, arrangements, dimensions and characteristics. And is fed via lead wires 11AL-ca and 11AL-cb different from lead wires 11L-ca and 11L-cb.
That is, the antenna element 11A-c is used to form a wireless zone with various polarizations, directivities, and gains determined by the internal configuration of the light bulb 11-c and the position and orientation of the light bulb 11-c attached to the ceiling. Provided.
Therefore, according to the present embodiment, such an antenna is exposed on the ceiling without being attached separately from the light bulb 11-c in the passage and the underground shopping area under the above-described ceiling. Thus, various wireless systems can be introduced at low cost without deteriorating the aesthetics.

In the present embodiment, the light bulb 11-c may be configured in any of the following modes as long as the formation of the wireless zone is realized with desired characteristics and form.
(1) The antenna element 11A-c is configured as the whole or a part of both or one of the introduction lines 11L-1a and 11L-1b, and such an antenna element 11A- is formed by the introduction lines 11AL-ca and 11AL-cb. c feeding path is formed.
(2) The antenna element 11A-c is configured by sharing the whole or a part of the filament 11F-c, and a feed path for the antenna element 11A-c is formed by the introduction lines 11AL-ca and 11AL-cb.
(3) The introduction lines 11L-1a and 11L-1b, or both of the whole or a part of them both serve as both or either of the introduction lines 11AL-ca and 11AL-cb corresponding to the power feeding path.
(4) The antenna element 11A-c is configured as a line of the whole or a part of both or one of the introduction lines 11L-1a and 11L-1b and the whole or a part of the filament 11F-c, and the introduction line 11AL-ca and 11AL-cb form such a feeding path for the antenna element 11A-c.

Furthermore, the present embodiment may be configured under any premise described below.
(1) The filament 11F-c is not commercial power, but is, for example, DC power or power (including high-frequency power) supplied by a predetermined power supply device.
(2) Instead of the light bulb 11-c, antenna elements 11A-c and lead-in wires 11AL-ca, 11AL-cb are provided inside (inner walls) and side portions (including outer walls) of various light sources such as fluorescent tubes. Provided or formed.
(3) The antenna elements 11A-c are formed as a combination of a plurality of antenna elements, and are formed so that desired beam forming and null forming can be realized. In such a case, the introduction lines 11AL-ca and 11AL-cb are not necessarily a pair of introduction lines, but include various numbers and configurations of conductors (when formed under a film formation technique). ).
(4) The above-described wireless zone is formed by various desired radio frequencies, multiple access methods, and modulation / demodulation methods.

In the present embodiment, the transmission of radio signals to the introduction lines 11AL-ca and 11AL-cb may be performed via either a dedicated line or a power line.
Furthermore, in this embodiment, the method for separating the supplied illumination power and radio signal is not limited.
In addition, the present invention is characterized by an antenna system (including an antenna element 11A-c and lead wires 11L-ca and 11L-cb serving as a feeding path for the antenna element 11A-c) inside the light bulb 11-c. Is built in various configurations, so that it is possible to form a wireless transmission path and a wireless zone suitable for the desired wireless communication system and wireless transmission system. The technology that simply attaches the PLC adapter sharing the electrical wiring (power line) between the electrodes of the illumination light source is essentially different in the points listed below.
(1) The specific wireless transmission methods and security functions required for the Internet environment are not essential configuration requirements.
(2) In particular, the above-described PLC adapter antenna system is not arranged in a light bulb, and is not realized unless, for example, a wireless transmission function added separately to the PLC adapter or a modulation circuit and an antenna are combined.
(3) The present invention is different from “Securing the Internet environment where wiring work is simplified or omitted by a PLC adapter that can be applied only to the home”, and various other wireless communication systems and wireless transmissions. The system can be flexibly adapted to the zone configuration, frequency arrangement, and channel configuration.

11 Light Bulb 11A Antenna Element 11F Filament 11AL, 11L Introductory Line 21 Radio Device 21A Antenna 22 Light Bulb 23 Pedestrian 24 Terminal

Claims (6)

A light emitting element that converts electric power supplied from the outside into illumination light;
A light emitting device including a first lead wire for delivering the power to the light emitting element;
An antenna element used for transmission or reception of a radio signal by an external radio device;
And a second lead-in wire that forms all or part of a feeding path from the antenna element to the antenna terminal of the wireless device. A light emitting element that converts electric power supplied from the outside into illumination light;
A light emitting device including a first lead wire for delivering the power to the light emitting element;
The first lead line is
Form all or part of the feeding path used for connection with the antenna terminal of the external wireless device,
The light emitting element is
A light emitter that functions as an antenna for a radio signal transmitted or received by the radio device. A light emitting element that converts electric power supplied from the outside into illumination light;
A light emitting device including a first lead wire for delivering the power to the light emitting element;
Some of the light emitting elements are
Formed as an antenna element for a radio signal transmitted or received by an external radio device,
And a second lead wire that forms all or part of a feeding path from a part of the antenna element to the antenna terminal of the wireless device. The light emitter according to claim 3.
Part of the first lead-in line is
The light emitting device that also serves as the second lead-in wire. A light emitting element that converts electric power supplied from the outside into illumination light;
A light emitting device including a first lead wire for delivering the power to the light emitting element;
Incorporating a second lead wire that forms all or part of a feeding path from an antenna element used for transmission or reception of a radio signal by an external radio device to an antenna terminal of the radio device,
The antenna element is
A light emitter formed as all or part of the first lead-in wire. A light emitting element that converts electric power supplied from the outside into illumination light;
A light emitting device including a first lead wire for delivering the power to the light emitting element;
Incorporating a second lead wire that forms all or part of a feeding path from an antenna element used for transmission or reception of a radio signal by an external radio device to an antenna terminal of the radio device,
The antenna element is formed as a row of all or part of the first lead-in line and all or part of the light-emitting element.