JPWO2019043757A1 - Antenna structure - Google Patents

Abstract

The antenna structure 1 is formed of a light source 31 that emits visible light and a transparent conductor that transmits visible light on a film that transmits visible light, and the visible light is provided on the side where the light source 31 emits visible light. And an antenna unit 10 (antenna 11) that transmits light.

Description

  The present invention relates to an antenna structure.

  Patent Literature 1 discloses a management server, an access point provided along with a guide light, an information device connected to the access point by a wireless link directly or via a multi-hop connection by wireless, the server and the access point An access point of a wireless system including a network connecting the antenna, the access point includes an antenna unit disposed in a guide light, and a camera, and the access point includes a secondary battery in the guide light. And an access point operable by a secondary battery in the guide light at the time of a power failure is disclosed.

  Patent Literature 2 discloses a display device in which an antenna for transmitting broadcast radio waves or an antenna for wirelessly communicating electronic information with each other is housed in a display unit for displaying graphics and character information. The display unit includes a light guide plate formed of a light-transmitting material in a plate shape and receiving light emitted from a light source from one end surface, and a display panel on which figures and character information are drawn. There is disclosed a display device which is disposed so as to overlap in a thickness direction and in which an antenna is disposed at a position other than a facing surface of a display panel and a light guide plate.

  Patent Literature 3 discloses a repeater system including an outdoor antenna capable of communicating with a base station of a mobile communication network, and retransmission means connected to the outdoor antenna, and relaying information exchange between the base station and a user terminal. Wherein the retransmitting means operates as an interface between the outdoor antenna and an indoor antenna capable of communicating with the user terminal, and retransmits a signal received by one antenna to the other antenna. In addition, a repeater system is disclosed in which the outdoor antenna is an arbitrary transparent planar antenna integrated with an arbitrary transparent panel 2 used for indoor lighting of a space.

JP 2006-340271 A JP 2007-304658 A JP 2009-33716 A

By the way, when installing an antenna, it is often necessary to consider the scenery and the environment, and it is required to make the antenna difficult to see. For this reason, a visible light transmitting antenna that transmits visible light has been developed. If another role different from that of the antenna is integrated with such a visible light transmitting antenna, the utilization of the visible light transmitting antenna is improved.
An object of the present invention is to provide an antenna structure in which an antenna and a light source are combined.

The invention according to claim 1 is provided with a light source that emits visible light and a transparent conductor that transmits visible light on a substrate that transmits visible light, and is provided on a side of the light source that emits visible light. And an antenna that transmits visible light.
The invention according to claim 2 is characterized in that the antenna includes a radiating unit that transmits and receives radio waves and a reflecting unit that reflects the radio waves, and the reflecting unit is located between the light source and the radiating unit. The antenna structure according to claim 1,
The antenna according to claim 1 or 2, wherein the drive circuit for driving the light source is provided at a position further away from the light source when viewed from the antenna. It is a structure.
The invention according to claim 4 is characterized in that the antenna is provided so as to face a surface of a display panel which forms a display by being guided by the light source. An antenna structure according to any one of the preceding claims.
The invention according to claim 5, wherein the antenna is provided so as to be sandwiched between two display panels that form a display by being guided by the light source. Or the antenna structure according to item 1.
The invention according to claim 6, further comprising a housing that covers the light source, wherein the display panel and the antenna are configured to protrude from the housing, and the display panel is configured such that the display panel is replaceable. The antenna structure according to claim 4, wherein the antenna structure is fixed to a body.
The invention according to claim 7 is the antenna structure according to claim 4, wherein a light reflecting member that reflects visible light is provided between the antenna and the display panel.
The invention according to claim 8 is the antenna structure according to claim 4 or 5, wherein a radio wave reflecting member that reflects radio waves is provided between the antenna and the display panel. .
The invention according to claim 9 is the antenna structure according to any one of claims 1 to 3, wherein the light source is configured as a lighting unit for lighting.

According to the first aspect of the present invention, an antenna structure in which an antenna and a light source are fused can be provided.
According to the second aspect of the present invention, the influence of the mutual induction noise generated by the light source on the antenna is suppressed as compared with the case where the reflector is not provided.
According to the third aspect of the present invention, the influence of the mutual induction noise generated in the drive circuit on the antenna is suppressed as compared with the case where the drive circuit is not provided at a remote position.
According to the invention of claim 4, it is possible to provide an antenna structure in which the antenna and the display panel are fused.
According to the invention of claim 5, holding of the antenna is easier than in the case where the number of display panels is one.
According to the invention of claim 6, it is possible to easily change the use as compared with the case where the display panel is not replaceable.
According to the seventh aspect of the invention, the directivity of light of the display panel can be easily controlled as compared with the case where the light reflecting member is not provided.
According to the eighth aspect of the present invention, the directivity of a radio wave of an antenna can be easily controlled as compared with a case where no radio wave reflection member is provided.
According to the ninth aspect of the present invention, it is possible to provide an antenna structure in which an antenna and lighting are combined.

It is a perspective view of an example of the antenna structure to which a 1st embodiment is applied. It is the perspective view which decomposed | disassembled and showed the antenna structure. FIG. 3 is a diagram illustrating details of an antenna unit. FIG. 4 is a diagram illustrating an antenna structure that is a modification of the antenna structure to which the first embodiment is applied. FIG. 4 is a diagram illustrating an antenna structure that is a modification of the antenna structure to which the first embodiment is applied. It is a perspective view of an example of the antenna structure to which a 2nd embodiment is applied.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[First Embodiment]
In the first embodiment, as an example of the antenna structure, a visible light transmitting antenna (an antenna unit 10 (antenna 11) described later) displays a display device by irradiating light from a light source (described later). (Integrally configured) with the display unit 20).

  FIG. 1 is a perspective view of an example of an antenna structure 1 to which the first embodiment is applied. FIG. 2 is an exploded perspective view of the antenna structure 1. The antenna structure 1 will be described with reference to FIGS. As shown, the left side of the figure is the left side, the right side is the right side, the upper side is the upper side, and the lower side is the lower side. The same applies to other figures. Note that the left, right, up, and down are for convenience of description, and the up, down, left, and right may be oriented in other directions such as reversed.

  The antenna structure 1 includes an antenna unit 10, a display unit 20 provided to sandwich the antenna unit 10, a light source unit 30 that emits visible light to the display unit 20, and propagates a signal from or to the antenna unit 10. A housing 50 is provided to cover the signal transmission unit 40, the light source unit 30, and the like, and to facilitate attachment to equipment. Here, the equipment is a target to which the antenna structure 1 is attached, and is, for example, a roof, a ceiling, inner and outer wall surfaces, and a floor surface of a building. Further, it may be a pole such as a telephone pole provided on a street, a traffic sign, a guide sign, or the like.

  The antenna section 10 is formed of a transparent member that transmits visible light, as described later with reference to FIG. The antenna unit 10 is provided with two antennas 11 as an example, and corresponds to a MIMO (multiple-input and multiple-output) system in which a plurality of antennas 11 are combined to increase transmission / reception throughput.

The display unit 20 includes two light guide display panels 21 and 22. The antenna unit 10 is sandwiched between the two display panels 21 and 22.
The display panels 21 and 22 are of a light guide type, and guide visible light emitted from the light source unit 30. Then, on the display panel 21, a display such as a character or a figure made of a scatterer is formed so as to appear shining by scattering the guided light. Here, as an example, as shown in black in FIGS. 1 and 2, “ABC company” is displayed on the display panel 21, and a frame is displayed on the display panel 22.

  Although the display panels 21 and 22 are made of a transparent member that transmits visible light, the display made of a scatterer is configured to scatter light so that it looks (is visible). For example, the display panels 21 and 22 are made of a material having high light transmittance and transmitting visible light, such as glass having high transmittance of visible light, and resin such as acrylic and polyethylene terephthalate (PET). I have.

  The scatterer may be any as long as it scatters light transmitted through the display panels 21 and 22. For example, fine irregularities formed by roughening the surface of the display panel 21 by sandblasting, etching, or the like may be used. Further, fine particles attached to the surfaces of the display panels 21 and 22 may be used.

  Here, two display panels 21 and 22 are used, but one display panel may be used. In this case, the antenna unit 10 is arranged so as to face the display panel.

The light source unit 30 includes a light source 31 and a driving circuit 32 that drives the light source 31. The light source unit 30 includes a power supply line that supplies power to the drive circuit 32, but the description is omitted.
Here, the light source 31 is configured by arranging a plurality of light emitting diodes (LEDs) in a row on a circuit board. The light emitting side of the LED faces the end faces of the display panels 21 and 22 (the lower end face in FIG. 2). As a result, light emitted by the LED of the light source 31 (light emitted by the light source 31) is guided to the display panels 21 and 22 from the end surfaces of the light guide type display panels 21 and 22. At this time, the light emitted from the light source 31 is also guided from the end face (the lower end face in FIG. 2) of the antenna section 10 to the antenna section 10 together with the display panels 21 and 22. However, since the antenna unit 10 is configured so as not to scatter visible light, it transmits visible light and is difficult to see.

  The drive circuit 32 converts (rectifies) alternating current supplied from the power supply line into direct current for driving the light source 31 and supplies the direct current to the plurality of LEDs to cause the plurality of LEDs of the light source 31 to emit light (emit light). ). The drive circuit 32 is provided on the side opposite to the antenna unit 10 and the display unit 20 with respect to the light source 31 so as not to block light emitted by the light source 31 from going to the display unit 20.

  The signal propagation unit 40 includes two cables 41 and a connection board 42 for propagating a signal transmitted by the two antennas 11 of the antenna unit 10 and a signal received by the antenna 11. The cable 41 is, for example, a coaxial cable.

  The housing 50 is configured by assembling two members (a left housing 51 and a right housing 52). The left housing 51 and the right housing 52 are fixed with screws. The housing 50 is made of a resin or a metal plate that is opaque to visible light. For example, a resin mold such as PVC can be used. The housing 50 makes the connection portion between the antenna unit 10 and the cable 41 and the light source unit 30 invisible, and the left housing 51 and the right housing 52 sandwich and hold the antenna unit 10 and the display panels 21 and 22. By disassembling the housing 50 into a left housing 51 and a right housing 52, the display panels 21 and 22 can be easily taken out. In a state where the antenna structure 1 is installed, the display panels 21 and 22 can be easily replaced.

That is, the display panels 21 and 22 are made of a material having a high light transmittance that transmits visible light, but it is only necessary that the display panels 21 and 22 be configured to scatter light such as characters and figures. In addition to the company name, the name of a department or a meeting room may be displayed as the character. In addition, the figure may display a company logo, an evacuation guide, a guide sign for guiding a person such as a toilet, or the like. Since the display unit 20 is of a light-emitting type, it is easily noticeable. Further, since the display panels 21 and 22 can be easily replaced, the convenience is high when the antenna structure 1 is used for changing a company name or a logo, an event site, or the like. That is, it is preferable that the display panels 21 and 22 and the antenna unit 10 are formed separately.
Such an antenna structure 1 can be used as a WiFi spot (access point).

  FIG. 3 is a diagram illustrating details of the antenna unit 10. The light source 31 of the light source unit 30 is also shown. In addition, the antenna part 10 has shown the state which looked at the antenna part 10 of FIG. 1, FIG. 2 from the right side.

  The antenna unit 10 can be configured as a film antenna, and is based on a film 12 made of a transparent resin material having high light transmittance and transmitting visible light, and the film 12 has a high light transmittance. The antenna 11 in which the material of the conductive material (transparent conductor) is selected so that the conductive material is arranged so as to increase the light transmittance. That is, the antenna unit 10 is configured as a visible light transmitting antenna in which the antenna 11 and the film 12 hardly scatter light. For this reason, the antenna 11 includes, for example, a radiating unit 11a that shares two frequencies, for example, an 800 MHz band and a 2.1 GHz band, and a reflecting unit 11b that functions as a reflector that reflects radio waves. The reflector 11b may be connected to ground (GND), which is a reference potential.

  The cable 41 is connected to the connection board 42. Then, by fixing the film 12 and the connection substrate 42 with bolts and nuts, the ends of the radiating portion 11a and the reflection portion 11b of the antenna 11 are pressed against the connection substrate 42. As a result, the radiating portion 11a of the antenna 11 is connected to the inner conductor of the cable 41 which is a coaxial cable, and the reflecting portion 11b is connected to the outer conductor of the cable 41. As shown in FIGS. 1 and 2, the two antennas 11 are connected to different cables 41, respectively.

  And the reflection part 11b is provided between the light source 31 and the radiation part 11a. With this configuration, intermodulation (IM) noise generated by the light source 31 and the drive circuit 32 is reflected, and is prevented from reaching the radiation unit 11a. The IM noise is caused by non-linearity of the LED of the light source 31 and the semiconductor element of the drive circuit 32. That is, the reflector 11b functions as a shield against IM noise.

For the film 12, for example, PET resin or the like can be used. The antenna 11 may be made of indium tin oxide (ITO), zinc oxide (Zinc oxide), tin oxide (SnO ₂ ), a titanium dioxide transparent conductor, or the like.

In the antenna structure 1, the radio wave radiated from the antenna unit 10 passes through the display unit 20 (display panels 21 and 22) and propagates in the left and right directions as indicated by arrows. In addition, a radio wave transmitted through the display unit 20 (display panels 21 and 22) from the left and right directions and propagated to the antenna unit 10 is received by the antenna unit 10.
Further, the light scattered by the display constituted by the scatterers of the display unit 20 also passes through the antenna unit 10 and travels in the left-right direction as indicated by the arrow. That is, the characters “ABC company” on the display panel 21 and the frame of the display panel 22 are visible from the left and right sides of the display unit 20.

  Since the antenna structure 1 appears as a display device, it is difficult to recognize that the antenna unit 10 is provided. That is, the antenna can be designed in consideration of the landscape and the environment. By doing so, the utilization of the antenna unit 10 (antenna 11), which is a visible light transmitting antenna, is improved.

Note that the antenna section 10 can be provided inside the housing 50. However, when the antenna section 10 is provided inside the housing 50, the radiating section 11a of the antenna section 10 is provided below the light source 31 so that transmission and reception can be performed. It is affected by the IM noise generated by the light source 31. In addition, transmission and reception of the antenna unit 10 are easily affected by attenuation by the housing 50 and the like. Then, it becomes difficult to form the casing 50 from metal or to provide a metal foil on the surface of the resin member to shield the casing. That is, by providing the antenna unit 10 outside the housing 50 as in the case of the display unit 20, transmission and reception of radio waves becomes easy.
In addition, since the visible light transmitting antenna is used as the antenna unit 10 (antenna 11), the antenna unit 10 (an antenna 11) is prevented from being shadowed by the emission of light from the display unit 20.

  That is, by providing the antenna unit 10 together with the display unit 20 outside the housing 50, the antenna unit 10 is not affected by the housing 50. Further, by providing the radiation section 11a of the antenna section 10 with the reflection section 11b interposed between the light source 31 and the drive circuit 32, the radiation section 11a is less affected by the IM noise generated by the light source 31 and the drive circuit 32.

Hereinafter, a modified example of the first embodiment will be described.
(Modification 1)
FIG. 4 is a diagram showing an antenna structure 2 which is a modification 1 of the antenna structure 1 to which the first embodiment is applied.
In the antenna structure 2, a visible light reflecting sheet 60 as an example of a light reflecting member is provided between the antenna panel 10 and the display panel 21 of the display unit 20 in the antenna structure 1. The visible light reflecting sheet 60 is a sheet that reflects visible light (total light reflection) but transmits radio waves. The visible light reflecting sheet 60 is, for example, a sheet that causes diffuse reflection. The surface is provided with irregularities by embossing and mixed with a white filler. Titanium oxide or the like can be used as the white filler.

By doing so, the light from the display panel 21 travels only to the left, and the display on the display panel 21 (here, “ABC company”) is visible only from the left. On the other hand, the light from the display panel 22 travels only to the right, and the display (the frame here) on the display panel 22 is visually recognized only from the right side. However, the radio waves radiated from the antenna unit 10 pass through the display unit 20 (display panels 21 and 22) and propagate in the left and right directions as indicated by arrows. In addition, a radio wave transmitted through the display unit 20 (display panels 21 and 22) from the left and right directions and propagated to the antenna unit 10 is received by the antenna unit 10. That is, the directivity of light from the display unit 20 can be controlled.
Further, different displays can be provided on the display panel 21 and the display panel 22.

(Modification 2)
FIG. 5 is a diagram illustrating an antenna structure 3 that is a modification 2 of the antenna structure 1 to which the first embodiment is applied.
In the antenna structure 3, the antenna structure 1 includes a radio wave reflection sheet 70 as an example of a radio wave reflection member between the display panel 21 of the display unit 20 and the antenna unit 10. The radio wave reflection sheet 70 reflects radio waves and suppresses transmission of the radio waves. However, the radio wave reflection sheet 70 transmits visible light. The entire surface of the radio wave reflection sheet 70 is made of a transparent conductor that transmits visible light, for example, like the antenna 11 in the antenna unit 10. Therefore, the radio wave reflection sheet 70 reflects radio waves but transmits light. The radio wave reflection sheet 70 may or may not be connected to ground (GND), which is a reference potential.

In this way, the light from the display panels 21 and 22 travels in the left-right direction, and the display on the display panel 21 (here, “ABC company”) and the display on the display panel 22 (here, the frame) It can be seen from the left and right sides. However, the radio wave radiated from the antenna unit 10 propagates only to the right as shown by the arrow. The radio wave propagating to the antenna unit 10 is received by the antenna unit 10 only from the right. That is, the directivity of the radio wave to the antenna unit 10 can be controlled.
Therefore, transmission and reception of radio waves can be limited to a predetermined direction. For example, transmission and reception of radio waves can be performed with one of two adjacent areas, and transmission and reception of radio waves can not be performed with the other. The display on the display unit 20 can be visually recognized from both areas.

  Note that Modification 1 and Modification 2 may be used together.

[Second embodiment]
In the antenna structure 1 of the first embodiment, the antenna unit 10 (antenna 11) (visible light transmitting antenna) and the display unit 20 (display device) are integrated (integrated). In the antenna structure 4 according to the second embodiment, the antenna unit 10 (antenna 11) (visible light transmitting antenna) and the lighting device (the lighting unit 80 described later) are integrated (composed integrally).

FIG. 6 is a perspective view of an example of the antenna structure 4 to which the second embodiment is applied. The upper side in FIG. 6 is the upper side, and the lower side is the lower side.
The antenna structure 4 includes an antenna unit 10 and a lighting unit 80. The lighting unit 80 includes a light source 81, an upper cover 82 covering the upper side of the light source 81, a lower cover 83 covering the lower side, and an arm 84 for fixing the light source 81 to equipment. That is, the antenna structure 4 is provided as a street light, for example.

  The antenna unit 10 is similar to the first embodiment, and is configured as a visible light transmitting antenna. Here, too, two antennas 11 are provided. The antenna 11 includes a radiation section 11a and a reflection section 11b.

The light source 81 of the illumination unit 80 is configured by arranging LEDs in a lattice. Then, the LED emits visible light downward. Although not shown, a drive circuit for driving the light source 81 is provided inside (upper side) the light source 81.
The upper cover 82 and the arm 84 are formed of an opaque member that does not transmit visible light. The opaque member is, for example, metal, ABS resin, PVC resin, or the like. On the other hand, the lower cover 83 is formed of a transparent member that transmits visible light. The transparent member is acrylic, PET, or the like. The lower cover 83 does not cover the lower side of the light source 81 and may be provided around or part of the periphery of the upper cover 82. In the arm 84, a power supply line for supplying power to the drive circuit is embedded.

  The antenna section 10 is provided so as to face the surface of the lower cover 83. That is, since the antenna unit 10 is a visible light transmitting antenna, it is difficult to see even if it is provided on the transparent lower cover 83 that transmits visible light. That is, the antenna unit 10 (antenna 11), which is a visible light transmitting antenna, is provided on the side of light emitted from the light source 81. Since the reflector 11b of the antenna 11 in the antenna unit 10 is provided between the light source 81 and the drive circuit and the radiator 11a of the antenna 11, it reflects the IM noise generated from the light source 81 and / or the drive circuit. And acts as a shield. Therefore, it is possible to prevent the IM noise from being mixed into the radiating portion 11a of the antenna 11. The drive circuit may be provided outside the upper cover 82. That is, a signal for driving the light source 81 may be supplied to the light source 81 via the arm 84. The antenna unit 10 may be attached to the surface of the lower cover 83. By doing so, the utilization of the antenna unit 10 (antenna 11), which is a visible light transmitting antenna, is improved.

  It is conceivable that the antenna unit 10 is provided in the upper cover 82. However, by providing the antenna unit 10 outside the upper cover 82, the antenna unit 10 is not affected by the upper cover 82.

  People gather in places with lights, such as street lights. Therefore, when the antenna unit 10 (antenna 11) is provided in a street light or the like to form a WIFI spot (access point), convenience is improved. In particular, since street lamps are made of metal, it is necessary to install an antenna at a portion exposed from a metal portion. Therefore, by making the antenna portion 10 (antenna 11) a visible light transmitting antenna, the antenna portion 10 (antenna 11) can be easily installed in a portion exposed from the metal portion.

  Note that the antenna structure 4 to which the second embodiment is applied is configured as a lighting device. Here, a street light is used as an example, but another lighting device may be used.

  Although the first and second embodiments have been described above, various modifications may be made without departing from the spirit of the present invention.

1, 2, 3, 4 ... antenna structure, 10 ... antenna part, 11 ... antenna, 11a ... radiation part, 11b ... reflection part, 12 ... film, 20 ... display part, 21, 22 ... display panel, 30 ... light source , 31, 81: Light source, 32: Drive circuit, 40: Signal transmission unit, 41: Cable, 42: Connection board, 50: Housing, 51: Left housing, 52: Right housing, 60: Visible light reflection Sheet, 70: radio wave reflection sheet, 80: lighting unit, 82: upper cover, 83: lower cover, 84: arm

Claims (9)

A light source that emits visible light,
An antenna structure comprising: a transparent conductor that transmits visible light; a visible light transmitting antenna provided on a side of the light source that emits visible light;   The antenna according to claim 1, wherein the antenna includes a radiating unit that transmits and receives radio waves and a reflecting unit that reflects the radio waves, and the reflecting unit is located between the light source and the radiating unit. Structure.   The antenna structure according to claim 1, wherein the drive circuit that drives the light source is provided at a position further away from the light source when viewed from the antenna.   The antenna structure according to any one of claims 1 to 3, wherein the antenna is provided so as to face a surface of a display panel that forms a display by being guided by the light source. body.   4. The antenna structure according to claim 1, wherein the antenna is provided between two display panels that form a display by being guided by the light source. 5. . A housing that covers the light source,
The display panel and the antenna are configured to protrude from the housing,
The antenna structure according to claim 4, wherein the display panel is fixed to the housing so as to be replaceable.   The antenna structure according to claim 4, wherein a light reflecting member that reflects visible light is provided between the antenna and the display panel.   The antenna structure according to claim 4, wherein a radio wave reflecting member that reflects radio waves is provided between the antenna and the display panel.   The antenna structure according to any one of claims 1 to 3, wherein the light source is configured as a lighting unit for lighting.

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