JPH1038991A - Antenna device for vics - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable good information communication with a low antenna device by placing a light receiving part and a light emitting part of a plurality of light beacon information receiving (emitting) photoelectric conversion elements toward a predetermined direction and forming them integrally. SOLUTION: A plurality of light beacon information receiving photoelectric conversion elements 1 and a plurality of light beacon information emitting photoelectric conversion elements 2 are placed on a face which is to be an inclined face when an antenna device is installed. Thus when the antenna device is used, light beacon information output from a direction L of a road beacon communication device is input to a light receiving part with an incident angle corrected by the inclination of the face, while light beacon information output from a light emitting part is output in a direction L of the road beacon communication device with an incident angle corrected by the inclination of the face. Thus when the antenna device is placed on a horizontal face such as a dashboard, communication of light beacon information is possible with the road beacon communication device.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a VICS antenna device used for a car navigation system.

[0002]

2. Description of the Related Art In order to improve road traffic conditions, VIC receives information transmitted from an on-road beacon communication device installed on the roadside to obtain information on intersections, parking lots, traffic jams, etc.
An in-vehicle information communication system called S (Vehicle Information & Communication System) has been put to practical use. In this system, information is output by a plurality of communication media such as an optical beacon and a radio beacon, and a user selects a route by utilizing information of each communication medium. In this way, it is intended to prevent concentration of traffic volume and assist smooth operation to the destination.

This system not only receives common information transmitted from a road beacon communication device, but also
Detailed information can be obtained by transmitting the vehicle ID and the like from the vehicle to the road-side beacon communication device, and is realized by bidirectional communication using an optical beacon.

[0004] Therefore, the car navigation system used in this system uses an antenna device capable of receiving and transmitting information such as optical beacon information and radio wave beacon information, and receives and transmits information to and from a roadside beacon communication device in a vehicle. It is installed on the dashboard near the windshield, which is easy to access, and the display unit that processes and displays the information received by the antenna device and the operation unit operated by the driver are arranged near the driver's seat. Commonly used.

A VICS antenna device for receiving and transmitting optical beacon information includes a photoelectric conversion element for receiving optical beacon information, such as a photodiode, and an infrared light transmitting device, for performing bidirectional communication with a road beacon communication device. An antenna device in which a photoelectric conversion element for emitting light beacon information such as a light emitting LED is integrally formed is used, and a light receiving portion of the photoelectric conversion element for receiving light beacon information and a photoelectric conversion element for emitting light beacon information are used. Is used by disposing the light-emitting portion of the light-emitting portion toward a roadside beacon communication device installed on the roadside.

[0006] In order to obtain stable and good information by reducing the influence of disturbances such as rain, fog, snow and sunlight, it is preferable that the amount of information to be received and transmitted be as large as possible. It is. However, if the size of the optical beacon information receiving photoelectric conversion element or the optical beacon information emitting photoelectric conversion element is increased in order to increase the amount of information to be received and transmitted, the height of the antenna device increases. However, when installed on the dashboard of a car, the driver's view may be obstructed, which poses a safety problem. Therefore, there is a demand for an antenna device that can be installed on a dashboard of a car or the like, and that can transmit good information without increasing the height of the antenna device.

[0007]

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an optical beacon information receiving photoelectric conversion element and an optical beacon information light emitting element. Provided is an antenna device for a VICS which has a photoelectric conversion element and can be installed on a dashboard or the like, and which can obtain good information without increasing the height of the antenna device. It is in.

[0008]

According to a first aspect of the present invention, there is provided a VICS antenna device which is electrically connected to a light receiving portion of a plurality of optical beacon information receiving photoelectric conversion elements which are electrically connected. The light emitting units of the plurality of photoelectric conversion elements for emitting light beacon information are arranged so as to face in a fixed direction, and are integrally formed.

A VICS antenna device according to a second aspect of the present invention is the VICS antenna device according to the first aspect, wherein a plurality of optical beacon information receiving photoelectric conversion elements;
A plurality of optical beacon information emission photoelectric conversion elements are formed in a line.

According to a third aspect of the present invention, there is provided a VICS antenna device according to the first aspect, further comprising: a plurality of optical beacon information receiving photoelectric conversion elements;
A plurality of optical beacon information emission photoelectric conversion elements are formed in a plurality of rows.

A VICS antenna device according to a fourth aspect of the present invention is a VICS antenna device according to any one of the first to third aspects.
In the ICS antenna device, the optical beacon information receiving photoelectric conversion element and the optical beacon information emitting photoelectric conversion element are disposed on a surface that is inclined when the antenna device is installed. While correcting the incident angle of the optical beacon information to the light receiving portion of the photoelectric conversion element for light reception, and correcting the emission angle of the optical beacon information to the light emitting portion of the photoelectric conversion element for light beacon information emission,
It is characterized by being formed so that it can be arranged on a horizontal plane.

According to a fifth aspect of the present invention, there is provided a VICS antenna device according to any one of the first to third aspects.
In the antenna device for ICS, a mirror body is disposed above the light receiving portion of the photoelectric conversion element for receiving optical beacon information and the light emitting portion of the photoelectric conversion element for emitting light beacon information. While correcting the incident angle of the optical beacon information to the light receiving part of the electric conversion element,
The emission angle of the optical beacon information with respect to the light emitting portion of the photoelectric conversion element for emitting optical beacon information is modified so that the optical beacon information can be arranged in a horizontal plane.

According to a sixth aspect of the present invention, there is provided a VICS antenna device according to the fifth aspect, wherein the light receiving portion of the optical beacon information receiving photoelectric conversion element and / or the optical beacon information emitting photoelectric device is provided. It is characterized in that a convex lens is provided between the light emitting part of the conversion element and the mirror body.

According to the present invention, since the plurality of optical beacon information receiving photoelectric conversion elements and the plurality of optical beacon information emitting photoelectric conversion elements are electrically connected to each other, the optical beacon information is received. In such a case, a plurality of optical beacon information receiving photoelectric conversion elements convert the received light into electricity, and then combine them to be used as high-intensity electrical information. In the case of emitting information, after the electrical information for emitting light is divided into respective optical beacon information emitting photoelectric conversion elements, the light beacon information emitting photoelectric conversion element emits light. When optical beacon information arrives at a roadside beacon communication device installed on the roadside, the information is combined and supplemented, and arrives as optical beacon information with high intensity. . Therefore, even when a low-height optical beacon information light-receiving photoelectric conversion element and a low-height optical beacon information light-emitting photoelectric conversion element are used, since the number of these elements is plural, they are combined. It corresponds to high-intensity optical beacon information, and enables good information communication without increasing the height of the antenna device.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A VICS antenna device according to the present invention will be described with reference to the drawings. FIG. 1 shows a V according to the present invention.
It is a figure explaining an important section of a 1st embodiment of an antenna device for ICS, (a) is a perspective view and (b) is a side view. FIGS. 2A and 2B are diagrams illustrating a main part of a second embodiment of a VICS antenna device according to the present invention, wherein FIG. 2A is a perspective view and FIG. 2B is a side view. FIG. 3 shows a VIC according to the present invention.
It is a side view of a 3rd embodiment of an antenna device for S.
FIG. 4 is a side view of a fourth embodiment of the VICS antenna device according to the present invention.

As shown in FIGS. 1 (a) and 1 (b), a first embodiment of a VICS antenna device according to the present invention comprises a plurality of optical beacon information receiving photoelectric conversion elements 1, 1;
.. And a plurality of photoelectric conversion elements 2, 2,... For emitting light beacon information are arranged in a line, and are housed in the case 5 integrally.

The plurality of optical beacon information receiving photoelectric conversion elements 1, 1,... And the plurality of optical beacon information emission photoelectric conversion elements 2, 2,... Are inclined when the antenna device is installed. It is arranged on the surface that becomes. Therefore, when using this antenna device, the incident angle of the optical beacon information output from the direction L of the on-road beacon communication device installed on the road is corrected by the inclination of the inclined surface, and the optical beacon information receiving light The light beacon information output from the light emitting unit of the photoelectric conversion element 2 for emitting light beacon information is input to the light receiving unit of the electric conversion element 1 and the emission angle of the light beacon information is corrected by the inclination of the inclined surface. hand,
The signal is output in the direction L of the roadside beacon communication device installed on the roadside. Therefore, when it is arranged on a horizontal surface such as on a dashboard, communication of optical beacon information with a road beacon communication device is enabled.

The surfaces on which the plurality of optical beacon information receiving photoelectric conversion elements 1, 1,... And the plurality of optical beacon information emission photoelectric conversion elements 2, 2,. It is not limited to being disposed on a surface that is to be a surface, and may be disposed on a surface that is divided into a plurality of surfaces as long as the surface is inclined in a certain direction. They may be arranged on different surfaces.

The case 5 of the antenna device includes a portion through which the optical beacon information output from the light emitting section of the photoelectric conversion element 2 for emitting optical beacon information passes, and an optical beacon information output from the road beacon communication device. Is made of a transparent material, and optical beacon information is transmitted in both directions.

The plurality of optical beacon information receiving photoelectric conversion elements 1, 1,... And the plurality of optical beacon information emission photoelectric conversion elements 2, 2,. Therefore, when optical beacon information is received, a plurality of optical beacon information receiving photoelectric conversion elements 1,
After converting the received light into electricity, they are synthesized,
It can be used as high-intensity electrical information. When emitting optical beacon information,
After the electrical information for emitting light is divided into the optical beacon information emitting photoelectric conversion elements 2, 2,..., Light is emitted from the optical beacon information emitting photoelectric conversion elements 2, 2,. When this optical beacon information arrives at a road-side beacon communication device installed on the roadside, the information is combined and supplemented, and arrives as high-intensity optical beacon information.

Therefore, in order to keep the height of the antenna device from becoming high, the optical beacon information receiving photoelectric conversion element 1 having a low height and the optical beacon information emitting photoelectric conversion element 2 having a low height are used. Even if the number of these elements is plural, the elements are combined and correspond to strong optical beacon information, and good information communication becomes possible without increasing the height of the antenna device.

The antenna device is not limited to a device arranged and used on a horizontal surface such as a dashboard, but may be fixed to an upper portion of a windshield of a car. You may stick and use it. Further, the antenna device is not limited to the one having only the optical beacon information receiving photoelectric conversion element 1 and the optical beacon information emitting photoelectric conversion element 2, but also has a built-in radio beacon information reception antenna and the like. May be.

As shown in FIGS. 2A and 2B, a VICS antenna device according to a second embodiment of the present invention includes a plurality of photoelectric conversion elements 1, 1 for receiving light beacon information.
.. And a plurality of optical beacon information emitting photoelectric conversion elements 2, 2... Are arranged in a plurality of rows, and are housed integrally in the case 5.

The plurality of optical beacon information receiving photoelectric conversion elements 1, 1,... And the plurality of optical beacon information emitting photoelectric conversion elements 2, 2,. It is divided and arranged on a plurality of different surfaces which are inclined surfaces. Therefore, when using this antenna device, the incident angle of the optical beacon information output from the direction L of the on-road beacon communication device installed on the road is corrected by the inclination of the inclined surface, and the optical beacon information receiving light The light beacon information output from the light emitting unit of the photoelectric conversion element 2 for emitting light beacon information is input to the light receiving unit of the electric conversion element 1 and the emission angle of the light beacon information is corrected by the inclination of the inclined surface. Thus, the signal is output in the direction L of the roadside beacon communication device installed on the roadside. Therefore, when it is arranged on a horizontal plane, optical beacon information can be communicated with a road beacon communication device.

The case 5 of the antenna device includes a portion through which the optical beacon information output from the light emitting portion of the photoelectric conversion element 2 for emitting optical beacon information, and an optical beacon information output from the road beacon communication device. Is made of a transparent material, and optical beacon information is transmitted in both directions.

The plurality of optical beacon information receiving photoelectric conversion elements 1, 1,... And the plurality of optical beacon information emission photoelectric conversion elements 2, 2,. Similarly, they are electrically connected. Therefore, as in the case of the first embodiment, a low-height optical beacon information receiving photoelectric conversion element 1 and a low-height optical beacon information emission photoelectric conversion element 2 are used. However, since the number of these elements is plural, they correspond to optical beacon information having high intensity, and good information communication becomes possible without increasing the height of the antenna device.
Since a plurality of rows of the photoelectric conversion element 1 for receiving light beacon information and the photoelectric conversion element 2 for emitting light beacon information are arranged in a plurality of rows, the light beacon information is disposed in a place where a limited width can be installed, such as on a dashboard. Even in this case, it is possible to arrange a large number of photoelectric conversion elements 1 for receiving light beacon information and photoelectric conversion elements 2 for emitting light beacon information, so that communication of strong light beacon information can be reliably performed. Becomes

In a third embodiment of the VICS antenna device according to the present invention, a plurality of optical beacon information receiving photoelectric conversion elements and a plurality of optical beacon information emission photoelectric conversion elements are arranged in a line. This is a VICS antenna device which is installed and integrally housed in a case.

As shown in FIG. 3, a mirror body 3 is arranged above the light receiving portion of the photoelectric conversion element 1 for receiving light beacon information and the light emitting portion of the photoelectric conversion element 2 for emitting light beacon information. When using this antenna device, the direction L of the road beacon communication device installed on the road side
The optical beacon information output from the optical beacon is reflected by the specular body 3 so that the incident angle is corrected and input to the light receiving section of the optical beacon information receiving photoelectric conversion element 1. The optical beacon information output from the light emitting unit of the information emitting photoelectric conversion element 2 is reflected by the mirror 3 so that the emission angle is corrected, and is output in the direction L of the roadside beacon communication device installed on the roadside. It has become. Therefore, when it is arranged on a horizontal plane, optical beacon information can be communicated with a road beacon communication device. The mirror 3 is not limited to the flat mirror 3 and may be a curved surface.

In the case of this antenna device, even if the optical beacon information receiving photoelectric conversion element 1 and the optical beacon information emission photoelectric conversion element 2 are arranged at arbitrary positions in the antenna device, the mirror body 3 can be used. The angle of incidence and the angle of emission can be corrected, and the design flexibility of the antenna device is improved, which is preferable.

The case 5 of the antenna device includes a portion through which the optical beacon information output from the light emitting unit of the photoelectric conversion element 2 for emitting optical beacon information is reflected by the mirror 3 and passed therethrough, and a road beacon communication device. The part where the optical beacon information output from the optical system enters the mirror 3 is made of a transparent material, and the optical beacon information is transmitted in both directions.

In a fourth embodiment of the VICS antenna apparatus according to the present invention, a plurality of optical beacon information receiving photoelectric conversion elements and a plurality of optical beacon information emission photoelectric conversion elements are arranged in a line. This is a VICS antenna device which is installed and integrally housed in a case.

As shown in FIG. 4, a mirror body 3 is disposed above the light receiving section of the optical beacon information receiving photoelectric conversion element 1 and the light emitting section of the optical beacon information emitting photoelectric conversion element 2. Further, a convex lens 4 is arranged between the light receiving portion of the optical beacon information receiving photoelectric conversion element 1 and the light emitting portion of the optical beacon information emitting photoelectric conversion element 2 and the mirror 3. . When this antenna device is used, the optical beacon information output from the direction L of the road beacon communication device installed on the road side is reflected by the mirror 3 so that the incident angle is corrected, and then the convex lens 4
The optical beacon information receiving optical-electrical conversion element 1 is corrected in the central axis direction of the light-receiving section of the optical beacon information receiving optical-electrical conversion element 1 and is input to the light receiving section of the optical beacon information receiving optical-electrical conversion element 1. The optical beacon information output from the light emitting part of the photoelectric conversion element 2 for light is corrected by the convex lens 4 in the direction of the central axis of the light emitting part of the photoelectric conversion element 2 for light beacon information emission by the convex lens 4 to increase the intensity. After the height is raised, the light is further reflected by the mirror body 3 so that the emission angle is corrected and output in the direction L of the roadside beacon communication device installed on the roadside. Therefore, when placed on a horizontal surface,
Optical beacon information can be communicated with a road beacon communication device. Therefore, even if the surface on which the antenna device is installed is inclined, the path through which the optical beacon information passes is corrected by the convex lens 4, so that stable reception is possible, which is preferable.

A portion of the case 5 of the antenna device, through which the optical beacon information output from the light emitting portion of the photoelectric conversion element 2 for emitting optical beacon information is reflected and reflected by the mirror 3, and a road beacon communication device The part where the optical beacon information output from the optical system enters the mirror 3 is formed of a transparent material, so that the optical beacon information is transmitted in both directions.

The convex lens 4 is provided between the light receiving section of the optical beacon information receiving photoelectric conversion element 1 and the mirror 3 and between the light emitting section of the optical beacon information emitting photoelectric conversion element 2 and the mirror 3.
However, the area of the light receiving section of the optical beacon information receiving photoelectric conversion element 1 is generally larger than the area of the light emitting section of the optical beacon information emitting photoelectric conversion element 2. Therefore, only between the light emitting part of the photoelectric conversion element 2 for emitting light beacon information and the mirror body 3 having a small area,
The convex lens 4 may be provided.

[0035]

According to the antenna device for VICS of the present invention, a plurality of photoelectric conversion elements for receiving light beacon information and a plurality of photoelectric conversion elements for emitting light beacon information are electrically connected. Even when a low-height optical beacon information light-receiving photoelectric conversion element and a low-height optical beacon information light-emitting photoelectric conversion element are used, since the number of these elements is plural, the combined , And good communication of information can be performed without increasing the height of the antenna device.

[Brief description of the drawings]

FIGS. 1A and 1B are diagrams illustrating a main part of a first embodiment of a VICS antenna device according to the present invention, wherein FIG. 1A is a perspective view and FIG. 1B is a side view.

FIGS. 2A and 2B are diagrams illustrating a main part of a second embodiment of a VICS antenna device according to the present invention, wherein FIG. 2A is a perspective view and FIG. 2B is a side view.

FIG. 3 is a side view of a third embodiment of a VICS antenna device according to the present invention.

FIG. 4 is a side view of a VICS antenna device according to a fourth embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Optical beacon information receiving photoelectric conversion element 2 Optical beacon information emitting photoelectric conversion element 3 Mirror surface 4 Convex lens 5 Case L Direction of road beacon communication device

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code Agency reference number FI Technical display location // G01C 21/00 (72) Inventor Koji Yamamoto 1048 Odakadoma, Kadoma City, Osaka Matsushita Electric Works, Ltd. In company

Claims (6)

[Claims] 1. A light-receiving section of a plurality of electrically connected optical beacon information receiving photoelectric conversion elements (1), and a plurality of electrically connected optical beacon information emitting photoelectric conversion elements (2). The VICS antenna device, wherein the light emitting units are arranged in a certain direction and are integrally formed. 2. A plurality of photoelectric conversion elements for receiving optical beacon information (1) and a plurality of photoelectric conversion elements for emitting optical beacon information (2) are formed in a line. The VICS antenna device according to claim 1. 3. A plurality of optical beacon information receiving photoelectric conversion elements (1) and a plurality of optical beacon information emitting photoelectric conversion elements (2) are formed in a plurality of rows. Item 4. The VICS antenna device according to Item 1. 4. A photoelectric conversion element for receiving optical beacon information (1) and a photoelectric conversion element for emitting optical beacon information (2).
Is arranged on a surface that is inclined when the antenna device is installed, thereby correcting the incident angle of the optical beacon information with respect to the light receiving section of the photoelectric conversion element (1) for receiving optical beacon information, and 4. The optical beacon information emitting photoelectric conversion element (2), wherein an emission angle of the optical beacon information with respect to a light emitting unit of the photoelectric conversion element (2) is modified so as to be arranged on a horizontal plane. VICS
Antenna device. 5. A mirror body (3) is provided above the light receiving portion of the optical beacon information receiving photoelectric conversion element (1) and the light emitting section of the optical beacon information emitting photoelectric conversion element (2). The photoelectric conversion element for receiving optical beacon information (1)
Correcting the angle of incidence of the optical beacon information on the light receiving unit of the optical beacon, and emitting the optical beacon information
Correct the emission angle of the optical beacon information for the light emitting part of
The VICS antenna device according to any one of claims 1 to 3, wherein the VICS antenna device is formed so as to be arranged on a horizontal plane. 6. A convex lens (3) between the light receiving portion of the optical beacon information receiving photoelectric conversion element (1) and / or the light emitting portion of the optical beacon information emitting photoelectric conversion element (2) and the mirror body (3). 6. The VICS antenna device according to claim 5, wherein (4) is provided.