CN101078757A - Rear-vision mirror satellite navigation system - Google Patents

Abstract

The invention relates to a rearview-mirror satellite navigation system. In the rearview-mirror body there are an antenna module for receiving/emitting a satellite signal; satellite signal receiver for processing satellite signal into a satellite navigation data in digital; satellite navigation processor for receiving and processing the satellite navigation data and generating display signal for corresponding satellite navigation information; and flexible display for receiving display signal and display satellite navigation information.

Description

Rear-vision mirror satellite navigation system

[technical field]

The present invention is about a kind of automobile-used satellite navigation system, particularly a kind of Back mirror type satellite navigation system.

[background technology]

In recent years along with the development of communications industry, a kind of satellite navigation system is owing to have advantages such as pin-point accuracy and high communication quality, generally be used in automobile or tour in the field or the like, by the electronic chart that stores in advance, driver or user can know the present geographic location of understanding information, solve much because of not understanding caused puzzlement in geographical environment position and problem, so become one of aid indispensable in people's life gradually.

All be equipped with satellite navigation system on the vehicle of present part, the information that the driver only needs navigational system via satellite to provide can be understood present position and traffic, promotes its use and operation ease greatly.

But for automobile that is not equipped with satellite navigation system or motorcycle, the driver need buy Satellite Navigation Set voluntarily and be installed on the vehicle, yet when installing Satellite Navigation Set additional, need possess on the vehicle has basic configuration space, with the installing Satellite Navigation Set, after so most driver sets up Satellite Navigation Set in the mode of external circuit earlier, consider how Satellite Navigation Set and vehicle to be combined together again, the process of this kind mounting means bothers very much, consuming time and difficult fixing.

Therefore, how to provide a kind of and be easy to satellite navigation system by dress and installing fast, when installing satellite navigation system additional to solve vehicle, the problem that need look for configuration space in addition becomes one of researchist's problem to be solved.

[summary of the invention]

In view of above problem, fundamental purpose of the present invention is to provide a kind of rear-vision mirror satellite navigation system, by vehicle rear-view mirror and satellite navigation system are done an integration, on the vehicle that is not equipped with satellite navigation system, convenience is installed so as to promoting with Fast Installation.

Therefore, for reaching above-mentioned purpose, the disclosed rear-vision mirror satellite navigation system of the present invention includes in the body of backsight mirror: Anneta module, satellite-signal transceiver, satellite navigation processor and bendable escope.

Anneta module, in order to the reception and the signal of launching an artificial satellite, and the type of Anneta module includes helical antenna and chip aerial.

The satellite-signal transceiver carries out digitized processing in order to the satellite-signal that Anneta module is received, to produce satellite navigation data.

Satellite navigation processor, in order to satellite navigation data is handled and computing, to carry out the location positioning program, and the relevant application program of execution, to produce and to provide the satellite navigation information service, wherein the satellite-signal transceiver with serial transmission mode transmitting satellite navigation data to satellite navigation processor.

Bendable escope, in order to the image data and the signal that receive corresponding satellite navigation information, in order to display of satellite navigation information, and bendable escope is formed by bendable LCD screen (FPD).

In addition, for reaching above-mentioned purpose, the disclosed rear-vision mirror satellite navigation system of the present invention includes: Anneta module, satellite-signal transceiver, satellite navigation processor, bendable escope and speed of vehicle detector.

Anneta module, in order to the reception and the signal of launching an artificial satellite, and the type of Anneta module includes helical antenna and chip aerial.

The satellite-signal transceiver carries out digitized processing in order to the satellite-signal that Anneta module is received, to produce satellite navigation data.

Satellite navigation processor in order to satellite navigation data is handled and computing, and produces the image data and the signal of corresponding satellite navigation information, wherein the satellite-signal transceiver with serial transmission mode transmitting satellite navigation data to satellite navigation processor.

Bendable escope, in order to the image data and the signal that receive corresponding satellite navigation information, in order to display of satellite navigation information, and bendable escope is formed by bendable LCD screen (FPD).

Speed of vehicle detector in order to detecting vehicle gait of march value, and is sent to vehicle gait of march value that satellite navigation processor is handled and computing, to start or to close bendable escope display of satellite navigation information.

By this rear-vision mirror satellite navigation system, by vehicle rear-view mirror and satellite navigation system are done an integration, start satellite navigation system simultaneously in vehicle startup, so that being provided, the driver browses satellite navigation information more easily, so as to promoting convenience is installed.

Relevant characteristics and implementation of the present invention cooperate diagram to be described in detail as follows as most preferred embodiment now.

[description of drawings]

Fig. 1 is the system block diagrams of first embodiment that the present invention put forward.

Fig. 2 is the system block diagrams of second embodiment that the present invention put forward.

[embodiment]

Please refer to Fig. 1, be the system block diagrams of the first embodiment of the present invention, body of backsight mirror 50 includes: Anneta module 10, satellite-signal transceiver 11, satellite navigation processor 12 and bendable escope 13.

Body of backsight mirror 50, more comprise by housing (not shown) and mirror (not shown) that body constitutes, and housing and mirror body form an accommodation space, circuit member in order to ccontaining satellite navigation system, wherein the mirror body has mezzanine space, in order to the display (being bendable escope 13) that satellite navigation system is set.

Anneta module 10, in order to receive and to launch an artificial satellite signal, so that being provided, further handles satellite-signal transceiver 11, and the type of Anneta module 10 includes helical antenna (Helical antenna) and chip aerial (Patch antenna), have different radiation field shape and yield value respectively, can select type of service according to design requirement.

Satellite-signal transceiver 11 is connected with Anneta module 10, and by signal reception/emission treatment circuit (not shown), the satellite-signal that Anneta module 10 is received carries out digitized processing, to produce satellite navigation data.

Satellite navigation processor 12, be connected with satellite-signal transceiver 11, satellite navigation data is handled and the computing operation, and produce the image data and the signal of corresponding satellite navigation information, and satellite navigation processor 12 is more carried out the location positioning program and is carried out relevant application program, so as to producing and provide the satellite navigation information service, example, planning travelling line, electronic chart guide to visitors or navigation route guiding or the like, wherein satellite-signal transceiver 11 with serial transmission mode (example, asynchronous serial transmission UART) transmitting satellite navigation data to satellite navigation processor 12.

Bendable escope 13, be connected with satellite navigation processor 12 by data bus 12a (Data Bus), receive the image data or the signal of corresponding satellite navigation information, in order to display of satellite navigation information, and bendable escope 13 is bendable LCD screen (Flexible Plastic Display, FPD) form, wherein bendable LCD screen is owing to adopt plastic base, has flexible with day and night all visual characteristic, and its ulking thickness only near general paper thickness, can be arranged in the mezzanine space of mirror body.

Please refer to Fig. 2, be the system block diagrams of the second embodiment of the present invention, body of backsight mirror 50 includes: Anneta module 10, satellite-signal transceiver 11, satellite navigation processor 12, bendable escope 13 and speed of vehicle detector 14.

Body of backsight mirror 50, more comprise by housing (not shown) and mirror (not shown) that body constitutes, and housing and mirror body form an accommodation space, circuit member in order to ccontaining satellite navigation system, wherein the mirror body has mezzanine space, in order to the display (being bendable escope 13) that satellite navigation system is set.

Anneta module 10, in order to receive and to launch an artificial satellite signal, further handle so that satellite-signal transceiver 11 to be provided, and the type of Anneta module 10 includes helical antenna and chip aerial, have different radiation field shape and yield value respectively, can select type of service according to design requirement.

Satellite-signal transceiver 11 is connected with Anneta module 10, and by signal reception/emission treatment circuit (not shown), the satellite-signal that Anneta module 10 is received carries out digitized processing, to produce satellite navigation data.

Satellite navigation processor 12, be connected with satellite-signal transceiver 11, satellite navigation data is handled and the computing operation, and produce the image data and the signal of corresponding satellite navigation information, and satellite navigation processor 12 is more carried out the location positioning program and is carried out relevant application program, so as to producing and provide the satellite navigation information service, example, planning travelling line, electronic chart guide to visitors or navigation route guiding or the like, wherein satellite-signal transceiver 11 with serial transmission mode (example, asynchronous serial transmission UART) transmitting satellite navigation data to satellite navigation processor 12.

Bendable escope 13, be connected with satellite navigation processor 12 by data bus 12a (Data Bus), receive the image data or the signal of corresponding satellite navigation information, in order to display of satellite navigation information, and bendable escope 13 is formed by bendable LCD screen (FPD), and wherein bendable LCD screen has flexible with day and night all visual characteristic owing to adopt plastic base, and its ulking thickness only near general paper thickness, can be arranged in the mezzanine space of mirror body.

Speed of vehicle detector 14, be connected with satellite navigation processor 12, in order to detect the gait of march of present vehicle, can be by directly obtaining the road speed value of pilot dash board, and this road speed value is sent to satellite navigation processor 12 handles and computing, when the road speed value is lower than a predetermined value, produce a trigger pip to bendable escope 13 by satellite navigation processor 12, and then start bendable escope 13 display of satellite navigation information, when the road speed value is greater than or equal to predetermined value, close bendable escope 13 display of satellite navigation information, so as to guaranteeing that the driver browses satellite navigation information under vehicle halted state or low speed driving state, to promote traffic safety.

By this rear-vision mirror satellite navigation system, allow the driver can excessively reequip vehicle (example, automobile or motorcycle), can enjoy the navigation information service that satellite navigation system provides, to promote convenience is installed.

Claims (12)

1, a kind of rear-vision mirror satellite navigation system is characterized in that, includes:

One body of backsight mirror:

One Anneta module is arranged in this body of backsight mirror, reception/emission one satellite-signal;

One satellite-signal transceiver is arranged in this body of backsight mirror, and this satellite-signal of digitized processing becomes a satellite navigation data;

One satellite navigation processor is arranged in this body of backsight mirror, receives and handle this satellite navigation data, and produces the signal of video signal of a corresponding satellite navigation information; And

One bendable escope is arranged in this body of backsight mirror, receives this signal of video signal, to show this satellite navigation information.

2, rear-vision mirror satellite navigation system as claimed in claim 1 is characterized in that, this Anneta module is a helical antenna.

3, rear-vision mirror satellite navigation system as claimed in claim 1 is characterized in that, this Anneta module is a sheet antenna.

4, rear-vision mirror satellite navigation system as claimed in claim 1 is characterized in that, this satellite-signal transceiver transmits this satellite navigation data to this satellite navigation processor by the defeated mode of biographies.

5, rear-vision mirror satellite navigation system as claimed in claim 1 is characterized in that, this bendable escope is a bendable LCD screen (FPD).

6, rear-vision mirror satellite navigation system as claimed in claim 1 is characterized in that, this satellite navigation processor is more transmitted this signal of video signal to this bendable escope by a data bus.

7, a kind of rear-vision mirror satellite navigation system is characterized in that, includes:

One body of backsight mirror:

One Anneta module is arranged in this body of backsight mirror, reception/emission one satellite-signal;

One satellite-signal transceiver is arranged in this body of backsight mirror, and this satellite-signal of digitized processing becomes a satellite navigation data;

One satellite navigation processor is arranged in this body of backsight mirror, receives and handle this satellite navigation data, and produces the signal of video signal of a corresponding satellite navigation information;

One bendable escope is arranged in this body of backsight mirror, receives this signal of video signal, to show this satellite navigation information; And

One speed of vehicle detector is arranged in this body of backsight mirror, detects a vehicle gait of march value, and transmits this vehicle gait of march value to this satellite navigation processor and handle and computing, shows this satellite navigation information to start or to close this bendable escope.

8, rear-vision mirror satellite navigation system as claimed in claim 7 is characterized in that, this Anneta module is a helical antenna.

9, rear-vision mirror satellite navigation system as claimed in claim 7 is characterized in that, this Anneta module is a sheet antenna.

10, rear-vision mirror satellite navigation system as claimed in claim 7 is characterized in that, this satellite-signal transceiver transmits this satellite navigation data to this satellite navigation processor by the defeated mode of biographies.

11, rear-vision mirror satellite navigation system as claimed in claim 7 is characterized in that, this bendable escope is a bendable LCD screen (FPD).

12 rear-vision mirror satellite navigation systems as claimed in claim 7 is characterized in that, this satellite navigation processor is more transmitted this signal of video signal to this bendable escope by a data bus.

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