CN209991992U - Vehicle-mounted intelligent navigation device - Google Patents

Abstract

The utility model discloses a vehicle-mounted intelligent navigation device, which comprises a mobile terminal, a background server, a vehicle-mounted navigation module, a positioning module and a vehicle body; people set a destination to be reached through the mobile terminal, and then set destination information is sent to the background server, and the background server automatically stores the destination. After the vehicle is started, the background server can obtain a feedback signal of vehicle starting, so that the background server sends the stored destination information to a vehicle-mounted navigation module of the vehicle, and then the vehicle-mounted navigation module automatically plans one or more lines meeting the conditions and displays the lines on a screen of vehicle-mounted navigation, and a driver can conveniently select a reasonable line to drive according to the plan. And the preset destination information is directly pushed through the background server, so that people can obtain the route planning information when the vehicle is started, the problem of complicated route query on the vehicle is avoided, and the traveling efficiency of people is improved.

Description

Vehicle-mounted intelligent navigation device

Technical Field

The utility model relates to an automotive filed especially relates to an on-vehicle intelligent navigation head.

Background

The existing traditional automobile navigation has the function of a Global Positioning System (GPS), and a driver can automatically calculate the most appropriate route according to an electronic map as long as inputting a destination into an automobile navigation system, and remind a driver to drive according to the calculated route in the driving process of a vehicle. And the navigation of the traditional automobile needs to be reset once in one place, and a calendar type travel arrangement cannot be formed.

SUMMERY OF THE UTILITY MODEL

Therefore, a vehicle-mounted intelligent navigation device is needed to be provided for solving the problem that the existing vehicle navigation is complicated in the inquiry process at different places, so that the vehicle is inconvenient to go out.

In order to achieve the purpose, the inventor provides a vehicle-mounted intelligent navigation device, which comprises a mobile terminal, a background server, a vehicle-mounted navigation module, a positioning module and a vehicle body; the vehicle-mounted navigation system comprises a vehicle body, a positioning module, a vehicle-mounted navigation module, a background server, a mobile terminal, a vehicle-mounted navigation module and a background server, wherein the positioning module is arranged on an instrument panel frame of the vehicle body, the vehicle-mounted navigation module is arranged on the instrument panel frame of the vehicle body, the vehicle-mounted navigation module is positioned on one side of the positioning module, the mobile terminal is in wireless communication connection with the background server, the positioning module is in communication connection with the vehicle.

Further, the system also comprises a vehicle-mounted T-BOX; the vehicle-mounted T-BOX is arranged on an instrument panel frame of the vehicle body, and the vehicle-mounted T-BOX is in communication connection with the vehicle-mounted navigation module.

The vehicle-mounted navigation module is characterized by further comprising an entertainment large screen, wherein the entertainment large screen is arranged on the outer side surface of the instrument panel frame of the vehicle body, and the entertainment large screen is electrically connected with the vehicle-mounted navigation module.

Further, the entertainment large screen is a touch screen.

Different from the prior art, in the technical scheme, people set the destination to be reached through the mobile terminal, and then send the set destination information to the background server, and the background server automatically stores the destination. After the vehicle is started, the background server can obtain a feedback signal of vehicle starting, so that the background server sends the stored destination information to a vehicle-mounted navigation module of the vehicle, and then the vehicle-mounted navigation module automatically plans one or more lines meeting the conditions and displays the lines on a screen of vehicle-mounted navigation, and a driver can conveniently select a reasonable line to drive according to the plan. And the preset destination information is directly pushed through the background server, so that people can obtain the route planning information when the vehicle is started, the problem of complicated route query on the vehicle is avoided, and the traveling efficiency of people is improved.

Drawings

FIG. 1 is a schematic diagram of an onboard intelligent navigation device;

FIG. 2 is a flowchart for implementing the vehicle-mounted intelligent navigation device;

FIG. 3 is a flow chart illustrating an implementation of the vehicle-mounted intelligent navigation device with multiple destinations;

FIG. 4 is a block diagram of an in-vehicle intelligent navigation device embodying the present invention;

fig. 5 is a block diagram of a specific implementation of the vehicle-mounted intelligent navigation device.

Description of reference numerals:

10. a mobile terminal; 20. background server

30. A vehicle-mounted navigation module; 301. a large entertainment screen;

40. an onboard T-BOX;

50. a positioning module; 60. a vehicle body;

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1, the present embodiment provides a vehicle-mounted intelligent navigation device, which includes a mobile terminal 10, a background server 20, a vehicle-mounted navigation module 30, a positioning module 50, a vehicle body 60, a vehicle-mounted T-BOX 40, and an entertainment large screen 301, where the entertainment large screen is a touch screen, and the entertainment large screen may be a polar bean D1S high-speed car distributor and has an IPS (In-Plane Switching) touch screen of 10.2 inches/9 inches. The positioning module can be a GPS (global positioning system), the positioning module is arranged on a dashboard frame of the vehicle body, the vehicle-mounted navigation module is arranged on the dashboard frame of the vehicle body and is positioned on one side of the positioning module, the mobile terminal is in wireless communication connection with the background server, the positioning module is in communication connection with the vehicle-mounted navigation module, the positioning module is in wireless communication connection with the background server, the vehicle-mounted T-BOX is arranged on the dashboard frame of the vehicle body, and the vehicle-mounted T-BOX is in communication connection with the vehicle-mounted navigation module. The entertainment large screen is arranged on the outer side surface of an instrument panel frame of the vehicle body and is electrically connected with the vehicle-mounted navigation module.

For the vehicle-mounted T-BOX capable of deeply reading the vehicle Can bus data and the private protocol, the T-BOX terminal is provided with a dual-core processing OBD (the OBD is an abbreviation of English On-Board Diagnostics, and Chinese is translated into a vehicle-mounted diagnostic system) module and a dual-core processing CPU framework, wherein the CPU Can be an Intel/Intel i7 CPU. The vehicle-mounted navigation module is a vehicle-mounted navigation system which mainly comprises a host, a display screen, an operation keyboard (remote controller) and an antenna. Therefore, the vehicle navigation system can be a GPS navigation system, which is a prior art and will not be described in detail herein.

As shown in fig. 2 and 3, the method comprises the following steps: step S101, the mobile terminal acquires a set destination; s102, the mobile terminal uploads the set destination to a background server, and the background server caches the destination; s103, when the background server detects a vehicle starting signal, pushing a destination to a vehicle-mounted navigation module of the vehicle; and step S104, the vehicle navigation module plans a route according to the received destination and displays the planned route on an entertainment large screen.

The mobile terminal can be a mobile phone, a computer, an iPad, for example: and setting a destination through the APP on the mobile phone. The background server can be a computing device, the vehicle-mounted navigation module can be a navigation system device carried by the vehicle, and the vehicle-mounted navigation module can mutually transmit information with the background server through networks such as 2G, 3G, 4G, WiFi and the like.

Specifically, people set a destination to be reached through the mobile terminal, and then send the set destination information to the background server, and the background server automatically stores the destination. After the vehicle is started, the background server can obtain a feedback signal of vehicle starting, so that the background server sends the stored destination information to the vehicle-mounted navigation module of the vehicle, then the vehicle-mounted navigation module automatically plans one or more lines meeting the conditions and displays the lines on a screen of vehicle-mounted navigation, a driver can conveniently select reasonable lines to drive according to the plan, the fussy navigation setting is reduced, the convenience of people in traveling is reduced, namely, the vehicle does not need to be stopped and the lines are inquired through an electronic map, and the traveling efficiency of people is improved.

In this embodiment, when the background server detects a vehicle start signal, the vehicle navigation module that pushes the destination to the vehicle includes: step S1041, the background server pushes the destination to a vehicle-mounted T-BOX (English name: Telematics BOX), the vehicle-mounted T-BOX converts the destination through an internal protocol and sends the destination to a vehicle-mounted navigation module through a CAN Network, and the CAN is a short name of a Controller Area Network (CAN).

In the embodiment, the communication between the background server and the vehicle-mounted navigation module is realized by using the vehicle-mounted T-BOX of the vehicle and converting the internal protocol of the destination information through the vehicle-mounted T-BOX, so that the information CAN be sent through the CAN network, and the vehicle-mounted navigation module obtains the destination information, thereby realizing the purpose of mutual communication between the background server and the vehicle-mounted navigation module, ensuring the accuracy and stability of information transmission and improving the practicability of the vehicle-mounted intelligent navigation method.

In this embodiment, when the destination is multiple, the method includes the following steps: step S201, the mobile terminal acquires a plurality of set destinations; step S202, the mobile terminal uploads a plurality of set destinations to a background server, and the background server caches the destinations; step S203, when the background server detects a vehicle starting signal, sequentially pushing destinations to vehicle-mounted navigation modules of the vehicle according to the sequence of the destinations; the vehicle-mounted navigation module for sequentially pushing the destination to the vehicle comprises: step S204, after receiving the command of arriving at a destination position, the background server pushes the next vehicle navigation module.

In this embodiment, when the number of destinations is multiple and four destinations are taken as an example, that is, destination one, destination two, destination three, and destination four, the destination one, destination two, destination three, and destination four are sequentially input through the mobile terminal, and the four destinations are uploaded to the backend server through the 4G network and stored by the backend server, and when the vehicle is not started, the four destinations remain cached in the backend server. When the vehicle is started, a starting signal of the vehicle is sent to the background server through the 4G network of the vehicle-mounted T-BOX, when the background server receives the feedback signal, the first destination arranged at the first position is automatically pushed to the vehicle-mounted T-BOX, the vehicle-mounted T-BOX converts the first destination through the internal protocol, and sends the converted signal to the vehicle-mounted navigation module through the CAN network, and the vehicle-mounted navigation module plans a line between the first origin and the first destination of the vehicle and displays the planned line on the entertainment large screen, so that people CAN know the line through the entertainment large screen conveniently.

When the destination is reached, the vehicle-mounted T-BOX uploads the address information to the background server through the GPS network, triggers the background server to send the destination II to the vehicle-mounted T-BOX, converts the information through the internal protocol, sends the information to the vehicle-mounted navigation module through the CAN network, plans the line between the destination I and the destination II, and displays the planned line on the entertainment large screen, so that the line reaching the destination II is not required to be inquired and set manually, the arrangement of traveling is clear, and the complicated navigation setting is avoided. Similarly, the third destination and the fourth destination are processed according to the method from the first destination to the second destination, and then the return route between the fourth destination and the starting place is planned, so that the trip is completed. When the route planning of this journey is clear, the tedious operation of frequently setting navigation is greatly reduced, and the efficiency of people going out is improved.

The embodiment comprises a stroke exchanging step, wherein the stroke exchanging step comprises the following steps: step S2011 the entertainment large screen displays a plurality of destinations; step S2012, the vehicle navigation module receives the order of changing the destination sequence; step S2013, the vehicle navigation module changes the sequence of the destination according to the instruction and displays the sequence on the entertainment large screen; the entertainment large screen has a touch control function of a touch screen, so that commands can be input by touching options on the entertainment large screen through fingers of a human body.

In this embodiment, taking the arrival at the destination one as an example, when the emergency trip is changed and the destination two needs to be exchanged with the destination four, the destination one, the destination two, the destination three and the destination four are displayed on the entertainment large screen, the destination four is dragged to the destination two, and the destination two is dragged to the destination four, so that the exchange is completed. When the exchange is completed, the vehicle-mounted navigation module feeds back the destination four, the destination three and the destination two to the background server according to the order of the destination four, the destination three and the destination two by confirming the exchange, and the background server performs covering storage according to the order of the exchanged destinations, so as to store the order of the exchanged destinations. Therefore, after the first destination is reached, the background service system pushes or re-pushes the fourth destination to the vehicle-mounted navigation module, the vehicle-mounted navigation module plans the line and uploads the line to the entertainment large screen for displaying, the exchange process is completed, and the practicability of the vehicle-mounted intelligent navigation method is improved.

When the destination needs to be deleted, the principle process is the same as that of destination exchange, for example, if the destination three needs to be deleted, the destination three can be directly deleted through the entertainment large screen, the vehicle-mounted navigation module uploads the deleted destination arrangement sequence to the background server, and when the vehicle reaches the destination two, the background server directly pushes the destination four to the vehicle-mounted navigation module to complete the operation of deleting the destination three. Similarly, when the destination needs to be added, a new destination is inserted between a certain two destinations through the entertainment large screen, for example, a destination five is inserted between a destination two and a destination three, and then the destination five is uploaded to the background server, so that when the vehicle reaches the destination two, the background server pushes the destination five to the vehicle-mounted navigation module, the purpose of adding the destination is completed, and the practicability of the vehicle-mounted intelligent navigation method is greatly improved.

The embodiment further includes step S200 that the background server has no cache destination; the background server pushes all the destinations which arrive before to an entertainment large screen for display; all the arrived destinations are sequentially ordered from high to low according to frequency.

In this embodiment, if the destination is not set in advance through the mobile terminal, the background server may push all the destinations that have been visited before to the entertainment large screen, and arrange the destinations from high to low according to the frequency, so that the driver can directly select the destination through the entertainment large screen, and if a certain destination on the entertainment large screen is selected, the entertainment large screen may display the destinations according to the route that has been planned before, so that the driver can drive the vehicle. In a certain embodiment, the screen in the car navigation module only pushes the top 20 destinations with higher frequency, and the destinations are arranged in the order of the frequency from high to low. By pushing the destination which has been visited before, the driver can obtain the planned route by selecting the destination, and the practicability of the vehicle-mounted intelligent navigation method is improved.

Referring to fig. 3 and 4, the mobile terminal 10, the background server 20 and the car navigation module 30; the mobile terminal is used for acquiring a set destination; the mobile terminal is used for uploading the set destination to the background server, and the background server is used for caching the set destination; the background server is used for pushing a destination to a vehicle-mounted navigation module of the vehicle when detecting a vehicle starting signal; and the vehicle-mounted navigation module is used for planning a route according to the received destination and displaying the planned route on an entertainment large screen. The reasonable route of driver selection according to the planning of being convenient for is gone, reduces loaded down with trivial details navigation setting, has reduced the convenience of people's trip, need not to park promptly and inquire the route through electronic map, has improved people's trip efficiency.

The background server in this embodiment is also used for pushing the destination to the vehicle-mounted T-BOX 40; the vehicle-mounted T-BOX is used for converting the destination through the internal protocol and sending the destination to the vehicle-mounted navigation module through the CAN network. The accuracy and the stability of information transmission are ensured, and the practicability of the vehicle-mounted intelligent navigation device is improved.

In this embodiment, the destinations are multiple, and the mobile terminal is configured to obtain multiple set destinations; the mobile terminal is used for uploading the set multiple destinations to the background server, and the background server is used for caching the set multiple destinations; the background server is used for sequentially pushing the destinations to the vehicle-mounted navigation module of the vehicle according to the sequence of the destinations when detecting a vehicle starting signal; the vehicle-mounted navigation module for sequentially pushing the destination to the vehicle comprises: and the background server is used for pushing the next vehicle-mounted navigation module after receiving a command of arriving at a destination position. When the route planning of this stroke is clear, greatly reduced frequently set up the loaded down with trivial details operation of navigation, the planning of the route is known through the amusement large-size screen to the people of being convenient for, has improved the efficiency of people's trip.

The entertainment large screen 301 in this embodiment is used to display a plurality of destinations; the vehicle-mounted navigation module is also used for receiving an instruction for changing the sequence of the destination; the vehicle-mounted navigation module is also used for changing the sequence of the destinations according to the instruction and displaying the destination on the entertainment large screen. According to the effect of manually changing the destination, the flexibility of the vehicle-mounted navigation module can be greatly improved, the sequence of the destination can be changed before reaching the next destination or when reaching the next destination, the problem that the destination needs to be changed in case of emergency is solved, and the practicability of the vehicle-mounted navigation module is improved.

The embodiment further comprises the following steps: when the background server does not cache the destination, the background server is also used for pushing all the destinations which arrive before to the entertainment large screen for display; all the arrived destinations are sequentially ordered from high to low according to frequency. By pushing the destination which has been visited before, the driver can obtain the planned route by selecting the destination, and the practicability of the vehicle-mounted intelligent navigation method is improved.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the scope of the present invention.

Claims (4)

1. A vehicle-mounted intelligent navigation device is characterized by comprising a mobile terminal, a background server, a vehicle-mounted navigation module, a positioning module and a vehicle body;

the vehicle-mounted navigation system comprises a vehicle body, a positioning module, a vehicle-mounted navigation module, a background server, a mobile terminal, a vehicle-mounted navigation module and a background server, wherein the positioning module is arranged on an instrument panel frame of the vehicle body, the vehicle-mounted navigation module is arranged on the instrument panel frame of the vehicle body, the vehicle-mounted navigation module is positioned on one side of the positioning module, the mobile terminal is in wireless communication connection with the background server, the positioning module is in communication connection with the vehicle.

2. The vehicle-mounted intelligent navigation device according to claim 1, further comprising a vehicle-mounted T-BOX; the vehicle-mounted T-BOX is arranged on an instrument panel frame of the vehicle body, and the vehicle-mounted T-BOX is in communication connection with the vehicle-mounted navigation module.

3. The vehicle-mounted intelligent navigation device according to claim 1, further comprising an entertainment large screen, wherein the entertainment large screen is arranged on the outer side face of an instrument panel frame of the vehicle body, and the entertainment large screen is electrically connected with the vehicle-mounted navigation module.

4. The vehicle-mounted intelligent navigation device according to claim 3, wherein the entertainment large screen is a touch screen.

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