CN111688530A - Charging schedule changing method, device and computer readable storage medium - Google Patents

Abstract

A charging plan changing method is used for a vehicle-mounted terminal and comprises the following steps: changing a charging plan of the vehicle-mounted terminal; sending the changed charging plan of the vehicle-mounted terminal to the mobile terminal so that the mobile terminal changes the charging plan of the mobile terminal; receiving a mobile terminal charging plan sent by the mobile terminal; and when the vehicle-mounted end charging plan is not changed, updating the vehicle-mounted end charging plan according to the mobile end charging plan. A charging schedule changing method is used for a mobile terminal and comprises the following steps: changing a mobile terminal charging plan; sending the changed mobile terminal charging plan to the vehicle-mounted terminal, so that the vehicle-mounted terminal updates the vehicle-mounted terminal charging plan according to the mobile terminal charging plan when the vehicle-mounted terminal charging plan is not changed; receiving the vehicle-mounted end charging plan sent by the vehicle-mounted end; and updating the mobile terminal charging plan according to the vehicle-mounted terminal charging plan. The invention also provides a charging schedule changing device and a computer readable storage medium.

Description

Charging schedule changing method, device and computer readable storage medium

Technical Field

The present invention relates to the field of vehicle control technologies, and in particular, to a charging schedule changing method, a charging schedule changing apparatus, and a computer-readable storage medium.

Background

With the increase of the occupation of new energy vehicle models in the market year by year, the reservation charging function is gradually standardized, but the reservation charging function has some inconveniences in the actual use process, for example, when a user changes a vehicle using plan and needs to modify the charging plan, the user needs to go to the vehicle for setting.

The foregoing description is provided for general background information and is not admitted to be prior art.

Disclosure of Invention

In view of the above, the present invention provides a charging schedule changing method, a charging schedule changing apparatus and a computer readable storage medium.

The invention provides a charging plan changing method, which is used for a vehicle-mounted terminal and comprises the following steps: changing a charging plan of the vehicle-mounted terminal; sending the changed charging plan of the vehicle-mounted terminal to the mobile terminal so that the mobile terminal changes the charging plan of the mobile terminal; receiving a mobile terminal charging plan sent by the mobile terminal; and when the vehicle-mounted end charging plan is not changed, updating the vehicle-mounted end charging plan according to the mobile end charging plan.

Further, the step of sending the changed charging plan of the vehicle-mounted terminal to the mobile terminal so that the mobile terminal changes the charging plan of the mobile terminal includes: and when the changed charging plan of the vehicle-mounted terminal is failed to be sent to the mobile terminal, the changed charging plan is stored to the vehicle-mounted terminal, and the vehicle-mounted terminal tries to send again in the next working cycle.

Further, when the transmission of the changed charging plan of the vehicle-mounted terminal to the mobile terminal fails, the step of saving the changed charging plan to the vehicle-mounted terminal and trying to transmit again in the next work cycle includes: when the network connection with the mobile terminal fails, the changed charging plan is stored to the vehicle-mounted terminal, and the current vehicle state is judged; when the vehicle is not dormant, continuing to attempt transmission after a certain time interval; when the vehicle is dormant, transmission is continuously attempted at the next power-up.

Further, the step of receiving the mobile terminal charging plan sent by the mobile terminal includes: and when the vehicle-mounted end charging plan is changed, sending the vehicle-mounted end charging plan to the mobile end so as to update the mobile end charging plan according to the vehicle-mounted end charging plan.

Further, the step of receiving the mobile terminal charging plan sent by the mobile terminal includes the following steps; judging whether the timer needs to be updated or not; judging whether the timer runs when the timer needs to be updated; when the timer is in a working state, immediately updating the timer and starting timing; waking up the timer when the timer is dormant, and updating the timer to start timing; after the timing is finished, the charging function set is awakened; when the charging plan of the vehicle-mounted terminal is not changed, executing the charging plan of the mobile terminal by using the charging function set; and when the vehicle-mounted end charging plan is changed, executing the vehicle-mounted end charging plan by using the charging function set.

Further, the step of changing the vehicle-mounted terminal charging plan includes the following steps: carrying out rationality identification; when the rationality identification is passed, trying to send the changed charging plan of the vehicle-mounted terminal to the mobile terminal; and when the rationality identification fails, continuing to change the vehicle-mounted end charging plan or executing the original charging plan.

The invention also provides a charging plan changing method, which is used for a mobile terminal and comprises the following steps: changing a mobile terminal charging plan; sending the changed mobile terminal charging plan to the vehicle-mounted terminal, so that the vehicle-mounted terminal updates the vehicle-mounted terminal charging plan according to the mobile terminal charging plan when the vehicle-mounted terminal charging plan is not changed; receiving the vehicle-mounted end charging plan sent by the vehicle-mounted end; and updating the mobile terminal charging plan according to the vehicle-mounted terminal charging plan.

Further, the step of sending the changed mobile terminal charging plan to the vehicle-mounted terminal so that the vehicle-mounted terminal updates the vehicle-mounted terminal charging plan according to the mobile terminal charging plan when the vehicle-mounted terminal charging plan is not changed includes: and when the mobile terminal fails to attempt to transmit the changed charging plan terminal, the changed charging plan is stored in the mobile terminal, and the mobile terminal tries to transmit again in the next working cycle.

Further, the step of sending the changed mobile terminal charging plan to the vehicle-mounted terminal so that the vehicle-mounted terminal updates the vehicle-mounted terminal charging plan according to the mobile terminal charging plan when the vehicle-mounted terminal charging plan is not changed includes: when the vehicle-mounted multimedia runs, the changed mobile terminal charging plan is sent to the vehicle-mounted multimedia, so that when the vehicle-mounted terminal charging plan is not changed, the vehicle-mounted terminal charging plan is updated according to the mobile terminal charging plan, or when the vehicle-mounted terminal charging plan is changed, the mobile terminal receives the vehicle-mounted terminal charging plan sent by the vehicle-mounted terminal, and updates the mobile terminal charging plan according to the vehicle-mounted terminal charging plan.

The invention also provides a charging plan changing device, which comprises a vehicle-mounted end, a mobile end and a communication device, wherein the communication device is used for realizing the communication between the vehicle-mounted end and the mobile end, the vehicle-mounted end comprises a first memory and a first processor, the mobile end comprises a second memory and a second processor, the first memory is stored with a first charging plan changing program, the first processor is used for executing the first charging plan changing program so as to realize a charging plan changing method for the vehicle-mounted end, the second memory is stored with a second charging plan changing program, and the second processor is used for executing the second charging plan changing program so as to realize the charging plan changing method for the mobile end.

The present invention also provides a computer-readable storage medium having a computer program stored thereon, the computer program being capable of implementing the above-described charging schedule changing method when executed.

In summary, the present invention has at least one of the following advantages:

1. the invention can make charging appointment and charging plan change through the mobile terminal, thereby facilitating the operation of users;

2. according to the invention, the local controllers are awakened to preferentially meet the change of the charging plan, so that energy consumption caused by awakening all the controllers can be avoided, and the power management of the vehicle is optimized;

3. when the mobile terminal cannot be connected with the vehicle and the charging plan is changed, the user is prompted to fail to update, and the user is asked to move to the vehicle setting, so that whether the charging plan is changed successfully or not can be known in time, and the situation that the vehicle cannot be charged in time due to the fact that the user thinks that the change is successful but actually does not change successfully is avoided.

Drawings

Fig. 1 is a schematic view of a work flow of the charging schedule changing method performed at the vehicle-mounted terminal according to the present invention.

Fig. 2 is a schematic flowchart of the operation of the charging schedule changing method performed by the mobile terminal according to the present invention.

Fig. 3 is a flowchart illustrating a charging schedule changing method according to an embodiment of the present invention when the charging schedule is changed at the vehicle-mounted terminal.

Fig. 4 is a flowchart illustrating a charging schedule changing method according to an embodiment of the present invention when the mobile terminal changes the charging schedule.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

The charging plan changing method mainly comprises two ways of changing the charging plan through the vehicle-mounted terminal and changing the charging plan through the mobile terminal.

As shown in fig. 1, a specific flow of the charging schedule changing method of the present invention when executed at the vehicle-mounted terminal includes:

s10: changing a charging plan of the vehicle-mounted terminal;

s20: sending the changed charging plan of the vehicle-mounted terminal to the mobile terminal so that the mobile terminal changes the charging plan of the mobile terminal;

s30: receiving a mobile terminal charging plan sent by a mobile terminal;

s40: and when the vehicle-mounted end charging plan is not changed, updating the vehicle-mounted end charging plan according to the mobile end charging plan.

After step S10 (changing the vehicle-mounted terminal charging schedule), the method further includes:

s11: carrying out rationality identification;

s12: when the rationality identification is passed, trying to send the changed charging plan of the vehicle-mounted terminal to the mobile terminal;

s13: and when the rationality identification fails, continuously changing the vehicle-mounted end charging plan or maintaining the original charging plan.

There are two results after step S12 (attempting to send the changed charging plan of the in-vehicle terminal to the mobile terminal): the first is a step S14 in which the transmission is successful, the mobile terminal receives the vehicle-mounted terminal charging plan and updates the mobile terminal charging plan according to the vehicle-mounted terminal charging plan, and the second is a step S15 in which the transmission is failed, the changed charging plan is stored in the vehicle-mounted terminal, and the transmission is tried again in the next duty cycle.

It should be noted that the reason for the transmission failure in step S15 is mainly the transmission failure due to network failure. If the transmission fails due to the network failure, step S15 (transmission fails, the changed charging schedule is saved to the vehicle-mounted terminal, and transmission is retried in the next duty cycle) includes:

s16: when the network connection with the mobile terminal fails, the changed charging plan is stored to the vehicle-mounted terminal, and the current vehicle state is judged;

s17: when the vehicle is not dormant, continuing to attempt transmission after a certain time interval;

s18: when the vehicle is dormant, transmission is continuously attempted at the next power-up.

Further, after step S30 (receiving the mobile terminal charging plan transmitted by the mobile terminal), the method further includes:

s31: when the charging plan of the vehicle-mounted terminal is changed, the charging plan of the vehicle-mounted terminal is sent to the mobile terminal so as to update the charging plan of the mobile terminal according to the charging plan of the vehicle-mounted terminal (if the charging plan is modified by the vehicle-mounted terminal and the mobile terminal at the same time, the priority of the charging plan of the vehicle-mounted terminal is high).

The method further includes steps after step S30 (receiving the mobile terminal charging plan transmitted by the mobile terminal);

s32: judging whether the timer needs to be updated or not;

s33: judging whether the vehicle-mounted multimedia runs or not when the timer does not need to be updated;

s34: if the vehicle-mounted multimedia runs, receiving a mobile terminal charging plan sent by the mobile terminal by using the vehicle-mounted multimedia, and updating the charging plan according to a judgment result of whether the vehicle-mounted terminal charging plan is changed;

s35: if the vehicle-mounted multimedia does not run, the charging plan of the mobile terminal is considered to be failed to be sent, the changed charging plan is stored to the mobile terminal, and the mobile terminal tries to send again in the next working cycle;

s36: when it is determined in step S32 that the timer needs to be updated, it is determined whether the timer is running;

s37: when the timer is in a working state, immediately updating the timer and starting timing;

s38: waking up the timer when the timer is dormant, and updating the timer to start timing;

s39: after the timing is finished, the charging function set is awakened;

s41: when the charging plan of the vehicle-mounted terminal is not changed, executing the charging plan of the mobile terminal by using the charging function set;

s42: and when the vehicle-mounted end charging plan is changed, executing the vehicle-mounted end charging plan by using the charging function set.

As shown in fig. 2, a specific flow of the charging schedule changing method according to the present invention when executed by the mobile terminal includes:

s50: changing a mobile terminal charging plan;

s60: sending the changed mobile terminal charging plan to the vehicle-mounted terminal, so that the vehicle-mounted terminal updates the vehicle-mounted terminal charging plan according to the mobile terminal charging plan when the vehicle-mounted terminal charging plan is not changed;

s70: receiving a vehicle-mounted end charging plan sent by a vehicle-mounted end;

s80: and updating the mobile terminal charging plan according to the vehicle-mounted terminal charging plan.

However, the method further includes, after the step S50 (changing the mobile terminal charging plan):

s51: carrying out rationality identification;

s52: when the rationality identification is passed, trying to send the changed mobile terminal charging plan to the vehicle-mounted terminal;

s53: when the rationality identification fails, the mobile terminal charging plan change setting is continued.

After step S52 (attempting to send the changed charging plan of the mobile terminal to the vehicle-mounted terminal), there are three results: the first step is step S54, the sending is successful, the vehicle-mounted terminal receives the mobile terminal charging plan, and when the vehicle-mounted terminal charging plan is not changed, the vehicle-mounted terminal charging plan is updated according to the mobile terminal charging plan; first, in step S55, the transmission is successful, the vehicle-mounted terminal receives the mobile-terminal charging plan, but the vehicle-mounted terminal charging plan is changed after the last charging plan setting, and at this time, the changed vehicle-mounted terminal charging plan is transmitted to the mobile terminal based on the vehicle-mounted terminal charging plan, so that the mobile terminal updates the mobile-terminal charging plan according to the vehicle-mounted terminal charging plan; the third step is step S56, in which the transmission fails, the changed charging schedule is stored in the mobile terminal, and the transmission is tried again in the next duty cycle.

It should be noted that the reason why the transmission fails in step S56 is mainly the transmission failure due to the network being unavailable and the transmission failure due to the vehicle-mounted multimedia being in the dormant state. If the transmission fails due to the network failure, step S56 (transmission fails, the changed charging schedule is stored in the mobile terminal, and transmission is retried in the next duty cycle) includes:

s57: when the network connection fails, the changed charging plan is stored to the mobile terminal, and the charging plan is continuously tried to be sent after a certain time interval;

s58: after the set number of continuous attempts, the vehicle-mounted terminal cannot be connected, and the transmission is attempted when the power is turned on next time.

The charging schedule changing method according to the present invention will be described below in a specific embodiment.

Fig. 3 is a flowchart illustrating a charging schedule modification method according to an embodiment of the present invention when a charging schedule is modified at the vehicle-mounted terminal. As shown in fig. 3, since the vehicle controller is in an operating state when the charging schedule change setting is performed at the vehicle-mounted terminal, the charging schedule update after the change is relatively simple, and specifically includes:

s101: unlocking the vehicle;

s102: waking up the vehicle-mounted multimedia through door opening and other operations;

s103: the method comprises the following steps of utilizing a liquid crystal display to change and set a charging plan of a vehicle-mounted terminal, wherein the charging plan comprises charging starting time, vehicle using time, a charging target and the like;

s104: after the setting is changed (the setting of each item related to the charging plan is completed), the charging plan rationality is identified, and whether the changed charging plan of the vehicle-mounted terminal is unreasonable or not is judged, wherein the purpose here is mainly to eliminate the misoperation or unreasonable setting in the setting process, for example, the charging start time is set too late (if the charging start time is set too late, the problem that the charging start time cannot be fully charged exists, therefore, the system is set to be unreasonable or misoperation if the charging start time is after a certain time (for example, sixteen hours);

s105: if the rationality identification is passed, judging that the charging plan change setting is finally completed, starting to try to update the charging plan change data, firstly updating the charging plan aiming at the timer, and sending the charging plan change data to the mobile terminal;

s106: before sending charging plan change data to the mobile terminal, checking whether the network is unobstructed;

s107: if the network is smooth, starting to update charging plan change data to the mobile APP, and after the data update is completed, indicating that the data is updated on the mobile APP;

s108: if the network is not smooth, storing the charging plan change data to the vehicle-mounted end, and judging the current vehicle state;

s109: if the current vehicle is not dormant, updating is tried at regular intervals (such as 10 minutes);

s110: if the vehicle is dormant, the charging plan change data is tried to be sent to the mobile APP when the vehicle is powered on next time until the data updating is completed, the data is indicated to be updated on the mobile APP, and the process from vehicle-mounted multimedia setting data synchronization to the mobile APP is completed.

Fig. 4 is a flowchart illustrating a charging schedule changing method according to an embodiment of the present invention when the mobile terminal changes the charging schedule. As shown in fig. 4, when the charging schedule is changed by the mobile terminal, the charging schedule changing method according to the present invention includes the steps of:

s200: changing and setting a charging plan by moving the APP;

s201: after the change is completed, carrying out charging plan rationality identification;

s202: if the rationality identification is passed, judging that the charging plan change setting is finally completed, and starting to try to send charging plan change data to the vehicle-mounted terminal;

s203: before sending the charging plan change data of the mobile terminal, checking whether the mobile network is smooth;

s204: if the network is not smooth, prompting that 'data cannot be synchronized, please move to the vehicle-mounted end for setting' or 'data synchronization fails, please set at the vehicle-mounted end', simultaneously storing charging plan change data to the mobile APP, continuously checking whether network communication is smooth, if the network communication is recovered, updating the data, and if the network communication is not recovered after continuously trying for a set number of times (for example, 3 times), trying to send the charging plan change data of the mobile end when changing the charging plan next time;

s205: if the mobile network is unblocked, further judging whether the timer needs to be updated immediately, wherein the timer is mainly determined to be required to be updated immediately when the charging plan is changed at the vehicle-mounted end during the network interruption period, and if the changed charging start time is earlier than the current time or just coincides with the current time;

s206: if the timer needs to be updated immediately, further judging whether the timer runs;

s207: if the timer is not running (in a dormant state), the timer is awakened;

s208: updating the timer after waking up the timer and restarting timing;

s209: after the timing is finished, a timer wakes up a charging function set (a controller related to a charging function), after the charging function set is determined to be operated, charging plan change data of a mobile terminal is synchronized to the vehicle-mounted multimedia, and whether a charging plan at the vehicle-mounted multimedia is reset or not is further judged (namely whether the charging plan setting data stored in the vehicle-mounted multimedia is reset through the vehicle-mounted multimedia after the charging plan setting data is synchronized with the mobile APP data last time or not is judged);

s210: if the charging plan data of the vehicle-mounted multimedia is reset, updating the charging plan data at the mobile APP by using the vehicle-mounted multimedia data, and prompting that the data is updated to the mobile APP;

s211: if the charging plan data of the vehicle-mounted multimedia is not reset, synchronizing the mobile terminal data to the vehicle-mounted multimedia, and simultaneously prompting that the data is updated to the vehicle-mounted multimedia;

s212: if the timer is running in step S206, directly updating the timer and restarting the timing, and then executing steps S209-S211 in sequence;

s213: if it is determined in step S205 that the timer does not need to be updated immediately, further determining whether the vehicle-mounted multimedia is running;

s214: if the vehicle-mounted multimedia does not operate, the charging plan change data is stored to the mobile terminal, and the charging plan change data is tried to be sent when the charging plan is changed next time;

s215: and if the vehicle-mounted multimedia is running, synchronizing the charging plan change data to the vehicle-mounted multimedia, further judging whether the charging plan data of the vehicle-mounted multimedia is reset, and then executing the step S210 or S211 according to the judgment result.

In summary, the charging plan changing method of the present invention directly synchronizes the updated data to the mobile terminal when changing the charging plan through the vehicle-mounted multimedia, and prompts that the data is synchronized at the mobile APP after the synchronization is completed. And if the network is not smooth (an underground parking lot) during synchronization, the charging plan change data is stored in the vehicle-mounted multimedia, and the vehicle-mounted multimedia is updated after the data synchronization condition is met.

When the charging plan is changed through the mobile APP, if the network is smooth and the vehicle is powered on or corresponding components (such as vehicle-mounted multimedia, a timer and the like) are in a working state, the changed data are directly synchronized to the vehicle-mounted multimedia (the vehicle-mounted multimedia is a device for storing and setting the charging plan at the vehicle-mounted end), and after synchronization is completed, the vehicle-mounted multimedia prompts that the data are updated. If the network is smooth but the vehicle is in a dormant state, the mobile APP judges whether the charging plan needs to be executed immediately, if so, the vehicle-mounted end timer is awakened immediately, the charging plan is updated, and the time is counted again. If the network is not smooth, the mobile APP prompts that ' data cannot be synchronized ', please move to the vehicle-mounted end for setting ' or ' data synchronization fails, please set at the vehicle-mounted end '.

If the charging plan is updated at the vehicle-mounted terminal and the mobile APP by the user during the communication interruption period, once the network communication is recovered, the charging plan is updated according to the related setting data of the vehicle-mounted terminal charging plan.

The invention further provides a charging schedule changing device, which comprises a vehicle-mounted terminal, a mobile terminal and a communication device, wherein the communication device is used for realizing communication between the vehicle-mounted terminal and the mobile terminal, the vehicle-mounted terminal comprises a first memory and a first processor, the mobile terminal comprises a second memory and a second processor, the first memory is stored with a first charging schedule changing program, the first processor is used for executing the first charging schedule changing program to realize a charging schedule changing method for the vehicle-mounted terminal, the second memory is stored with a second charging schedule changing program, and the second processor is used for executing the second charging schedule changing program to realize the charging schedule changing method for the mobile terminal.

Furthermore, the present invention also provides a computer-readable storage medium having a computer program stored thereon, wherein the computer program is capable of implementing the charging schedule changing method described above when executed.

As can be seen from the above description, the present invention has at least one of the following advantages:

1. the invention can make charging appointment and charging plan change through the mobile terminal, thereby facilitating the operation of users;

2. according to the invention, the local controllers are awakened to preferentially meet the change of the charging plan, so that energy consumption caused by awakening all the controllers can be avoided, and the power management of the vehicle is optimized;

3. when the mobile terminal cannot be connected with the vehicle and the charging plan is changed, prompting a user that the updating fails and please move to the vehicle setting, so that whether the charging plan is changed successfully or not can be known in time, and the problem that the vehicle cannot be charged in time due to the fact that the user considers that the change is successful but does not actually change successfully is avoided;

4. the invention sets the charging plan priorities of the vehicle-mounted terminal and the mobile terminal, and can effectively avoid the problem that the updating reference cannot be determined when the charging plans of the vehicle-mounted terminal and the mobile terminal are changed during the network interruption.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

As used herein, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, including not only those elements listed, but also other elements not expressly listed.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (11)

1. A charging schedule changing method for a vehicle-mounted terminal, comprising:

changing a charging plan of the vehicle-mounted terminal;

sending the changed charging plan of the vehicle-mounted terminal to the mobile terminal so that the mobile terminal changes the charging plan of the mobile terminal;

receiving a mobile terminal charging plan sent by the mobile terminal;

and when the vehicle-mounted end charging plan is not changed, updating the vehicle-mounted end charging plan according to the mobile end charging plan.

2. The charging schedule changing method according to claim 1, wherein the step of transmitting the changed charging schedule of the in-vehicle terminal to the mobile terminal so that the mobile terminal changes the charging schedule of the mobile terminal comprises:

and when the changed charging plan of the vehicle-mounted terminal is failed to be sent to the mobile terminal, the changed charging plan is stored to the vehicle-mounted terminal, and the vehicle-mounted terminal tries to send again in the next working cycle.

3. The charging schedule changing method according to claim 2, wherein the step of saving the changed charging schedule to the vehicle-mounted terminal and trying again to transmit in the next duty cycle when the transmission of the changed charging schedule to the mobile terminal fails comprises:

when the network connection with the mobile terminal fails, the changed charging plan is stored to the vehicle-mounted terminal, and the current vehicle state is judged;

when the vehicle is not dormant, continuing to attempt transmission after a certain time interval;

when the vehicle is dormant, transmission is continuously attempted at the next power-up.

4. The method for changing a charging schedule according to claim 1, wherein the step of receiving the mobile-side charging schedule transmitted from the mobile side, thereafter comprises:

and when the vehicle-mounted end charging plan is changed, sending the vehicle-mounted end charging plan to the mobile end so as to update the mobile end charging plan according to the vehicle-mounted end charging plan.

5. The charging schedule changing method according to claim 1, wherein the step of receiving the mobile-side charging schedule transmitted from the mobile side comprises;

judging whether the timer needs to be updated or not;

judging whether the timer runs when the timer needs to be updated;

when the timer is in a working state, immediately updating the timer and starting timing;

waking up the timer when the timer is dormant, and updating the timer to start timing;

after the timing is finished, the charging function set is awakened;

when the charging plan of the vehicle-mounted terminal is not changed, executing the charging plan of the mobile terminal by using the charging function set;

and when the vehicle-mounted end charging plan is changed, executing the vehicle-mounted end charging plan by using the charging function set.

6. The charging plan changing method according to claim 1, wherein the step of changing the vehicle-mounted-end charging plan is followed by comprising:

carrying out rationality identification;

when the rationality identification is passed, trying to send the changed charging plan of the vehicle-mounted terminal to the mobile terminal;

and when the rationality identification fails, continuing to change the vehicle-mounted end charging plan or the original charging plan.

7. A charging schedule changing method for a mobile terminal, comprising:

changing a mobile terminal charging plan;

sending the changed mobile terminal charging plan to the vehicle-mounted terminal, so that the vehicle-mounted terminal updates the vehicle-mounted terminal charging plan according to the mobile terminal charging plan when the vehicle-mounted terminal charging plan is not changed;

receiving the vehicle-mounted end charging plan sent by the vehicle-mounted end;

and updating the mobile terminal charging plan according to the vehicle-mounted terminal charging plan.

8. The charging schedule changing method according to claim 7, wherein the step of sending the changed mobile-side charging schedule to the vehicle-mounted side so that the vehicle-mounted side updates the vehicle-mounted-side charging schedule according to the mobile-side charging schedule when the vehicle-mounted-side charging schedule is not changed, comprises:

and when the mobile terminal fails to attempt to transmit the changed charging plan terminal, the changed charging plan is stored in the mobile terminal, and the mobile terminal tries to transmit again in the next working cycle.

9. The charging schedule changing method according to claim 7, wherein the step of transmitting the changed mobile-side charging schedule to the vehicle-mounted side so that the vehicle-mounted side updates the vehicle-mounted-side charging schedule according to the mobile-side charging schedule when the vehicle-mounted-side charging schedule is not changed comprises:

when the vehicle-mounted multimedia runs, the changed mobile terminal charging plan is sent to the vehicle-mounted multimedia, so that when the vehicle-mounted terminal charging plan is not changed, the vehicle-mounted terminal charging plan is updated according to the mobile terminal charging plan, or when the vehicle-mounted terminal charging plan is changed, the mobile terminal receives the vehicle-mounted terminal charging plan sent by the vehicle-mounted terminal, and updates the mobile terminal charging plan according to the vehicle-mounted terminal charging plan.

10. A charging schedule changing apparatus, comprising a vehicle-mounted terminal, a mobile terminal and a communication device, wherein the communication device is configured to implement communication between the vehicle-mounted terminal and the mobile terminal, the vehicle-mounted terminal includes a first memory and a first processor, the mobile terminal includes a second memory and a second processor, the charging schedule changing apparatus is characterized in that the first memory stores a first charging schedule changing program, the first processor is configured to execute the first charging schedule changing program to implement the charging schedule changing method according to any one of claims 1 to 6, the second memory stores a second charging schedule changing program, and the second processor is configured to execute the second charging schedule changing program to implement the charging schedule changing method according to any one of claims 7 to 9.

11. A computer-readable storage medium, having stored thereon a computer program which, when executed, is capable of implementing a charging schedule changing method according to any one of claims 1 to 9.

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