CN114844153A - Vehicle-mounted intelligent charging control method and device and automobile - Google Patents

Abstract

The embodiment of the invention relates to the technical field of automobiles, and discloses a vehicle-mounted intelligent charging control method, a device and an automobile, wherein the method comprises the following steps: when a first mobile phone is connected to a vehicle-mounted machine system, acquiring phone electricity quantity; when the phone electricity quantity is lower than a first threshold value, playing a first prompt voice; for prompting a user to place the first mobile phone on the second charging member; the second charging component is adsorbed on the first charging component through a first magnetic lock; if the first mobile phone is placed on the second charging component, controlling the second charging component to charge the first mobile phone; the first mobile phone is adsorbed on the second charging component through the second magnetic lock; and when receiving the first control instruction, controlling the first magnetic lock to unlock, so that the user can pick up the first mobile phone adsorbed with the second charging component. By applying the technical scheme of the invention, when the mobile phone is taken up for use in the charging process, the second charging component still adsorbs the phone for charging, so that the charging and the use in the scene without a charging wire are realized.

Description

Vehicle-mounted intelligent charging control method and device and automobile

Technical Field

The embodiment of the invention relates to the field of automobiles, in particular to a vehicle-mounted intelligent charging control method and device and an automobile.

Background

In the car, the mobile phone can be used for communication and entertainment, and can be connected to a car machine system to realize interaction such as navigation and function expansion. In an in-vehicle application scenario, the mobile phone consumes power quickly, and charging is often required in a vehicle. Common vehicle charging schemes include wired charging and wireless charging; when the mobile phone is charged in a wired mode, the mobile phone is required to be connected to a vehicle-mounted power supply interface through a cable, and users need to be provided with charging wires of different types in order to adapt to mobile phones of different models, so that the cable is messy and easy to damage; when wireless charging, place the cell-phone on wireless charging panel, it is comparatively convenient to charge, but when the user picks up the cell-phone and uses, wireless charging can break off.

Disclosure of Invention

In view of the above problems, the application provides a vehicle-mounted intelligent charging control method, a vehicle-mounted intelligent charging control device and an automobile, and the method, the device and the automobile are used for solving the problems that in the prior art, a cable is messy and easy to damage due to wired charging and the wireless charging cannot be carried out while the charging is carried out.

According to an aspect of an embodiment of the present invention, there is provided a vehicle-mounted intelligent charging control method, including: when detecting that a first mobile phone is connected to a vehicle-mounted device system, acquiring the electric quantity of the first mobile phone; when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice for prompting a user to place the first mobile phone on a second charging component for wireless charging; the second charging component is adsorbed on the first charging component through a first magnetic lock; if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone; wherein the first mobile phone is attached to the second charging member by a second magnetic lock; when a first control instruction sent by the user for picking up the second charging component is received, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone adsorbed with the second charging component.

In an optional manner, after the playing the first prompt voice, the method further includes: determining whether the user has placed the first mobile phone on the second charging member after a first length of time has elapsed; executing the step of controlling the second charging means to wirelessly charge the first mobile phone when it is determined that the first mobile phone is placed on the second charging means; playing a second prompt voice when it is determined that the first mobile phone is not placed on the second charging member; the second prompt voice is used for prompting whether the user needs to take up the second charging component to wirelessly charge the first mobile phone; and after receiving the confirmation instruction, controlling the first magnetic lock to unlock so that the user can pick up the second charging component.

In an optional manner, after controlling the first magnetic lock to unlock so that the user picks up the first mobile phone attracted with the second charging component, the method further includes: monitoring the charge of the second charging member; when the electric quantity of the second charging component is lower than a second threshold value, a third prompt voice is played; the third prompt voice is used for prompting that the second charging component is insufficient in electric quantity and needs to be placed on the first charging component for charging.

In an optional manner, after controlling the first magnetic lock to unlock so that the user picks up the first mobile phone attracted with the second charging component, the method further includes: playing a fourth prompt voice; the fourth prompting voice is used for prompting the user that the first charging component can wirelessly charge the second mobile phone.

In an optional manner, after the playing the fourth prompt voice, the method further includes: monitoring whether there is the second mobile phone placed on the first charging member; if the second mobile phone exists, controlling the first charging component to wirelessly charge the second mobile phone; wherein the second mobile phone is attached to the first charging member by a third magnetic lock.

In an optional manner, after the playing the first prompt voice, the method further includes: when a parking event or a vehicle door opening event is detected, acquiring the electric quantity of the first mobile phone; when the electric quantity of the first mobile phone is lower than a third threshold value, a fifth prompt voice is played; the fifth prompt voice is used for prompting the user that the second charging component can be taken off to continue to wirelessly charge the first mobile phone; and controlling the first magnetic lock to unlock.

In an optional manner, the method further comprises: receiving current position information and residual electric quantity information of the second charging component issued by the server; the current position information and the residual electric quantity information are obtained by the server from the first mobile phone; when an instruction for inquiring the second charging member is received, controlling a user interface to display the current position information and the residual electric quantity information of the second charging member; the current position information and the residual power information can also be displayed on a user interface of the first mobile phone.

In an optional manner, after the playing the first prompt voice, the method further includes: monitoring a communication state of the first mobile phone while the first mobile phone is placed on the second charging member for wireless charging; when a call incoming event occurs to the first mobile phone, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone attracted with the second charging component.

According to another aspect of the embodiments of the present invention, there is provided an in-vehicle intelligent charging control apparatus, including: the detection module is used for acquiring the electric quantity of the first mobile phone when the first mobile phone is detected to be connected to the car machine system; the execution module is used for playing a first prompt voice when the electric quantity of the first mobile phone is lower than a first threshold value, wherein the first prompt voice is used for prompting a user to place the first mobile phone on a second charging component for wireless charging; the second charging component is adsorbed on the first charging component through a first magnetic lock; if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone; wherein the first mobile phone is attached to the second charging member by a second magnetic lock; and the locking module is used for controlling the first magnetic lock to unlock when receiving a first control instruction sent by the user to pick up the second charging component, so that the user picks up the first mobile phone adsorbed with the second charging component.

According to another aspect of an embodiment of the present invention, there is provided an automobile including: the charging device comprises a first charging component, a second charging component, a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface are communicated with each other through the communication bus; the first charging component is used for obtaining electric energy from the automobile and wirelessly charging the second charging component or the first mobile phone; the first mobile phone is adsorbed on the first charging component through a third magnetic lock to carry out wireless charging; the second charging component is adsorbed on the first charging component through a first magnetic lock to perform wireless charging; the first mobile phone is adsorbed on the second charging component through a second magnetic lock to carry out wireless charging; the memory is used for storing at least one executable instruction, and the executable instruction enables the processor to execute the operation of the vehicle-mounted intelligent charging control method.

According to another aspect of the embodiments of the present invention, there is provided a computer-readable storage medium, wherein at least one executable instruction is stored in the storage medium, and when the executable instruction runs on an on-vehicle intelligent charging control device/automobile, the on-vehicle intelligent charging control device/automobile is enabled to execute the operation of the on-vehicle intelligent charging control method according to any one of the above contents.

The beneficial effect of this application: the first prompt voice can be played in time by judging that the electric quantity of the telephone is smaller than a first threshold value; the second charging component is adsorbed on the first charging component through the first magnetic lock, so that the second charging component can keep fixed in position in the standby and phone charging processes; the telephone is adsorbed to the second charging component through the second magnetic lock, so that the telephone can be adsorbed to the second charging component in the charging process; through constructing a first control instruction, the adsorption state of the second charging component and the first charging component can be timely released, so that when the mobile phone is taken up for use in the charging process, the second charging component is still adsorbed on the phone for charging, and the effect of charging while the mobile phone is not connected with a charging line in a scene is realized.

The foregoing description is only an overview of the technical solutions of the embodiments of the present invention, and in order that the technical solutions of the embodiments of the present invention can be clearly understood, the embodiments of the present invention can be implemented according to the content of the description, and the above and other objects, features, and advantages of the embodiments of the present invention can be more clearly understood, the detailed description of the present invention is provided below.

Drawings

The drawings are only for purposes of illustrating embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 shows a flowchart of a first embodiment of an in-vehicle intelligent charging control method of the present invention;

fig. 2 shows a flowchart of a second embodiment of the on-vehicle intelligent charging control method of the invention;

fig. 3 shows a flowchart of a third embodiment of the on-vehicle intelligent charging control method of the present invention;

fig. 4 shows a flowchart of a fourth embodiment of the on-vehicle intelligent charging control method of the invention;

fig. 5 shows a flowchart of a fifth embodiment of the on-vehicle intelligent charging control method of the invention;

fig. 6 shows a flowchart of a sixth embodiment of the on-vehicle intelligent charging control method of the invention;

fig. 7 is a flowchart showing a seventh embodiment of the on-vehicle intelligent charging control method of the invention;

FIG. 8A shows a schematic view of a cockpit of an embodiment of an automobile of the present invention;

FIG. 8B shows a schematic view of a cockpit of another embodiment of an automobile of the present invention;

FIG. 8C shows a schematic view of a cockpit of another embodiment of an automobile of the present invention;

FIG. 8D shows a schematic view of a cockpit of another embodiment of an automobile of the present invention;

FIG. 8E shows a schematic view of a cockpit of another embodiment of an automobile of the present invention;

FIG. 8F shows a schematic view of a cockpit of another embodiment of an automobile of the present invention;

FIG. 8G shows a schematic view of a cockpit of another embodiment of an automobile of the present invention;

fig. 9 is a schematic structural diagram showing an embodiment of the in-vehicle intelligent charging control apparatus of the present invention;

fig. 10 shows a schematic structural diagram of an embodiment of the motor vehicle according to the invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein.

Fig. 1 shows a flowchart of a first embodiment of the on-board intelligent charging control method of the present invention, which may be performed by an on-board intelligent charging control apparatus/vehicle. As shown in fig. 1, the method comprises the steps of:

step 110: and when detecting that the first mobile phone is connected to the car machine system, acquiring the electric quantity of the first mobile phone.

The first mobile phone can be implemented as a first smart phone and is connected with the vehicle-mounted device system through bluetooth, or an in-vehicle local area network, or other short-distance communication modes.

It should be noted that, although the first mobile phone is taken as an example to illustrate the vehicle-mounted intelligent charging control scheme, the scheme is still applicable to other terminal devices supporting wireless charging in a vehicle, including but not limited to a tablet computer, a laptop, a charger, a smart watch, and the like.

In the scene that the first mobile phone is bound to the vehicle-mounted system, as long as a user carries the first mobile phone into the cab, the first mobile phone is automatically connected into the vehicle-mounted system, and the operation of the vehicle-mounted intelligent charging control method is realized.

The vehicle-machine system can acquire the current electric quantity of the first mobile phone through Bluetooth communication; for example, the current electric quantity of the first mobile phone acquired by the car machine system is 59%. When a second mobile phone is connected to the vehicle-mounted system through Bluetooth or an in-vehicle local area network, the vehicle-mounted system can still obtain the current electric quantity of the second mobile phone.

Step 120: when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component; the second charging member is attracted to the first charging member by a first magnetic lock.

In the present invention, the first charging component is implemented as a wireless charging pad, the second charging component is implemented as a wireless charger, and the first mobile phone is implemented as a first smart phone, which will be described below, and the corresponding and reference relationships thereof will not be repeated.

The wireless charging panel can be arranged near a vehicle center console, and can obtain electric energy from a vehicle storage battery or a generator and is used for wireless charging of the wireless charging treasure and the first smart phone; after the vehicle starts, will control first magnetic lock and start, make wireless treasured that charges adsorb on wireless charging panel through first magnetic lock, avoid wireless treasured that charges to slide at the vehicle in-process that traveles and drop, keep wireless precious rigidity that charges, wireless precious, the mode of placing on wireless charging panel is shown in fig. 8A.

It should be noted that, although the wireless charger and the wireless charging pad shown in fig. 8A are implemented in a flat plate shape, the present invention is not limited to the shape thereof; the wireless charger can also be implemented in a square shape, a round shape, an irregular shape and the like; the wireless charging panel can set up the recess to more stably place, adsorb wireless treasured that charges.

The first threshold may be implemented as 80%, for example, when it is determined that the current power of the first smart phone is lower than 80%, a first prompt voice may be played to remind the user to place the first smart phone on the wireless power bank for wireless charging.

Step 130: if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone; wherein the first mobile phone is attached to the second charging member by a second magnetic lock.

When a user places the first smart phone on the wireless power bank for wireless charging, the second magnetic lock can enable the first smart phone to be adsorbed on the wireless power bank, so that the first smart phone cannot fall off or slide in the driving process of a vehicle, and the position is kept fixed; the vehicle machine system can control the wireless charger to start external charging, so that the second magnetic lock of the vehicle machine system is started; the wireless precious treasured that charges still can be configured to the automatic start second magnetic force lock when sensing the equipment contact to realize first smart mobile phone and the absorption of wireless precious that charges. Meanwhile, the wireless charging treasure is also adsorbed and fixed on the wireless charging panel through the first magnetic lock, and wireless charging of the first smart phone in the driving process can be achieved, as shown in fig. 8B.

In some implementation manners of the first magnetic lock, the contact surfaces of the wireless charger and the wireless charging plate can be provided with magnetic components; the wireless charging treasure is placed on the wireless charging plate, and after the electromagnet is electrified, the magnetic force generated by the electromagnet can enable the wireless charging treasure to be adsorbed on the wireless charging plate; when the magnetic locking is released, the car machine system can send an unlocking signal to the wireless charging panel controller to change the current direction of an electromagnetic field in the wireless charging panel, so that the direction of the electromagnetic field is changed, no suction force exists between the wireless charging bank and the wireless charging panel, and a user can take up the wireless charging bank conveniently.

In some implementation manners of the second magnetic lock, the first smart phone and the wireless charger are not attracted to each other by the second magnetic lock with strong attraction force under the common condition; when user's external force surpassed the magnetic force of second magnetic force lock, can separate first smart mobile phone and wireless treasured that charges, realize the effect of manual unblock second magnetic force lock.

Step 140: when a first control instruction sent by the user for picking up the second charging component is received, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone adsorbed with the second charging component.

Wherein, the first control instruction can be implemented as a voice instruction "i want to take up the charger"; after receiving a voice command sent by a user, the vehicle-mounted microphone transmits the voice command to the vehicle-mounted system for command matching so as to control the first magnetic lock to unlock; under this scene, first smart mobile phone still adsorbs in the wireless treasured that charges, nevertheless no longer has suction between wireless treasured and the wireless charging panel that charges, and the user can take up the first smart mobile phone that adsorbs the wireless precious that charges, realizes the beneficial effect that the limit was used towards the limit, as shown in fig. 8C.

Certainly, the user can also be after taking up the wireless precious first smart mobile phone that charges that adsorbs, manual break away from wireless precious that charges with first smart mobile phone, then the wireless precious that charges of strong is put back to charge on the wireless charging panel, and first magnetic lock will start immediately in order to adsorb the wireless precious that charges in wireless charging panel.

It should be noted that, for convenience of scheme description and easy image reading, the size of the wireless charging bank in the multiple drawings is visually larger than that of the first smart phone, but the embodiment of the present invention does not limit the size of the wireless charging bank and the size relationship between the wireless charging bank and the first smart phone; in an actual scene, the wireless power bank can be completely implemented in a shape with a size smaller than that of the first smart phone, so that the wireless power bank can be adsorbed on the first smart phone when a user uses the mobile phone conveniently.

In the implementation process of the vehicle-mounted intelligent charging control method, the first prompt voice can be played in time by judging that the electric quantity of the telephone is smaller than the first threshold value; the second charging component is adsorbed on the first charging component through the first magnetic lock, so that the second charging component can keep fixed in position in the standby and phone charging processes; the telephone is adsorbed to the second charging component through the second magnetic lock, so that the telephone can be adsorbed to the second charging component in the charging process; through constructing a first control instruction, the adsorption state of the second charging component and the first charging component can be timely released, so that when the mobile phone is taken up for use in the charging process, the second charging component is still adsorbed on the phone for charging, and the effect of charging while the mobile phone is not connected with a charging line in a scene is realized.

Fig. 2 shows a flowchart of a second embodiment of the on-board intelligent charging control method of the present invention, which may be performed by an on-board intelligent charging control apparatus/vehicle. After the first prompt voice is played, as shown in fig. 2, the method includes the following steps:

step 210: and when detecting that the first mobile phone is connected to the car machine system, acquiring the electric quantity of the first mobile phone.

When a user enters a cab or approaches a vehicle, the automobile detects and automatically tries to connect to a first mobile phone which is matched and stored in an automobile machine system; when the first mobile phone is connected to the vehicle-mounted system, the vehicle-mounted system can acquire the electric quantity of the first mobile phone in time.

Step 220: when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component.

Wherein the first threshold value may be implemented as 80%; when the current electric quantity of the first smart phone is 55%, it can be judged that the current electric quantity of the first smart phone is lower than 80%, the car machine system plays a first prompt voice to prompt a user to place the first smart phone on a wireless charging bank for wireless charging.

Step 230: after a first length of time, it is determined whether the user has placed the first mobile phone on the second charging member.

After receiving the first prompt voice, the user usually places the first mobile phone with insufficient electric quantity on the wireless charger for charging; however, when the user forgets to charge or uses the mobile phone, the car-in-vehicle system detects and prompts the user by voice.

The first length of time may be implemented, for example, as 30 seconds; if the user does not place the first smart mobile phone on the wireless power bank for charging after playing the first prompt voice for 30 seconds, the vehicle machine system detects whether the user places the first smart mobile phone on the wireless power bank for charging. For example, the detection may be performed by a sensor provided in the wireless charging pad or the wireless power bank.

Step 240: the step of controlling the second charging means to wirelessly charge the first mobile phone is performed when it is determined that the first mobile phone is placed on the second charging means.

Wherein, charging through wireless treasured that charges to first mobile phone in this scene can be said to fill including placing, places to fill and indicates that first smart mobile phone places in wireless treasured that charges, and wireless treasured that charges places in the scene of wireless charging panel.

Step 250: playing a second prompt voice when it is determined that the first mobile phone is not placed on the second charging member; the second prompt voice is used for prompting whether the user needs to take the second charging component to wirelessly charge the first mobile phone.

When the first smart phone is judged not to be placed on the wireless charging bank for charging, the car machine system sends out second prompt voice to prompt a user whether to take up the wireless charging bank for wireless charging of the first mobile phone.

Namely, the first mobile phone is charged by the wireless charger, which can comprise two modes of placing and charging and carrying; the placing and charging are scenes that the first smart phone is placed in the wireless charging bank and the wireless charging bank is placed on the wireless charging panel; carry-on is that first smart mobile phone places in wireless treasured that charges, and wireless treasured that charges does not place in the scene of wireless charging panel.

When the user does not adopt the placing and charging mode of the first prompt voice, the vehicle-mounted system recommends a carry-on charging mode to the user, so that the user can use the mobile phone and charge through the wireless charger at the same time.

Step 260: and after receiving the confirmation instruction, controlling the first magnetic lock to unlock so that the user can pick up the second charging component.

For the played second prompt voice, if the user replies a good voice command or a voice command confirmed by similar, the vehicle-mounted device system unlocks the first magnetic lock between the wireless charging panel and the wireless charging bank, so that the user can easily take up the wireless charging bank and the first smart phone to realize the use while charging; or place the first smart mobile phone that adsorbs wireless treasured that charges in other positions in the car to make things convenient for the user to use, as shown in fig. 8D.

In an alternative mode, a preferred charging mode can be recommended to the user by acquiring the current electric quantity of the first mobile phone and the current electric quantity of the second charging component. For example, when the current electric quantity of the wireless charging bank is less than 50%, a prompt voice can be played, a user is recommended to directly place the first smart phone on the wireless charging panel for wireless charging, and the beneficial effect that the first smart phone and the wireless charging bank simultaneously obtain electric energy from the wireless charging panel is achieved; when the precious current electric quantity that charges is greater than 50% when wireless, but broadcast suggestion pronunciation, the recommendation user places first smart mobile phone in the precious that charges of wireless charging, realizes the beneficial effect of usefulness while filling.

In the implementation process of the vehicle-mounted intelligent charging control method, whether the telephone is placed on the second charging component or not is judged after the first time length, and the second prompt voice can be played in time; the first magnetic lock is unlocked after the confirmation instruction is received, so that a user can take the second charging component conveniently, the user can be reminded of charging the phone in a personal charging mode in time in a scene that the phone is not charged in time, and the electric quantity of the phone is prevented from being exhausted.

Fig. 3 shows a flowchart of a third embodiment of the on-board intelligent charging control method of the present invention, which may be executed by an on-board intelligent charging control apparatus/vehicle. After controlling the first magnetic lock to unlock so that the user picks up the first mobile phone attracted with the second charging member, as shown in fig. 3, the method includes the following steps:

step 310: and when detecting that the first mobile phone is connected to the car machine system, acquiring the electric quantity of the first mobile phone.

When a user enters a cab or approaches a vehicle, the automobile detects and automatically tries to connect to a first mobile phone which is matched and stored in an automobile machine system; when the first mobile phone is connected to the vehicle-mounted system, the vehicle-mounted system can acquire the electric quantity of the first mobile phone in time.

Step 320: when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component.

Wherein the first threshold value may be implemented as 80%; when the current electric quantity of the first smart phone is 55%, it can be judged that the current electric quantity of the first smart phone is lower than 80%, the car machine system plays a first prompt voice to prompt a user to place the first smart phone on a wireless charging bank for wireless charging.

Step 330: and if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone.

When a user places the first smart phone on the wireless power bank for wireless charging, the second magnetic lock can enable the first smart phone to be adsorbed on the wireless power bank, so that the first smart phone cannot fall off or slide in the driving process of a vehicle, and the position is kept fixed; the vehicle-mounted machine system can control the wireless charger to start external charging, so that the second magnetic lock of the wireless charger is started; the wireless precious treasured that charges still can be configured to the automatic start second magnetic force lock when sensing the equipment contact to realize first smart mobile phone and the absorption of wireless precious that charges. Meanwhile, the wireless charging treasure is also adsorbed and fixed on the wireless charging panel through the first magnetic lock, and wireless charging of the first smart phone in the driving process can be achieved.

Step 340: when a first control instruction sent by the user for picking up the second charging component is received, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone adsorbed with the second charging component.

The first control instruction can be implemented as a voice instruction 'i want to take up the charger baby', and after receiving the voice instruction sent by the user, the vehicle-mounted microphone transmits the voice instruction to the vehicle-mounted microphone system to control the first magnetic lock to unlock. Under this scene, first smart mobile phone still adsorbs in the wireless treasured that charges, nevertheless no longer has suction between wireless treasured and the wireless charging panel that charges, and the user can take up the first smart mobile phone that adsorbs the wireless treasured that charges, realizes the limit and fills with the limit.

Step 350: monitoring the charge of the second charging member.

Wherein, when the user used the mode of charging with oneself to charge for first smart mobile phone, need monitor wireless precious residual capacity that charges to prevent that wireless precious electric quantity that charges from exhausting.

Step 360: when the electric quantity of the second charging component is lower than a second threshold value, a third prompt voice is played; the third prompt voice is used for prompting that the second charging component is insufficient in electric quantity and needs to be placed on the first charging component for charging.

Wherein the second threshold value can be implemented, for example, as 25%; when monitoring that the residual electric quantity of the wireless charging bank is lower than 25%, the vehicle-mounted device system plays a third prompt voice to prompt that the electric quantity of the wireless charging bank is insufficient, and advises the user to put the wireless charging bank back to supplement the electric quantity. Under this scene, the user can put back wireless charging panel with wireless treasured itself that charges and mend the electricity, also can will adsorb wireless treasured that charges of first smart mobile phone and put back wireless charging panel, continues to charge for first smart mobile phone when charging for wireless treasured biography that charges. After wireless treasured that charges contacted wireless charging panel, first magnetic lock will automatic start to make wireless precious position of charging fix.

In the implementation process of the vehicle-mounted intelligent charging control method, the electric quantity of the second charging component can be early warned by monitoring the electric quantity of the second charging component; by judging that the electric quantity of the second charging component is lower than the second threshold value, a third prompt voice for prompting the second charging component to be charged can be played in time, so that the situation that the electric quantity of the second charging component is completely exhausted is avoided, and a user cannot charge the phone in a carry-on charging mode.

Fig. 4 shows a flowchart of a fourth embodiment of the on-board intelligent charging control method of the present invention, which may be performed by an on-board intelligent charging control apparatus/vehicle. After controlling the first magnetic lock to unlock so that the user picks up the first mobile phone attracted with the second charging member, as shown in fig. 4, the method includes the following steps:

step 410: and when detecting that the first mobile phone is connected to the car machine system, acquiring the electric quantity of the first mobile phone.

When a user enters a cab or approaches a vehicle, the automobile detects and automatically tries to connect to a first mobile phone which is matched and stored in an automobile machine system; when the first mobile phone is connected to the vehicle-mounted system, the vehicle-mounted system can acquire the electric quantity of the first mobile phone in time.

Step 420: when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component.

Wherein the first threshold value may be implemented as 80%; when the current electric quantity of the first smart phone is 55%, it can be judged that the current electric quantity of the first smart phone is lower than 80%, the car machine system plays a first prompt voice to prompt a user to place the first smart phone on a wireless charging bank for wireless charging.

Step 430: and if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone.

When a user places the first smart phone on the wireless power bank for wireless charging, the second magnetic lock can enable the first smart phone to be adsorbed on the wireless power bank, so that the first smart phone cannot fall off or slide in the driving process of a vehicle, and the position is kept fixed; the vehicle machine system can control the wireless charger to start external charging, so that the second magnetic lock of the vehicle machine system is started; the wireless precious treasured that charges still can be configured to the automatic start second magnetic force lock when sensing the equipment contact to realize first smart mobile phone and the absorption of wireless precious that charges. Meanwhile, the wireless charging treasure is also adsorbed and fixed on the wireless charging panel through the first magnetic lock, and wireless charging of the first smart phone in the driving process can be achieved.

Step 440: when a first control instruction sent by the user for picking up the second charging component is received, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone adsorbed with the second charging component.

The first control instruction can be implemented as a voice instruction 'i want to take up the charger baby', and after receiving the voice instruction sent by the user, the vehicle-mounted microphone transmits the voice instruction to the vehicle-mounted microphone system to control the first magnetic lock to unlock. Under this scene, first smart mobile phone still adsorbs in the wireless treasured that charges, nevertheless no longer has suction between wireless treasured and the wireless charging panel that charges, and the user can take up the first smart mobile phone that adsorbs the wireless treasured that charges, realizes the limit and fills with the limit.

Step 450: playing a fourth prompt voice; the fourth prompting voice is used for prompting the user that the first charging component can wirelessly charge the second mobile phone.

The wireless charging treasure is taken up from the wireless charging board by a user, and when the wireless charging treasure is used for charging the first smart phone, the wireless charging board is converted into a standby state; the vehicle-mounted system can play a fourth prompt voice to prompt a user that the wireless charging panel can charge other second smart phones supporting wireless charging at the moment. The fourth prompting voice may be implemented, for example, "you can charge other devices using the wireless charging pad"; when a plurality of passengers are in the vehicle, the intelligent mobile phones can be charged wirelessly at the same time.

Step 460: monitoring whether there is the second mobile phone placed on the first charging member.

After a fourth prompt voice for prompting a user that the wireless charging panel can be used for directly wirelessly charging a second smart phone is played, the vehicle-mounted device system detects whether the user places the smart phone on the wireless charging panel for charging and identifies whether the smart phone supports wireless charging; if so, providing charging service for the mobile terminal; and if not, prompting the user that the smart phone does not support wireless charging by voice.

Step 470: if the second mobile phone exists, controlling the first charging component to wirelessly charge the second mobile phone; wherein the second mobile phone is attached to the first charging member by a third magnetic lock.

When the second smart phone is placed on the wireless charging plate for charging, the vehicle-mounted system identifies the second smart phone and adsorbs the second smart phone to the wireless charging plate through the third magnetic lock, so that the second smart phone which is being charged keeps fixed in position in the vehicle driving process and avoids sliding and falling; in this scenario, the wireless power bank may also charge the first smartphone, as shown in fig. 8E.

The third magnetic lock is similar to the second magnetic lock, and the smart phone and the wireless charging panel are not adsorbed by the third magnetic lock with strong attraction; when the external force of the user exceeds the magnetic force of the third magnetic lock, the second smart phone can be separated from the wireless charging panel. It should be noted that the third magnetic lock is also applicable to first smart mobile phone, and when the user placed first smart mobile phone on wireless charging panel, the third magnetic lock adsorbs first smart mobile phone in wireless charging panel, keeps its rigidity, prevents that the vehicle from going in-process and dropping, sliding.

In the implementation process of the vehicle-mounted intelligent charging control method, the user can be prompted that the first charging component can directly charge other mobile phones by playing the fourth prompting voice; through third magnetic force lock, can make the phone adsorb in wireless charging panel, unexpected the slip that drops when avoiding charging, holding position is fixed.

Fig. 5 shows a flowchart of a fifth embodiment of the on-board intelligent charging control method of the present invention, which may be executed by an on-board intelligent charging control apparatus/vehicle. After the first prompt voice is played, as shown in fig. 5, the method includes the following steps:

step 510: and when detecting that the first mobile phone is connected to the car machine system, acquiring the electric quantity of the first mobile phone.

When a user enters a cab or approaches a vehicle, the automobile detects and automatically tries to connect to a first mobile phone which is matched and stored in an automobile machine system; when the first mobile phone is connected to the vehicle-mounted system, the vehicle-mounted system can acquire the electric quantity of the first mobile phone in time.

Step 520: when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component.

Wherein the first threshold value may be implemented as 80%; when the current electric quantity of the first smart phone is 55%, it can be judged that the current electric quantity of the first smart phone is lower than 80%, the car machine system plays a first prompt voice to prompt a user to place the first smart phone on a wireless charging bank for wireless charging.

Step 530: and if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone.

When a user places the first smart phone on the wireless power bank for wireless charging, the second magnetic lock can enable the first smart phone to be adsorbed on the wireless power bank, so that the first smart phone cannot fall off or slide in the driving process of a vehicle, and the position is kept fixed; the vehicle machine system can control the wireless charger to start external charging, so that the second magnetic lock of the vehicle machine system is started; the wireless precious treasured that charges still can be configured to the automatic start second magnetic force lock when sensing the equipment contact to realize first smart mobile phone and the absorption of wireless precious that charges. Meanwhile, the wireless charging treasure is also adsorbed and fixed on the wireless charging panel through the first magnetic lock, and wireless charging of the first smart phone in the driving process can be achieved.

Step 540: when a first control instruction sent by the user for picking up the second charging component is received, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone adsorbed with the second charging component.

The first control instruction can be implemented as a voice instruction 'i want to take up the charger baby', and after receiving the voice instruction sent by the user, the vehicle-mounted microphone transmits the voice instruction to the vehicle-mounted microphone system to control the first magnetic lock to unlock. Under this scene, first smart mobile phone still adsorbs in the wireless treasured that charges, nevertheless no longer has suction between wireless treasured and the wireless charging panel that charges, and the user can take up the first smart mobile phone that adsorbs the wireless treasured that charges, realizes the limit and fills with the limit.

Step 550: and when a parking event or a vehicle door opening event is detected, acquiring the electric quantity of the first mobile phone.

In the charging process, when a user opens a vehicle door to get off the vehicle or operates in a parking mode, the vehicle-mounted system detects the electric quantity of the first smart phone; if the electric quantity of the first smart phone is sufficient, no additional operation is needed; if the first smart phone is insufficient in electric quantity, the user needs to take the wireless charging treasure belt to continue charging the mobile phone. It should be noted that, when the first smart phone is not in the charging state, and after the event is triggered, the in-vehicle system still detects the electric quantity of the first smart phone, and executes the charging policy.

Step 560: when the electric quantity of the first mobile phone is lower than a third threshold value, a fifth prompt voice is played; the fifth prompt voice is used for prompting that the user can take the second charging component off the vehicle to continue to wirelessly charge the first mobile phone.

Wherein the third threshold value may be implemented, for example, as 60%; when the electric quantity of the first smart phone is 30%, a fifth prompt voice is played to prompt that a user can carry the wireless charging bank with him or her, so that the first smart phone can be charged continuously after getting off. The third threshold can be set according to actual needs, and the specific value of the third threshold is not limited by the invention.

Step 570: and controlling the first magnetic lock to unlock.

After the broadcast is used for reminding the user to carry the wireless treasured that charges to get off and continue to carry out the fifth suggestion pronunciation that wireless charging was carried out for first smart mobile phone, car machine system will relieve the wireless precious and wireless magnetic lock that charges between the charging panel, and convenience of customers picks up the wireless treasured that charges and carries it to get off, as shown in fig. 8F.

In an optional manner, after the playing the fifth prompt voice, the method further includes: and when receiving a get-off instruction with a second charging component sent by a user, controlling the first magnetic lock to unlock so that the user can pick up the second charging component. In this scenario, if the user does not reply the fifth prompt voice or reply the control command indicating the denial, the in-vehicle system will not actively release the first magnetic lock.

In the implementation process of the vehicle-mounted intelligent charging control method, the electric quantity of the first mobile phone is judged to be smaller than the third threshold value when the parking event or the vehicle door opening event is detected, and the fifth prompt voice can be played in time; through directly unblock first magnetic force lock, let the user avoid too much human-computer interaction in the busy scene of getting off the bus, save the user event, make the user can carry wireless treasured that charges before getting off the bus, continue to charge for the cell-phone that the electric quantity is not enough.

Fig. 6 shows a flowchart of a sixth embodiment of the on-board intelligent charging control method of the present invention, which may be executed by an on-board intelligent charging control apparatus/vehicle. As shown in fig. 6, the method comprises the steps of:

step 610: receiving current position information and residual electric quantity information of the second charging component sent by a server; the current position information and the remaining power information are acquired by the server from the first mobile phone.

The first smart phone can store the current position information of the first smart phone and the residual electric quantity of the wireless charger in the charging process when the charging scene and the portable charging scene are placed. For example, when the first smart phone is adsorbed on the wireless charging pad and placed on the charging process, and the first smart phone is taken up alone, the first smart phone acquires the remaining power information of the wireless charging pad and the current position information of the first smart phone; when the mobile phone is adsorbed to the wireless power bank in the use process outside the vehicle, the first smart phone can acquire the information of the residual electric quantity of the wireless power bank and the current position information of the first smart phone; when the electric quantity of the wireless charging bank is exhausted, the first smart phone obtains the residual electric quantity 0 of the wireless charging bank and the current position information of the first smart phone. Every time wireless treasured, the first smart mobile phone that charges connect when charging, first smart mobile phone accessible bluetooth with first smart mobile phone and wireless precious current position information that charges, and wireless precious residual capacity information record that charges in cell-phone APP to reach high in the clouds server with uploading to it, then the wireless precious current position information that charges of server, and wireless precious residual capacity information that charges issue to the car machine system, also can issue to cell-phone APP.

Step 620: when an instruction for inquiring the second charging member is received, controlling a user interface to display the current position information and the residual electric quantity information of the second charging member; the current position information and the residual power information can also be displayed on a user interface of the first mobile phone.

When the user cannot find the wireless charging treasure, the user can find the wireless charging bag through the first smart phone or the vehicle machine system; after the query instruction is input on the user interface, the vehicle-mounted device system or the first smart phone controls the current position information and the residual electric quantity information of the wireless charging bank issued by the user interface display server when the wireless charging bank is used last, so that a user can check the residual electric quantity of the wireless charging bank or obtain the current position of the wireless charging bank.

In the implementation process of the method vehicle-mounted intelligent charging control method, the current position information and the residual electric quantity information of the second charging component are received and sent by the server, so that a user can check and search the current position and the residual electric quantity information of the second charging component through a mobile phone APP or a vehicle machine system.

Fig. 7 shows a flowchart of a seventh embodiment of the on-board intelligent charging control method of the present invention, which may be executed by an on-board intelligent charging control apparatus/vehicle. After the first prompt voice is played, as shown in fig. 7, the method includes the following steps:

step 710: and when detecting that the first mobile phone is connected to the car machine system, acquiring the electric quantity of the first mobile phone.

When a user enters a cab or approaches a vehicle, the automobile detects and automatically tries to connect to a first mobile phone which is matched and stored in an automobile machine system; when the first mobile phone is connected to the vehicle-mounted system, the vehicle-mounted system can acquire the electric quantity of the first mobile phone in time.

Step 720: when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component.

Wherein the first threshold value may be implemented as 80%; when the current electric quantity of the first smart phone is 55%, it can be judged that the current electric quantity of the first smart phone is lower than 80%, the car machine system plays a first prompt voice to prompt a user to place the first smart phone on a wireless charging bank for wireless charging.

Step 730: and if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone.

When a user places the first smart phone on the wireless power bank for wireless charging, the second magnetic lock can enable the first smart phone to be adsorbed on the wireless power bank, so that the first smart phone cannot fall off or slide in the driving process of a vehicle, and the position is kept fixed; the vehicle machine system can control the wireless charger to start external charging, so that the second magnetic lock of the vehicle machine system is started; the wireless precious that charges still can be configured to the sensing and to the equipment when contact automatic start second magnetic force lock to realize the absorption of first smart mobile phone with the wireless precious that charges. Meanwhile, the wireless charging treasure is also adsorbed and fixed on the wireless charging panel through the first magnetic lock, and wireless charging of the first smart phone in the driving process can be achieved.

Step 740: monitoring a communication state of the first mobile phone while the first mobile phone is placed on the second charging member for wireless charging.

In the charging process, when a user actively sends a second control instruction, the vehicle-mounted device system unlocks the first magnetic lock, and the user can conveniently pick up the first smart phone adsorbed on the wireless charger bank; when a call is incoming, the user is still required to actively send a control instruction to release the first magnetic lock, so that inconvenience is brought to the user, and user experience is reduced; therefore, the first mobile phone is placed in the charging process of the wireless charging bank on the wireless charging panel, and the vehicle-mounted machine system monitors the communication state of the first smart phone.

Step 750: when a call incoming event occurs to the first mobile phone, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone attracted with the second charging component.

When a call is incoming, the car machine system timely controls the first magnetic lock to unlock, so that a user can pick up the first smart phone adsorbed by the wireless charger at any time, and the user can conveniently answer the call, as shown in fig. 8G; under this scene, wireless treasured that charges is still continuing to charge for first smart mobile phone, and the user uses the uninterrupted charging in the cell-phone in-process. The first magnetic lock is actively unlocked through the car machine system, the step that a user releases the first magnetic lock through an instruction is omitted, and the user can use the first smart phone more conveniently and answer the call more quickly.

In the implementation process of the vehicle-mounted intelligent charging control method, the state of the first mobile phone is monitored in the charging process, the first magnetic lock can be actively unlocked at the first time when a call is incoming, the unlocking operation is not required to be executed by a user, the user can take the phone at the first time conveniently, and the operation steps of the user for answering the phone are simplified.

Fig. 9 shows a schematic structural diagram of an embodiment of the vehicle-mounted intelligent charging control device. As shown in fig. 9, the apparatus 900 includes: a detection module 910, an execution module 920, and a lock module 930.

The detection module is used for acquiring the electric quantity of the first mobile phone when detecting that the first mobile phone is connected to the car machine system;

the execution module is used for playing a first prompt voice when the electric quantity of the first mobile phone is lower than a first threshold value; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component; the second charging component is adsorbed on the first charging component through a first magnetic lock; if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone; wherein the first mobile phone is attached to the second charging member by a second magnetic lock;

and the locking module is used for controlling the first magnetic lock to unlock when receiving a first control instruction sent by the user to pick up the second charging component, so that the user picks up the first mobile phone adsorbed with the second charging component.

In an alternative, the detection module is configured to determine whether the user has placed the first mobile phone on the second charging member after a first length of time has elapsed;

the execution module is used for executing the step of controlling the second charging component to wirelessly charge the first mobile phone when the first mobile phone is judged to be placed on the second charging component; playing a second prompt voice when it is determined that the first mobile phone is not placed on the second charging member; the second prompt voice is used for prompting whether the user needs to take up the second charging component to wirelessly charge the first mobile phone;

the locking module is used for controlling the first magnetic lock to unlock after receiving the confirmation instruction, so that the user can pick up the second charging component.

In an optional mode, the detection module is used for monitoring the electric quantity of the second charging component;

the execution module is used for playing a third prompt voice when the electric quantity of the second charging component is lower than a second threshold value; the third prompt voice is used for prompting that the second charging component is insufficient in electric quantity and needs to be placed on the first charging component for charging.

In an optional manner, the execution module is configured to play a fourth prompt voice; the fourth prompting voice is used for prompting the user that the first charging component can wirelessly charge the second mobile phone.

In an alternative form, the detection module is configured to monitor whether there is the second mobile phone placed on the first charging member;

the detection module is used for controlling the first charging component to wirelessly charge the second mobile phone if the second mobile phone exists; wherein the second mobile phone is attached to the first charging member by a third magnetic lock.

In an optional mode, the detection module is used for acquiring the electric quantity of the first mobile phone when a parking event or a vehicle door opening event is detected;

the execution module is used for playing a fifth prompt voice when the electric quantity of the first mobile phone is lower than a third threshold value; the fifth prompt voice is used for prompting the user that the second charging component can be taken off to continue to wirelessly charge the first mobile phone;

the locking module is used for controlling the first magnetic lock to unlock.

In an optional mode, the execution module is configured to receive current position information and remaining power information of the second charging component issued by the server; the current position information and the residual electric quantity information are obtained by the server from the first mobile phone;

the execution module is used for controlling a user interface to display the current position information and the residual electric quantity information of the second charging component when receiving an instruction of inquiring the second charging component; the current position information and the residual power information can also be displayed on a user interface of the first mobile phone.

In an alternative mode, the detection module is used for monitoring the communication state of the first mobile phone when the first mobile phone is placed on the second charging component for wireless charging;

the locking module is used for controlling the first magnetic lock to unlock when the first mobile phone has a call incoming event, so that the user can pick up the first mobile phone adsorbed with the second charging component.

By applying the technical scheme of the invention, the second charging component can be adsorbed on the first charging component by constructing the first magnetic lock; by constructing the second magnetic lock, the first mobile phone can be attracted to the second charging member; by constructing the third magnetic lock, the mobile phone can be attracted to the first charging member; by constructing the first control instruction, the adsorption state of the second charging component and the first charging component can be timely released; by constructing the first prompt voice, the user can be prompted to charge the first mobile phone through the second charging component placed on the first charging component; by constructing a second prompt voice, the user can be prompted to take up the second charging component to charge the first mobile phone; by constructing the third prompt voice, the user can be prompted to charge the second charging component in time to avoid the electric quantity exhaustion; by constructing the fourth prompt voice, the user can be prompted to directly charge the mobile phone through the first charging component; by constructing the fifth prompt voice, the user can be prompted to get off and carry the second charging component to continue charging the first mobile phone; the current position information and the residual electric quantity information of the second charging component sent by the server are obtained, so that a user can display the information when looking up and searching for the second charging component through a mobile phone APP or a vehicle machine system; through monitoring the incoming call, can the very first time initiative relieve first magnetic force lock, realize first mobile phone, and second charging part fixed in position in charging process, avoid sliding and drop, realize using the phone and the beneficial effect that does not suspend charging in the charging process.

Fig. 10 is a schematic structural diagram of an embodiment of an automobile according to the present invention, and the embodiment of the present invention is not limited to the specific implementation of the automobile.

As shown in fig. 10, the automobile may include: a first charging component, a second charging component, a processor (processor)1002, a communication Interface (Communications Interface)1004, a memory 1006, and a communication bus 1008.

Wherein: the processor 1002, communication interface 1004, and memory 1006 communicate with each other via a communication bus 1008. A communication interface 1004 for communicating with network elements of other devices, such as clients or other servers. The first charging component is used for obtaining power from the automobile and wirelessly charging a second charging component or a first mobile phone; the second charging component is adsorbed on the first charging component through a first magnetic lock by default to perform wireless charging, and the first mobile phone is adsorbed on the second charging component through a second magnetic lock to perform wireless charging; the processor 1002 is configured to execute the program 1010, and may specifically execute the relevant steps in the foregoing embodiment of the vehicle-mounted intelligent charging control method.

In particular, program 1010 may include program code comprising computer-executable instructions.

The processor 1002 may be a central processing unit CPU, or an application Specific Integrated circuit asic (application Specific Integrated circuit), or one or more Integrated circuits configured to implement embodiments of the present invention. The one or more processors included in the vehicle may be the same type of processor, such as one or more CPUs; or may be different types of processors such as one or more CPUs and one or more ASICs.

The memory 1006 is used for storing the program 1010. The memory 1006 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The program 1010 may be specifically invoked by the processor 1002 to cause the vehicle to perform the following operations:

when detecting that a first mobile phone is connected to a vehicle-mounted device system, acquiring the electric quantity of the first mobile phone;

when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice, wherein the first prompt voice is used for prompting a user to place the first mobile phone on a second charging component for wireless charging; the second charging component is adsorbed on the first charging component through a first magnetic lock;

if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone; wherein the first mobile phone is attached to the second charging member by a second magnetic lock;

when a first control instruction sent by the user for picking up the second charging component is received, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone adsorbed with the second charging component.

In an optional manner, after the playing the first prompt voice, the method further includes:

determining whether the user has placed the first mobile phone on the second charging member after a first length of time has elapsed;

executing the step of controlling the second charging means to wirelessly charge the first mobile phone when it is determined that the first mobile phone is placed on the second charging means;

playing a second prompt voice when it is determined that the first mobile phone is not placed on the second charging member; the second prompt voice is used for prompting whether the user needs to take up the second charging component to wirelessly charge the first mobile phone;

and after receiving the confirmation instruction, controlling the first magnetic lock to unlock so that the user can take up the second charging component.

In an optional manner, after controlling the first magnetic lock to unlock so that the user picks up the first mobile phone attracted with the second charging component, the method further includes:

monitoring the charge of the second charging member;

when the electric quantity of the second charging component is lower than a second threshold value, a third prompt voice is played; the third prompt voice is used for prompting that the second charging component is insufficient in electric quantity and needs to be placed on the first charging component for charging.

In an optional manner, after controlling the first magnetic lock to unlock so that the user picks up the first mobile phone attracted with the second charging component, the method further includes:

playing a fourth prompt voice; the fourth prompting voice is used for prompting the user that the first charging component can wirelessly charge the second mobile phone.

In an optional manner, after the playing the fourth prompt voice, the method further includes:

monitoring whether there is the second mobile phone placed on the first charging member;

if the user places the second mobile phone on the first charging component, controlling the first charging component to wirelessly charge the second mobile phone; wherein the second mobile phone is attached to the first charging member by a third magnetic lock.

In an optional manner, after the playing the first prompt voice, the method further includes:

when a parking event or a vehicle door opening event is detected, acquiring the electric quantity of the first mobile phone;

when the electric quantity of the first mobile phone is lower than a third threshold value, a fifth prompt voice is played; the fifth prompt voice is used for prompting the user that the second charging component can be taken off to continue to wirelessly charge the first mobile phone;

and controlling the first magnetic lock to unlock.

In an optional manner, the method further comprises:

receiving current position information and residual electric quantity information of the second charging component issued by the server; the current position information and the residual electric quantity information are obtained by the server from the first mobile phone;

when an instruction for inquiring the second charging component is received, controlling a user interface to display the current position information and the residual electric quantity information of the second charging component; the current position information and the residual power information can also be displayed on a user interface of the first mobile phone.

In an optional manner, after the playing the first prompt voice, the method further includes:

monitoring a communication state of the first mobile phone while the first mobile phone is placed on the second charging member for wireless charging;

when a call incoming event occurs to the first mobile phone, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone attracted with the second charging component.

By applying the technical scheme of the invention, the second charging component can be adsorbed on the first charging component by constructing the first magnetic lock; by constructing the second magnetic lock, the first mobile phone can be attracted to the second charging member; by constructing the third magnetic lock, the mobile phone can be attracted to the first charging member; by constructing the first control instruction, the adsorption state of the second charging component and the first charging component can be timely released; by constructing the first prompt voice, the user can be prompted to charge the first mobile phone through the second charging component placed on the first charging component; by constructing a second prompt voice, the user can be prompted to take up the second charging component to charge the first mobile phone; by constructing the third prompt voice, the user can be prompted to charge the second charging component in time to avoid the electric quantity exhaustion; by constructing the fourth prompt voice, the user can be prompted to directly charge the mobile phone through the first charging component; by constructing the fifth prompt voice, the user can be prompted to get off and carry the second charging component to continue charging the first mobile phone; by acquiring the current position information and the residual electric quantity information of the second charging component sent by the server, the information can be displayed when a user checks and searches the second charging component through a mobile phone APP or a vehicle machine system. Through monitoring the incoming call, can the very first time initiative relieve first magnetic force lock, realize first mobile phone, and second charging part fixed in position in charging process, avoid sliding and drop, realize using the phone and the beneficial effect that does not suspend charging in the charging process.

The embodiment of the invention provides a computer-readable storage medium, wherein the storage medium stores at least one executable instruction, and when the executable instruction runs on a vehicle-mounted intelligent charging control device/automobile, the vehicle-mounted intelligent charging control device/automobile is enabled to execute the vehicle-mounted intelligent charging control method in any method embodiment.

The executable instructions may be specifically configured to cause the in-vehicle intelligent charging control device/vehicle to perform the following operations:

when detecting that a first mobile phone is connected to a vehicle-mounted device system, acquiring the electric quantity of the first mobile phone;

when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component; the second charging component is adsorbed on the first charging component through a first magnetic lock;

if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone; wherein the first mobile phone is attached to the second charging member by a second magnetic lock;

when a first control instruction sent by the user for picking up the second charging component is received, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone adsorbed with the second charging component.

In an optional manner, after the playing the first prompt voice, the method further includes:

determining whether the user has placed the first mobile phone on the second charging member after a first length of time has elapsed;

executing the step of controlling the second charging means to wirelessly charge the first mobile phone when it is determined that the first mobile phone is placed on the second charging means;

playing a second prompt voice when it is determined that the first mobile phone is not placed on the second charging member; the second prompt voice is used for prompting whether the user needs to take up the second charging component to wirelessly charge the first mobile phone;

and after receiving the confirmation instruction, controlling the first magnetic lock to unlock so that the user can pick up the second charging component.

In an optional manner, after controlling the first magnetic lock to unlock so that the user picks up the first mobile phone attracted with the second charging component, the method further includes:

monitoring the charge of the second charging member;

when the electric quantity of the second charging component is lower than a second threshold value, a third prompt voice is played; the third prompting voice is used for prompting that the second charging component is required to be placed on the first charging component for charging when the electric quantity is insufficient.

In an optional manner, after controlling the first magnetic lock to unlock so that the user picks up the first mobile phone attracted with the second charging component, the method further includes:

playing a fourth prompt voice; the fourth prompting voice is used for prompting the user that the first charging component can wirelessly charge the second mobile phone.

In an optional manner, after the playing the fourth prompt voice, the method further includes:

monitoring whether there is the second mobile phone placed on the first charging member;

if the second mobile phone exists, controlling the first charging component to wirelessly charge the second mobile phone; wherein the second mobile phone is attached to the first charging member by a third magnetic lock.

In an optional manner, after the playing the first prompt voice, the method further includes:

when a parking event or a vehicle door opening event is detected, acquiring the electric quantity of the first mobile phone;

when the electric quantity of the first mobile phone is lower than a third threshold value, a fifth prompt voice is played; the fifth prompt voice is used for prompting the user that the second charging component can be taken off to continue to wirelessly charge the first mobile phone;

and controlling the first magnetic lock to unlock.

In an optional manner, the method further comprises:

receiving current position information and residual electric quantity information of the second charging component issued by the server; the current position information and the residual electric quantity information are obtained by the server from the first mobile phone;

when an instruction for inquiring the second charging member is received, controlling a user interface to display the current position information and the residual electric quantity information of the second charging member; the current position information and the residual power information can also be displayed on a user interface of the first mobile phone.

In an optional manner, after the playing the first prompt voice, the method further includes:

monitoring a communication state of the first mobile phone while the first mobile phone is placed on the second charging member for wireless charging;

when a call incoming event occurs to the first mobile phone, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone attracted with the second charging component.

By applying the technical scheme of the invention, the second charging component can be adsorbed on the first charging component by constructing the first magnetic lock; by constructing the second magnetic lock, the first mobile phone can be attracted to the second charging member; by constructing the third magnetic lock, the mobile phone can be attracted to the first charging member; by constructing the first control instruction, the adsorption state of the second charging component and the first charging component can be timely released; by constructing the first prompt voice, the user can be prompted to charge the first mobile phone through the second charging component placed on the first charging component; by constructing a second prompt voice, the user can be prompted to take up the second charging component to charge the first mobile phone; by constructing the third prompt voice, the user can be prompted to charge the second charging component in time to avoid the electric quantity exhaustion; by constructing the fourth prompt voice, the user can be prompted to directly charge the mobile phone through the first charging component; by constructing the fifth prompt voice, the user can be prompted to get off and carry the second charging component to continue charging the first mobile phone; the current position information and the residual electric quantity information of the second charging component sent by the server are obtained, so that a user can display the information when looking up and searching for the second charging component through a mobile phone APP or a vehicle machine system; through monitoring the incoming call, can the very first time initiative relieve first magnetic force lock, realize first mobile phone, and second charging part fixed in position in charging process, avoid sliding and drop, realize using the phone and the beneficial effect that does not suspend charging in the charging process.

The algorithms or displays presented herein are not inherently related to any particular computer, virtual system, or other apparatus. In addition, embodiments of the present invention are not directed to any particular programming language.

In the description provided herein, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. Similarly, in the above description of exemplary embodiments of the invention, various features of the embodiments of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the invention and aiding in the understanding of one or more of the various inventive aspects. Where the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

Those skilled in the art will appreciate that the modules in the device in an embodiment may be adaptively changed and disposed in one or more devices different from the embodiment. The modules or units or components of the embodiments may be combined into one module or unit or component, and furthermore they may be divided into a plurality of sub-modules or sub-units or sub-components. Except that at least some of such features and/or processes or elements are mutually exclusive.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names. The steps in the above embodiments should not be construed as limiting the order of execution unless specified otherwise.

Claims (11)

1. A vehicle-mounted intelligent charging control method is characterized by comprising the following steps:

when detecting that a first mobile phone is connected to a vehicle-mounted device system, acquiring the electric quantity of the first mobile phone;

when the electric quantity of the first mobile phone is lower than a first threshold value, playing a first prompt voice; the first prompt voice is used for prompting a user to place the first mobile phone on the second charging component; the second charging component is adsorbed on the first charging component through a first magnetic lock;

if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone; wherein the first mobile phone is attached to the second charging member by a second magnetic lock;

when a first control instruction sent by the user for picking up the second charging component is received, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone adsorbed with the second charging component.

2. The vehicle-mounted intelligent charging control method according to claim 1, wherein after the playing of the first prompt voice, the method further comprises:

determining whether the user has placed the first mobile phone on the second charging member after a first length of time has elapsed;

executing the step of controlling the second charging means to wirelessly charge the first mobile phone when it is determined that the first mobile phone is placed on the second charging means;

playing a second prompt voice when it is determined that the first mobile phone is not placed on the second charging member; the second prompt voice is used for prompting whether the user needs to take up the second charging component to wirelessly charge the first mobile phone;

and after receiving the confirmation instruction, controlling the first magnetic lock to unlock so that the user can pick up the second charging component.

3. The in-vehicle smart charge control method according to claim 1, wherein the controlling the first magnetic lock to unlock the first mobile phone having the second charging member attached thereto, further comprises:

monitoring the charge of the second charging member;

when the electric quantity of the second charging component is lower than a second threshold value, a third prompt voice is played; the third prompt voice is used for prompting that the second charging component is insufficient in electric quantity and needs to be placed on the first charging component for charging.

4. The in-vehicle smart charge control method according to claim 1, wherein the controlling the first magnetic lock to unlock the first mobile phone having the second charging member attached thereto, further comprises:

playing a fourth prompt voice; the fourth prompting voice is used for prompting the user that the first charging component can wirelessly charge the second mobile phone.

5. The vehicle-mounted intelligent charging control method according to claim 4, wherein after the fourth prompt voice is played, the method further comprises the following steps:

monitoring whether there is the second mobile phone placed on the first charging member;

if the second mobile phone exists, controlling the first charging component to wirelessly charge the second mobile phone; wherein the second mobile phone is attached to the first charging member by a third magnetic lock.

6. The vehicle-mounted intelligent charging control method according to claim 1, wherein after the playing of the first prompt voice, the method further comprises:

when a parking event or a vehicle door opening event is detected, acquiring the electric quantity of the first mobile phone;

when the electric quantity of the first mobile phone is lower than a third threshold value, a fifth prompt voice is played; the fifth prompt voice is used for prompting the user that the second charging component can be taken off to continue to wirelessly charge the first mobile phone;

and controlling the first magnetic lock to unlock.

7. The in-vehicle intelligent charging control method according to claim 1, or claim 2, or claim 3, or claim 6, further comprising:

receiving current position information and residual electric quantity information of the second charging component sent by a server; the current position information and the residual electric quantity information are obtained by the server from the first mobile phone;

when an instruction for inquiring the second charging member is received, controlling a user interface to display the current position information and the residual electric quantity information of the second charging member; the current position information and the remaining power information can also be displayed on a user interface of the first mobile phone.

8. The vehicle-mounted intelligent charging control method according to claim 1, wherein after the playing of the first prompt voice, the method further comprises:

monitoring a communication state of the first mobile phone while the first mobile phone is placed on the second charging member for wireless charging;

when a call incoming event occurs to the first mobile phone, the first magnetic lock is controlled to be unlocked, so that the user can pick up the first mobile phone attracted with the second charging component.

9. The utility model provides an on-vehicle intelligent charging controlling means which characterized in that, the device includes:

the detection module is used for acquiring the electric quantity of the first mobile phone when the first mobile phone is detected to be connected to the car machine system;

the execution module is used for playing a first prompt voice for prompting a user to place the first mobile phone on a second charging component for wireless charging when the electric quantity of the first mobile phone is lower than a first threshold value; the second charging component is adsorbed on the first charging component through a first magnetic lock; if the user places the first mobile phone on the second charging component, controlling the second charging component to wirelessly charge the first mobile phone; wherein the first mobile phone is attached to the second charging member by a second magnetic lock;

and the locking module is used for controlling the first magnetic lock to unlock when receiving a first control instruction sent by the user to pick up the second charging component, so that the user picks up the first mobile phone adsorbed with the second charging component.

10. An automobile, comprising: the charging device comprises a first charging component, a second charging component, a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface are communicated with each other through the communication bus;

the first charging component is used for obtaining electric energy from the automobile and wirelessly charging the second charging component or the first mobile phone; the first mobile phone is adsorbed on the first charging component through a third magnetic lock to carry out wireless charging;

the second charging component is adsorbed on the first charging component through a first magnetic lock to perform wireless charging; the first mobile phone is adsorbed on the second charging component through a second magnetic lock to carry out wireless charging;

the memory is used for storing at least one executable instruction, and the executable instruction causes the processor to execute the operation of the vehicle-mounted intelligent charging control method according to any one of claims 1-8.

11. A computer-readable storage medium, wherein the storage medium stores at least one executable instruction, which when executed on an in-vehicle intelligent charging control device/vehicle, causes the in-vehicle intelligent charging control device/vehicle to perform the operations of the in-vehicle intelligent charging control method according to any one of claims 1-8.

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