CN109995119B - Mobile power supply with wireless charging function, control method and storage medium - Google Patents

Abstract

The embodiment of the invention discloses a mobile power supply with a wireless charging function, a control method and a storage medium. Wherein, portable power source includes: the central processing chip is connected with the wireless communication module and the wireless charging module and is used for receiving preset index data transmitted by the wireless communication module, determining whether a terminal to be charged is arranged in a preset position of the wireless charging module and sending a control instruction to the wireless charging module; a battery for storing electric energy; the power supply module is used for supplying power to the central processing chip; the wireless communication module is used for acquiring the preset index data; and the wireless charging module is used for starting or stopping charging the terminal to be charged according to the control instruction sent by the central processing chip. The mobile power supply with the wireless charging function provided by the embodiment of the invention can automatically sense the terminal to be charged to charge, does not need to turn on the charging function through a key, and simplifies the user operation.

Description

Mobile power supply with wireless charging function, control method and storage medium

Technical Field

The embodiment of the invention relates to a mobile power supply, in particular to a mobile power supply with a wireless charging function, a control method and a storage medium.

Background

At present, after a wireless charging function module is added on a mobile power supply, wireless charging can be carried out on a terminal with the wireless charging function. The user no longer has to find a matching data line.

However, the wireless charging module consumes a large amount of electricity, which inevitably leads to waste of the electric quantity of the mobile power supply if the wireless charging module is not always turned off, so that the wireless charging function is in a turned-off state when the conventional mobile power supply with the wireless charging function is not used. After a user opens the wireless charging function through keys arranged on the mobile power supply, the user can put in the terminal for charging, so that the user operation is relatively complicated.

Disclosure of Invention

The embodiment of the invention provides a mobile power supply with a wireless charging function, a control method and a storage medium, so that the mobile power supply with the wireless charging function can automatically sense a terminal to be charged for charging, the charging function is not required to be opened through a key, and the user operation is simplified.

In a first aspect, an embodiment of the present invention provides a mobile power supply with a wireless charging function, including:

The central processing chip is connected with the wireless communication module and the wireless charging module and is used for receiving preset index data transmitted by the wireless communication module, determining whether a terminal to be charged is arranged in a preset position of the wireless charging module according to the preset index data and sending a control instruction to the wireless charging module according to a determination result of whether the terminal to be charged is arranged;

a battery for storing electric energy;

the power supply module is connected with the battery and is used for supplying power to the central processing chip;

the wireless communication module is used for acquiring the preset index data and transmitting the preset index data to the central processing chip;

And the wireless charging module is connected with the battery and used for starting or stopping charging the terminal to be charged through the battery according to the control instruction sent by the central processing chip.

Optionally, the mobile power supply with wireless charging function further includes:

and the charging and discharging module is connected with the battery and the central processing chip and is used for connecting an external power supply or a wired terminal to be charged, and charging the battery through the external power supply or charging the wired terminal to be charged through the battery according to a control instruction of the central processing chip.

Optionally, the wireless communication module includes:

The distance sensor is used for detecting the distance between the preset position of the wireless charging module and the terminal to be charged; and/or the number of the groups of groups,

The light intensity sensor is used for detecting the ambient light intensity at the preset position of the wireless charging module; and/or the number of the groups of groups,

The Bluetooth communication unit is used for acquiring Bluetooth signals sent by the terminal to be charged; and/or the number of the groups of groups,

The capacitive sensor is used for detecting a contact and/or proximity signal at a preset position of the wireless charging module; and/or the number of the groups of groups,

And the infrared proximity sensor is used for detecting whether the terminal to be charged is in a preset distance at the preset position of the wireless charging module.

Optionally, the distance sensor includes:

An infrared laser distance sensor and/or an ultrasonic distance sensor.

In a second aspect, an embodiment of the present invention further provides a mobile power supply control method with a wireless charging function, including:

acquiring preset index data through a wireless communication module, and sending the preset index data to a central processing chip;

determining whether the terminal to be charged is placed in a preset position of the wireless charging module or not according to the preset index data through the central processing chip;

And if the terminal to be charged is determined to be positioned in the preset position of the wireless charging module, controlling the wireless charging module to charge the terminal to be charged through the central processing chip.

Optionally, before the preset index data is obtained through the wireless communication module and the preset index data is sent to the central processing chip, the method further includes:

and initializing the central processing chip in the mobile power supply after the mobile power supply is powered on and started.

Optionally, after the determining, by the central processing chip, whether the terminal to be charged is placed in the preset position of the wireless charging module according to the preset index data, the method further includes:

If the terminal to be charged is not positioned in the preset position of the wireless charging module, the preset index data are continuously acquired through the wireless communication module, and the preset index data are sent to the central processing chip.

Optionally, the preset index data includes:

The wireless charging device comprises at least one of a distance between a preset position of the wireless charging module and a terminal to be charged, an ambient light intensity of the preset position of the wireless charging module, a Bluetooth signal sent by the terminal to be charged, a contact signal of the preset position of the wireless charging module and a proximity signal between the preset position of the wireless charging module and the terminal to be charged.

Optionally, before the preset index data is obtained through the wireless communication module and the preset index data is sent to the central processing chip, the method further includes:

If the mobile power supply is not in an external power supply state, controlling the mobile power supply to enter a sleep state through the central processing chip when the preset sleep time is reached;

and when the preset wake-up time is reached, waking up the mobile power supply through the central processing chip.

In a third aspect, embodiments of the present invention also provide a computer-readable storage medium having a computer program stored thereon.

The program when executed by the processor implements the mobile power supply control method with wireless charging function as provided in any embodiment of the present invention.

The embodiment of the invention provides a wireless communication module, which is used for sensing that a terminal to be charged is in a preset position of the wireless charging module, transmitting preset index data to a central processing chip, and transmitting a control instruction to the wireless charging module by the central processing chip, so that the problem of complicated operation caused by the fact that a mobile power supply can be started through a key when a user charges is solved, the mobile power supply is used for sensing the equipment to be charged, the wireless charging function is automatically started or stopped, and the user operation is simplified.

Drawings

Fig. 1 is a schematic structural diagram of a mobile power supply with a wireless charging function according to a first embodiment of the present invention;

Fig. 2 is a flowchart of a mobile power supply control method with a wireless charging function in a second embodiment of the present invention;

fig. 3 is a flowchart of a mobile power supply control method with a wireless charging function in a third embodiment of the present invention;

fig. 4 is a flowchart of a mobile power supply control method with a wireless charging function in a fourth embodiment of the present invention;

fig. 5 is a flowchart of a mobile power supply control method with wireless charging function in a fifth embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

Example 1

Fig. 1 is a schematic structural diagram of a mobile power supply with a wireless charging function according to an embodiment of the present invention. The embodiment is applicable to a case of charging a terminal to be charged by a mobile power supply having a wireless charging function, as shown in fig. 1, where the mobile power supply includes:

The central processing chip 101 is connected with the wireless communication module 104 and the wireless charging module 105, and is configured to receive preset index data transmitted by the wireless communication module 104, determine whether a terminal to be charged is placed in a preset position of the wireless charging module 105 according to the preset index data, and send a control instruction to the wireless charging module 105 according to a determination result of whether the terminal to be charged is placed.

The terminal to be charged is a terminal with a wireless charging function, and may be a terminal with a wireless charging unit inside or a terminal with a wireless charging unit outside. The terminal to be charged is a mobile phone with a wireless charging function.

The central processing chip 101 is a core module of the whole mobile power supply, and is used for coordinating functions among the modules, storing computer programs, and sending out control instructions to control charging and discharging of the mobile power supply.

The battery 102 is used for storing electric energy, and may be an internal battery or an external power source.

The power supply module 103 is connected to the battery 102 and is used for supplying power to the central processing chip 101.

The wireless communication module 104 is configured to obtain preset index data and transmit the preset index data to the central processing chip 101, and optionally, the wireless communication module 104 includes: the distance sensor is used for detecting the distance between the preset position of the wireless charging module 105 and the terminal to be charged, judging whether the distance between the preset position and the terminal to be charged is within the distance threshold value or not by setting a distance threshold value, if so, charging is carried out, otherwise, the distance is continuously sensed; and/or a light intensity sensor, configured to detect an ambient light intensity at a preset position of the wireless charging module 105, set a light intensity threshold, and charge if a light change at the preset position exceeds the preset threshold, otherwise, continuously sense the light change; and/or, the Bluetooth communication unit is used for acquiring a Bluetooth signal sent by the terminal to be charged, connecting the Bluetooth communication unit with the terminal to be charged with the Bluetooth function, if the terminal to be charged can be connected, charging, otherwise, continuing to sense the Bluetooth of the external equipment; and/or a capacitive sensor for detecting a contact and/or proximity signal at a preset position of the wireless charging module 105, if the contact and/or proximity signal exists at the preset position, charging, otherwise, continuing to sense the contact and/or proximity signal; and/or an infrared proximity sensor, configured to detect whether a terminal to be charged is within a preset distance range at a preset position of the wireless charging module 105, output a level value representing logic 1 or logic 0 to perform charging or stop charging, determine whether a distance between the preset position and the terminal to be charged is within the distance range threshold by setting a distance range threshold, if so, output a level value representing logic 1 to perform charging, otherwise, output a level value representing logic 0 to continue sensing the distance range, and other devices capable of detecting whether the terminal to be charged is at the preset position.

The distance sensor may detect a distance value between the terminal to be charged and the wireless charging module 105, and the distance sensor is an infrared laser distance sensor and/or an ultrasonic distance sensor, for example.

The wireless communication module realizes the function of automatically sensing the terminal to be charged to charge without keys.

The wireless charging module 105 is connected with the battery 102, and is used for starting or stopping charging the terminal to be charged through the battery 102 according to a control instruction sent by the central processing chip 101, and the wireless charging module 105 is used for realizing a wireless charging function of the mobile power supply.

Optionally, the mobile power supply further includes: and the charging and discharging module 106 is connected with the battery 102 and the central processing chip 101 and is used for connecting an external power supply or a wired terminal to be charged, and according to a control instruction of the central processing chip 101, the battery 102 is charged by the external power supply or the wired terminal to be charged is charged by the battery 102, so that the mobile power supply has the charging function of the traditional wired mobile power supply.

According to the mobile power supply with the wireless charging function, whether the terminal to be charged exists at the preset position of the wireless charging module can be judged by obtaining the index data sensed by the wireless communication module, the index data is transmitted to the central processing chip, the central processing chip sends a control instruction to the wireless charging module, and the mobile power supply is charged or stopped, so that the problem that the mobile power supply can charge the terminal to be charged only by a key is solved, and the effect that the mobile power supply with the wireless charging function can automatically sense the terminal to be charged is achieved.

Example two

Fig. 2 is a flow chart of a mobile power supply control method with wireless charging function according to a second embodiment of the present invention. The embodiment is applicable to a case of charging a terminal to be charged by a mobile power supply with a wireless charging function, and the method can be applied to the mobile power supply with the wireless charging function provided in the first embodiment. As shown in fig. 2, the mobile power supply control method with the wireless charging function includes:

S210, acquiring preset index data through the wireless communication module, sending the preset index data to the central processing chip, and presetting a transmission time interval of the wireless communication module to the central processing chip.

The index data may be, but is not limited to, a distance between a preset position of the wireless charging module 105 and the terminal to be charged, a light change of the preset position of the wireless charging module 105, a bluetooth connection condition between the mobile power supply and the terminal to be charged, a contact signal on the preset position of the wireless charging module 105, or an approach signal between the preset position of the wireless charging module 105 and the terminal to be charged.

Before preset index data are obtained through the wireless communication module and sent to the central processing chip, if the mobile power supply is not in an external power supply state, when the preset sleep time is reached, the mobile power supply is controlled to enter the sleep state through the central processing chip; when the preset wake-up time is reached, the mobile power supply is waken up through the central processing chip. For example, a time interval 1s may be preset, so that after the wireless communication module 104 does not detect the terminal to be charged for the first time, the detection function is continued at the interval 1s, so as to prevent the situation that the terminal to be charged is not detected at the preset position and the situation of charging interruption.

And S220, the central processing chip determines whether the terminal to be charged is arranged in the preset position of the wireless charging module according to the preset index data.

The method for determining that the terminal to be charged is located at the preset position of the wireless charging module 105 may include, but is not limited to, that a distance between the terminal to be charged and the preset position of the wireless charging module 105 is within a distance threshold, that a light change of the preset position of the wireless charging module 105 is greater than or equal to a preset light intensity threshold, that a bluetooth communication unit is connected to the terminal to be charged, that a contact signal is received at the preset position of the wireless charging module 105, or that an infrared proximity sensor outputs a level value representing logic 1.

And S230, if the terminal to be charged is determined to be positioned in the preset position of the wireless charging module, the wireless charging module is controlled to charge the terminal to be charged through the central processing chip.

Wherein, the automatic stop charging after the completion of charging has reduced the consumption of electric energy. Under the condition that the terminal to be charged is not available, the central processing chip 101 controls the wireless charging module 105 to stop charging, so that electric energy is effectively stored.

Optionally, after determining, by the central processing chip according to the preset index data, whether the terminal to be charged is placed in the preset position of the wireless charging module, the method further includes:

If it is determined that no terminal to be charged is located in the preset position of the wireless charging module 105, the wireless communication module 104 continues to acquire preset index data, and the preset index data is sent to the central processing chip 101.

Optionally, before the preset index data is obtained through the wireless communication module and sent to the central processing chip, the method further includes:

after the mobile power supply is powered on and started, initializing a central processing chip 101 in the mobile power supply;

If the mobile power supply is not in the external power supply state, when the preset sleep time is reached, the mobile power supply is controlled to enter the sleep state through the central processing chip 101;

when the preset wake-up time is reached, the mobile power supply is waken up by the central processing chip 101.

The central processing chip in the mobile power supply can be initialized to empty the last charging data record, and interference to the current charging is prevented. The preset dormancy time and the preset wakeup time can effectively save electric energy, prevent the charging interruption and ensure that the detection of the terminal to be charged is not missed. For example, if the mobile power supply does not supply power to the outside, the mobile power supply enters into dormancy after the state lasts for 1 minute; when sleep reached 1 minute, wake-up was performed. After the mobile power supply is awakened, if the terminal to be charged which can be charged in a wired or wireless mode is detected, the terminal to be charged is charged; if no terminal to be charged is detected and the duration reaches 1 minute, sleep is entered again.

According to the embodiment, the index data is transmitted to the central processing chip by acquiring the change of the index data of the preset position in the wireless communication module, so that the wireless charging module is controlled to charge the terminal to be charged, and the operation process of a user is effectively reduced.

Example III

Fig. 3 is a flow chart of a mobile power supply control method with wireless charging function according to a third embodiment of the present invention. The present embodiment is based on the above embodiment, and in the present embodiment, the wireless communication module 104 is a distance sensor. The mobile power supply control method with the wireless charging function provided by the embodiment comprises the following steps:

S310, setting a distance threshold value capable of charging, acquiring the distance between the terminal to be charged and a preset position through a distance sensor, transmitting the measured distance to a central processing chip, and presetting a transmission time interval of a wireless communication module to the central processing chip.

And S320, the central processing chip determines whether the terminal to be charged is arranged in the preset position of the wireless charging module according to the measured distance.

If the distance value is greater than the preset distance threshold, it is determined that no terminal to be charged is placed in the preset position of the wireless charging module 105, the distance is continuously acquired through the distance sensor, and the measured distance is continuously sent to the central processing chip 101.

The index data of the preset position of the wireless charging module 105 is continuously sent to the central processing chip 101 through setting time intervals, so that the real-time performance of detection of the wireless communication module 104 is ensured, the interruption of charging is prevented, and the charging is stopped in time after the terminal to be charged is removed.

S330, if the distance value is smaller than or equal to the distance threshold value, determining that the terminal to be charged is placed in the preset position of the wireless charging module, and controlling the wireless charging module to charge the terminal to be charged through the central processing chip.

According to the embodiment, the distance between the preset position in the distance sensor and the terminal to be charged is acquired, the index data are transmitted to the central processing chip, so that the wireless charging module is controlled to charge the terminal to be charged, the operation process of a user is effectively reduced, the terminal to be charged is considered to be absent at the preset position under the condition that the distance value is larger than the distance threshold value, the central processing chip controls the wireless charging module to stop charging, the consumption of electric energy is reduced, and the electric energy is effectively stored.

Example IV

Fig. 4 is a flow chart of a mobile power supply control method with wireless charging function according to a fourth embodiment of the present invention. The present embodiment is based on the above embodiment, and in the present embodiment, the wireless communication module 104 is a light intensity sensor. The mobile power supply control method with the wireless charging function provided by the embodiment comprises the following steps:

s410, setting a light intensity threshold value capable of being charged, acquiring light change of a preset position through a light intensity sensor, sending the measured light change to a central processing chip, and presetting a transmission time interval of a wireless communication module to the central processing chip.

And S420, the central processing chip determines whether a terminal to be charged is arranged in a preset position of the wireless charging module according to the measured light change, if the light change is smaller than a preset change threshold value, the terminal to be charged is determined to be arranged in the preset position of the wireless charging module, the light change is continuously sensed through the light intensity sensor, and the measured light change is continuously sent to the central processing chip.

And S430, if the light change is greater than or equal to the change threshold, determining that the terminal to be charged is arranged in the preset position of the wireless charging module, and controlling the wireless charging module to charge the terminal to be charged through the central processing chip.

According to the embodiment, the index data are transmitted to the central processing chip through obtaining the change of the light intensity of the preset position in the light intensity sensor, so that the wireless charging module is controlled to charge the terminal to be charged, the operation process of a user is effectively reduced, the terminal to be charged is considered to be absent at the preset position under the condition that the light change is smaller than the change threshold value, the central processing chip controls the wireless charging module to stop charging, the consumption of electric energy is reduced, and the electric energy is effectively stored.

Example five

Fig. 5 is a flowchart of a mobile power control method with wireless charging function according to a fifth embodiment of the present invention. The present embodiment is based on the above embodiment, and in the present embodiment, the wireless communication module 104 is a bluetooth communication unit. The mobile power supply control method with the wireless charging function provided by the embodiment comprises the following steps:

S510, detecting whether the external terminal is to be charged or not through the Bluetooth communication unit, sending a connection signal to the central processing chip, and presetting a time interval for detecting external Bluetooth by the Bluetooth communication unit.

S520, the central processing chip determines whether a terminal to be charged is placed in a preset position of the wireless charging module according to a connection signal of the Bluetooth communication unit, if the Bluetooth communication unit is not connected with the terminal to be charged, the terminal to be charged is determined to be placed in the preset position of the wireless charging module, the terminal to be charged is continuously connected with the outside through the Bluetooth communication unit, and the connection signal is continuously sent to the central processing chip.

And S530, if the Bluetooth communication unit is connected to an external terminal to be charged, determining that the terminal to be charged is arranged in a preset position of the wireless charging module, and controlling the wireless charging module to charge the terminal to be charged through the central processing chip.

According to the embodiment, the signal of the Bluetooth communication unit is acquired, the index data are transmitted to the central processing chip, when the Bluetooth communication unit is connected with the terminal to be charged, the central processing chip controls the wireless charging module to charge the terminal to be charged, the operation process of a user is effectively reduced, and under the condition that Bluetooth connection is not available, the central processing chip controls the wireless charging module to stop charging, so that the consumption of electric energy is reduced, and the electric energy is effectively stored.

Example six

A sixth embodiment of the present invention also provides a storage medium containing computer-executable instructions, which when executed by a computer processor, are for performing a mobile power supply control method with a wireless charging function, the method comprising:

acquiring preset index data through a wireless communication module, and sending the preset index data to a central processing chip;

Determining whether a terminal to be charged is placed in a preset position of a wireless charging module or not according to the preset index data through the central processing chip;

And if the terminal to be charged is determined to be positioned in the preset position of the wireless charging module, controlling the wireless charging module to charge the terminal to be charged through the central processing chip.

Of course, the storage medium containing the computer executable instructions provided in the embodiments of the present invention is not limited to the method operations described above, and may also perform the related operations in the mobile power control method with wireless charging function provided in any embodiment of the present invention.

From the foregoing description of embodiments, it will be apparent to those skilled in the art that the present invention may be embodied in software and/or in general hardware, and that the technical solution of the present invention may be embodied essentially or in part in the form of a software product, which may be stored in a computer-readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a FLASH Memory (FLASH), a hard disk, or an optical disk of a computer, etc., including several instructions for causing an apparatus to perform the methods according to the embodiments of the present invention.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, while the invention has been described in connection with the above embodiments, the invention is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the invention, which is set forth in the following claims.

Claims (11)

1. The mobile power supply control method with the wireless charging function is characterized by comprising the following steps of:

when the mobile power supply is not in an external power supply state and reaches a preset sleep time, controlling the mobile power supply to enter the sleep state through a central processing chip, and waking up the mobile power supply through the central processing chip when the sleep time of the mobile power supply reaches a preset wake-up time;

When the mobile power supply is in an awake state and is not in an external power supply state, acquiring preset index data through a wireless communication module, and sending the preset index data to a central processing chip, wherein the preset index data comprises a distance and an environment light intensity, the distance is between a preset position of a wireless charging module and a terminal to be charged, and the environment light intensity is the environment light intensity at the preset position of the wireless charging module;

The central processing chip determines whether a terminal to be charged is placed in a preset position of a wireless charging module according to the distance and the environmental light intensity, and determines that the terminal to be charged is placed in the preset position of the wireless charging module when the distance is within a distance threshold and the light change of the preset position is not less than a preset light intensity threshold;

And if the terminal to be charged is determined to be positioned in the preset position of the wireless charging module, controlling the wireless charging module to charge the terminal to be charged through the central processing chip.

2. The method for controlling a mobile power supply with a wireless charging function according to claim 1, further comprising, before the preset index data is acquired by the wireless communication module and sent to the central processing chip:

and initializing the central processing chip in the mobile power supply after the mobile power supply is powered on and started.

3. The mobile power supply control method with a wireless charging function according to claim 1, wherein after the determining, by the central processing chip, whether the terminal to be charged is placed in the preset position of the wireless charging module according to the preset index data, further comprises:

if the terminal to be charged is not positioned in the preset position of the wireless charging module, the preset index data are continuously acquired through the wireless communication module, and the preset index data are sent to the central processing chip.

4. The mobile power supply control method with a wireless charging function according to claim 1, wherein the preset index data further comprises:

The Bluetooth signal sent by the terminal to be charged, the contact signal of the preset position of the wireless charging module and/or the proximity signal of the preset position of the wireless charging module and the terminal to be charged.

5. A mobile power supply for implementing the method of any one of claims 1-3, wherein the mobile power supply comprises a battery, a power supply module, the wireless communication module, the central processing chip, and the wireless charging module, wherein:

the battery is used for storing electric energy;

The power supply module is connected with the battery and is used for supplying power to the central processing chip;

the wireless communication module is used for acquiring the preset index data and transmitting the preset index data to the central processing chip;

The central processing chip is connected with the wireless communication module and is used for receiving preset index data transmitted by the wireless communication module, determining whether a terminal to be charged is arranged in a preset position of the wireless charging module according to the preset index data and sending a control instruction to the wireless charging module according to a determination result of whether the terminal to be charged is arranged;

And the wireless charging module is connected with the battery and used for starting or stopping charging the terminal to be charged through the battery according to the control instruction sent by the central processing chip.

6. The portable power source with wireless charging function of claim 5, further comprising:

and the charging and discharging module is connected with the battery and the central processing chip and is used for connecting an external power supply or a wired terminal to be charged, and charging the battery through the external power supply or charging the wired terminal to be charged through the battery according to a control instruction of the central processing chip.

7. The portable power source with wireless charging function of claim 5, wherein the wireless communication module comprises:

The distance sensor is used for detecting the distance between the preset position of the wireless charging module and the terminal to be charged;

The light intensity sensor is used for detecting the ambient light intensity at the preset position of the wireless charging module; and/or the number of the groups of groups,

And the infrared proximity sensor is used for detecting whether the terminal to be charged is in a preset distance at the preset position of the wireless charging module.

8. The portable power source with wireless charging function of claim 7, wherein the distance sensor comprises:

An infrared laser distance sensor and/or an ultrasonic distance sensor.

9. A mobile power supply for implementing the method of claim 4, wherein the mobile power supply comprises a battery, a power supply module, the wireless communication module, the central processing chip, and the wireless charging module, wherein:

the battery is used for storing electric energy;

The power supply module is connected with the battery and is used for supplying power to the central processing chip;

the wireless communication module is used for acquiring the preset index data and transmitting the preset index data to the central processing chip;

The central processing chip is connected with the wireless communication module and is used for receiving preset index data transmitted by the wireless communication module, determining whether a terminal to be charged is arranged in a preset position of the wireless charging module according to the preset index data and sending a control instruction to the wireless charging module according to a determination result of whether the terminal to be charged is arranged;

And the wireless charging module is connected with the battery and used for starting or stopping charging the terminal to be charged through the battery according to the control instruction sent by the central processing chip.

10. The portable power source with wireless charging function of claim 9, wherein the wireless communication module further comprises:

the Bluetooth communication unit is used for acquiring Bluetooth signals sent by the terminal to be charged; and/or the number of the groups of groups,

The capacitive sensor is used for detecting a contact and/or proximity signal at a preset position of the wireless charging module; and/or the number of the groups of groups,

11. A computer-readable storage medium having stored thereon a computer program, wherein the program when executed by a processor implements the mobile power supply control method with wireless charging function as claimed in any one of claims 1 to 4.