CN112954529A - Double-earphone balanced use method and double earphones - Google Patents

Abstract

The invention discloses a double-earphone balanced use method and double earphones, wherein when a box cover of an earphone box is detected to be opened, the use parameters of earphones which are taken out of the box last time are obtained, if the use parameters exceed corresponding set thresholds, a user is prompted to select another earphone to take out of the box, the same earphone is prevented from being excessively used, the service life of batteries of the two earphones is prevented from being unbalanced, the use balance of the earphones is improved, and the integral service life of the double earphones is prolonged.

Description

Double-earphone balanced use method and double earphones

Technical Field

The invention belongs to the technical field of double earphones, and particularly relates to a double-earphone balanced use method and a double earphone.

Background

With the popularization of wireless earphones, users have more and more time to listen music and talk with the wireless earphones.

Many users are used to wear two earphones when listening to music and wear a single earphone when talking. Due to personal use habits of users, one earphone on one fixed side is often used with a high probability, the use habits have adverse effects on the hearing of the ears corresponding to the users, and the service lives of the earphones are also accelerated to be lost, namely the service lives of the two earphones are unbalanced.

Disclosure of Invention

The invention provides a balanced use method of double earphones, which improves the balance of the use of the earphones.

In order to solve the technical problems, the invention adopts the following technical scheme:

a double-earphone balanced use method comprises a left earphone, a right earphone and an earphone box, and comprises the following steps:

detecting the opening and closing state of a box cover of the earphone box;

when the opening of a box cover of the earphone box is detected, obtaining the use parameters of the earphone which is taken out of the box last time, wherein the use parameters comprise one or more of the power consumption and the time of taking out the earphone from the box last time;

and if the use parameters exceed the corresponding set thresholds, prompting to select another earphone to go out of the box.

Further, when it is detected that the box cover of the earphone box is opened, before the use parameters of the earphones which are taken out of the box last time are obtained, the double-earphone balanced use method further comprises the following steps:

when the opening of a box cover of the earphone box is detected, whether the box outlet frequency i of the same earphone in the latest set time T is larger than or equal to the set frequency is judged;

if yes, prompting to select another earphone to go out of the box;

and if not, acquiring the use parameters of the earphone which is taken out of the box last time.

Still further, when it is detected that the box cover of the earphone box is opened, before the use parameters of the earphones which are taken out of the box last time are obtained, the double-earphone balanced use method further comprises the following steps:

when the opening of a box cover of the earphone box is detected, whether the box outlet frequency i of the same earphone in the latest set time T is larger than or equal to a set frequency is judged, the power consumption of each time of box outlet in the i times of box outlet is smaller than a set power threshold, and the sum of the power consumption of the i times of box outlet is larger than a set total power threshold; wherein the set electric quantity threshold value is less than the set total electric quantity threshold value;

if yes, prompting to select another earphone to go out of the box;

and if not, acquiring the use parameters of the earphone which is taken out of the box last time.

Furthermore, when the opening of the box cover of the earphone box is detected, before the use parameters of the earphone which is taken out of the box last time are obtained, the balanced use method of the double earphones further comprises the following steps:

when the opening of a box cover of the earphone box is detected, whether the box outlet times i of the same earphone in the latest set time T are larger than or equal to the set times is judged, the box outlet time of each time of the box outlet of the i times is smaller than a set time threshold, and the sum of the box outlet times of the i times of box outlet is larger than a set total time threshold; wherein the set time threshold is less than the set total time threshold;

if yes, prompting to select another earphone to go out of the box;

and if not, acquiring the use parameters of the earphone which is taken out of the box last time.

And further, the other earphone is prompted to be selected to go out of the box through a prompting module on the other earphone or a prompting module in the earphone box.

Further, the dual-earphone equalization use method further includes:

when one earphone is detected to be changed from an unworn state to a worn state, the current electric quantity G of the earphone is acquired_R；

When the earphone is detected to be converted from the wearing state to the non-wearing state, the current electric quantity G 'of the earphone is acquired'_R；

Calculating the power consumption delta G of the earphone when the earphone is taken out of the box_R=G_R-G’_RAnd storing.

Still further, the dual-earphone equalization use method further includes:

when one of the earphones is detected to be out of the box, the current electric quantity G of the earphone is acquired_R；

When the earphone is detected to be plugged into the box, the current electric quantity G 'of the earphone is acquired'_R；

Calculating the power consumption delta G of the earphone when the earphone is taken out of the box_R=G_R-G’_RAnd storing.

Furthermore, the dual-earphone equalization use method further comprises the following steps:

when one earphone is detected to be out of the box, timing is started;

when the earphone is detected to be placed in the box, timing is finished;

and calculating and storing the box outlet time of the earphone when the earphone is taken out of the box.

Still further, the dual-earphone equalization use method further includes:

when detecting that one earphone is converted from an unworn state to a worn state, starting timing;

when the earphone is detected to be changed from the wearing state to the non-wearing state, timing is finished;

and calculating and storing the box outlet time of the earphone when the earphone is taken out of the box.

A double earphone comprises a left earphone, a right earphone and an earphone box, wherein the double earphones adopt the double earphone balanced use method.

Compared with the prior art, the invention has the advantages and positive effects that: according to the double-earphone balanced use method and the double earphones, when the opening of the box cover of the earphone box is detected, the use parameters of the earphones which are taken out of the box last time are obtained, if the use parameters exceed the corresponding set threshold, a user is prompted to select another earphone to take out of the box, the condition that the same earphone is excessively used is avoided, the service life of batteries of the two earphones is not balanced is avoided, the use balance of the earphones is improved, and the whole service life of the double earphones is prolonged.

Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when taken in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a block diagram of a structure of an embodiment of a dual headset according to the present invention;

fig. 2 is a flowchart of an embodiment of a method for using dual-headphone equalization proposed by the present invention;

fig. 3 is a flowchart of another embodiment of a dual-headphone equalization usage method proposed by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples.

Aiming at the conditions that the two earphones of the existing double earphones are unbalanced in use and the service lives of batteries are unbalanced, the invention provides a double earphone balanced use method and the double earphones, and the use balance of the earphones is improved. The following describes the dual earphones and the method for using the dual earphone equalization in detail by using specific embodiments with reference to the accompanying drawings.

The dual earphones of the present embodiment include a left earphone, a right earphone, and an earphone case, as shown in fig. 1. The earphone box is used for containing the two earphones and providing a charging function for the two earphones.

The left earphone comprises a main control module, a communication module, a prompt module, a wearing detection module, an in-out box detection module, a rechargeable battery, a timer, a loudspeaker, a microphone and the like; the main control module is respectively connected with the communication module, the prompt module, the wearing detection module, the in-out box detection module, the rechargeable battery, the timer, the loudspeaker and the microphone. The prompting module is used for prompting the selection of the left earphone to go out of the box, and can be an LED indicating lamp or other functional modules which can cause the attention of a user. The wearing detection module is used for detecting wearing of the left earphone, and comprises but not limited to a capacitance detection module and an optical detection module, and whether the left earphone is worn on the ears of a person or not can be detected. The in-out box detection module is used for detecting in and out of the left earphone, and comprises but is not limited to a Hall detection module, an optical detection module, a load detection module and the like, so that whether the left earphone is correctly placed in the earphone box or taken out of the earphone box can be detected.

The right earphone comprises a main control module, a communication module, a prompt module, a wearing detection module, an in-out box detection module, a rechargeable battery, a timer, a loudspeaker, a microphone and the like; the main control module is respectively connected with the communication module, the prompt module, the wearing detection module, the in-out box detection module, the rechargeable battery, the timer, the loudspeaker and the microphone. The prompting module is used for prompting the selection of the right earphone to go out of the box, and can be an LED indicating lamp or other functional modules which can draw attention of a user. The wearing detection module is used for carrying out wearing detection on the right earphone, and comprises but not limited to a capacitance detection module and an optical detection module, and whether the right earphone is correctly worn on the ears of a person can be detected. The in-out box detection module is used for carrying out in-out box detection on the right earphone, comprises but is not limited to a Hall detection module, an optical detection module, a load detection module and the like, and can detect whether the right earphone is correctly placed in the earphone box or taken out of the earphone box.

The earphone box comprises a microprocessor, a communication module, a prompt module, an in-out box detection module, a switch cover detection module, a rechargeable battery, a timer, a storage module, a power management module and the like; the microprocessor is respectively connected with the communication module, the prompt module, the in-out box detection module, the switch cover detection module, the rechargeable battery, the timer, the storage module and the power management module. The power management module is used for converting power output by the rechargeable battery into different working voltages and supplying power to each electric appliance of the earphone box. The prompting module comprises a left ear prompting module and a right ear prompting module, the left ear prompting module is used for prompting and guiding a user to select a left earphone to be taken out of the box, and the right ear prompting module is used for prompting and guiding the user to select a right earphone to be taken out of the box. The prompting module can be an LED indicator light, or other functional modules that can draw attention of the user, for example, the left ear prompting module is an LED light disposed in the earphone box at one side of the left earphone, and the right ear prompting module is an LED light disposed in the earphone box at one side of the right earphone. The in-out box detection module is used for detecting in and out of the left earphone and the right earphone, and comprises but not limited to a Hall detection module, an optical detection module, a load detection module and the like, so that whether the left earphone and the right earphone are correctly placed in the earphone box or taken out of the earphone box can be detected. The switch cover detection module is used for detecting the switch state of a box cover of the earphone box.

The communication module of the left earphone comprises a Bluetooth communication module and a case communication module.

The communication module of the right earphone comprises a Bluetooth communication module and a case communication module.

The communication module of the earphone box comprises a Bluetooth communication module and a box communication module.

When the left earphone is placed in the earphone box, the box communication module of the left earphone is connected with the box communication module of the earphone box for communication.

When the right earphone is placed in the earphone box, the box communication module of the right earphone is connected with the box communication module of the earphone box for communication.

The earphone box communication module comprises but is not limited to a communication module supporting a double-wire serial port or a single-wire serial port and the like, and can realize command and information interaction between the earphone and the earphone box.

The double earphones of the embodiment adopt the double earphone balanced use method to improve the balance of earphone use. The microprocessor of the earphone box, the main control module of the left earphone and the main control module of the right earphone jointly execute the balanced use method of the double earphones.

The method for using the dual-earphone equalization of the embodiment mainly comprises the following steps, which are shown in fig. 2.

Step S11: and detecting the opening and closing state of the box cover of the earphone box.

The switch cover detection module of the earphone box is used for detecting the switch state of a box cover of the earphone box. When it is detected that the lid of the earphone box is opened, step S12 is performed.

Step S12: and acquiring the use parameters of the earphone which is taken out of the box last time, wherein the use parameters comprise one or more of the power consumption and the time of taking out the earphone from the box last time. The usage parameters comprise the power consumption of the last box output or/and the box output time.

The user opens the earphone box cover, the opening and closing cover detection module of the earphone box informs the microprocessor after detecting the opening action, and the microprocessor inquires the storage module to know whether the earphone which is taken out of the box last time is a left earphone or a right earphone.

And if the right earphone is taken out of the box last time, acquiring the use parameters of the right earphone taken out of the box last time, including the power consumption or/and the time of the right earphone taken out of the box last time.

And if the left earphone is taken out of the box last time, acquiring the use parameters of the left earphone taken out of the box last time, including the power consumption or/and the time of the left earphone taken out of the box last time.

Step S13: and judging whether the use parameters of the earphones which are taken out of the box last time exceed the corresponding set threshold values.

And if the use parameter exceeds the corresponding set threshold, prompting to guide the user to select another earphone to go out of the box.

And if the use parameters do not exceed the corresponding set threshold, no prompt guidance is carried out.

When the use parameters comprise the power consumption of the earphone taken out of the box last time, the power consumption of the earphone taken out of the box last time is obtained when the opening of the box cover of the earphone box is detected. And if the power consumption of the earphone which is taken out of the box last time is larger than the set power threshold Gth, prompting the user to select another earphone to take out of the box. And if the power consumption of the earphone which is taken out of the box last time is less than or equal to the set power threshold Gth, no prompt guidance is carried out.

When the use parameters comprise the last box outlet time, when the opening of the box cover of the earphone box is detected, the last box outlet time of the earphone is obtained. And if the out-of-box time of the earphone which is taken out of the box last time is larger than the set time threshold value Tth, prompting to guide the user to select another earphone to take out of the box. And if the time for taking out the earphone from the box last time is less than or equal to the set time threshold Tth, no prompt guidance is performed.

When the use parameters comprise the power consumption and the box-out time of the last box-out, the power consumption and the box-out time of the last earphone box-out are obtained when the box cover of the earphone box is detected to be opened. And if the power consumption of the earphone which is taken out of the box last time is larger than the set power threshold Gth, or the time for taking out the earphone which is taken out of the box last time is larger than the set time threshold Tth, prompting the user to select another earphone to take out of the box. And if the power consumption of the earphones which are taken out of the box last time is less than or equal to the set power threshold Gth and the time for taking out the earphones which are taken out of the box last time is less than or equal to the set time threshold Tth, no prompt guidance is performed.

For example: when the box cover of the earphone box is detected to be opened, the storage module is inquired, the right earphone is obtained from the last time, the power consumption of the right earphone in the last time of box outlet and the box outlet time of the right earphone in the last time of box outlet are obtained.

And if the power consumption of the right earphone in the last time of box outlet is larger than the set power threshold Gth, or the last time of box outlet is larger than the set time threshold Tth, prompting to guide the user to select the left earphone in the box outlet.

And if the power consumption of the right earphone in the last time of box discharging is less than or equal to the set power threshold Gth and the box discharging time of the right earphone in the last time of box discharging is less than or equal to the set time threshold Tth, no prompt guidance is performed.

According to the double-earphone balanced use method, when the situation that the box cover of the earphone box is opened is detected, the use parameters of the earphones which are out of the box last time are obtained, if the use parameters exceed the corresponding set threshold values, a user is prompted to select another earphone to be out of the box, the situation that the same earphone is excessively used is avoided, the situation that the service lives of batteries of the two earphones are unbalanced is avoided, the use balance of the earphones is improved, and the whole service life of the double earphones is prolonged.

According to the double-earphone balanced use method, the use condition of the earphone is judged by detecting the power consumption or/and the time of the earphone being taken out of the box last time, corresponding guide instructions are provided for the user, the probability that the user uses the earphone used for a long time last time again is reduced, and the bad earphone use habit of the user is changed.

In this embodiment, when the user needs to be prompted to guide to select another earphone to go out of the box, the user can be prompted to guide to select another earphone to go out of the box through the prompting module on the other earphone or the prompting module in the earphone box, and the user can be prompted and guided conveniently and intuitively.

When the user is prompted to guide to select the left earphone to be taken out of the box, prompting can be performed through a prompting module on the left earphone, for example, an LED lamp on the left earphone flickers; the left ear prompt module in the earphone box can be used for prompting, for example, an LED lamp positioned on one side of the left earphone in the earphone box flickers.

When the user is prompted to guide to select the right earphone to be taken out of the box, prompting can be performed through a prompting module on the right earphone, for example, an LED lamp on the right earphone flickers; the prompt can also be carried out through a right ear prompt module in the earphone box, for example, an LED lamp positioned on one side of the right earphone in the earphone box flickers.

For example:

when the switch cover detection module of the earphone box detects that the box cover of the earphone box is opened, the microprocessor is informed to inquire the storage module, the right earphone is obtained from the last time, the power consumption of the right earphone from the last time is obtained, and the time of the earphone from the last time is obtained.

If the last power consumption of the right earphone is greater than the set power threshold Gth, or the last time of the earphone is greater than the set time threshold Tth, the microprocessor controls the left ear indication module in the earphone box to work (for example, the LED lamp on one side of the left earphone in the earphone box flickers), or the microprocessor sends a guide indication command to the left earphone through the earphone box and the earphone box communication module of the left earphone, the main control module of the left earphone receives the guide indication command and then controls the indication module of the left earphone to work (for example, the LED lamp on the left earphone flickers), so that the user is prompted to select the left earphone to go out of the box, and the probability that the user uses the right earphone again is reduced.

If the power consumption of the right earphone in the last time of box opening is less than or equal to the set power threshold Gth and the box opening time of the right earphone in the last time of box opening is less than or equal to the set time threshold Tth, prompt guidance is not performed when the user opens the cover at the time.

As a preferable design of this embodiment, when it is detected that the lid of the earphone box is opened, before performing step S12, the method for using dual earphones in an equalization manner of this embodiment further includes the following steps, as shown in fig. 3.

Step S12-1: when the opening of the box cover of the earphone box is detected, whether the box outlet frequency i of the same earphone in the latest set time T is larger than or equal to the set frequency is judged. The box output times i can be continuous box output times i of the same earphone within the latest set time T, or cumulative box output times i of the same earphone within the latest set time T.

If the earphone is the same as the earphone, the earphone is prompted to be guided to select another earphone to be taken out of the box, and therefore the probability that the user uses the same earphone again is reduced. Assuming the right earpiece satisfies the condition, the prompt guides the user to select the left earpiece. Assuming the left earpiece satisfies the condition, the prompt guides the user to select the right earpiece. One earphone is optional, provided that both the left and right earphones satisfy the condition.

If not, that is, the number of times of box outlet i of the same earphone in the latest set time T is not more than the set number of times, executing S12: and acquiring the use parameters of the earphone which is taken out of the box last time.

The step mainly considers the factor of the number i of the boxes, avoids overuse of one earphone, and avoids unbalanced use of the earphones.

For example, time T =10 minutes and the number of times T =7 are set. When the opening of the box cover of the earphone box is detected, whether the box outlet frequency i of the same earphone in the last 10 minutes is more than or equal to 7 is judged. If the condition is met, for example, the box-out times of the right earphone (or the left earphone) in the last 10 minutes is more than or equal to 7, an LED lamp on the left earphone (or the right earphone) flickers, or an LED lamp positioned on one side of the left earphone (or the right earphone) in the earphone box flickers, so that the user is prompted to select the left earphone (or the right earphone) to go out of the box, and the probability that the user selects the right earphone (or the left earphone) again is reduced. If not, S12 is executed.

As another preferred design of this embodiment, when it is detected that the lid of the earphone box is opened, before performing step S12, the equalization use method of this embodiment further includes the following steps:

when the opening of a box cover of the earphone box is detected, whether the box outlet frequency i of the same earphone in the latest set time T is larger than or equal to a set frequency is judged, the power consumption of the earphone in each time of box outlet of the time i is smaller than a set power threshold Gth, and the sum of the power consumption of the time i of box outlet is larger than a set total power threshold Gth₀(ii) a Wherein the set electric quantity threshold value Gth is less than the set total electric quantity threshold value Gth₀. The box output times i can be continuous box output times i of the same earphone within the latest set time T, or cumulative box output times i of the same earphone within the latest set time T.

If so, prompting to guide the user to select another earphone to go out of the box, thereby reducing the probability that the user uses the same earphone again. Assuming the right earpiece satisfies the condition, the prompt guides the user to select the left earpiece. Assuming the left earpiece satisfies the condition, the prompt guides the user to select the right earpiece. One earphone is optional, provided that both the left and right earphones satisfy the condition.

If not, go to S12: and acquiring the use parameters of the earphone which is taken out of the box last time.

The method comprehensively considers the factors of the number i of the box outlet times, the power consumption of box outlet each time and the sum of the power consumption of box outlet for i times, accurately judges the use condition of the earphones and accurately gives a prompt, thereby avoiding overuse of one earphone and avoiding unbalanced use of the earphones.

As still another preferable design of this embodiment, before performing step S12 when it is detected that the lid of the earphone box is opened, the equalization use method of this embodiment further includes the following steps:

when the opening of a box cover of the earphone box is detected, whether the box outlet frequency i of the same earphone in the latest set time T is larger than or equal to the set frequency is judged, the box outlet time of the earphone in each box outlet of the i times is smaller than a set time threshold Tth, and the sum of the box outlet time of the i times of box outlet is larger than a set total time threshold Tth₀(ii) a Wherein the set time threshold value Tth is less than the set total time threshold value Tth₀. The box output times i can be continuous box output times i of the same earphone within the latest set time T, or cumulative box output times i of the same earphone within the latest set time T.

If so, prompting to guide the user to select another earphone to go out of the box, thereby reducing the probability that the user uses the same earphone again. Assuming the right earpiece satisfies the condition, the prompt guides the user to select the left earpiece. Assuming the left earpiece satisfies the condition, the prompt guides the user to select the right earpiece.

If not, go to S12: and acquiring the use parameters of the earphone which is taken out of the box last time.

The method comprehensively considers the factors of the box outlet times i, the box outlet time each time and the sum of the box outlet time of the box outlet for i times, accurately judges the use condition of the earphones and accurately gives a prompt, thereby avoiding overuse of one earphone and avoiding unbalanced use of the earphones.

After receiving the prompt guide information, the user selects to take one of the earphones, and then needs to calculate the power consumption and the box outlet time of the earphone which is taken out of the box.

As a preferred design of this embodiment, in order to obtain the power consumption of the earphone taken out of the box this time, the method for using the dual earphones in a balanced manner further includes the following steps:

(11) when one of the earphones is detected to be unwornWhen the state is converted into the wearing state, the current electric quantity G of the earphone is obtained_R。

The user only takes out one earphone (such as a right earphone) from the earphone box and wears the earphone, the wearing detection module of the earphone sends the wearing state to the main control module of the earphone, the main control module of the earphone starts to work normally, and the current electric quantity G of the battery of the earphone is obtained through the electricity meter_R。

(12) When the earphone is detected to be converted from the wearing state to the non-wearing state, the current electric quantity G 'of the earphone is acquired'_R。

The earphone is taken down from the ear after the user finishes using the earphone, the wearing detection module of the earphone sends the non-wearing state to the main control module of the earphone, and the main control module of the earphone acquires the electric quantity G 'of the current battery through the electricity meter'_R。

(13) Calculating the power consumption delta G of the earphone when the earphone is taken out of the box_R=G_R-G’_RAnd storing.

The master control module of the earphone calculates delta G_R=G_R-G’_RAnd obtaining the electric quantity consumed by the box discharging. The user opens the cover of the earphone box to put the earphone into the earphone box, the main control module of the earphone sends the electric quantity delta G consumed in the use to the microprocessor of the earphone box (the microprocessor is awakened by the switch cover detection module of the earphone box) through the earphone box and the box communication module of the earphone_R. The microprocessing of the earphone box receives the electric quantity delta G consumed by the earphone in the use_RAnd stored in the storage module.

If the user takes out two earphones for use, the power consumption of the outgoing box is not stored.

Since the power consumption of the headset is relatively high in the wearing state, only the power consumption of the headset in the wearing state is calculated in the steps (11) to (13), and the calculation is simple and convenient.

Secondly, as another preferred design scheme of this embodiment, in order to obtain the power consumption of the earphone taken out of the box this time, the method for using the dual earphones in a balanced manner further includes the following steps:

(21) when examiningWhen one of the earphones is detected to be out of the box, the current electric quantity G of the earphone is acquired_R。

The user only takes out one earphone (such as a right earphone) from the earphone box, the in-out box detection module of the earphone sends the out-box state of the earphone to the main control module of the earphone, the main control module of the earphone starts to work normally, and the current electric quantity G of the battery of the earphone is obtained through the electric quantity meter_R。

(22) When the earphone is detected to be plugged into the box, the current electric quantity G 'of the earphone is acquired'_R。

The earphone is taken down from the ear and placed into an earphone box after a user finishes using the earphone, the in-out box detection module of the earphone sends the in-box state to the main control module of the earphone, and the main control module of the earphone acquires the electric quantity G 'of the current battery through an electricity meter'_R。

(23) Calculating the power consumption delta G of the earphone when the earphone is taken out of the box_R=G_R-G’_RAnd storing.

The master control module of the earphone calculates delta G_R=G_R-G’_RAnd obtaining the electric quantity consumed by the box discharging. The main control module of the earphone sends the electric quantity delta G consumed in the use to a microprocessor of the earphone box (the microprocessor is awakened by a switch cover detection module of the earphone box) through the earphone box and a box communication module of the earphone_R. The microprocessing of the earphone box receives the electric quantity delta G consumed by the earphone in the use_RAnd stored in the storage module.

If the user takes out two earphones for use, the power consumption of the outgoing box is not stored.

In the steps (21) - (23), when the earphone is detected to be out of the box and in the box, the battery power is respectively obtained to calculate the power consumption of the earphone used this time, namely, the power consumption of the earphone outside the earphone box is calculated, and the power consumption calculation is accurate.

Thirdly, as an optimal design scheme of this embodiment, in order to obtain the box-out time of the current box-out earphone, the method for using the dual earphones in an equalization manner in this embodiment further includes the following steps:

(31) when one of the earphones is detected to be out of the box, timing is started.

A user only takes out one earphone (such as a right earphone) from the earphone box, the in-out box detection module in the earphone box detects that the earphone is out of the box, the out-box state of the earphone is sent to the microprocessor in the earphone box, and after the microprocessor receives the information of the out-box state of the earphone, the timer of the microprocessor starts to time.

(32) When the earphone is detected to be put into the box, the timing is ended.

After the user finishes using the earphone, the earphone is placed into the earphone box, the in-box state of the earphone is sent to the microprocessor in the earphone box after the in-box detection module of the earphone box detects that the earphone is placed into the box, and the microprocessor finishes timing after receiving the information of the in-box state of the earphone.

(33) And calculating and storing the box outlet time of the earphone when the earphone is taken out of the box.

The microprocessor calculates the timing time of this time, namely the time T of the earphone going out of the box is obtained_RAnd stored in the memory module.

If the user takes out two earphones for use, the out-of-box time is not stored.

In the steps (31) to (33), when the earphone is detected to be taken out of the box or put into the box, timing is started and ended so as to calculate the time for taking out the box of the earphone at the time, and the timing is accurate, simple and convenient.

Fourthly, as another preferred design scheme of this embodiment, in order to obtain the box-out time of the current box-out earphone, the method for using the dual earphones in an equalization manner in this embodiment further includes the following steps:

(41) when one of the earphones is detected to be changed from the unworn state to the worn state, timing is started.

The user only takes out one earphone (such as a right earphone) from the earphone box and wears the earphone, the wearing detection module of the earphone sends the wearing state to the main control module of the earphone, and the timer of the main control module of the earphone starts to time.

(42) And when the earphone is detected to be changed from the wearing state to the non-wearing state, ending the timing.

The user takes the earphone off the ear after finishing using the earphone, the wearing detection module of the earphone sends the non-wearing state to the main control module of the earphone, and the main control module of the earphone controls the timer to finish timing after receiving the information of the non-wearing state of the earphone.

(43) And calculating and storing the box outlet time of the earphone when the earphone is taken out of the box.

The main control module of the earphone calculates the timing time of this time, namely the time of the earphone in the wearing state of this time is obtained and is used as the time T of the earphone in the box_R. The user opens the box cover of the earphone box to put the earphone into the earphone box, and the main control module of the earphone sends the current time of going out of the box to the microprocessor of the earphone box (the microprocessor is awakened by the switch cover detection module of the earphone box) through the earphone box and the box communication module of the earphone. The micro-processing of the earphone box receives the current earphone outgoing time and stores the time in the storage module.

If the user takes out two earphones for use, the out-of-box time is not stored.

When the earphone is taken out and not worn, the loss of the earphone is very small, and the loss of the earphone is larger only when the earphone is in a wearing state, so that the time of the earphone in the wearing state is approximately equal to the time of the earphone going out of the box, and the calculation is simplified.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. A double-earphone balanced use method is provided, wherein the double earphones comprise a left earphone, a right earphone and an earphone box, and the double-earphone balanced use method is characterized in that: the double-earphone equalization use method comprises the following steps:

detecting the opening and closing state of a box cover of the earphone box;

when the opening of a box cover of the earphone box is detected, obtaining the use parameters of the earphone which is taken out of the box last time, wherein the use parameters comprise one or more of the power consumption and the time of taking out the earphone from the box last time;

and if the use parameters exceed the corresponding set thresholds, prompting to select another earphone to go out of the box.

2. The method for using the dual earphone in equalization as claimed in claim 1, wherein: when the opening of the box cover of the earphone box is detected, before the use parameters of the earphones which are taken out of the box last time are obtained, the balanced use method of the double earphones further comprises the following steps:

when the opening of a box cover of the earphone box is detected, whether the box outlet frequency i of the same earphone in the latest set time T is larger than or equal to the set frequency is judged;

if yes, prompting to select another earphone to go out of the box;

and if not, acquiring the use parameters of the earphone which is taken out of the box last time.

3. The method for using the dual earphone in equalization as claimed in claim 1, wherein: when the opening of the box cover of the earphone box is detected, before the use parameters of the earphones which are taken out of the box last time are obtained, the balanced use method of the double earphones further comprises the following steps:

when the opening of a box cover of the earphone box is detected, whether the box outlet frequency i of the same earphone in the latest set time T is larger than or equal to a set frequency is judged, the power consumption of each time of box outlet in the i times of box outlet is smaller than a set power threshold, and the sum of the power consumption of the i times of box outlet is larger than a set total power threshold; wherein the set electric quantity threshold value is less than the set total electric quantity threshold value;

if yes, prompting to select another earphone to go out of the box;

and if not, acquiring the use parameters of the earphone which is taken out of the box last time.

4. The method for using the dual earphone in equalization as claimed in claim 1, wherein: when the opening of the box cover of the earphone box is detected, before the use parameters of the earphones which are taken out of the box last time are obtained, the balanced use method of the double earphones further comprises the following steps:

when the opening of a box cover of the earphone box is detected, whether the box outlet times i of the same earphone in the latest set time T are larger than or equal to the set times is judged, the box outlet time of each time of the box outlet of the i times is smaller than a set time threshold, and the sum of the box outlet times of the i times of box outlet is larger than a set total time threshold; wherein the set time threshold is less than the set total time threshold;

if yes, prompting to select another earphone to go out of the box;

and if not, acquiring the use parameters of the earphone which is taken out of the box last time.

5. The method for using the dual earphone in equalization as claimed in claim 1, wherein: the other earphone is prompted to be selected to go out of the box through a prompting module on the other earphone or a prompting module in the earphone box.

6. The dual earphone equalization use method according to any one of claims 1 to 5, wherein: the dual-earphone equalization use method further comprises the following steps:

when one earphone is detected to be changed from an unworn state to a worn state, the current electric quantity G of the earphone is acquired_R；

When the earphone is detected to be converted from the wearing state to the non-wearing state, the current electric quantity G 'of the earphone is acquired'_R；

Calculating the power consumption delta G of the earphone when the earphone is taken out of the box_R=G_R-G’_RAnd storing.

7. The dual earphone equalization use method according to any one of claims 1 to 5, wherein: the dual-earphone equalization use method further comprises the following steps:

when one of the earphones is detected to be out of the box, the current electric quantity G of the earphone is acquired_R；

When the earphone is detected to be plugged into the box, the current electric quantity G 'of the earphone is acquired'_R；

Calculating the power consumption delta G of the earphone when the earphone is taken out of the box_R=G_R-G’_RAnd storing.

8. The dual earphone equalization use method according to any one of claims 1 to 5, wherein: the dual-earphone equalization use method further comprises the following steps:

when one earphone is detected to be out of the box, timing is started;

when the earphone is detected to be placed in the box, timing is finished;

and calculating and storing the box outlet time of the earphone when the earphone is taken out of the box.

9. The dual earphone equalization use method according to any one of claims 1 to 5, wherein: the dual-earphone equalization use method further comprises the following steps:

when detecting that one earphone is converted from an unworn state to a worn state, starting timing;

when the earphone is detected to be changed from the wearing state to the non-wearing state, timing is finished;

and calculating and storing the box outlet time of the earphone when the earphone is taken out of the box.

10. The utility model provides a double earphone, includes left earphone, right earphone, earphone box, its characterized in that: the dual earphone adopts the dual earphone equalizing use method as claimed in any one of claims 1 to 9.

Images