阅读说明：本技术 耳机及耳机使用信息的采集方法 (Earphone and earphone use information acquisition method ) 是由 宋晓达 李昕宇 于 2020-09-16 设计创作，主要内容包括：本发明公开了一种耳机使用信息的采集方法,所述耳机包括密封模块、光发射模块以及光检测模块,所述密封模块包括反射面,所述密封模块为弹性件,所述光发射模块的发光侧和所述光检测模块的入光侧均朝向所述反射面设置,所述耳机被佩戴时,所述密封模块发生形变；所述耳机使用信息的采集方法包括以下步骤：实时或定时获取所述光检测模块检测的第一光强值；确定所述第一光强值与预设光强值之间的差值；在所述差值的绝对值大于预设阈值时,获取并更新所述耳机的使用信息。本发明还公开了一种耳机。本发明能够准确的采集耳机的使用信息。(The invention discloses a method for acquiring using information of an earphone, wherein the earphone comprises a sealing module, a light emitting module and a light detecting module, the sealing module comprises a reflecting surface, the sealing module is an elastic piece, the light emitting side of the light emitting module and the light incident side of the light detecting module are both arranged towards the reflecting surface, and the sealing module deforms when the earphone is worn; the method for acquiring the earphone use information comprises the following steps: acquiring a first light intensity value detected by the light detection module in real time or in a timing manner; determining a difference between the first light intensity value and a preset light intensity value; and when the absolute value of the difference value is larger than a preset threshold value, acquiring and updating the use information of the earphone. The invention also discloses an earphone. The invention can accurately collect the use information of the earphone.)

1. The method for acquiring the use information of the earphone is characterized in that the earphone comprises a sealing module, a light emitting module and a light detection module, the sealing module comprises a reflecting surface, the sealing module is an elastic piece, the light emitting side of the light emitting module and the light incident side of the light detection module are both arranged towards the reflecting surface, and when the earphone is worn, the sealing module deforms; the method for acquiring the earphone use information comprises the following steps:

acquiring a first light intensity value detected by the light detection module in real time or in a timing manner;

determining a difference between the first light intensity value and a preset light intensity value;

and when the absolute value of the difference value is larger than a preset threshold value, acquiring and updating the use information of the earphone.

2. The method for collecting usage information of an earphone according to claim 1, wherein the earphone further comprises a radio frequency module, and the step of acquiring and updating the usage information of the earphone when the absolute value of the difference is greater than a preset threshold value comprises:

and when the absolute value of the difference is larger than a preset threshold value, controlling the radio frequency module to send a control instruction to equipment in communication connection with the earphone so as to control the equipment to acquire and update the use information of the earphone.

3. The method for collecting usage information of earphones according to claim 1 or 2, wherein the preset light intensity value is determined according to a second light intensity value detected by the light detection module, the second light intensity value is detected by the light detection module when the earphones are not worn.

4. The method for collecting usage information of earphones according to claim 1 or 2, wherein the preset threshold is determined according to an absolute value of a difference between a third light intensity value and the preset light intensity value, the third light intensity value is detected by the light detection module when the earphones are worn.

5. An earphone, characterized in that the earphone comprises:

the ear inlet part is provided with an accommodating cavity, a sealing module is convexly arranged at the cavity opening of the accommodating cavity, one surface of the sealing module facing the accommodating cavity is a reflecting surface, and the sealing module is an elastic piece;

light emission module and optical detection module, light emission module with optical detection module all sets up the holding intracavity, light emission module's luminous side with optical detection module's income light side all faces the plane of reflection, the light that light emission module sent is through behind the plane of reflection the optical detection module transmission, optical detection module exports detecting signal according to the reverberation of receiving.

6. The earphone according to claim 5, wherein the sealing module comprises an elastic body and a reflecting film, the reflecting film is provided with a reflecting surface, the other surface of the reflecting film is in contact with the elastic body, and the reflecting film deforms when the elastic body is subjected to pressure.

7. The headset of claim 5, further comprising a control module, the control module being coupled to the light detection module.

8. The headset of claim 7, further comprising a signal amplification module and a signal conversion module, wherein the light detection module is connected to the signal amplification module, the signal amplification module is connected to the signal conversion module, and the signal conversion module is connected to the control module.

9. The headset of claim 8, further comprising a radio frequency module for communicating with a mobile terminal, the radio frequency module being connected with the control module.

10. The earpiece according to any of the claims 5-9, wherein the inlet portion comprises an inlet face provided with a sound outlet window, the cavity opening being provided at the inlet face.

Technical Field

The invention relates to the technical field of earphones, in particular to an earphone and an earphone use information acquisition method.

Background

This function of current communications facilities generally all has user's action monitoring, and not only computer, cell-phone, product intelligence bracelet, wrist-watch are dressed to intelligence even have also added this function, and the data that obtains through user's action monitoring is favorable to the enterprise to carry out more accurate data analysis, and it is required that help the enterprise know the user more, promotes marketing effect or improves user experience degree etc.. And the pertinence and the effectiveness of the product can be improved through data monitoring, and the viscosity of a user is improved.

The information on the usage of the headset is typically recorded by the device to which the headset is connected. The equipment begins to record the earphone use information when being connected with the equipment through the earphone, but under many conditions, the earphone is connected with the equipment, and a user does not necessarily use the earphone, so that the use information acquisition of the earphone is inaccurate.

Disclosure of Invention

The invention mainly aims to provide an earphone and an earphone use information acquisition method, and aims to solve the problem that earphone use information acquisition is inaccurate.

In order to achieve the above object, the present invention provides a method for collecting usage information of an earphone, where the earphone includes a sealing module, a light emitting module, and a light detecting module, the sealing module includes a reflecting surface, the sealing module is an elastic member, a light emitting side of the light emitting module and a light incident side of the light detecting module are both disposed toward the reflecting surface, and when the earphone is worn, the sealing module deforms; the method for acquiring the earphone use information comprises the following steps:

acquiring a first light intensity value detected by the light detection module in real time or in a timing manner;

determining a difference between the first light intensity value and a preset light intensity value;

and when the absolute value of the difference value is larger than a preset threshold value, acquiring and updating the use information of the earphone.

In an embodiment, the earphone further includes a radio frequency module, and the step of acquiring and updating the usage information of the earphone when the absolute value of the difference is greater than a preset threshold includes:

and when the absolute value of the difference is larger than a preset threshold value, controlling the radio frequency module to send a control instruction to equipment in communication connection with the earphone so as to control the equipment to acquire and update the use information of the earphone.

In an embodiment, the preset light intensity value is determined according to a second light intensity value detected by the light detection module, where the second light intensity value is detected by the light detection module when the headset is not worn.

In an embodiment, the preset threshold is determined according to an absolute value of a difference between a third light intensity value and the preset light intensity value, where the third light intensity value is a light intensity value detected by the light detection module when the headset is worn.

In order to achieve the above object, the present invention also provides a headset, comprising:

the ear inlet part is provided with an accommodating cavity, a sealing module is convexly arranged at the cavity opening of the accommodating cavity, one surface of the sealing module facing the accommodating cavity is a reflecting surface, and the sealing module is an elastic piece;

light emission module and optical detection module, light emission module with optical detection module all sets up the holding intracavity, light emission module's luminous side with optical detection module's income light side all faces the plane of reflection, the light that light emission module sent is through behind the plane of reflection the optical detection module transmission, optical detection module exports detecting signal according to the reverberation of receiving.

In one embodiment, the sealing module includes an elastic body and a reflective film, the reflective film has a reflective surface, and the other surface of the reflective film is in contact with the elastic body, and the reflective film deforms when the elastic body is under pressure.

In an embodiment, the headset further comprises a control module, the control module being connected with the light detection module.

In an embodiment, the earphone further includes a signal amplification module and a signal conversion module, the optical detection module is connected to the signal amplification module, the signal amplification module is connected to the signal conversion module, and the signal conversion module is connected to the control module.

In an embodiment, the headset further comprises a radio frequency module for communicating with a mobile terminal, and the radio frequency module is connected with the control module.

In an embodiment, the ear inlet portion includes an ear inlet surface provided with a sound outlet window, and the cavity opening is disposed on the ear inlet surface.

The earphone comprises a sealing module, a light emitting module and a light detection module, wherein the sealing module comprises a reflecting surface, the light emitting side of the light reflecting module and the light incident side of the light detection module are both arranged towards the reflecting surface, and when the earphone is worn, the sealing module deforms, so that the light intensity value detected by the light detection module changes. After the earphone acquires the light intensity value, if the difference value between the light intensity value and the preset threshold light intensity value is larger than the preset threshold, the earphone can be determined to be worn by the user, and at the moment, the earphone acquires and updates the use information of the earphone. The earphone can be determined to be worn by the user through the change of the light intensity value, so that the use information of the earphone when being used is accurately acquired.

Drawings

Fig. 1 is a schematic structural diagram of an earphone according to an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the earphone of the present invention;

fig. 3 is a schematic flow chart of a first embodiment of a method for acquiring usage information of an earphone according to the present invention;

fig. 4 is a flowchart illustrating a second embodiment of the method for acquiring usage information of an earphone according to the present invention.

Reference numerals	Name (R)	Reference numerals	Name (R)	Reference numerals	Name (R)
						10	Ear insertion part	11	Ear-entering noodle	12	Cavity opening
13	Birth window	20	Sealing module	21	Reflecting surface
						22	Elastic body	23	Reflective film	30	Light emitting module
40	Optical detection module	50	Control module	60	Signal amplification module
						70	Signal conversion module	80	Radio frequency module	90	Power supply module

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be noted that if the description of "first", "second", etc. is provided in the embodiment of the present invention, the description of "first", "second", etc. is only for descriptive purposes and is not to be construed as indicating or implying relative importance or implicitly indicating the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B" including either scheme A, or scheme B, or a scheme in which both A and B are satisfied.

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the invention is as follows: acquiring a first light intensity value detected by the light detection module in real time or in a timing manner; determining a difference between the first light intensity value and a preset light intensity value; and when the absolute value of the difference value is larger than a preset threshold value, acquiring and updating the use information of the earphone.

The earphone can be determined to be worn by the user through the change of the light intensity value, so that the use information of the earphone when being used is accurately acquired.

The invention provides an earphone.

As shown in fig. 1 and 2, the earphone includes an ear insertion portion 10, the ear insertion portion 10 has a receiving cavity (not labeled), the receiving cavity is provided with a cavity opening 11, a sealing module 20 is convexly provided at the cavity opening 11, and one surface of the sealing module 20 facing the receiving cavity is a reflecting surface 21. The sealing module 20 is an elastic member, i.e. the sealing module 20 is made of an elastic material. The light reflection module 30 and the light detection module 40 are arranged in the accommodating cavity, the light emitting side of the light reflection module 30 and the light incident side of the light detection module 40 are both arranged towards the reflection surface 21, and light emitted by the light emission module 30 is reflected by the reflection surface 21 and then emitted to the light detection module 40, so that the light detection module 40 outputs a detection signal according to the received reflected light. Specifically, the user wears the earphone into the ear through the ear entrance part 10, and the sealing module 20 protruding from the ear entrance part 10 is pressed by the auricle of the user, so that the reflective film 21 is deformed, the light emitting path of the light emitting module 30 is changed, and the light intensity detected by the light detecting module 40 is changed. The light detection module 40 may generate a detection signal when detecting that the light intensity changes, and transmit the detection signal to a device connected to the headset so that the device collects the information of the usage of the headset. The light emitting module 30 may be a light emitting diode, the light detecting module 40 may be a light sensing element, and the light incident side of the light detecting module 40 is a light sensing surface of the light sensing element.

The sealing module 20 may be integrally formed, or may be assembled by an elastic body and a reflective film. That is, the sealing module 20 further includes an elastic body 22 and a reflective film 23, the reflective film 23 has a reflective surface 21, the other surface of the reflective film 23 contacts the elastic body 22, the elastic body 22 is protruded from the cavity 11, and the reflective film 23 is deformable. That is, when the elastic body 22 is pressed by the auricle, the elastic body 22 applies pressure to the reflective film 23, so that the reflective surface 21 changes from a plane to a convex surface, and the path of the reflected light changes, that is, the path of the light emitted from the light emitting module 30 is changed, and the intensity of the light detected by the light detecting module 40 changes. The elastic body 22 may be made of an elastic material such as silicon gel, and the reflective film 23 may be made of a material having a smooth surface and stable chemical properties, and the material may be metal or nonmetal. For example, the reflective film 22 may be made of a metal material such as gold, silver, aluminum, or the like.

Further, the earphone further comprises a control module 50, and the control module 50 may be directly connected to the light detection module 40 to receive the light intensity value detected by the light detection module 40. The control module 50 may be a processor. The control module 50 stores a preset light intensity value, which is the light intensity value detected by the light detection module 40 when the reflective film 21 is not deformed. After receiving the light intensity value detected by the light detection module 40, the control module 50 calculates a difference between the light intensity value and a preset light intensity value, and if the absolute value of the difference is greater than a preset threshold, it can be determined that the user wears the headset, and the control module 50 can send information to the device connected with the headset, so that the device records, acquires and stores the headset use information.

In addition, the earphone further comprises a signal amplification module 60 and a signal conversion module 70, wherein the light detection module 40 is connected with the signal amplification module 60, the signal amplification module 60 is connected with the signal conversion module 70, and the signal conversion module is connected with the control module 50. The signal conversion module 70 may be an a/D converter. The weak photoelectric signal emitted by the light detection module 40 is amplified by the signal amplification module 60 and then transmitted to the signal conversion module 70, and the signal conversion module 70 converts the weak photoelectric signal into a digital signal and transmits the digital signal to the control module 50, so that the control module 50 obtains the light intensity value detected by the light detection module 40.

The headset further comprises a radio frequency module 80, the radio frequency module 80 being connected to the control module 50. When detecting that the headset is worn, the control module 50 controls the radio frequency module 80 to send a signal, so that the mobile device in communication connection with the headset acquires and records the usage information of the headset. The communication mode of the earphone and the mobile terminal can be Bluetooth communication. In addition, a power module 90 may be disposed in the earphone, and the power module 90 is connected to the above modules to provide power for the modules to operate.

Furthermore, in order to determine more accurately whether the user wears the headset, the sealing module 20 is disposed on the ear-entrance surface 12 of the ear-entrance, i.e. the side of the ear-entrance surface 12 on which the sound-emitting window 13 is disposed, i.e. the ear-entrance surface 12 is in contact with the pinna of the user.

Based on the hardware framework of the earphone, the embodiment of the method for acquiring the earphone use information is provided.

Referring to fig. 3, fig. 3 is a first embodiment of the present invention, which is a method for collecting usage information of a headset, the method comprising the following steps:

step S10, acquiring a first light intensity value detected by the light detection module in real time or at regular time;

step S20, determining a difference between the first light intensity value and a preset light intensity value;

and step S30, when the absolute value of the difference is larger than a preset threshold value, acquiring and updating the use information of the earphone.

In this embodiment, the execution body is an earphone. The earphone includes a sealing module, a light detection module, and a light emission module. When the user wears the earphone, the sealing module deforms, so that the light intensity value detected by the light detection module changes, and the earphone monitors whether the user wears the earphone according to the principle. The positional relationship among the sealing module, the light detecting module and the light emitting module is not described in detail herein with reference to the above description.

The light emitting module and the light detecting module in the earphone are operated together, and the light emitting module is moved in real time or in real time, so that the light intensity value can be detected by the light detecting module in real time or in real time. The detected light intensity value is defined as a first light intensity value. The earphone may set an operation period of the light emitting module or an interval duration of the timed operation, and the operation period may be a period other than the sleep of the user. Of course, the user can set the operation time period or the time interval of the timing operation of the light emitting module and the light detecting module through the control APP on the mobile terminal.

The earphone is stored with a preset light intensity value, the preset light intensity value is determined according to a second light intensity value detected by the light detection module, and the second light intensity value is the light intensity value detected by the light detection module when the user does not wear the earphone. The earphone may detect the light intensity value as a preset light intensity value during a sleep period of the user. Or, the earphone can be provided with a pressure sensor between the elastic body and the reflecting film, when the pressure detected by the pressure sensor is smaller, the user can be determined not to wear the earphone, and at the moment, the light intensity value detected by the light detection module is set to be the preset light intensity value. Of course, the user can also modify the up-and-down movement on the mobile terminal according to the second light intensity value to obtain the preset light intensity value.

After the earphone acquires the first light intensity value, the difference value between the first light intensity value and the preset light intensity value is calculated. And a preset threshold value is set in the earphone. When the absolute value of the difference value is larger than the preset threshold value, the user can be determined to wear the earphone, and at the moment, the earphone acquires the use information of the earphone and updates the use information. The usage information includes at least one of a start time point of use, an end time point of use of the headset, and a duration of use of the headset, and an accumulated number of uses of the headset. The preset threshold value is determined according to the absolute value of the difference value between the third light intensity value and the preset light intensity value, and the third light intensity value is the light intensity value detected by the light detection module when the earphone is worn.

It should be noted that the earphone can set the first threshold S for the unused earphone₁And a second threshold S for use by the headset₂。S₁The set range is limited to 0 < S₁＜C₂-C₁，C₁To preset light intensity values, C₂The light intensity value detected by the light detection module when the sealing module receives certain pressure, namely C₂The light intensity value detected when the user wears the earphone. S₂The setting range is limited to S₁＜S₂≤C₂-C₁. That is, the predetermined threshold is S₂. It will be appreciated that the first light intensity value P > C when the headset is worn₁+S₂When the earphone is not worn, the first light intensity value P is less than C₁+S₁. In the present embodiment, C is mentioned₁+S₂And C₁+S₁The two thresholds are used and not used, and the purpose is to prevent the user from causing misoperation due to the change caused by slight shock of the earphone when in use. User can set setting C by mobile terminal₁、S₂、C₂And S₁The matching degree of the detection of using the earphone and the individual is higher, so that the use information of the monitored earphone is more reliable.

In the technical scheme that this embodiment provided, the earphone includes sealed module, light emission module and optical detection module, and sealed module includes the plane of reflection, and the luminous side of light reflection module and optical detection module's income light side all set up towards the plane of reflection, and when the earphone was worn, sealed module took place deformation for the light intensity value that optical detection module detected changes. After the earphone acquires the light intensity value, if the difference value between the light intensity value and the preset threshold light intensity value is larger than the preset threshold, the earphone can be determined to be worn by the user, and at the moment, the earphone acquires and updates the use information of the earphone. The earphone can be determined to be worn by the user through the change of the light intensity value, so that the use information of the earphone when being used is accurately acquired.

Referring to fig. 4, fig. 4 is a second embodiment of the method for collecting information about earphone usage according to the present invention, and based on the first embodiment, the step S30 includes:

and step S31, when the absolute value of the difference is greater than a preset threshold, controlling the radio frequency module to send a control instruction to the equipment in communication connection with the earphone so as to control the equipment to acquire and update the use information of the earphone.

In this embodiment, the headset includes a radio frequency module, which can be regarded as a communication module. The headset communicates with a mobile device associated with the headset through the radio frequency module. The communication mode can be Bluetooth communication and WIFI communication. And after determining the difference between the first light intensity value and the preset light intensity value, the earphone judges whether the absolute value of the difference is greater than a preset threshold value. If the absolute value of the difference is larger than the preset threshold value, the earphone sends a control instruction to equipment in communication connection with the earphone, namely the mobile terminal, the mobile terminal records the use information of the earphone after receiving the control instruction, and the use information of the earphone comprises at least one of the start use time point and the end use time point of the earphone, the duration time period of the use of the earphone and the accumulated use times of the earphone. The determination of the end time point of the earphone is determined by an end instruction sent by the earphone, that is, after the earphone is determined to be taken out of the ear by the user, the end instruction is sent to the mobile device by the radio frequency module, so that the mobile device obtains the end use time point of the earphone.

In addition, the mobile device can also detect the audio played by the mobile terminal in the process that the user wears the earphone, so that the audio information corresponding to the played audio is recorded to be used as the using information of the earphone. The audio information includes a play address, an author, and the like of the audio. The audio information may be used to analyze the audio preferences of the user.

In the technical scheme provided by this embodiment, the earphone is provided with the radio frequency module, and when the earphone is detected to be worn, the earphone sends a control instruction to the equipment in communication connection with the earphone through the radio frequency module, so as to control the equipment to acquire more detailed earphone use information.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.