CN115250401A - Headphone assembly and Bluetooth connection method of headphone assembly - Google Patents

Abstract

The application provides an earphone assembly and a Bluetooth connection method of the earphone assembly. The earphone assembly includes a charging box and an earphone. The charging box includes a grip sensor and a first processor. The first processor is used for generating a wake-up signal after the holding sensor detects that the charging box is held. The headset includes a second processor. The second processor switches the headset from the sleep state to the active state in response to the wake-up signal. The earphone and/or the charging box are/is further provided with a relative position sensor which is used for detecting whether the relative position between the earphone and the charging box changes or not, and the second processor further responds to the change of the relative position between the earphone and the charging box to control the earphone to carry out automatic Bluetooth connection. This earphone subassembly can realize that the automation of earphone awakens up and automatic bluetooth is connected, and operation process is simple, and efficiency is higher, and user experience is better.

Description

Translated fromChinese

耳机组件及耳机组件的蓝牙连接方法Headphone assembly and Bluetooth connection method of headphone assembly

技术领域technical field

本发明涉及无线蓝牙耳机技术领域，尤其涉及一种耳机组件及耳机组件的蓝牙连接方法。The present invention relates to the technical field of wireless bluetooth earphones, in particular to an earphone assembly and a bluetooth connection method of the earphone assembly.

背景技术Background technique

无线耳机在具体使用过程中，一般需要与预设终端设备进行蓝牙连接，以与预设终端设备通过无线的方式进行音频数据传输。In the specific use process of the wireless earphone, it is generally necessary to perform a Bluetooth connection with a preset terminal device, so as to perform audio data transmission with the preset terminal device in a wireless manner.

目前，无线耳机一般包括耳机和充电盒；用户在需要使用无线耳机时，一般需要打开充电盒的盖体，然后取出耳机，并在盖体开启后将耳机从休眠状态切换至工作状态，之后再通过用户的操作给耳机传递相关的信息，使耳机进入蓝牙＝连接状态。At present, wireless earphones generally include earphones and a charging box; when users need to use wireless earphones, they generally need to open the cover of the charging box, then take out the earphones, and switch the earphones from the sleep state to the working state after the cover is opened, and then Relevant information is transmitted to the earphone through the user's operation, so that the earphone enters the Bluetooth=connection state.

然而，现有无线耳机实现蓝牙连接不仅操作过程繁琐，效率较低，且用户体验较差；同时，用户的学习成本较高。However, the Bluetooth connection of the existing wireless earphones not only has a cumbersome operation process, low efficiency, but also poor user experience; at the same time, the user's learning cost is high.

发明内容SUMMARY OF THE INVENTION

本申请提供一种耳机组件及耳机组件的蓝牙连接方法，该耳机组件能够解决现有耳机组件实现蓝牙连接不仅操作过程繁琐，效率较低，且用户体验较差；同时，用户的学习成本较高的问题。The present application provides an earphone assembly and a Bluetooth connection method for the earphone assembly. The earphone assembly can solve the problem that the Bluetooth connection of the existing earphone assembly is not only cumbersome in operation, low in efficiency, and poor in user experience; at the same time, the user's learning cost is relatively high. The problem.

为解决上述技术问题，本申请采用的一个技术方案是：提供一种耳机组件，该耳机组件包括充电盒和耳机。充电盒包括握持传感器和第一处理器。第一处理器用于在握持传感器检测到充电盒被握持后产生唤醒信号；耳机包括第二处理器。第二处理器响应于唤醒信号将耳机从休眠状态切换至工作状态。耳机和/或充电盒上进一步设置有相对位置传感器，相对位置传感器用于检测耳机和充电盒之间的相对位置是否发生变化，第二处理器进一步响应于耳机与充电盒之间的相对位置发生变化控制耳机进行自动蓝牙连接。In order to solve the above technical problems, a technical solution adopted in the present application is to provide an earphone assembly, which includes a charging box and an earphone. The charging case includes a grip sensor and a first processor. The first processor is configured to generate a wake-up signal after the holding sensor detects that the charging case is held; the earphone includes a second processor. The second processor switches the headset from the sleep state to the active state in response to the wake-up signal. A relative position sensor is further provided on the earphone and/or the charging box, the relative position sensor is used to detect whether the relative position between the earphone and the charging box changes, and the second processor is further responsive to the occurrence of the relative position between the earphone and the charging box. Change control headset to make automatic bluetooth connection.

其中，充电盒进一步包括盒体和盖体，握持传感器包括设置于盒体上的第一握持传感器以及设置于盖体上的第二握持传感器，第一处理器在第一握持传感器检测到盒体被握持，且同时第二握持传感器检测到盖体被握持后产生唤醒信号。Wherein, the charging box further includes a box body and a cover body, the holding sensor includes a first holding sensor arranged on the box body and a second holding sensor arranged on the cover body, the first processor is in the first holding sensor It is detected that the box body is held, and at the same time, the second holding sensor generates a wake-up signal after detecting that the cover body is held.

其中，第一握持传感器和/或第二握持传感器为电容传感器、电阻传感器或压力传感器。Wherein, the first grip sensor and/or the second grip sensor is a capacitive sensor, a resistance sensor or a pressure sensor.

其中，相对位置传感器包括设置于充电盒上的第一状态传感器和耳机上的第二状态传感器，第一状态传感器用于检测充电盒的第一状态值，第二状态传感器用于检测耳机的第二状态值，第一处理器或第二处理器根据第一状态值和第二状态值的差异确定耳机和充电盒之间的相对位置是否发生变化。Wherein, the relative position sensor includes a first state sensor provided on the charging box and a second state sensor on the earphone, the first state sensor is used to detect the first state value of the charging box, and the second state sensor is used to detect the first state value of the earphone. Two state values, the first processor or the second processor determines whether the relative position between the earphone and the charging box has changed according to the difference between the first state value and the second state value.

其中，第一状态传感器和/或第二状态传感器为地磁传感器、姿态传感器、红外传感器或磁场传感器。Wherein, the first state sensor and/or the second state sensor is a geomagnetic sensor, an attitude sensor, an infrared sensor or a magnetic field sensor.

其中，耳机进一步包括存储器，存储器还用于存储与耳机建立过连接关系的终端设备的连接信息，第二处理器响应于耳机与充电盒之间的相对位置发生变化，根据存储的连接信息将耳机自动回连终端设备。Wherein, the earphone further includes a memory, and the memory is also used to store the connection information of the terminal device that has established a connection relationship with the earphone. Automatically connect back to the terminal device.

其中，第二处理器还用于响应于耳机与充电盒之间的相对位置发生变化且在耳机自动回连终端设备失败或存储器未存储有连接信息，将耳机设置成搜索配对状态。The second processor is further configured to set the headset to a search pairing state in response to a change in the relative position between the headset and the charging box and the headset fails to automatically reconnect to the terminal device or the memory does not store connection information.

为解决上述技术问题，本申请采用的另一个技术方案是：提供一种耳机组件的蓝牙连接方法，该耳机组件包括耳机和充电盒，其中，该蓝牙连接方法包括：检测充电盒是否被握持；响应于充电盒被握持后产生唤醒信号；响应于唤醒信号将耳机从休眠状态切换至工作状态；检测耳机与充电盒之间的相对位置是否发生变化；响应于耳机与充电盒之间的相对位置发生变化，控制耳机进行自动蓝牙连接。In order to solve the above technical problem, another technical solution adopted in the present application is to provide a Bluetooth connection method of an earphone assembly, where the earphone assembly includes an earphone and a charging box, wherein the Bluetooth connection method includes: detecting whether the charging box is held ; Generate a wake-up signal in response to the charging box being held; switch the headset from the sleep state to the working state in response to the wake-up signal; detect whether the relative position between the headset and the charging box has changed; The relative position changes, controlling the headset for automatic Bluetooth connection.

其中，充电盒包括盒体和盒盖；检测充电盒是否被握持的步骤包括：检测盒体和盒盖是否被同时握持。Wherein, the charging box includes a box body and a box cover; the step of detecting whether the charging box is held includes: detecting whether the box body and the box cover are held simultaneously.

其中，检测耳机与充电盒之间的相对位置是否发生变化的步骤包括：检测充电盒的第一状态值，并检测耳机的第二状态值；根据第一状态值和第二状态值的差异确定耳机和充电盒之间的相对位置是否发生变化。Wherein, the step of detecting whether the relative position between the earphone and the charging box has changed includes: detecting a first state value of the charging box, and detecting a second state value of the earphone; determining according to the difference between the first state value and the second state value Whether the relative position between the headset and the charging case has changed.

本申请提供的耳机组件及耳机组件的蓝牙连接方法，该耳机组件通过设置充电盒，使充电盒包括握持传感器和第一处理器，以通过第一处理器在握持传感器检测到充电盒被握持后产生唤醒信号；同时，通过设置耳机，使耳机包括第二处理器，并使第二处理器响应于唤醒信号将耳机从休眠状态切换至工作状态；另外，通过在耳机和/或充电盒上进一步设置相对位置传感器，以通过相对位置传感器检测耳机和充电盒之间的相对位置是否发生变化，通过第二处理器进一步响应于耳机与充电盒之间的相对位置发生变化控制耳机进行自动蓝牙连接。该耳机组件在检测到充电盒被握持后自动唤醒耳机，减小了操作人员的操作负担，同时能够给耳机预留出足够的响应时间。进一步，在检测到耳机与充电盒之间的相对位置发生变化控制耳机进行自动蓝牙连接，无需用户操作即可自动进行蓝牙连接，操作过程简单，有效提高了用户的使用效率，且用户的体验较好；同时，能够降低用户的学习成本。According to the earphone assembly and the Bluetooth connection method of the earphone assembly provided by the present application, the earphone assembly is provided with a charging box, so that the charging box includes a holding sensor and a first processor, so that the first processor detects that the charging box is held at the holding sensor by the first processor. A wake-up signal is generated after holding; at the same time, by setting the headset, the headset includes a second processor, and the second processor switches the headset from the sleep state to the working state in response to the wake-up signal; A relative position sensor is further arranged on the upper part to detect whether the relative position between the earphone and the charging box changes through the relative position sensor, and the second processor further responds to the change in the relative position between the earphone and the charging box to control the earphone to perform automatic Bluetooth connect. The earphone assembly automatically wakes up the earphone after detecting that the charging box is held, reduces the operation burden of the operator, and at the same time can reserve enough response time for the earphone. Further, when it is detected that the relative position between the earphone and the charging box changes, the earphone is controlled to perform an automatic Bluetooth connection, and the Bluetooth connection can be automatically performed without user operation. The operation process is simple, the user's use efficiency is effectively improved, and the user experience is better. Good; at the same time, it can reduce the learning cost of users.

附图说明Description of drawings

为更清楚地说明本发明实施例中的技术方案，下面将对实施例描述中所需要使用的附图作简单地介绍，显而易见地，下面描述中的附图仅仅是本发明的一些实施例，对本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。In order to illustrate the technical solutions in the embodiments of the present invention more clearly, the following briefly introduces the accompanying drawings used in the description of the embodiments. Obviously, the accompanying drawings in the following description are only some embodiments of the present invention. For those of ordinary skill in the art, other drawings can also be obtained from these drawings without creative effort.

图1为本申请一实施例提供的耳机组件的结构示意图；FIG. 1 is a schematic structural diagram of an earphone assembly provided by an embodiment of the present application;

图2为本申请另一实施例提供的耳机组件的结构示意图；FIG. 2 is a schematic structural diagram of an earphone assembly provided by another embodiment of the present application;

图3为本申请一实施例提供的耳机组件的蓝牙连接方法的流程图。FIG. 3 is a flowchart of a Bluetooth connection method of an earphone assembly provided by an embodiment of the present application.

具体实施方式Detailed ways

下面将结合本申请实施例中的附图，对本申请实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例仅是本申请的一部分实施例，而不是全部的实施例。基于本申请中的实施例，本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例，都属于本申请保护的范围。The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. Obviously, the described embodiments are only a part of the embodiments of the present application, but not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present application.

本申请中的术语“第一”、“第二”、“第三”仅用于描述目的，而不能理解为指示或暗示相对重要性或者隐含指明所指示的技术特征的数量。由此，限定有“第一”、“第二”、“第三”的特征可以明示或者隐含地包括至少一个该特征。本申请的描述中，“多个”的含义是至少两个，例如两个，三个等，除非另有明确具体的限定。本申请实施例中所有方向性指示(诸如上、下、左、右、前、后……)仅用于解释在某一特定姿态(如附图所示)下各部件之间的相对位置关系、运动情况等，如果该特定姿态发生改变时，则该方向性指示也相应地随之改变。此外，术语“包括”和“具有”以及它们任何变形，意图在于覆盖不排他的包含。例如包含了一系列步骤或单元的过程、方法、系统、产品或设备没有限定于已列出的步骤或单元，而是可选地还包括没有列出的步骤或单元，或可选地还包括对于这些过程、方法、产品或设备固有的其它步骤或单元。The terms "first", "second" and "third" in this application are only used for descriptive purposes, and should not be construed as indicating or implying relative importance or implying the number of indicated technical features. Thus, a feature defined as "first", "second", "third" may expressly or implicitly include at least one of that feature. In the description of the present application, "a plurality of" means at least two, such as two, three, etc., unless otherwise expressly and specifically defined. All directional indications (such as up, down, left, right, front, rear...) in the embodiments of the present application are only used to explain the relative positional relationship between components under a certain posture (as shown in the accompanying drawings). , motion situation, etc., if the specific posture changes, the directional indication also changes accordingly. Furthermore, the terms "comprising" and "having" and any variations thereof are intended to cover non-exclusive inclusion. For example, a process, method, system, product or device comprising a series of steps or units is not limited to the listed steps or units, but optionally also includes unlisted steps or units, or optionally also includes For other steps or units inherent to these processes, methods, products or devices.

在本文中提及“实施例”意味着，结合实施例描述的特定特征、结构或特性可以包含在本申请的至少一个实施例中。在说明书中的各个位置出现该短语并不一定均是指相同的实施例，也不是与其它实施例互斥的独立的或备选的实施例。本领域技术人员显式地和隐式地理解的是，本文所描述的实施例可以与其它实施例相结合。Reference herein to an "embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the present application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor a separate or alternative embodiment that is mutually exclusive of other embodiments. It is explicitly and implicitly understood by those skilled in the art that the embodiments described herein may be combined with other embodiments.

下面结合附图和实施例对本申请进行详细的说明。The present application will be described in detail below with reference to the accompanying drawings and embodiments.

请参阅图1，图1为本申请一实施例提供的耳机组件的结构示意图；在本实施例中，提供一种耳机组件10，该无线耳机10可以是或包括任何数量的音频设备，比如，真无线立体声(True Wireless Stereo，TWS)耳机、骨传导耳机、入耳耳机、开放式耳机等；无线耳机也可以是或包括旨在佩戴在用户的头部或耳朵上或周围的任何可穿戴设备，比如，音频眼镜、头盔、帽子以及各种其他类型的设备，诸如辅听器、助听器、AR设备、VR设备、头部、肩部或体戴式声学设备等，这些设备具体可包括或连接到一个或多个声学驱动器以产生声音，但可与用户的耳朵接触或不接触；具体的，该无线耳机还可包括扬声器，该扬声器被配置为响应于发送到扬声器的音频信号而产生声音。Please refer to FIG. 1, which is a schematic structural diagram of an earphone assembly provided by an embodiment of the application; in this embodiment, anearphone assembly 10 is provided, and thewireless earphone 10 may be or include any number of audio devices, such as, True Wireless Stereo (TWS) headphones, bone conduction headphones, in-ear headphones, open-back headphones, etc.; wireless headphones can also be or include any wearable device intended to be worn on or around the user's head or ears, For example, audio glasses, helmets, hats, and various other types of devices, such as hearing aids, hearing aids, AR devices, VR devices, head, shoulder or body-worn acoustic devices, etc., may specifically include or be connected to One or more acoustic drivers to generate sound, but may or may not be in contact with the user's ears; in particular, the wireless headset may also include a speaker configured to generate sound in response to audio signals sent to the speaker.

无线耳机10具体包括充电盒11和耳机12。其中，耳机12可容置在充电盒11内，以通过充电盒11对耳机12进行充电；充电盒11可包括盒体111和盖体112，盒体111和盖体112配合形成用于容置耳机12的容置腔115。盒体111内部可以设置有电池、充电管理电路和充电触点(未图示)，进而在耳机12放入容置腔115后可以与充电触点实现电连接，并触发充电管理电路对耳机12进行充电。Thewireless earphone 10 specifically includes a chargingcase 11 and anearphone 12 . Theearphone 12 can be accommodated in thecharging box 11 so as to charge theearphone 12 through thecharging box 11; thecharging box 11 can include abox body 111 and acover body 112, and thebox body 111 and thecover body 112 are formed together to accommodate Theaccommodating cavity 115 of theearphone 12 . Thebox body 111 can be provided with a battery, a charging management circuit and a charging contact (not shown), and then theearphone 12 can be electrically connected to the charging contact after theearphone 12 is placed in theaccommodating cavity 115, and the charging management circuit can be triggered to theearphone 12. to charge.

其中，充电盒11还可包括握持传感器113和第一处理器114；其中，握持传感器113与第一处理器114连接，用于检测充电盒11是否被用户握持并在充电盒11被用户握持后生成相应的检测信号，第一处理器114响应于该检测信号产生唤醒信号；其中，检测信号可为电平信号，作为外部I/O口中断信号传输至第一处理器114，第一处理器114检测到I/O口中断信号后产生唤醒信号。The chargingcase 11 may further include a holdingsensor 113 and afirst processor 114; wherein the holdingsensor 113 is connected to thefirst processor 114 for detecting whether the chargingcase 11 is held by the user and is After the user holds it, a corresponding detection signal is generated, and thefirst processor 114 generates a wake-up signal in response to the detection signal; wherein, the detection signal may be a level signal, which is transmitted to thefirst processor 114 as an external I/O port interrupt signal, Thefirst processor 114 generates a wake-up signal after detecting the I/O port interrupt signal.

在一具体实施例中，握持传感器113具体可包括设置于盒体111上的第一握持传感器113a以及设置于盖体112上的第二握持传感器113b，第一处理器114具体可在第一握持传感器113a检测到盒体111被握持，且同时第二握持传感器113b检测到盖体112被握持后产生唤醒信号。通过在盒体111和盖体112同时被握持时才触发第一处理器114产生唤醒信号，能够减少误触发问题的发生概率。In a specific embodiment, thegrip sensor 113 may specifically include afirst grip sensor 113a provided on thebox body 111 and asecond grip sensor 113b provided on thecover body 112, and thefirst processor 114 may specifically be located in Thefirst holding sensor 113a detects that thebox body 111 is being held, and at the same time, thesecond holding sensor 113b generates a wake-up signal after detecting that thecover body 112 is being held. By triggering thefirst processor 114 to generate a wake-up signal only when thebox body 111 and thecover body 112 are held at the same time, the probability of false triggering can be reduced.

其中，第一握持传感器113a和第二握持传感器113b分别可为电容传感器、电阻传感器或压力传感器中的至少一者或组合；且第一握持传感器113a和第二握持传感器113b在充电盒11上的具体位置可根据用户在打开盖体112时抓握盒体111和盖体112的实际位置进行设定，本申请对此不做限定；在一实施例中，充电盒11的盒体111和/或盖体112的外侧壁上还可形成或设置有仿形结构，该仿形结构与用户抓握盒体111和/或盖体112的手指或手心的形状匹配，以通过该仿形结构引导用户正确握持充电盒11，从而正确激活第一握持传感器113a和/或第二握持传感器113b，进而使第一处理器114及时产生唤醒信号。Thefirst grip sensor 113a and thesecond grip sensor 113b can be at least one or a combination of a capacitive sensor, a resistive sensor or a pressure sensor, respectively; and thefirst grip sensor 113a and thesecond grip sensor 113b are charging The specific position on thebox 11 can be set according to the actual position where the user grasps thebox body 111 and thecover body 112 when thecover body 112 is opened, which is not limited in this application; The outer sidewall of thebody 111 and/or thecover body 112 may also be formed with or provided with a profiling structure, which matches the shape of the user's fingers or palms for grasping thebox body 111 and/or thecover body 112, so as to pass the The profiling structure guides the user to hold the chargingcase 11 correctly, thereby correctly activating thefirst holding sensor 113a and/or thesecond holding sensor 113b, thereby enabling thefirst processor 114 to generate a wake-up signal in time.

当然，在其他实施例中，第一处理器114也可在第一握持传感器113a检测到盒体111被握持，或第二握持传感器113b检测到盖体112被握持后即产生唤醒信号，本申请对此不做限定。Of course, in other embodiments, thefirst processor 114 can also wake up after thefirst holding sensor 113a detects that thebox body 111 is being held, or thesecond holding sensor 113b detects that thecover 112 is being held. signal, which is not limited in this application.

耳机12可包括第二处理器121。第二处理器121与第一处理器114可通过充电接口或其他通讯接口连接，响应于第一处理器114所产生的唤醒信号将耳机12从休眠状态切换至工作状态；在具体实施例中，耳机12可包括第一耳机和第二耳机，第一耳机和第二耳机分别用于佩戴于用户的左右两个耳朵；第二处理器121可设置在第一耳机和/或第二耳机上。Theheadset 12 may include asecond processor 121 . Thesecond processor 121 and thefirst processor 114 can be connected through a charging interface or other communication interface, and in response to a wake-up signal generated by thefirst processor 114, theheadset 12 is switched from the sleep state to the working state; in a specific embodiment, Theearphone 12 may include a first earphone and a second earphone, the first earphone and the second earphone are respectively used to be worn on the left and right ears of the user; thesecond processor 121 may be disposed on the first earphone and/or the second earphone.

进一步，耳机12和/或充电盒11上还设置有相对位置传感器13。相对位置传感器13与第二处理器121连接，用于检测耳机12和充电盒11之间的相对位置是否发生变化，第二处理器121进一步响应于耳机12与充电盒11之间的相对位置发生变化控制耳机12进行自动蓝牙连接；相比于现有技术中，通过打开盖体112或从充电盒11内取出耳机12触发唤醒耳机12，并在盖体112开启后进一步通过用户操作以使耳机12进入蓝牙连接的方案，本申请提供的耳机组件10，无需操作盖体112和/或耳机12，只要检测到充电盒11被握持后即使耳机12自动从休眠状态切换至工作状态；可以理解的是，即使盖体112关闭和/或耳机12位于充电盒11内，只要耳机组件10检测到充电盒11被握持，即可唤醒耳机，能够给耳机12预留出足够的响应时间。进一步，在检测到耳机12与充电盒11之间的相对位置发生变化控制耳机12进行自动蓝牙连接，无需用户操作即可自动进行蓝牙连接，操作过程简单，用户的体验较好，且有效提高了用户的使用效率；同时，能够降低用户的学习成本。Further, arelative position sensor 13 is also provided on theearphone 12 and/or thecharging box 11 . Therelative position sensor 13 is connected to thesecond processor 121 for detecting whether the relative position between theearphone 12 and thecharging box 11 changes, and thesecond processor 121 further responds to the occurrence of the relative position between theearphone 12 and thecharging box 11 The change controls theearphone 12 to perform automatic Bluetooth connection; compared with the prior art, theearphone 12 is triggered to wake up by opening thecover 112 or taking out theearphone 12 from thecharging box 11, and after thecover 112 is opened, the earphone is further operated by the user to make theearphone 12. 12. In the scheme of entering the Bluetooth connection, theearphone assembly 10 provided by this application does not need to operate thecover 112 and/or theearphone 12, as long as theearphone 12 is automatically switched from the sleep state to the working state after detecting that thecharging box 11 is held; it is understandable However, even if thecover 112 is closed and/or theearphone 12 is located in the chargingcase 11 , theearphone assembly 10 can wake up the earphone as long as theearphone assembly 10 detects that the chargingcase 11 is being held, allowing sufficient response time for theearphone 12 . Further, when it is detected that the relative position between theearphone 12 and thecharging box 11 changes, theearphone 12 is controlled to perform an automatic Bluetooth connection, and the Bluetooth connection can be automatically performed without user operation. The operation process is simple, the user experience is better, and it effectively improves the performance. The user's use efficiency; at the same time, the user's learning cost can be reduced.

在一具体实施例中，相对位置传感器13可包括设置于充电盒11上的第一状态传感器131和设置于耳机12上的第二状态传感器132，第一状态传感器131和第二状态传感器132分别与第一处理器114和第二处理器121连接。第一状态传感器131用于检测充电盒11的第一状态值，第二状态传感器132用于检测耳机12的第二状态值。第一状态值和第二状态值可以第一处理器114和第二处理器121之间的通讯接口传输到同一处理器，例如第一处理器114或第二处理器121。第一处理器114或第二处理器121根据第一状态值和第二状态值的差异确定耳机12和充电盒11之间的相对位置是否发生变化。第一状态传感器131和第二状态传感器132分别可为地磁传感器、姿态传感器、红外传感器、磁场传感器；第一状态值和第二状态值分别可为速度、加速度、磁偏角、位置或姿态中的至少一者或组合。In a specific embodiment, therelative position sensor 13 may include afirst state sensor 131 provided on thecharging box 11 and asecond state sensor 132 provided on theearphone 12, thefirst state sensor 131 and thesecond state sensor 132 are respectively Connected with thefirst processor 114 and thesecond processor 121 . Thefirst state sensor 131 is used to detect the first state value of the chargingcase 11 , and thesecond state sensor 132 is used to detect the second state value of theearphone 12 . The first state value and the second state value may be transmitted to the same processor, eg, thefirst processor 114 or thesecond processor 121 , by a communication interface between thefirst processor 114 and thesecond processor 121 . Thefirst processor 114 or thesecond processor 121 determines whether the relative position between theearphone 12 and the chargingcase 11 changes according to the difference between the first state value and the second state value. Thefirst state sensor 131 and thesecond state sensor 132 can be a geomagnetic sensor, an attitude sensor, an infrared sensor, and a magnetic field sensor, respectively; the first state value and the second state value can be speed, acceleration, magnetic declination, position or attitude, respectively. at least one or a combination of .

当然，在其他具体实施例中，相对位置传感器13也可为设置于充电盒11上的第一状态传感器131或设置于耳机12上的第二状态传感器132，第一状态传感器131或第二状态传感器132可为霍尔传感器、对射式或反射式光传感器或微动触发开关等；比如，相对位置传感器13为设置于充电盒11上的霍尔传感器时，霍尔传感器可配合设置于耳机12上的磁体检测耳机12和充电盒11之间的相对位置是否发生变化。Of course, in other specific embodiments, therelative position sensor 13 can also be thefirst state sensor 131 provided on thecharging box 11 or thesecond state sensor 132 provided on theearphone 12 , thefirst state sensor 131 or thesecond state sensor 131 Thesensor 132 can be a Hall sensor, a through-beam or reflective light sensor or a micro-trigger switch, etc.; for example, when therelative position sensor 13 is a Hall sensor arranged on thecharging box 11, the Hall sensor can be matched with the earphone The magnet on the 12 detects whether the relative position between theearphone 12 and the chargingcase 11 changes.

进一步地，参见图2，图2为本申请另一实施例提供的耳机组件的结构示意图；该耳机12还可进一步包括存储器122；存储器122用于存储与耳机12建立过连接关系的终端设备的连接信息，第二处理器121具体响应于耳机12与充电盒11之间的相对位置发生变化，根据存储的连接信息将耳机12自动回连终端设备。Further, referring to FIG. 2, FIG. 2 is a schematic structural diagram of an earphone assembly provided by another embodiment of the application; theearphone 12 may further include amemory 122; thememory 122 is used to store the For connection information, thesecond processor 121 specifically responds to a change in the relative position between theearphone 12 and thecharging box 11, and automatically connects theearphone 12 back to the terminal device according to the stored connection information.

进一步地，第二处理器121还用于响应于耳机12与充电盒11之间的相对位置发生变化且在耳机12自动回连终端设备失败或存储器122未存储有连接信息，将耳机12设置成搜索配对状态，以进行配对、蓝牙连接。Further, thesecond processor 121 is further configured to set theearphone 12 to be in response to a change in the relative position between theearphone 12 and thecharging box 11 and theearphone 12 fails to automatically reconnect to the terminal device or thememory 122 does not store connection information. Search for pairing status for pairing, Bluetooth connection.

本实施例提供的耳机组件10，通过设置充电盒11，使充电盒11包括握持传感器113和第一处理器114，以通过第一处理器114在握持传感器113检测到充电盒11被握持后产生唤醒信号；同时，通过设置耳机12，使耳机12包括第二处理器121，并使第二处理器121响应于唤醒信号将耳机12从休眠状态切换至工作状态；另外，通过在耳机12和/或充电盒11上进一步设置相对位置传感器13，以通过相对位置传感器13检测耳机12和充电盒11之间的相对位置是否发生变化，通过第二处理器121进一步响应于耳机12与充电盒11之间的相对位置发生变化控制耳机12进行自动蓝牙连接；该耳机组件10在检测到充电盒11被握持后自动唤醒耳机12，并在检测到耳机12与充电盒11之间的相对位置发生变化控制耳机12进行自动蓝牙连接。该耳机组件10在检测到充电盒11被握持后自动唤醒耳机12，减小了操作人员的操作负担，同时能够给耳机12预留出足够的响应时间。进一步，在检测到耳机12与充电盒11之间的相对位置发生变化控制耳机12进行自动蓝牙连接，无需用户操作即可自动进行蓝牙连接，操作过程简单，有效提高了用户的使用效率，且用户的体验较好；同时，能够降低用户的学习成本。In theearphone assembly 10 provided in this embodiment, by setting thecharging box 11 so that thecharging box 11 includes the holdingsensor 113 and thefirst processor 114 , thefirst processor 114 detects that thecharging box 11 is held at the holdingsensor 113 . Then, a wake-up signal is generated; at the same time, by setting theheadset 12, theheadset 12 includes thesecond processor 121, and thesecond processor 121 switches theheadset 12 from the sleep state to the working state in response to the wake-up signal; And/or arelative position sensor 13 is further provided on thecharging box 11 to detect whether the relative position between theearphone 12 and thecharging box 11 changes through therelative position sensor 13, and thesecond processor 121 further responds to theearphone 12 and the charging box through thesecond processor 121. The relative position between 11 changes to control theheadset 12 for automatic Bluetooth connection; theheadset assembly 10 automatically wakes up theheadset 12 after detecting that thecharging box 11 is held, and detects the relative position between theheadset 12 and thecharging box 11 The change controls theheadset 12 to make an automatic Bluetooth connection. Theearphone assembly 10 automatically wakes up theearphone 12 after detecting that thecharging box 11 is being held, which reduces the operation burden of the operator and can reserve sufficient response time for theearphone 12 at the same time. Further, when it is detected that the relative position between theearphone 12 and thecharging box 11 changes, theearphone 12 is controlled to perform an automatic Bluetooth connection, and the Bluetooth connection can be automatically performed without user operation. The operation process is simple, effectively improving the user's use efficiency, and the user The experience is better; at the same time, it can reduce the learning cost of users.

请参阅图3，图3为本申请一实施例提供的耳机组件的蓝牙连接方法的流程图；在本实施例中，提供一种耳机组件的蓝牙连接方法，其中，耳机组件10可为上述任一实施例所涉及的耳机组件10，该方法能够在充电盒11被握持后使耳机12自动切换至工作状态，并在检测到耳机12和充电盒11之间的相对位置发生变化即可使耳机12自动进行蓝牙连接，操作过程简单，学习成本低，用户体验较好，效率较高。Please refer to FIG. 3. FIG. 3 is a flowchart of a Bluetooth connection method of an earphone assembly provided by an embodiment of the application; in this embodiment, a Bluetooth connection method of an earphone assembly is provided, wherein theearphone assembly 10 can be any of the above In theearphone assembly 10 involved in an embodiment, the method can automatically switch theearphone 12 to the working state after the chargingcase 11 is held, and can make theearphone 12 and the chargingcase 11 change when the relative position between theearphone 12 and the chargingcase 11 is detected. Theearphone 12 automatically performs Bluetooth connection, the operation process is simple, the learning cost is low, the user experience is good, and the efficiency is high.

具体的，该蓝牙连接方法可包括：Specifically, the Bluetooth connection method may include:

步骤S21：检测充电盒是否被握持。Step S21: Detecting whether the charging case is held.

其中，充电盒11可包括盒体111和盖体112；步骤S21具体可通过握持传感器113执行且具体可通过握持传感器113检测充电盒11的盖体112和盒体111是否同时被握持；在一实施例中，握持传感器113具体可包括设置于盒体111上的第一握持传感器113a以及设置于盖体112上的第二握持传感器113b，步骤S21具体可通过设置于盒体111上的第一握持传感器113a检测盒体111是否被握持，通过设置于盖体112上的第二握持传感器113b检测盖体112是否被握持。其中，第一握持传感器113a和/或第二握持传感器113b可为电容传感器、电阻传感器或压力传感器等。Wherein, thecharging box 11 may include abox body 111 and acover body 112 ; step S21 may be specifically performed by the holdingsensor 113 , and specifically, the holdingsensor 113 may detect whether thecover body 112 and thebox body 111 of thecharging box 11 are held at the same time In one embodiment, thegrip sensor 113 may specifically include afirst grip sensor 113a arranged on thebox body 111 and asecond grip sensor 113b arranged on thecover body 112. Step S21 may specifically be arranged on thebox body 113b. Thefirst grip sensor 113a on thebody 111 detects whether thebox body 111 is gripped, and thesecond grip sensor 113b provided on thecover body 112 detects whether thecover body 112 is gripped. Wherein, thefirst grip sensor 113a and/or thesecond grip sensor 113b may be a capacitive sensor, a resistive sensor, a pressure sensor, or the like.

步骤S22：响应于充电盒被握持后产生唤醒信号。Step S22 : generating a wake-up signal in response to the charging case being held.

具体的，步骤S22可通过充电盒11上的第一处理器114执行；在一实施过程中，为了减少误触发问题的发生概率，第一处理器114可在第一握持传感器113a检测到盒体111被握持，且同时第二握持传感器113b检测到盖体112被握持后产生唤醒信号。Specifically, step S22 may be performed by thefirst processor 114 on the chargingcase 11; in an implementation process, in order to reduce the probability of false triggering, thefirst processor 114 may detect the case at thefirst grip sensor 113a Thebody 111 is held, and at the same time, thesecond holding sensor 113b generates a wake-up signal after detecting that thecover body 112 is held.

当然，在其他实施例中，第一处理器114也可在第一握持传感器113a检测到盒体111被握持，或第二握持传感器113b检测到盖体112被握持后即产生唤醒信号；本申请对此不做限定。Of course, in other embodiments, thefirst processor 114 can also wake up after thefirst holding sensor 113a detects that thebox body 111 is being held, or thesecond holding sensor 113b detects that thecover 112 is being held. Signal; this application does not limit it.

步骤S23：响应于唤醒信号将耳机从休眠状态切换至工作状态。Step S23: In response to the wake-up signal, the earphone is switched from the sleep state to the working state.

具体的，可通过耳机12上的第二处理器121执行步骤S23；该方法在检测到充电盒11被握持后自动唤醒耳机12，减小了操作人员的操作负担，使得操作过程更为简单。Specifically, step S23 can be performed by thesecond processor 121 on theearphone 12; this method automatically wakes up theearphone 12 after detecting that thecharging box 11 is held, which reduces the operator's operational burden and makes the operation process simpler .

步骤S24：检测耳机与充电盒之间的相对位置是否发生变化。Step S24: Detect whether the relative position between the earphone and the charging box changes.

具体的，可通过相对位置传感器13执行步骤S24。Specifically, step S24 may be performed by therelative position sensor 13 .

在一实施方式中，相对位置传感器13可包括设置于充电盒11上的第一状态传感器131和耳机12上的第二状态传感器132，步骤S24具体可通过第一状态传感器131检测充电盒11的第一状态值，通过第二状态传感器132检测耳机12的第二状态值，通过第一处理器114或第二处理器121根据第一状态值和第二状态值的差异确定耳机12和充电盒11之间的相对位置是否发生变化；其中，第一状态值和/或第二状态值可为速度、加速度、磁偏角、位置或姿态等。In one embodiment, therelative position sensor 13 may include afirst state sensor 131 provided on thecharging box 11 and asecond state sensor 132 on theearphone 12 . The first state value, the second state value of theearphone 12 is detected by thesecond state sensor 132, and theearphone 12 and the charging box are determined by thefirst processor 114 or thesecond processor 121 according to the difference between the first state value and the second state value Whether the relative position between 11 has changed; wherein, the first state value and/or the second state value may be speed, acceleration, magnetic declination, position or attitude, etc.

当然，在其他实施方式中，相对位置传感器13也可为设置于充电盒11上的第一状态传感器131或耳机12上的第二状态传感器132，第一状态传感器131和/或第二状态传感器132可为霍尔传感器、对射式或反射式光传感器或微动触发开关等；比如，当相对位置传感器13为霍尔传感器时，步骤S24具体可通过霍尔传感器配合磁体执行。Of course, in other embodiments, therelative position sensor 13 may also be thefirst state sensor 131 provided on thecharging box 11 or thesecond state sensor 132 on theearphone 12, thefirst state sensor 131 and/or thesecond state sensor 132 132 can be a Hall sensor, a through-beam or reflective light sensor, or a micro-trigger switch, etc.; for example, when therelative position sensor 13 is a Hall sensor, step S24 can be specifically performed by the Hall sensor and the magnet.

步骤S25：响应于耳机与充电盒之间的相对位置发生变化，控制耳机进行自动蓝牙连接。Step S25: In response to the change in the relative position between the earphone and the charging box, the earphone is controlled to perform an automatic Bluetooth connection.

具体的，在耳机12的存储器122存储有与耳机12建立过连接关系的终端设备的连接信息时，可通过耳机12上的第二处理器121响应于耳机12与充电盒11之间的相对位置发生变化，根据耳机12的存储器122存储的连接信息将耳机12自动回连终端设备；在耳机12与充电盒11之间的相对位置发生变化且在耳机12自动回连终端设备失败或存储器122未存储有连接信息，第二处理器121将耳机12设置成搜索配对状态，以实现自动蓝牙连接。Specifically, when thememory 122 of theearphone 12 stores the connection information of the terminal device that has established a connection relationship with theearphone 12 , thesecond processor 121 on theearphone 12 can respond to the relative position between theearphone 12 and thecharging box 11 If the change occurs, theheadset 12 is automatically connected back to the terminal device according to the connection information stored in thememory 122 of theheadset 12; the relative position between theheadset 12 and thecharging box 11 changes and theheadset 12 fails to automatically connect back to the terminal device or thememory 122 fails. The connection information is stored, and thesecond processor 121 sets theearphone 12 to a search pairing state, so as to realize an automatic Bluetooth connection.

本实施例提供的耳机组件的蓝牙连接方法，通过检测充电盒11是否被握持，并在握持后自动唤醒耳机12，无需用户打开耳机12，检测盖体112是否开启，减轻了用户的操作负担，使得操作较为简单；通过检测耳机12和充电盒11之间的相对位置是否发生变化，并在耳机12与充电盒11之间的相对位置发生变化控制耳机12进行自动蓝牙连接，相比于现有技术中需要再次通过用户操作以实现耳机组件10的蓝牙连接的方案，该方法只要在耳机12与充电盒11之间的相对位置发生变化后即自动控制耳机12进行蓝牙连接，操作过程简单，有效提高了用户的使用效率，且用户的体验较好；同时，能够降低用户的学习成本。The Bluetooth connection method of the earphone assembly provided in this embodiment detects whether thecharging box 11 is held, and automatically wakes up theearphone 12 after holding theearphone 12 without the user opening theearphone 12 to detect whether thecover 112 is open, which reduces the operation burden of the user. , making the operation simpler; by detecting whether the relative position between theearphone 12 and thecharging box 11 changes, and when the relative position between theearphone 12 and thecharging box 11 changes, theearphone 12 is controlled to perform an automatic Bluetooth connection. In the prior art, the bluetooth connection of theearphone assembly 10 needs to be realized by the user operation again. This method automatically controls theearphone 12 to perform the bluetooth connection as long as the relative position between theearphone 12 and thecharging box 11 changes, and the operation process is simple. The use efficiency of the user is effectively improved, and the user experience is better; at the same time, the learning cost of the user can be reduced.

以上仅为本申请的实施方式，并非因此限制本申请的专利范围，凡是利用本申请说明书及附图内容所作的等效结构或等效流程变换，或直接或间接运用在其他相关的技术领域，均同理包括在本申请的专利保护范围内。The above are only the embodiments of the present application, and are not intended to limit the scope of the patent of the present application. Any equivalent structure or equivalent process transformation made by using the contents of the description and drawings of the present application, or directly or indirectly applied in other related technical fields, All are similarly included in the scope of patent protection of the present application.

Claims (10)

1. An earphone assembly, comprising:

a charging box comprising a grip sensor and a first processor, wherein the first processor is configured to generate a wake-up signal after the grip sensor detects that the charging box is gripped;

a headset comprising a second processor, wherein the second processor switches the headset from a sleep state to an active state in response to the wake-up signal;

the earphone and/or the charging box are/is further provided with a relative position sensor, the relative position sensor is used for detecting whether the relative position between the earphone and the charging box changes or not, and the second processor further responds to the change of the relative position between the earphone and the charging box to control the earphone to carry out automatic Bluetooth connection.

2. The earphone assembly of claim 1 wherein the charging box further comprises a box body and a cover, the grip sensor comprising a first grip sensor disposed on the box body and a second grip sensor disposed on the cover, the first processor generating the wake-up signal after the first grip sensor detects that the box body is gripped and while the second grip sensor detects that the cover body is gripped.

3. The headset assembly of claim 2, wherein the first grip sensor and/or the second grip sensor is a capacitive sensor, a resistive sensor, or a pressure sensor.

4. The headset assembly of claim 1, wherein the relative position sensor comprises a first state sensor disposed on the charging box for detecting a first state value of the charging box and a second state sensor disposed on the headset for detecting a second state value of the headset, the first processor or the second processor determining whether the relative position between the headset and the charging box has changed based on a difference between the first state value and the second state value.

5. The headset assembly of claim 4, wherein the first state sensor and/or the second state sensor is a geomagnetic sensor, an attitude sensor, an infrared sensor, or a magnetic field sensor.

6. The headset assembly of claim 1, wherein the headset further comprises a memory, the memory further configured to store connection information of a terminal device that has established an over-connection relationship with the headset, and the second processor is configured to automatically connect the headset back to the terminal device according to the stored connection information in response to a change in relative position between the headset and the charging box.

7. The headset assembly of claim 6, wherein the second processor is further configured to set the headset to a search for a pairing state in response to a change in the relative position between the headset and the charging box and a failure of the headset to automatically reconnect the terminal device or the memory not storing the connection information.

8. A bluetooth connection method of a headset assembly, the headset assembly comprising a headset and a charging box, wherein the bluetooth connection method comprises:

detecting whether the charging box is held;

generating a wake-up signal in response to the charging box being held;

switching the headset from a sleep state to an active state in response to the wake-up signal;

detecting whether a relative position between the earphone and the charging box is changed;

and controlling the earphone to perform automatic Bluetooth connection in response to the change of the relative position between the earphone and the charging box.

9. The bluetooth connection method according to claim 8, wherein the charging box includes a box body and a box cover;

the step of detecting whether the charging cartridge is held includes:

and detecting whether the box body and the box cover are simultaneously held.

10. The bluetooth connection method according to claim 8, wherein the step of detecting whether the relative position between the earphone and the charging box is changed comprises:

detecting a first state value of the charging box and detecting a second state value of the earphone;

determining whether a relative position between the earphone and the charging box is changed according to a difference between the first state value and the second state value.

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