技术领域Technical Field
本发明涉及耳机充电盒技术领域,特别涉及一种分体式耳机盒、耳机组件及头戴式设备。The present invention relates to the technical field of earphone charging boxes, and in particular to a split earphone box, an earphone assembly and a head-mounted device.
背景技术Background Art
在耳机特别是TWS耳机一些特殊应用场景,例如作为VR等头戴式设备的配件使用时,耳机往往需要固定在分别固定在头戴式设备的两侧,然而头戴式设备不能给耳机进行充电,而且在平时不使用头戴式设备的时候也不能够收纳耳机,给用户的使用造成了困难。In some special application scenarios of earphones, especially TWS earphones, for example, when used as accessories for head-mounted devices such as VR, the earphones often need to be fixed on both sides of the head-mounted devices. However, the head-mounted devices cannot charge the earphones, and the earphones cannot be stored when the head-mounted devices are not in use, which causes difficulties for users.
发明内容Summary of the invention
本发明的主要目的是提供一种分体式耳机盒、耳机组件及头戴式设备,旨在提高耳机在特殊应用场景下使用的便利性。The main purpose of the present invention is to provide a split earphone box, an earphone assembly and a head-mounted device, aiming to improve the convenience of using the earphone in special application scenarios.
为实现上述目的,本发明提出了一种分体式耳机盒,应用于耳机组件,所述耳机组件包括第一耳机和第二耳机,所述分体式耳机盒包括:To achieve the above object, the present invention provides a split earphone box, which is applied to an earphone assembly, wherein the earphone assembly includes a first earphone and a second earphone, and the split earphone box includes:
第一充电盒,所述第一充电盒上设置有用于接入所述第一耳机的容纳腔,所述第一充电盒内设置有第一主控组件和第一工作组件;A first charging box, wherein the first charging box is provided with a receiving cavity for receiving the first earphone, and the first main control component and the first working component are provided in the first charging box;
所述第一主控组件,用于在所述第一耳机接入时,控制所述第一工作组件处于充电模式以为所述第一耳机充电,和/或,控制所述第一工作组件处于通信模式以使所述第一主控组件经所述第一工作组件与所述第一耳机建立通信连接;The first main control component is used to control the first working component to be in a charging mode to charge the first headset when the first headset is connected, and/or control the first working component to be in a communication mode so that the first main control component establishes a communication connection with the first headset via the first working component;
第二充电盒,所述第二充电盒上设置有用于接入所述第二耳机的容纳腔,所述第二充电盒内设置有第二主控组件和第二工作组件;A second charging box, wherein the second charging box is provided with a receiving cavity for receiving the second earphone, and the second main control component and the second working component are provided in the second charging box;
所述第二主控组件,用于在所述第二耳机接入时,控制所述第二工作组件处于充电模式以为所述第二耳机充电,和/或,控制所述第二工作组件处于通信模式以使所述第二主控组件经所述第二工作组件与所述第二耳机建立通信连接;The second main control component is used to control the second working component to be in a charging mode to charge the second headset when the second headset is connected, and/or control the second working component to be in a communication mode so that the second main control component establishes a communication connection with the second headset via the second working component;
连接器,所述第一充电盒用于经所述连接器与所述第二充电盒建立电连接;A connector, wherein the first charging box is used to establish an electrical connection with the second charging box via the connector;
所述第一主控组件,还用于在所述第一充电盒经所述连接器与所述第二充电盒建立电连接时,与所述第二主控组件建立通信连接。The first main control component is also used to establish a communication connection with the second main control component when the first charging box establishes an electrical connection with the second charging box via the connector.
可选的,所述第一主控组件包括用于接入所述连接器的第一通信端,所述第一工作组件包括:Optionally, the first main control component includes a first communication terminal for accessing the connector, and the first working component includes:
第一电池;First battery;
第一开关电路,所述第一开关电路的输出端用于在所述第一耳机接入时与所述第一耳机建立电连接通路,所述第一开关电路的受控端、第二输入端分别与所述第一主控组件连接;a first switch circuit, wherein the output end of the first switch circuit is used to establish an electrical connection path with the first earphone when the first earphone is connected, and the controlled end and the second input end of the first switch circuit are respectively connected to the first main control component;
第一电源管理电路,所述第一电源管理电路的输入端与所述第一电池连接,所述第一电源管理电路的输出端与所述第一开关电路的第一输入端连接;a first power management circuit, wherein an input end of the first power management circuit is connected to the first battery, and an output end of the first power management circuit is connected to a first input end of the first switch circuit;
所述第一电源管理电路,用于将所述第一电池的电池电压经过电压变换后输出充电电压;The first power management circuit is used to output a charging voltage after converting the battery voltage of the first battery;
所述第一开关电路,用于在所述第一主控组件的控制下处于充电模式时,导通所述第一开关电路的第一输入端和输出端之间的通路;或者,在所述第一主控组件的控制下处于通信模式时,导通所述第一开关电路的第二输入端和输出端之间的通路,以在所述第一耳机接入时使所述第一主控组件与所述第一耳机建立通信连接。The first switch circuit is used to conduct the path between the first input terminal and the output terminal of the first switch circuit when it is in a charging mode under the control of the first main control component; or to conduct the path between the second input terminal and the output terminal of the first switch circuit when it is in a communication mode under the control of the first main control component, so that the first main control component and the first earphone are connected to establish a communication connection.
可选的,所述第二主控组件包括用于接入所述连接器的第二通信端,在所述第一充电盒用于经所述连接器与所述第二充电盒建立电连接时,所述第一通信端与所述第二通信端建立电连接通路;Optionally, the second main control component includes a second communication terminal for accessing the connector, and when the first charging box is used to establish an electrical connection with the second charging box via the connector, the first communication terminal establishes an electrical connection path with the second communication terminal;
第二电池;Second battery;
第二开关电路,所述第二开关电路的输出端用于在所述第二耳机接入时与所述第二耳机建立电连接通路,所述第二开关电路的受控端、第二输入端分别与所述第二主控组件连接;a second switch circuit, wherein the output end of the second switch circuit is used to establish an electrical connection path with the second earphone when the second earphone is connected, and the controlled end and the second input end of the second switch circuit are respectively connected to the second main control component;
第二电源管理电路,所述第二电源管理电路的输入端与所述第二电池连接,所述第二电源管理电路的输出端与所述第二开关电路的第一输入端连接;a second power management circuit, wherein an input end of the second power management circuit is connected to the second battery, and an output end of the second power management circuit is connected to the first input end of the second switch circuit;
所述第二电源管理电路,用于将所述第二电池的电池电压经过电压变换后输出充电电压;The second power management circuit is used to output a charging voltage after converting the battery voltage of the second battery;
所述第二开关电路,用于在所述第二主控组件的控制下处于充电模式时,导通所述第二开关电路的第一输入端和输出端之间的通路;或者,在所述第二主控组件的控制下处于通信模式时,导通所述第二开关电路的第二输入端和输出端之间的通路,以在所述第二耳机接入时使所述第二主控组件与所述第二耳机建立通信连接。The second switch circuit is used to conduct the path between the first input terminal and the output terminal of the second switch circuit when the second main control component is in a charging mode; or to conduct the path between the second input terminal and the output terminal of the second switch circuit when the second main control component is in a communication mode, so that the second main control component can establish a communication connection with the second earphone when the second earphone is connected.
可选的,所述第一主控组件,还用于每间隔预设轮询时间经所述第一通信端输出问询信号;Optionally, the first main control component is further configured to output an inquiry signal via the first communication terminal at every preset polling time interval;
所述第二主控组件,还用于经所述第二通信端接收到所述问询信号时,确定所述第一充电盒经所述连接器与所述第二充电盒建立了电连接,并经所述第二通信端输出响应信号;The second main control component is further used to determine that the first charging box has established an electrical connection with the second charging box via the connector when receiving the inquiry signal via the second communication terminal, and output a response signal via the second communication terminal;
所述第一主控组件,还用于经所述第一通信端接收到所述响应信号时,确定所述第一充电盒经所述连接器与所述第二充电盒建立了电连接。The first main control component is further used to determine that the first charging box has established an electrical connection with the second charging box via the connector when the response signal is received via the first communication end.
可选的,所述第一充电盒上还设置有与所述第一主控组件电连接的第一指示模块;所述第二充电盒上还设置有与所述第二主控组件电连接的第二指示模块Optionally, the first charging box is further provided with a first indication module electrically connected to the first main control component; the second charging box is further provided with a second indication module electrically connected to the second main control component
所述第一主控组件,还用于每间隔预设时间控制所述第一开关电路处于通信模式,以获取所述第一耳机传来的第一电量信号,并根据所述第一电量信号控制所述第一指示模块指示所述第一耳机的电量;The first main control component is further used to control the first switch circuit to be in a communication mode at preset intervals to obtain a first power signal from the first earphone, and control the first indication module to indicate the power level of the first earphone according to the first power signal;
所述第二主控组件,还用于每间隔预设时间控制所述第二开关电路处于通信模式,以获取所述第二耳机传来的第二电量信号,并根据所述第二电量信号控制所述第二指示模块指示所述第二耳机的电量。The second main control component is also used to control the second switch circuit to be in communication mode at preset time intervals to obtain a second power signal from the second earphone, and control the second indication module to indicate the power of the second earphone according to the second power signal.
可选的,所述第一充电盒上还设置有与所述第一主控组件电连接的触发模块;Optionally, the first charging box is further provided with a trigger module electrically connected to the first main control component;
所述触发模块,用于在被用户触发时,输出相应的触发信号;The trigger module is used to output a corresponding trigger signal when triggered by a user;
所述第一主控组件,还用于在接收到所述触发信号时,控制所述第一开关电路处于通信模式,以根据所述触发信号输出相应的控制信号至所述第一耳机;The first main control component is further used to control the first switch circuit to be in a communication mode when receiving the trigger signal, so as to output a corresponding control signal to the first earphone according to the trigger signal;
所述第一主控组件,还用于在确认所述第一充电盒经所述连接器与所述第二充电盒建立电连接后且接收到所述触发信号时,经所述第一通信端将所述触发信号输出至所述第二通信端,以使所述第二主控组件根据所述触发信号输出相应的控制信号至所述第一耳机。The first main control component is also used to output the trigger signal to the second communication end via the first communication end after confirming that the first charging box has established an electrical connection with the second charging box via the connector and receiving the trigger signal, so that the second main control component outputs a corresponding control signal to the first earphone according to the trigger signal.
可选的,所述第一充电盒上还设置有用于接入外部电压的充电母座,所述充电母座具有与所述第一电源管理电路连接的供电连接端,所述供电连接端还用于连接所述连接器;Optionally, the first charging box is further provided with a charging socket for accessing an external voltage, the charging socket having a power supply connection terminal connected to the first power management circuit, and the power supply connection terminal is also used to connect the connector;
所述第一电源管理电路,用于在接收到所述外部电压时,将所述外部电压进行电压变换后输出电池充电电压至所述第一电池,以为所述第一电池充电;以及,将所述外部电压进行电压变换后输出所述充电电压;The first power management circuit is configured to, upon receiving the external voltage, perform voltage conversion on the external voltage and output a battery charging voltage to the first battery to charge the first battery; and perform voltage conversion on the external voltage and output the charging voltage;
所述第二电源管理电路还具有用于接入所述连接器的外部电源输入端,在所述第一充电盒经所述连接器与所述第二充电盒建立电连接时,所述外部电源输入端与所述供电连接端之间形成电连接通路;The second power management circuit further has an external power input terminal for connecting to the connector, and when the first charging box is electrically connected to the second charging box via the connector, an electrical connection path is formed between the external power input terminal and the power supply connection terminal;
所述第二电源管理电路,用于在接收到所述外部电压时,将所述外部电压进行电压变换后输出电池充电电压至所述第二电池,以为所述第二电池充电;以及,将所述外部电压进行电压变换后输出所述充电电压;The second power management circuit is configured to, upon receiving the external voltage, perform voltage conversion on the external voltage and output a battery charging voltage to the second battery to charge the second battery; and perform voltage conversion on the external voltage and output the charging voltage;
可选的,所述充电母座还具有与所述第一主控组件连接的数据传输端,所述数据传输端还用于连接所述连接器;所述第二主控组件还具有另一用于连接所述连接器的外部数据传输端,在所述第一充电盒经所述连接器与所述第二充电盒建立电连接时,所述数据传输端与所述外部数据传输端建立电连接通路;Optionally, the charging base further has a data transmission end connected to the first main control component, and the data transmission end is also used to connect to the connector; the second main control component further has another external data transmission end connected to the connector, and when the first charging box establishes an electrical connection with the second charging box via the connector, the data transmission end establishes an electrical connection path with the external data transmission end;
所述充电母座还用于接入耳机盒更新数据或耳机更新数据;The charging socket is also used to access the earphone box update data or the earphone update data;
所述第一主控组件,还用于在接收到所述耳机盒更新数据时将其存储在所述第一主控组件内,以更新所述第一主控组件内存储的数据;The first main control component is further used to store the earphone box update data in the first main control component when receiving the update data, so as to update the data stored in the first main control component;
所述第一主控组件,还用于在接收到所述耳机更新数据时,控制所述第一开关电路处于通信模式,以将所述耳机更新数据上传至所述第一耳机;The first main control component is further used to control the first switch circuit to be in a communication mode when receiving the headset update data, so as to upload the headset update data to the first headset;
所述第二主控组件,还用于在接收到所述耳机盒更新数据时将其存储在所述第二主控组件内,以更新所述第二主控组件内存储的数据;The second main control component is further used to store the earphone box update data in the second main control component when receiving the update data, so as to update the data stored in the second main control component;
所述第二主控组件,还用于在接收到所述耳机更新数据时,控制所述第二开关电路处于通信模式,以将所述耳机更新数据上传至所述第二耳机。The second main control component is further used to control the second switch circuit to be in a communication mode when receiving the headset update data, so as to upload the headset update data to the second headset.
可选的,所述连接器包括设置于所述第一充电盒上的第一连接部和设置于所述第二充电盒上的第二连接部;Optionally, the connector includes a first connecting portion provided on the first charging box and a second connecting portion provided on the second charging box;
所述第一连接部包括第一磁性件以及多个与所述第一主控组件电连接的连接端;The first connecting portion includes a first magnetic member and a plurality of connecting ends electrically connected to the first main control component;
所述第二连接部包括第二磁性件以及多个与所述第二主控组件电连接的连接端;The second connecting portion includes a second magnetic member and a plurality of connecting ends electrically connected to the second main control assembly;
所述第一连接部通过第一磁性件和第二磁性件与所述第二连接部磁吸连接,以实现所述第一充电盒经所述连接器与所述第二充电盒建立电连接。当所述第一充电盒经所述连接器与所述第二充电盒建立电连接时,多个第一连接部的连接端和多个第二连接部的连接端一一对应连接。The first connection part is magnetically connected to the second connection part through the first magnetic part and the second magnetic part, so that the first charging box is electrically connected to the second charging box via the connector. When the first charging box is electrically connected to the second charging box via the connector, the connection ends of the multiple first connection parts and the connection ends of the multiple second connection parts are connected one by one.
可选的,所述第一充电盒上设置有第一连接接口,所述第一连接接口包括多个与所述第一主控组件电连接的连接端;Optionally, the first charging box is provided with a first connection interface, and the first connection interface includes a plurality of connection terminals electrically connected to the first main control component;
所述第二充电盒上设置有第二连接接口,所述第二连接接口包括多个与所述第二主控组件电连接的连接端;The second charging box is provided with a second connection interface, and the second connection interface includes a plurality of connection terminals electrically connected to the second main control component;
所述连接器包括排线,所述排线的第一端设置有第一连接头,所述排线的第二端设置有第二连接头;当所述第一连接头接入所述第一连接接口且所述第二连接头接入所述第二连接接口时,多个第一连接部的连接端和多个第二连接部的连接端一一对应连接。The connector includes a flat cable, a first end of the flat cable is provided with a first connector, and a second end of the flat cable is provided with a second connector; when the first connector is connected to the first connection interface and the second connector is connected to the second connection interface, the connection ends of the multiple first connection parts and the connection ends of the multiple second connection parts are connected one by one.
本发明还提出了一种耳机组件,包括第一耳机、第二耳机和上述任一项所述的分体式耳机盒。The present invention further provides an earphone assembly, comprising a first earphone, a second earphone and any of the above-mentioned split earphone boxes.
本发明还提出了一种头戴式设备,包括设备主体和上述所述的耳机组件。The present invention also provides a head-mounted device, comprising a device body and the earphone assembly described above.
本发明分体式耳机盒包括第一充电盒、第二充电盒和连接器。其中,第一充电盒上设置有用于接入第一耳机的容纳腔,第一充电盒内设置有第一主控组件和第一工作组件,第一主控组件用于在第一耳机接入时,控制第一工作组件处于充电模式以为第一耳机充电,和/或,控制第一工作组件处于通信模式以使第一主控组件经第一工作组件与第一耳机建立通信连接;第二充电盒上设置有用于接入第二耳机的容纳腔,第二充电盒内设置有第二工作组件,第二主控组件用于在第二耳机接入时,控制第二工作组件处于充电模式以为第二耳机充电,和/或,控制第二工作组件处于通信模式以使第二主控组件经第二工作组件与第二耳机建立通信连接;连接器,第一充电盒用于经连接器与第二充电盒建立电连接;第一主控组件还用于在第一充电盒经连接器与第二充电盒建立电连接时,与第二主控组件建立通信连接。如此,在耳机的特殊使用场景下,例如作为头戴式设备的配件时,用户可以将本发明中的第一耳机盒和第二耳机盒分别设置于头戴式设备的两侧,以实现分别收纳两个耳机且对耳机进行充电,从而满足了用户在用头戴式设备时使用耳机的需求,本发明提高了用户在特殊应用场景下使用的便利性。同时,当第一充电盒和第二充电盒经连接器连接时,还同时能够满足用户在日常独立使用耳机的需求,从而提高了用户使用本发明分体式耳机盒的便利性。The split earphone box of the present invention comprises a first charging box, a second charging box and a connector. Among them, the first charging box is provided with a receiving cavity for accessing the first earphone, and the first charging box is provided with a first main control component and a first working component. The first main control component is used to control the first working component to be in a charging mode to charge the first earphone when the first earphone is connected, and/or, control the first working component to be in a communication mode so that the first main control component can establish a communication connection with the first earphone via the first working component; the second charging box is provided with a receiving cavity for accessing the second earphone, and the second charging box is provided with a second working component, and the second main control component is used to control the second working component to be in a charging mode to charge the second earphone when the second earphone is connected, and/or, control the second working component to be in a communication mode so that the second main control component can establish a communication connection with the second earphone via the second working component; the connector, the first charging box is used to establish an electrical connection with the second charging box via the connector; the first main control component is also used to establish a communication connection with the second main control component when the first charging box establishes an electrical connection with the second charging box via the connector. In this way, in special usage scenarios of the earphones, such as when used as accessories for head-mounted devices, users can respectively place the first earphone box and the second earphone box in the present invention on both sides of the head-mounted device to store two earphones and charge the earphones, thereby meeting the user's need to use the earphones while using the head-mounted device. The present invention improves the convenience of the user in special application scenarios. At the same time, when the first charging box and the second charging box are connected via a connector, it can also meet the user's need to use the earphones independently in daily life, thereby improving the convenience of the user using the split earphone box of the present invention.
附图说明BRIEF DESCRIPTION OF THE DRAWINGS
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术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,对于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示出的结构获得其他的附图。In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required for use in the embodiments or the description of the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For ordinary technicians in this field, other drawings can be obtained based on the structures shown in these drawings without paying creative work.
图1为本发明分体式耳机盒一实施例的模式示意图;FIG1 is a schematic diagram of an embodiment of a split earphone box of the present invention;
图2为本发明分体式耳机盒另一实施例的模式示意图;FIG2 is a schematic diagram of another embodiment of a split earphone box of the present invention;
图3为本发明分体式耳机盒又一实施例的模式示意图;FIG3 is a schematic diagram of another embodiment of a split earphone box of the present invention;
图4为本发明分体式耳机盒一实施例的具体电路示意图;FIG4 is a schematic diagram of a specific circuit of an embodiment of a split earphone box of the present invention;
图5为本发明分体式耳机盒另一实施例的具体电路示意图。FIG. 5 is a schematic diagram of a specific circuit of another embodiment of the split earphone box of the present invention.
附图标号说明:Description of Figure Numbers:
本发明目的的实现、功能特点及优点将结合实施例,参照附图做进一步说明。The realization of the purpose, functional features and advantages of the present invention will be further explained in conjunction with embodiments and with reference to the accompanying drawings.
具体实施方式DETAILED DESCRIPTION
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明的一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.
另外,若本发明实施例中有涉及“第一”、“第二”等的描述,则该“第一”、“第二”等的描述仅用于描述目的,而不能理解为指示或暗示其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”的特征可以明示或者隐含地包括至少一个该特征。另外,各个实施例之间的技术方案可以相互结合,但是必须是以本领域普通技术人员能够实现为基础,当技术方案的结合出现相互矛盾或无法实现时应当认为这种技术方案的结合不存在,也不在本发明要求的保护范围之内。In addition, if there are descriptions involving "first", "second", etc. in the embodiments of the present invention, the descriptions of "first", "second", etc. are only used for descriptive purposes and cannot be understood as indicating or suggesting their relative importance or implicitly indicating the number of the indicated technical features. Therefore, the features defined as "first" and "second" may explicitly or implicitly include at least one of the features. In addition, the technical solutions between the various embodiments can be combined with each other, but they must be based on the ability of ordinary technicians in the field to implement them. When the combination of technical solutions is contradictory or cannot be implemented, it should be deemed that such a combination of technical solutions does not exist and is not within the scope of protection required by the present invention.
在耳机特别是TWS耳机一些特殊应用场景,例如作为VR等头戴式设备的配件使用时,耳机往往需要固定在分别固定在头戴式设备的两侧,然而头戴式设备不能给耳机进行充电,而且在平时不使用头戴式设备的时候也不能够收纳耳机,给用户的使用造成了困难.In some special application scenarios of earphones, especially TWS earphones, such as when used as accessories for head-mounted devices such as VR, the earphones often need to be fixed on both sides of the head-mounted device. However, the head-mounted device cannot charge the earphones, and the earphones cannot be stored when the head-mounted device is not in use, which makes it difficult for users to use.
为此,本发明提出一种分体式耳机盒,应用于耳机组件,耳机组件包括第一耳机和第二耳机。To this end, the present invention provides a split earphone box, which is applied to an earphone assembly. The earphone assembly includes a first earphone and a second earphone.
参考图1,在本发明一实施例中,分体式耳机盒包括:Referring to FIG. 1 , in one embodiment of the present invention, a split earphone box includes:
第一充电盒10,第一充电盒10上设置有用于接入第一耳机的容纳腔,第一充电盒10内设置有第一主控组件12和第一工作组件11;A first charging box 10, wherein the first charging box 10 is provided with a receiving cavity for receiving the first earphone, and a first main control component 12 and a first working component 11 are provided in the first charging box 10;
第一主控组件12,用于在第一耳机接入时,控制第一工作组件11处于充电模式以为第一耳机充电,和/或,控制第一工作组件11处于通信模式以使第一主控组件12经第一工作组件11与第一耳机建立通信连接;The first main control component 12 is used to control the first working component 11 to be in a charging mode to charge the first headset when the first headset is connected, and/or control the first working component 11 to be in a communication mode so that the first main control component 12 establishes a communication connection with the first headset via the first working component 11;
第二充电盒20,第二充电盒20上设置有用于接入第二耳机的容纳腔,第二充电盒20内设置有第二主控组件22和第二工作组件21;A second charging box 20, wherein the second charging box 20 is provided with a receiving cavity for receiving a second earphone, and a second main control component 22 and a second working component 21 are provided in the second charging box 20;
第二主控组件22,用于在第二耳机接入时,控制第二工作组件21处于充电模式以为第二耳机充电,和/或,控制第二工作组件21处于通信模式以使第二主控组件22经第二工作组件21与第二耳机建立通信连接;The second main control component 22 is used to control the second working component 21 to be in a charging mode to charge the second headset when the second headset is connected, and/or control the second working component 21 to be in a communication mode so that the second main control component 22 establishes a communication connection with the second headset via the second working component 21;
连接器30,第一充电盒10用于经连接器30与第二充电盒20建立电连接;Connector 30, the first charging box 10 is used to establish an electrical connection with the second charging box 20 via the connector 30;
第一主控组件12,还用于在第一充电盒10经连接器30与第二充电盒20建立电连接时,与第二主控组件22建立通信连接。The first main control component 12 is also used to establish a communication connection with the second main control component 22 when the first charging box 10 establishes an electrical connection with the second charging box 20 via the connector 30.
在本实施例中,第一主控组件12可以采用主控制器,例如MCU、DSP(DigitalSignal Process,数字信号处理芯片)、FPGA(Field Programmable Gate Array,可编程逻辑门阵列芯片)等来实现。第一工作组件11和第二工作组件21可以采用电池、至少一个开关电路、充电电路来组成,从而能够将电池的电压进行转换为充电电压后输出,以使耳机在接入时能够进入充电状态。In this embodiment, the first main control component 12 can be implemented by a main controller, such as an MCU, a DSP (Digital Signal Process), an FPGA (Field Programmable Gate Array), etc. The first working component 11 and the second working component 21 can be composed of a battery, at least one switch circuit, and a charging circuit, so that the battery voltage can be converted into a charging voltage and then output, so that the headset can enter a charging state when connected.
在本实施例中,连接器30可以采用独立的连接器30来实现,例如带有接头的排线、或者是连接线来实现将第一充电盒10和第二充电盒20建立电连接,也可以直接设置于第一充电盒10或者第二充电盒20上例如在第一充电盒10上设置有个包括了多个连接端的连接口,在第二充电盒20上设置有包括了多个连接端的与连接口相应结构的连接头,以便于用户的使用,无需额外携带连接线。In this embodiment, the connector 30 can be implemented by an independent connector 30, such as a flat cable with a connector, or a connecting cable to establish an electrical connection between the first charging box 10 and the second charging box 20. It can also be directly arranged on the first charging box 10 or the second charging box 20. For example, a connecting port including multiple connecting terminals is provided on the first charging box 10, and a connecting head including multiple connecting terminals and a structure corresponding to the connecting port is provided on the second charging box 20, so as to facilitate user use without carrying additional connecting cables.
在本实施例中,容纳腔的形状可以根据耳机的构型来设置。In this embodiment, the shape of the accommodating cavity can be set according to the configuration of the earphone.
在本实施例中,第一主控组件12与第一耳机建立通信连接后/第二主控组件22与第二耳机建立通信连接后,能够互相交互数据,例如读取耳机的电量,或者是根据外部接入的信号控制耳机执行相应的程序等等。并在第一充电盒10经连接器30与第二充电盒20处于合并状态时,也可以实现第一主控组件12和第二主控组件22的数据交换,以使第一主控组件12同时控制第一耳机和第二耳机。In this embodiment, after the first main control component 12 establishes a communication connection with the first earphone/after the second main control component 22 establishes a communication connection with the second earphone, data can be exchanged with each other, such as reading the power of the earphone, or controlling the earphone to execute a corresponding program according to an external signal, etc. When the first charging box 10 is in a merged state with the second charging box 20 via the connector 30, data exchange between the first main control component 12 and the second main control component 22 can also be achieved, so that the first main control component 12 controls the first earphone and the second earphone at the same time.
可以理解的是,在实际应用中,耳机与充电盒的连接端一般为两个(接地端和充电/通信端)或者是三个(接地端、充电端、通信端)组成。It is understandable that, in actual applications, the connection terminals between the earphones and the charging box are generally composed of two (ground terminal and charging/communication terminal) or three (ground terminal, charging terminal, communication terminal).
可选的,在一实施中,容纳腔内可以同时设置有两个连接端(接地端和充电/通信端),以适配有两个连接端的耳机。以第一充电盒10为例进行说明(第二充电盒20的电路同理),在不用与第一耳机进行通信时,第一主控组件12可以控制相应的充电电路开始工作,并且控制相应的开关电路动作,以导通充电电路输出端和容纳腔上充电/通信端之间的通路(充电模式),并在需要与耳机通信时,控制相应得的开关电路动作,以使容纳腔上充电/通信端仅与第一主控组件12建立电连接通路。如此,在第一耳机接入时,第一充电盒10便能够对第一耳机进行收纳、充电以及通信。在第一充电盒10和第二充电盒20经连接器30处于合并状态时,第一耳机盒和第二耳机盒依然可以正常对接入的第一耳机和第二耳机进行充电,此时,第一主控组件12可以通过连接器30与第二主控组件22通信,以实现互相交互数据。换而言之,第一主控组件12此时可以通过连接器30和第二主控组件22,获取到第二耳机传出的数据,以及将数据经连接器30和第二主控组件22发送至第二耳机。Optionally, in one implementation, two connection terminals (ground terminal and charging/communication terminal) can be provided in the accommodating cavity at the same time to adapt to earphones with two connection terminals. Taking the first charging box 10 as an example for explanation (the circuit of the second charging box 20 is the same), when there is no need to communicate with the first earphone, the first main control component 12 can control the corresponding charging circuit to start working, and control the corresponding switch circuit action to conduct the path between the output terminal of the charging circuit and the charging/communication terminal on the accommodating cavity (charging mode), and when it is necessary to communicate with the earphone, control the corresponding switch circuit action so that the charging/communication terminal on the accommodating cavity only establishes an electrical connection path with the first main control component 12. In this way, when the first earphone is connected, the first charging box 10 can store, charge and communicate with the first earphone. When the first charging box 10 and the second charging box 20 are in a merged state through the connector 30, the first earphone box and the second earphone box can still charge the connected first earphone and the second earphone normally. At this time, the first main control component 12 can communicate with the second main control component 22 through the connector 30 to achieve mutual data exchange. In other words, the first main control component 12 can obtain the data transmitted by the second earphone through the connector 30 and the second main control component 22, and send the data to the second earphone through the connector 30 and the second main control component 22.
可选的,在另一实施例中,容纳腔内还可以同时设置有三个对应的连接端,还是一第一充电盒10为例,第一主控组件12在有通信需求时,控制第一工作组件11处于通信模式,例如控制第一控制组件中相应的开关处于闭合状态,以导通第一主控组件12和容纳腔内的通信端的通路,从而在第一耳机接入时,使第一主控组件12经第一工作组件11与第一耳机建立通信连接,同时还可以控制第一工作组件11处于充电模式,以使相应的充电电路工作经过充电端输出充电电压,以使第一耳机接入时能够进行充电作业。在两个充电盒经连接器30处于合并状态时,依然能够对接入的耳机进行充电盒通信,并能够和上述实施例一样,在第一主控组件12和第二主控组件22之间交换数据,以使第一主控组件12/第二合租空组件同时控制第一耳机和第二耳机。如此,在耳机的特殊使用场景下,例如作为头戴式设备的配件时,用户可以将本发明中的第一耳机盒和第二耳机盒分别设置于头戴式设备的两侧,以实现分别收纳两个耳机且对耳机进行充电,从而满足了用户在用头戴式设备时使用耳机的需求,本发明提高了用户在特殊应用场景下使用的便利性。同时,当第一充电盒10和第二充电盒20经连接器30连接时,还同时能够满足用户在日常独立使用耳机的需求,实现与普通耳机充电盒一样的功能。Optionally, in another embodiment, three corresponding connection terminals can also be provided in the accommodating cavity at the same time. Taking the first charging box 10 as an example, when there is a communication demand, the first main control component 12 controls the first working component 11 to be in the communication mode, for example, controls the corresponding switch in the first control component to be in a closed state, so as to conduct the passage between the first main control component 12 and the communication terminal in the accommodating cavity, so that when the first earphone is connected, the first main control component 12 establishes a communication connection with the first earphone through the first working component 11, and at the same time, the first working component 11 can be controlled to be in the charging mode, so that the corresponding charging circuit works to output the charging voltage through the charging terminal, so that the first earphone can be charged when it is connected. When the two charging boxes are in a merged state via the connector 30, the charging box communication can still be performed on the connected earphones, and data can be exchanged between the first main control component 12 and the second main control component 22 as in the above embodiment, so that the first main control component 12/the second main control component can control the first earphone and the second earphone at the same time. In this way, in special usage scenarios of the earphones, such as when used as accessories for head-mounted devices, users can respectively place the first earphone box and the second earphone box of the present invention on both sides of the head-mounted device to store two earphones and charge them, thereby meeting the user's need to use the earphones while using the head-mounted device. The present invention improves the convenience of use for users in special application scenarios. At the same time, when the first charging box 10 and the second charging box 20 are connected via the connector 30, it can also meet the user's need to use the earphones independently in daily life, and realize the same function as an ordinary earphone charging box.
本发明分体式耳机盒包括第一充电盒10、第二充电盒20和连接器30。其中,第一充电盒10上设置有用于接入第一耳机的容纳腔,第一充电盒10内设置有第一主控组件12和第一工作组件11,第一主控组件12用于在第一耳机接入时,控制第一工作组件11处于充电模式以为第一耳机充电,和/或,控制第一工作组件11处于通信模式以使第一主控组件12经第一工作组件11与第一耳机建立通信连接;第二充电盒20上设置有用于接入第二耳机的容纳腔,第二充电盒20内设置有第二工作组件21,第二主控组件22用于在第二耳机接入时,控制第二工作组件21处于充电模式以为第二耳机充电,和/或,控制第二工作组件21处于通信模式以使第二主控组件22经第二工作组件21与第二耳机建立通信连接;连接器30,第一充电盒10用于经连接器30与第二充电盒20建立电连接;第一主控组件12还用于在第一充电盒10经连接器30与第二充电盒20建立电连接时,与第二主控组件22建立通信连接。如此,在耳机的特殊使用场景下,例如作为头戴式设备的配件时,用户可以将本发明中的第一耳机盒和第二耳机盒分别设置于头戴式设备的两侧,以实现分别收纳两个耳机且对耳机进行充电,从而满足了用户在用头戴式设备时使用耳机的需求,本发明提高了用户在特殊应用场景下使用的便利性。同时,当第一充电盒10和第二充电盒20经连接器30连接时,还同时能够满足用户在日常独立使用耳机的需求,从而提高了用户使用本发明分体式耳机盒的便利性。The split earphone box of the present invention comprises a first charging box 10, a second charging box 20 and a connector 30. The first charging box 10 is provided with a receiving cavity for receiving the first earphone, and the first charging box 10 is provided with a first main control component 12 and a first working component 11. The first main control component 12 is used to control the first working component 11 to be in a charging mode to charge the first earphone when the first earphone is connected, and/or control the first working component 11 to be in a communication mode so that the first main control component 12 establishes a communication connection with the first earphone via the first working component 11; the second charging box 20 is provided with a receiving cavity for receiving the second earphone, and the second charging box 20 is provided with a second working component 11. Component 21, the second main control component 22 is used to control the second working component 21 to be in charging mode to charge the second earphone when the second earphone is connected, and/or control the second working component 21 to be in communication mode so that the second main control component 22 establishes a communication connection with the second earphone via the second working component 21; connector 30, the first charging box 10 is used to establish an electrical connection with the second charging box 20 via the connector 30; the first main control component 12 is also used to establish a communication connection with the second main control component 22 when the first charging box 10 establishes an electrical connection with the second charging box 20 via the connector 30. In this way, in special use scenarios of the earphone, for example, as an accessory of a head-mounted device, the user can respectively set the first earphone box and the second earphone box of the present invention on both sides of the head-mounted device to respectively store two earphones and charge the earphones, thereby meeting the user's need to use the earphone when using the head-mounted device, and the present invention improves the convenience of the user in special application scenarios. At the same time, when the first charging box 10 and the second charging box 20 are connected via the connector 30, it can also meet the user's needs for independent daily use of headphones, thereby improving the convenience of users using the split headphone box of the present invention.
参考图2,在本发明一实施例中,第一主控组件12包括用于接入连接器30的第一通信端,第一工作组件11包括:Referring to FIG. 2 , in one embodiment of the present invention, the first main control component 12 includes a first communication terminal for accessing the connector 30 , and the first working component 11 includes:
第一电池111;A first battery 111;
第一开关电路112,第一开关电路112的输出端用于在第一耳机接入时与第一耳机建立电连接通路,第一开关电路112的受控端、第二输入端分别与第一主控组件12连接;A first switch circuit 112, wherein the output end of the first switch circuit 112 is used to establish an electrical connection path with the first earphone when the first earphone is connected, and the controlled end and the second input end of the first switch circuit 112 are respectively connected to the first main control component 12;
第一电源管理电路113,第一电源管理电路113的输入端与第一电池111连接,第一电源管理电路113的输出端与第一开关电路112的第一输入端连接;A first power management circuit 113, wherein an input end of the first power management circuit 113 is connected to the first battery 111, and an output end of the first power management circuit 113 is connected to a first input end of the first switch circuit 112;
第一电源管理电路113,用于将第一电池111的电池电压经过电压变换后输出充电电压;The first power management circuit 113 is used to convert the battery voltage of the first battery 111 and output a charging voltage;
第一开关电路112,用于在第一主控组件12的控制下处于充电模式时,导通第一开关电路112的第一输入端和输出端之间的通路;或者,在第一主控组件12的控制下处于通信模式时,导通第一开关电路112的第二输入端和输出端之间的通路,以在第一耳机接入时使第一主控组件12与第一耳机建立通信连接。The first switch circuit 112 is used to conduct the path between the first input terminal and the output terminal of the first switch circuit 112 when it is in a charging mode under the control of the first main control component 12; or, when it is in a communication mode under the control of the first main control component 12, conduct the path between the second input terminal and the output terminal of the first switch circuit 112, so that the first main control component 12 can establish a communication connection with the first earphone when the first earphone is connected.
在本实施例中,第一电源管理电路113可以采用带电压变换功能的充电管理芯片来实现,也可以采用充电管理芯片加DCDC电路来实现。第一开关电路112可以采用单刀双掷开关电路来实现,例如单刀双掷继电器及其外围控制电路或者是单刀双掷模拟开关,以使第一开关电路112在第一主控组件12的控制下,能够切换导通第一输入端和输出端之间的通路/导通第二输入端和输出端之间通路。In this embodiment, the first power management circuit 113 can be implemented by a charging management chip with a voltage conversion function, or by a charging management chip plus a DCDC circuit. The first switch circuit 112 can be implemented by a single-pole double-throw switch circuit, such as a single-pole double-throw relay and its peripheral control circuit or a single-pole double-throw analog switch, so that the first switch circuit 112 can switch the path between the first input end and the output end/the path between the second input end and the output end under the control of the first main control component 12.
具体地,在第一主控组件12无需与第一耳机进行通信时,第一主控组件12会控制第一开关电路112处于充电模式,即控制第一开关电路112导通第一开关电路112的第一输入端和输出端SC1之间的通路,此时若第一耳机接入,则第一电源管理电路113可以经第一开关电路112的输出端SC1输出充电电压至第一耳机以对第一耳机充电。Specifically, when the first main control component 12 does not need to communicate with the first earphone, the first main control component 12 will control the first switch circuit 112 to be in charging mode, that is, control the first switch circuit 112 to turn on the path between the first input terminal and the output terminal SC1 of the first switch circuit 112. At this time, if the first earphone is connected, the first power management circuit 113 can output a charging voltage to the first earphone through the output terminal SC1 of the first switch circuit 112 to charge the first earphone.
在第一主控组件12需要与第一耳机进行通信时,会控制第一开关电路112处于通信模式,以导通第一开关电路112的第二输入端和输出端SC1之间的通路,以在第一耳机接入时使第一主控组件12与第一耳机建立通信连接。When the first main control component 12 needs to communicate with the first earphone, the first switch circuit 112 will be controlled to be in communication mode to turn on the path between the second input terminal and the output terminal SC1 of the first switch circuit 112, so that the first main control component 12 can establish a communication connection with the first earphone when the first earphone is connected.
可以理解的是,在无通信需求的情况下,第一主控组件12也会每间隔预设接入检测时间(由研发人员设置),控制第一开关电路112处于通信模块,此时第一主控组件12会发出一询问信号,若第一耳机接入了,那么会回传一耳机接入响应信号,那么第一主控组件12在接收到耳机接入响应信号时就能够确认当前第一耳机接入了,若在一定时间内未能够接收到耳机接入响应信号,那么就确认当前第一耳机并未接入。It is understandable that in the absence of communication needs, the first main control component 12 will also control the first switch circuit 112 to be in the communication module at a preset access detection time interval (set by the R&D personnel). At this time, the first main control component 12 will send an inquiry signal. If the first earphone is connected, an earphone access response signal will be sent back. Then, when the first main control component 12 receives the earphone access response signal, it can confirm that the current first earphone is connected. If the earphone access response signal is not received within a certain period of time, it is confirmed that the current first earphone is not connected.
通过上述设置,不论是在第一充电盒10和第二充电盒20分开/合并使用时,用户都可以将第一耳机置于第一充电盒10内,以实现第一充电盒10收纳第一耳机的同时对第一耳机进行充电,或者是与第一耳机进行通信交互。在满足了用户在特殊场景下例如在头戴式设备上使用耳机时的需求外,还同时能够满足用户在日常独立使用耳机的需求,更进一步提高了用户使用的便利性。Through the above configuration, no matter the first charging box 10 and the second charging box 20 are used separately or combined, the user can place the first earphone in the first charging box 10, so that the first earphone can be charged while the first charging box 10 stores the first earphone, or communicate with the first earphone. In addition to meeting the needs of users in special scenarios, such as using earphones on head-mounted devices, it can also meet the needs of users in daily independent use of earphones, further improving the convenience of users.
在本发明一实施例中,第二主控组件22包括用于接入连接器30的第二通信端,在第一充电盒10用于经连接器30与第二充电盒20建立电连接时,第一通信端与第二通信端建立电连接通路;In one embodiment of the present invention, the second main control component 22 includes a second communication terminal for accessing the connector 30, and when the first charging box 10 is used to establish an electrical connection with the second charging box 20 via the connector 30, the first communication terminal establishes an electrical connection path with the second communication terminal;
第二电池211;A second battery 211;
第二开关电路212,第二开关电路212的输出端用于在第二耳机接入时与第二耳机建立电连接通路,第二开关电路212的受控端、第二输入端分别与第二主控组件22连接;A second switch circuit 212, the output end of the second switch circuit 212 is used to establish an electrical connection path with the second earphone when the second earphone is connected, and the controlled end and the second input end of the second switch circuit 212 are respectively connected to the second main control component 22;
第二电源管理电路213,第二电源管理电路213的输入端与第二电池211连接,第二电源管理电路213的输出端与第二开关电路212的第一输入端连接;A second power management circuit 213, wherein an input end of the second power management circuit 213 is connected to the second battery 211, and an output end of the second power management circuit 213 is connected to a first input end of the second switch circuit 212;
第二电源管理电路213,用于将第二电池211的电池电压经过电压变换后输出充电电压;The second power management circuit 213 is used to convert the battery voltage of the second battery 211 and output a charging voltage;
第二开关电路212,用于在第二主控组件22的控制下处于充电模式时,导通第二开关电路212的第一输入端和输出端之间的通路;或者,在第二主控组件22的控制下处于通信模式时,导通第二开关电路212的第二输入端和输出端之间的通路,以在第二耳机接入时使第二主控组件22与第二耳机建立通信连接。The second switch circuit 212 is used to conduct the path between the first input terminal and the output terminal of the second switch circuit 212 when it is in a charging mode under the control of the second main control component 22; or, when it is in a communication mode under the control of the second main control component 22, conduct the path between the second input terminal and the output terminal of the second switch circuit 212, so that the second main control component 22 can establish a communication connection with the second earphone when the second earphone is connected.
在本实施例中,第二开关电路212可以和上述实施例的第一开关电路112一样,采用单刀双掷开关电路来实现,例如单刀双掷继电器及其外围控制电路或者是单刀双掷模拟开关。第二电源管理电路213同样可以和上述实施例中的第一电源管理电路113一样,采用带电压变换功能的充电管理芯片来实现,也可以采用充电管理芯片加DCDC电路来实现。In this embodiment, the second switch circuit 212 can be implemented by a single-pole double-throw switch circuit, such as a single-pole double-throw relay and its peripheral control circuit or a single-pole double-throw analog switch, like the first switch circuit 112 in the above embodiment. The second power management circuit 213 can also be implemented by a charging management chip with a voltage conversion function, like the first power management circuit 113 in the above embodiment, or by a charging management chip plus a DCDC circuit.
具体地,在第二主控组件22无与第二耳机的通信需求时,便会和上述实施例中第一主控组件12的控制过程一样,控制会控制第二开关电路212处于充电模式,即控制第二开关电路212导通第二开关电路212的第二输入端和输出端SC2之间的通路,此时若第二耳机接入,则第二电源管理电路213可以经第二开关电路212的输出端SC2输出充电电压至第二耳机以对第二耳机充电。Specifically, when the second main control component 22 has no need to communicate with the second earphone, the control process will be the same as the control process of the first main control component 12 in the above embodiment. The second switch circuit 212 will be controlled to be in charging mode, that is, the second switch circuit 212 will be controlled to turn on the path between the second input terminal and the output terminal SC2 of the second switch circuit 212. At this time, if the second earphone is connected, the second power management circuit 213 can output the charging voltage to the second earphone through the output terminal SC2 of the second switch circuit 212 to charge the second earphone.
同理,若在第二主控组件22需要与第二耳机进行通信时,会控制第二开关电路212处于通信模式,以导通第二开关电路212的第二输入端和输出端SC2之间的通路,以在第二耳机接入时使第二主控组件22与第二耳机建立通信连接。Similarly, if the second main control component 22 needs to communicate with the second earphone, the second switch circuit 212 will be controlled to be in communication mode to turn on the path between the second input terminal and the output terminal SC2 of the second switch circuit 212, so that the second main control component 22 can establish a communication connection with the second earphone when the second earphone is connected.
可以理解的是,在无通信需求的情况下,第二主控组件22也会每间隔预设接入检测时间(由研发人员设置),控制第二开关电路212处于通信模块,此时第二主控组件22会发出一询问信号,若第二耳机接入了,那么会回传一耳机接入响应信号,那么第二主控组件22在接收到耳机接入响应信号时就能够确认当前第二耳机接入了,若在一定时间内未能够接收到耳机接入响应信号,那么就确认当前第二耳机并未接入。It is understandable that in the absence of communication needs, the second main control component 22 will also control the second switch circuit 212 to be in the communication module at a preset access detection time interval (set by the R&D personnel). At this time, the second main control component 22 will send an inquiry signal. If the second earphone is connected, it will return an earphone access response signal. Then, when the second main control component 22 receives the earphone access response signal, it can confirm that the second earphone is currently connected. If the earphone access response signal is not received within a certain period of time, it is confirmed that the second earphone is currently not connected.
在第一充电盒10和第二充电盒20通过连接器30建立了电连接以后,第一主控组件12的第一通信端会经过连接器30和第二通信端与第二主控组件22建立电连接通路,此时,第一主控组件12便可以与第二主控组件22进行数据交换。After the first charging box 10 and the second charging box 20 establish an electrical connection through the connector 30, the first communication end of the first main control component 12 will establish an electrical connection path with the second main control component 22 through the connector 30 and the second communication end. At this time, the first main control component 12 can exchange data with the second main control component 22.
可以理解的是,第一主控组件12,还用于每间隔预设轮询时间经第一通信端输出问询信号;It can be understood that the first main control component 12 is also used to output an inquiry signal via the first communication terminal at every preset polling time interval;
第二主控组件22,还用于经第二通信端接收到问询信号时,确定第一充电盒10经连接器30与第二充电盒20建立了电连接,并经第二通信端输出响应信号;The second main control component 22 is also used to determine that the first charging box 10 has established an electrical connection with the second charging box 20 via the connector 30 when receiving the inquiry signal via the second communication terminal, and output a response signal via the second communication terminal;
第一主控组件12,还用于经第一通信端接收到响应信号时,确定第一充电盒10经连接器30与第二充电盒20建立了电连接。The first main control component 12 is also used to determine that the first charging box 10 has established an electrical connection with the second charging box 20 via the connector 30 when a response signal is received via the first communication terminal.
在本实施例中,预设轮询时间由研发人员在研发期提前设置并存储在第一主控组件12内。第一主控组件12在经第一通信端发出问询信号后,若在预设响应时间内(可以理解的是预设响应时间的时长略小于预设轮询时间的时长),未能够经第一通信段接收到反馈的相应信号,那么第一主控组件12便会认为当前第一充电盒10和第二充电盒20处于分离状态。如此,第一主控组件12和第二主控组件22便能够确认当前是否第一充电盒10经连接器30与第二充电盒20建立了电连接。In this embodiment, the preset polling time is set in advance by the R&D personnel during the R&D period and stored in the first main control component 12. After the first main control component 12 sends an inquiry signal through the first communication terminal, if it fails to receive the corresponding feedback signal through the first communication segment within the preset response time (it can be understood that the preset response time is slightly shorter than the preset polling time), then the first main control component 12 will consider that the first charging box 10 and the second charging box 20 are currently in a separated state. In this way, the first main control component 12 and the second main control component 22 can confirm whether the first charging box 10 is currently electrically connected to the second charging box 20 via the connector 30.
通过上述设置,本发明分体式耳机盒中的第二充电盒20在处于分体状态时,例如设置在头戴式设备上一侧时,能够满足用户对于存储第二耳机以及对第二耳机充电的需求,同时便于用户随时进行摘取。同时,在第二充电盒20通过连接器30与第一充电盒10处于合并状态时,也能够实现正常耳机充电盒的所有功能,以使分体式充电盒和两个耳机之间的交互动作。本发明在满足了用户在特殊场景下例如在头戴式设备上使用耳机的需求外,还同时能够满足用户在日常独立使用耳机的需求,更进一步提高了用户使用的便利性。Through the above-mentioned arrangement, when the second charging box 20 in the split earphone box of the present invention is in a split state, for example, when it is arranged on one side of a head-mounted device, it can meet the user's needs for storing and charging the second earphone, and it is convenient for the user to remove it at any time. At the same time, when the second charging box 20 is in a merged state with the first charging box 10 through the connector 30, all the functions of a normal earphone charging box can be realized to enable the interaction between the split charging box and the two earphones. In addition to meeting the needs of users to use earphones in special scenarios, such as on head-mounted devices, the present invention can also meet the needs of users to use earphones independently in daily life, further improving the convenience of user use.
参考图3,在本发明一实施例中,第一充电盒10上还设置有与第一主控组件12电连接的第一指示模块13;第二充电盒20上还设置有与第二主控组件22电连接的第二指示模块23Referring to FIG. 3 , in one embodiment of the present invention, the first charging box 10 is further provided with a first indication module 13 electrically connected to the first main control component 12; the second charging box 20 is further provided with a second indication module 23 electrically connected to the second main control component 22.
第一主控组件12,还用于每间隔预设时间控制第一开关电路112处于通信模式,以获取第一耳机传来的第一电量信号,并根据第一电量信号控制第一指示模块13指示第一耳机的电量;The first main control component 12 is further used to control the first switch circuit 112 to be in the communication mode at every preset time interval to obtain the first power signal from the first earphone, and control the first indication module 13 to indicate the power of the first earphone according to the first power signal;
第二主控组件22,还用于每间隔预设时间控制第二开关电路212处于通信模式,以获取第二耳机传来的第二电量信号,并根据第二电量信号控制第二指示模块23指示第二耳机的电量。The second main control component 22 is also used to control the second switch circuit 212 to be in the communication mode at preset intervals to obtain a second power signal from the second earphone, and control the second indication module 23 to indicate the power of the second earphone according to the second power signal.
可以理解的是,耳机内的控制器可以从内BMS模块输出的电量信息获取到当前耳机的电池电量,并在耳机盒要求其输出电量参数时,输出相应的电量信号。It is understandable that the controller in the earphone can obtain the current battery power of the earphone from the power information output by the internal BMS module, and output the corresponding power signal when the earphone box requires it to output power parameters.
在本实施例中,第一指示模块13和第二指示模块23可以采用RGB-LED灯来实现,在第一主控组件12确定第一耳机接入以后,第一主控组件12会每间隔预设时间(由研发人员在研发期预存在第一主控组件12内)例如5S、10S等,控制第一开关电路112处于通信模式,以与接入的第一耳机进行通信并要求第一耳机输出第一电量信号,第一主控组件12会根据第一耳机输出的第一电量信号确定当前第一耳机的电池电量,并根据当前的电池电量控制RGB灯亮出相应的颜色,例如在20%以下时亮出红色,20%-60%内时亮出蓝色,在60%以上是亮出绿色等。同理,在第二主控组件22确定第二耳机接入以后,第二主控组件22也可以采用上述相同的控制过程,以从第二耳机获取第二电量信号,并根据第二电量信号确定当前第二耳机的电池电量,并根据当前的电池电量控制RGB灯亮出相应的颜色。In this embodiment, the first indication module 13 and the second indication module 23 can be implemented by RGB-LED lights. After the first main control component 12 determines that the first earphone is connected, the first main control component 12 will control the first switch circuit 112 to be in communication mode at a preset time interval (pre-stored in the first main control component 12 by the R&D personnel during the R&D period), such as 5S, 10S, etc., to communicate with the connected first earphone and require the first earphone to output a first power signal. The first main control component 12 will determine the current battery power of the first earphone according to the first power signal output by the first earphone, and control the RGB light to light up the corresponding color according to the current battery power, such as red when it is below 20%, blue when it is within 20%-60%, green when it is above 60%, etc. Similarly, after the second main control component 22 determines that the second earphone is connected, the second main control component 22 can also adopt the same control process as above to obtain the second power signal from the second earphone, determine the current battery power of the second earphone according to the second power signal, and control the RGB light to light up the corresponding color according to the current battery power.
可选的,第一指示模块13和第二指示模块23还可以采用显示屏来实现,第一主控组件12和第二主控组件22可以按照上述实施例中的方式,确定第一耳机和/或第二耳机的电量,并将分别其显示在显示屏上。Optionally, the first indication module 13 and the second indication module 23 may also be implemented using a display screen, and the first main control component 12 and the second main control component 22 may determine the power level of the first earphone and/or the second earphone in the manner described in the above embodiments, and display them on the display screen respectively.
通过上述设置,本发明分体式耳机盒中的第一充电盒10和第二充电盒20在分开使用时,能够在第一耳机插入时实时显示当前耳机的电量。并且在连接起来合并使用时,能够同时指示第一耳机和/或第二耳机的电量,满足了用户在不同场景下例如平时单独耳机使用或者是在头戴式设备上使用耳机时对于耳机电量提示的需求,提高了用户使用的便利性。Through the above configuration, the first charging box 10 and the second charging box 20 in the split earphone box of the present invention can display the current earphone power in real time when the first earphone is inserted when they are used separately. And when they are connected and used together, the power of the first earphone and/or the second earphone can be indicated at the same time, which meets the user's demand for earphone power prompts in different scenarios, such as using earphones alone or using earphones on head-mounted devices, and improves the convenience of user use.
参考图4,在本发明一实施例中,第一充电盒10上还设置有与第一主控组件12电连接的触发模块14;Referring to FIG. 4 , in one embodiment of the present invention, the first charging box 10 is further provided with a trigger module 14 electrically connected to the first main control component 12 ;
触发模块14,用于在被用户触发时,输出相应的触发信号;The trigger module 14 is used to output a corresponding trigger signal when triggered by a user;
第一主控组件12,还用于在接收到触发信号时,控制第一开关电路112处于通信模式,以根据触发信号输出相应的控制信号至第一耳机;The first main control component 12 is further used to control the first switch circuit 112 to be in a communication mode when receiving a trigger signal, so as to output a corresponding control signal to the first earphone according to the trigger signal;
第一主控组件12,还用于在确认第一充电盒10经连接器30与第二充电盒20建立电连接后且接收到触发信号时,经第一通信端将触发信号输出至第二通信端,以使第二主控组件22根据触发信号输出相应的控制信号至第一耳机。The first main control component 12 is also used to output the trigger signal to the second communication end through the first communication end after confirming that the first charging box 10 has established an electrical connection with the second charging box 20 via the connector 30 and receiving a trigger signal, so that the second main control component 22 outputs a corresponding control signal to the first earphone according to the trigger signal.
在本实施例中,触发模块14可以采用设置于第一充电盒10的壳体上的按键或者是触摸模块来实现。In this embodiment, the trigger module 14 can be implemented by a button or a touch module arranged on the shell of the first charging box 10.
具体地,在实际应用中,第一主控组件12和第二主控组件22内可以预存有触发信号-控制信号映射表(可以由研发人员在研发期根据需求进行设置并预存在第一主控组件12内),在用户根据不同的方式触发触发模块14以使触发模块14输出不同的触发信号时,第一主控组件12以及第二主控组件22可以根据上述预存的触发信号-控制信号映射表调用相应的控制信号。Specifically, in actual applications, a trigger signal-control signal mapping table may be pre-stored in the first main control component 12 and the second main control component 22 (which may be set by R&D personnel according to needs during the R&D period and pre-stored in the first main control component 12). When the user triggers the trigger module 14 in different ways so that the trigger module 14 outputs different trigger signals, the first main control component 12 and the second main control component 22 may call the corresponding control signal according to the above-mentioned pre-stored trigger signal-control signal mapping table.
在第一充电盒10和第二充电盒20处于分离状态时,用户可以通过触发触发模块14以使触发模块14输出相应的触发信号。此时,当第一主控组件12接收到触发信号时,会根据触发信号和上述触发信号-控制信号映射表生成相应的控制信号,并控制第一开关电路112处于通信模式,并将控制信号经第一开关电路112上传至第一耳机,以使第一耳机执行相应的工作,例如开始进入蓝牙匹配等。When the first charging box 10 and the second charging box 20 are in a separated state, the user can trigger the trigger module 14 to make the trigger module 14 output a corresponding trigger signal. At this time, when the first main control component 12 receives the trigger signal, it will generate a corresponding control signal according to the trigger signal and the above-mentioned trigger signal-control signal mapping table, and control the first switch circuit 112 to be in communication mode, and upload the control signal to the first earphone through the first switch circuit 112, so that the first earphone performs the corresponding work, such as starting Bluetooth matching.
在第一充电盒10和第二充电盒20经连接器30处于合并状态时且第一耳机和第二耳机均处于接入状态时,用户可以通过触发触发模块14以使触发模块14输出相应的触发信号。第一主控组件12除了执行上述实施例中动作外,也会将触发信号同时从第一通信端经连接器30输出至第二主控组件22的第二通信端,以使第二主控组件22根据触发信号和上述触发信号-控制信号映射表生成相应的控制信号,并控制第二开关电路212处于通信模式,并将控制信号经第二开关电路212上传至第二耳机,以使第二耳机执行相应的工作。例如,在第一耳机和第二耳机接入时且第一充电盒10和第二充电盒20处于合并状态时,用户可以长按按键以使第一主控组件12和第二主控组件22输出蓝牙匹配信号至第一耳机和第二耳机,以第一耳机和第二耳机进入蓝牙匹配状态。When the first charging box 10 and the second charging box 20 are in a merged state via the connector 30 and the first earphone and the second earphone are both in a connected state, the user can trigger the trigger module 14 to make the trigger module 14 output a corresponding trigger signal. In addition to performing the actions in the above embodiments, the first main control component 12 will also output the trigger signal from the first communication end to the second communication end of the second main control component 22 via the connector 30, so that the second main control component 22 generates a corresponding control signal according to the trigger signal and the above trigger signal-control signal mapping table, and controls the second switch circuit 212 to be in communication mode, and uploads the control signal to the second earphone via the second switch circuit 212, so that the second earphone performs the corresponding work. For example, when the first earphone and the second earphone are connected and the first charging box 10 and the second charging box 20 are in a merged state, the user can long press the button to make the first main control component 12 and the second main control component 22 output Bluetooth matching signals to the first earphone and the second earphone, so that the first earphone and the second earphone enter the Bluetooth matching state.
通过上述设置,在第一充电盒10和第二充电盒20通过连接器30合并使用时,用户可以通过触发触发模块14对耳机实现相应的控制。如此,本发明分体式耳机盒在满足了用户在特殊场景下例如在头戴式设备上使用耳机时的需求外,还同时能够满足用户在日常独立使用耳机的需求,更进一步提高了用户使用的便利性。Through the above configuration, when the first charging box 10 and the second charging box 20 are used together through the connector 30, the user can control the earphones accordingly by triggering the trigger module 14. In this way, the split earphone box of the present invention not only meets the needs of users in special scenarios, such as using earphones on a head-mounted device, but also meets the needs of users in daily independent use of earphones, further improving the convenience of users.
可以理解的是,在第一充电盒10和第二充电盒20处于分离状态时,第一主控组件12还可以根据触发信号直接执行相应的动作,以实现用户对第一充电盒10的控制,例如触发模块14为按键,用户可以短按一次按键,以使按键输出相应触发信号以使第一主控组件12控制上述实施例中的指示模块指示当前第一耳机和/或第二耳机的电量。同理,在第一充电盒10和第二充电盒20经连接器30处于合并状态时,用户也可以通过触发触发模块14,以控制第一主控组件12和第二主控组件22执行相应的程序。It is understandable that when the first charging box 10 and the second charging box 20 are in a separated state, the first main control component 12 can also directly perform corresponding actions according to the trigger signal to realize the user's control over the first charging box 10. For example, the trigger module 14 is a button, and the user can short-press the button once to make the button output a corresponding trigger signal so that the first main control component 12 controls the indication module in the above embodiment to indicate the current power level of the first earphone and/or the second earphone. Similarly, when the first charging box 10 and the second charging box 20 are in a merged state via the connector 30, the user can also trigger the trigger module 14 to control the first main control component 12 and the second main control component 22 to execute corresponding programs.
参考图5,在本发明一实施例中,第一充电盒10上还设置有用于接入外部电压的充电母座15,充电母座15具有与第一电源管理电路113连接的供电连接端,供电连接端还用于连接连接器30;Referring to FIG5 , in one embodiment of the present invention, the first charging box 10 is further provided with a charging socket 15 for accessing an external voltage, and the charging socket 15 has a power supply connection terminal connected to the first power management circuit 113, and the power supply connection terminal is also used to connect the connector 30;
第一电源管理电路113,用于在接收到外部电压时,将外部电压进行电压变换后输出电池充电电压至第一电池111,以为第一电池111充电;以及,将外部电压进行电压变换后输出充电电压;The first power management circuit 113 is used to, when receiving an external voltage, convert the external voltage and output a battery charging voltage to the first battery 111 to charge the first battery 111; and convert the external voltage and output a charging voltage;
第二电源管理电路213还具有用于接入连接器30的外部电源输入端,在第一充电盒10经连接器30与第二充电盒20建立电连接时,外部电源输入端与供电连接端之间形成电连接通路;The second power management circuit 213 also has an external power input terminal for connecting to the connector 30. When the first charging box 10 is electrically connected to the second charging box 20 via the connector 30, an electrical connection path is formed between the external power input terminal and the power supply connection terminal.
第二电源管理电路213,用于在接收到外部电压时,将外部电压进行电压变换后输出电池充电电压至第二电池211,以为第二电池211充电;以及,将外部电压进行电压变换后输出充电电压。The second power management circuit 213 is used to, when receiving an external voltage, convert the external voltage and output a battery charging voltage to the second battery 211 to charge the second battery 211; and convert the external voltage and output a charging voltage.
在本实施例中,第一充电盒10的壳体上可以对应充电母座15的接口位置设置有相应的开口,充电母座15可以采用TYPE-C母座、Micro-USB母座、USB-A母座、Lightning母座等来实现,充电母座15的供电连接端为接入外部电压的引脚,当充电母座15接入外部电源时,充电母座15的供电连接端会输出外部电源输出外部电压。In this embodiment, a corresponding opening may be provided on the shell of the first charging box 10 corresponding to the interface position of the charging socket 15. The charging socket 15 may be implemented by a TYPE-C socket, a Micro-USB socket, a USB-A socket, a Lightning socket, etc. The power supply connection end of the charging socket 15 is a pin for connecting to an external voltage. When the charging socket 15 is connected to an external power supply, the power supply connection end of the charging socket 15 will output the external power supply and output the external voltage.
在本实施例中,第一电源管理电路113和第二电源管理电路213可以包括有充电管理芯片,充电管理芯片可以检测充电母座15的供电连接端是否有输出外部电压,若无外部电压,则将电池的电压进行电压变换为充电电压并输出,在耳机接入时以为耳机进行充电。若当前有外部电压,则会将外部电压进行电压变换为电池充电电压至电池,以为电池进行充电,同时还会将外部电压进行电压变换为充电电压并输出,以在耳机接入时为耳机进行充电。In this embodiment, the first power management circuit 113 and the second power management circuit 213 may include a charging management chip, which can detect whether the power supply connection end of the charging socket 15 outputs an external voltage. If there is no external voltage, the voltage of the battery is converted into a charging voltage and output, so that the earphone is charged when the earphone is connected. If there is an external voltage, the external voltage is converted into a battery charging voltage to the battery to charge the battery, and the external voltage is converted into a charging voltage and output, so that the earphone is charged when the earphone is connected.
具体地,若第一充电盒10和第二充电盒20处于分离状态,单独经充电母座15接入外部电压时,第一电源管理电路113可以将外部电压进行电压变换后输出电池充电电压至第一电池111,以为第一电池111充电;以及,将外部电压进行电压变换后输出充电电压,以在第一耳机接入第一充电盒10且第一开关电路112被第一主控组件12控制处于充电模式时,同时对第一耳机进行充电。Specifically, if the first charging box 10 and the second charging box 20 are in a separated state and are connected to an external voltage via the charging socket 15 separately, the first power management circuit 113 can convert the external voltage and output a battery charging voltage to the first battery 111 to charge the first battery 111; and, convert the external voltage and output a charging voltage to charge the first earphone at the same time when the first earphone is connected to the first charging box 10 and the first switch circuit 112 is controlled by the first main control component 12 to be in charging mode.
若第一充电盒10和第二充电盒20经连接器30处于合并状态时,充电母座15的外部电源输入端与第二电源管理电路213供电连接端之间形成电连接通路,当充电母座15接入外部电压时,第二电源管理电路213可以将外部电压进行电压变换后输出电池充电电压至第二电池211,以为第二电池211充电;以及,将外部电压进行电压变换后输出充电电压,以在第二耳机接入第二充电盒20时,同时对第二耳机进行充电。If the first charging box 10 and the second charging box 20 are in a combined state via the connector 30, an electrical connection path is formed between the external power input terminal of the charging socket 15 and the power supply connection terminal of the second power management circuit 213. When the charging socket 15 is connected to an external voltage, the second power management circuit 213 can convert the external voltage and output the battery charging voltage to the second battery 211 to charge the second battery 211; and, convert the external voltage and output the charging voltage to charge the second earphone at the same time when the second earphone is connected to the second charging box 20.
此外,可以理解的是,在本发明另一实施例中,充电母座15还具有与第一主控组件12连接的数据传输端,数据传输端还用于连接连接器30;第二主控组件22还具有另一用于连接连接器30的外部数据传输端,在第一充电盒10用于经连接器30与第二充电盒20建立电连接时,数据传输端与外部数据传输端建立电连接通路;In addition, it can be understood that in another embodiment of the present invention, the charging socket 15 also has a data transmission end connected to the first main control component 12, and the data transmission end is also used to connect the connector 30; the second main control component 22 also has another external data transmission end for connecting the connector 30, and when the first charging box 10 is used to establish an electrical connection with the second charging box 20 via the connector 30, the data transmission end establishes an electrical connection path with the external data transmission end;
充电母座15还用于接入耳机盒更新数据或耳机更新数据;The charging socket 15 is also used to access the earphone box update data or the earphone update data;
第一主控组件12,还用于在接收到耳机盒更新数据时将其存储在第一主控组件12内,以更新第一主控组件12内存储的数据;The first main control component 12 is further used to store the earphone box update data in the first main control component 12 when receiving the update data, so as to update the data stored in the first main control component 12;
第一主控组件12,还用于在接收到耳机更新数据时,控制第一开关电路112处于通信模式,以将耳机更新数据上传至第一耳机;The first main control component 12 is further used to control the first switch circuit 112 to be in a communication mode when receiving the headset update data, so as to upload the headset update data to the first headset;
第二主控组件22,还用于在接收到耳机盒更新数据时将其存储在第二主控组件22内,以更新第二主控组件22内存储的数据;The second main control component 22 is further used to store the earphone box update data in the second main control component 22 when receiving the update data, so as to update the data stored in the second main control component 22;
第二主控组件22,还用于在接收到耳机更新数据时,控制第二开关电路212处于通信模式,以将耳机更新数据上传至第二耳机。The second main control component 22 is further used to control the second switch circuit 212 to be in the communication mode when receiving the earphone update data, so as to upload the earphone update data to the second earphone.
在本实施例中,用户可以通过充电母座15接入外部终端,例如电脑、平板、手机等。充电母座15上的数据传输端可以在外部终端接入时,与外部终端建立通信连接,以从外部终端接入数据或者是上传数据至外部终端,可以理解的是,数据传输端即为充电母座15上的数据传输引脚。In this embodiment, the user can access an external terminal, such as a computer, a tablet, a mobile phone, etc., through the charging socket 15. When the external terminal is connected, the data transmission terminal on the charging socket 15 can establish a communication connection with the external terminal to access data from the external terminal or upload data to the external terminal. It can be understood that the data transmission terminal is the data transmission pin on the charging socket 15.
具体地,当第一主控组件12接收到耳机盒更新数据时,会将耳机盒更新数据存储在内部的存储模块中,以实现对原先存储数据的更新。若用户需要更新第一耳机内的数据,则会将第一耳机放置于第一充电盒10的容纳腔内,并操控外部终端对充电母座15的数据传输端输出耳机更新数据,第一主控组件12在接收到第二更新数据时,会控制第一开关电路112处于通信模式,以将耳机更新数据上传至第一耳机。Specifically, when the first main control component 12 receives the earphone box update data, it will store the earphone box update data in the internal storage module to update the previously stored data. If the user needs to update the data in the first earphone, the first earphone will be placed in the accommodating cavity of the first charging box 10, and the external terminal will be controlled to output the earphone update data to the data transmission end of the charging socket 15. When the first main control component 12 receives the second update data, it will control the first switch circuit 112 to be in the communication mode to upload the earphone update data to the first earphone.
同理,若此时第一充电盒10和第二充电盒20经连接器30处于合并状态,那么充电母座15的数据传输端便能够经连接器30与第二主控组件22的外部数据传输端建立电连接通路。此时,数据传输端输出的耳机盒更新数据和/或耳机更新数据也能够同时传输至第二主控组件22。若当前为耳机盒更新数据,第二主控组件22便会执行和上述第一主控组件12一样的动作,将耳机盒更新数据存储在内部的存储模块中,以实现对原先存储数据的更新,若当前为耳机更新数据,便会控制第二开关电路212处于通信模块,此时用户会将第二耳机置于第二充电的容纳腔内,第二主控组件22会将耳机更新数据经第二开关电路212上传至第二耳机。Similarly, if the first charging box 10 and the second charging box 20 are in a merged state via the connector 30 at this time, the data transmission end of the charging socket 15 can establish an electrical connection path with the external data transmission end of the second main control component 22 via the connector 30. At this time, the earphone box update data and/or earphone update data output by the data transmission end can also be transmitted to the second main control component 22 at the same time. If the current update data is for the earphone box, the second main control component 22 will perform the same action as the first main control component 12, and store the earphone box update data in the internal storage module to update the previously stored data. If the current update data is for the earphone, the second switch circuit 212 will be controlled to be in the communication module. At this time, the user will place the second earphone in the second charging cavity, and the second main control component 22 will upload the earphone update data to the second earphone via the second switch circuit 212.
通过上述设置,在第一充电盒10和第二充电盒20通过连接器30合并使用时,用户可以通过充电母座15以实现同时对第一充电盒10内的第一电池111和第二充电盒20内的第二电池211进行充电,并且还可以通过充电母座15随时更新第一充电盒10内第一主控组件12第一二充电盒内的第二主控组件22、第一耳机和第二耳机的程序,亦可以通过充电母座15实现外部终端分别与第一耳机和第二耳机的互相通讯,在满足了用户在特殊场景下例如在头戴式设备上使用耳机时的需求外,还同时能够满足用户在日常独立使用耳机的需求,更进一步提高了用户使用的便利性。Through the above arrangement, when the first charging box 10 and the second charging box 20 are used together through the connector 30, the user can use the charging socket 15 to simultaneously charge the first battery 111 in the first charging box 10 and the second battery 211 in the second charging box 20, and can also update the programs of the first main control component 12 in the first charging box 10, the second main control component 22 in the first and second charging boxes, the first earphone and the second earphone at any time through the charging socket 15, and can also realize the mutual communication between the external terminal and the first earphone and the second earphone respectively through the charging socket 15, which not only meets the needs of users in special scenarios, such as using earphones on a head-mounted device, but also meets the needs of users in daily independent use of earphones, further improving the convenience of user use.
在本发明一实施例中,第一充电盒10上设置有第一连接接口,第一连接接口包括多个与第一主控组件12电连接的连接端;In one embodiment of the present invention, a first connection interface is provided on the first charging box 10, and the first connection interface includes a plurality of connection terminals electrically connected to the first main control component 12;
第二充电盒20上设置有第二连接接口,第二连接接口包括多个与第二主控组件22电连接的连接端;The second charging box 20 is provided with a second connection interface, and the second connection interface includes a plurality of connection terminals electrically connected to the second main control component 22;
连接器30包括排线,排线的第一端设置有第一连接头,排线的第二端设置有第二连接头;当第一连接头接入第一连接接口且第二连接头接入第二连接接口时,多个第一连接部的连接端和多个第二连接部的连接端一一对应连接。The connector 30 includes a cable, a first end of which is provided with a first connector, and a second end of which is provided with a second connector; when the first connector is connected to the first connection interface and the second connector is connected to the second connection interface, the connection ends of the multiple first connection parts and the connection ends of the multiple second connection parts are connected one by one.
在本实施例中,在本实施例中,第一连接接口可以采用适配排线的第一连接头的接口母座来实现,同理,第二连接接口可以采用适配排线的第二连接头的接口母座来实现。第一连接接口内的多个连接端还可以与上述实施例中的其他电路中的器件,例如充电母座15电连接。In this embodiment, the first connection interface can be implemented by using an interface socket of a first connector of an adapter cable, and similarly, the second connection interface can be implemented by using an interface socket of a second connector of an adapter cable. The multiple connection terminals in the first connection interface can also be electrically connected to devices in other circuits in the above embodiments, such as the charging socket 15.
具体地,当用户需要将第一充电盒10和第二充电盒20合并使用时,只需要将第一连接头插入第一连接接口且将第二连接头插入第二连接接口便能够实现。日次,Specifically, when the user needs to use the first charging box 10 and the second charging box 20 together, it can be achieved by simply inserting the first connector into the first connection interface and the second connector into the second connection interface.
可选的,在另一实施例中,连接器30包括设置于第一充电盒10上的第一连接部和设置于第二充电盒20上的第二连接部;Optionally, in another embodiment, the connector 30 includes a first connecting portion provided on the first charging box 10 and a second connecting portion provided on the second charging box 20;
第一连接部包括第一磁性件以及多个与第一主控组件12电连接的连接端;The first connection portion includes a first magnetic member and a plurality of connection terminals electrically connected to the first main control assembly 12;
第二连接部包括第二磁性件以及多个与第二主控组件22电连接的连接端;The second connection portion includes a second magnetic member and a plurality of connection ends electrically connected to the second main control assembly 22;
第一连接部通过第一磁性件和第二磁性件与第二连接部磁吸连接,以实现第一充电盒10经连接器30与第二充电盒20建立电连接。当第一充电盒10经连接器30与第二充电盒20建立电连接时,多个第一连接部的连接端和多个第二连接部的连接端一一对应连接。The first connection part is magnetically connected to the second connection part through the first magnetic part and the second magnetic part, so that the first charging box 10 is electrically connected to the second charging box 20 via the connector 30. When the first charging box 10 is electrically connected to the second charging box 20 via the connector 30, the connection ends of the multiple first connection parts and the connection ends of the multiple second connection parts are connected one by one.
在本实施例中,第一连接部上还可以设置有限位件,第二连接部上可以对应第一连接部的限位件设置有相应的限位槽,以使第一充电盒10经连接器30与第二充电盒20建立电连接时,限位件正好插入限位槽内,从而保证当前第一连接部上的多个连接端能够正确的与多个第二连接部上的多个连接端建立电连接通路。In this embodiment, a limiting member may also be provided on the first connecting part, and a corresponding limiting groove may be provided on the second connecting part corresponding to the limiting member of the first connecting part, so that when the first charging box 10 establishes an electrical connection with the second charging box 20 via the connector 30, the limiting member is just inserted into the limiting groove, thereby ensuring that the multiple connection ends on the current first connecting part can correctly establish an electrical connection path with the multiple connection ends on the multiple second connecting parts.
具体地,当用户需要将第一充电盒10和第二充电盒20合并使用时,只需要根据限位件和限位槽的位置,将第一充电盒10和第二充电盒20合拢便能实现,此时第一充电盒10上的第一连接部便能够与第二充电盒20上的第二连接部通过磁性件吸附在一起。如此,参考图5,便能够实现将第一主控组件12的第一通信端TX1与第二主控组件22的第二通信端TX2建立电连接通路、实现将充电母座15的供电连接端与第二电源管理电路213的外部电源接入端建立电连接通路,以及实现将充电母座15的数据传输端与第二主控组件22的外部数据传输端建立电连接通路,从而满足用户对于充电盒功能的需求。Specifically, when the user needs to use the first charging box 10 and the second charging box 20 together, it can be achieved by simply closing the first charging box 10 and the second charging box 20 according to the position of the limiter and the limiter groove. At this time, the first connection part on the first charging box 10 can be adsorbed together with the second connection part on the second charging box 20 through the magnetic part. In this way, referring to Figure 5, it is possible to establish an electrical connection path between the first communication terminal TX1 of the first main control component 12 and the second communication terminal TX2 of the second main control component 22, to establish an electrical connection path between the power supply connection terminal of the charging socket 15 and the external power access terminal of the second power management circuit 213, and to establish an electrical connection path between the data transmission terminal of the charging socket 15 and the external data transmission terminal of the second main control component 22, thereby meeting the user's demand for the charging box function.
本发明还提出了一种耳机组件,包括第一耳机、第二耳机和上述任一项的分体式耳机盒The present invention also provides an earphone assembly, comprising a first earphone, a second earphone and any of the above split earphone boxes.
值得注意的是,由于本发明耳机组件基于上述的分体式耳机盒,因此,本发明耳机组件的实施例包括上述分体式耳机盒全部实施例的全部技术方案,且所达到的技术效果也完全相同,在此不再赘述。It is worth noting that since the earphone assembly of the present invention is based on the above-mentioned split earphone box, the embodiments of the earphone assembly of the present invention include all technical solutions of all embodiments of the above-mentioned split earphone box, and the technical effects achieved are also exactly the same, which will not be repeated here.
本发明还提出了一种头戴式设备,包括上述的耳机组件。The present invention also provides a head-mounted device, comprising the above-mentioned earphone assembly.
在本实施例中,头戴式设备包括设备主体,设备主体上两侧可以分别设置有用于放置并固定第一充电盒/第二充电盒的放置槽。如此,在用户实际使用中,可以很方便的从左右两侧抓取耳机,并且在不使用耳机时,还可以将耳机放回相应的充电盒内并且对耳机进行充电,提高了用户使用的便利性。In this embodiment, the head-mounted device includes a device body, and both sides of the device body may be provided with placement slots for placing and fixing the first charging box/the second charging box. In this way, in actual use, the user can conveniently grab the earphones from the left and right sides, and when the earphones are not in use, the earphones can be put back into the corresponding charging box and charged, which improves the convenience of user use.
值得注意的是,由于本发明头戴式设备基于上述的耳机组件,因此,本发明头戴式设备的实施例包括上述耳机组件全部实施例的全部技术方案,且所达到的技术效果也完全相同,在此不再赘述。It is worth noting that since the head-mounted device of the present invention is based on the above-mentioned earphone assembly, the embodiments of the head-mounted device of the present invention include all technical solutions of all embodiments of the above-mentioned earphone assembly, and the technical effects achieved are also exactly the same, which will not be repeated here.
以上仅为本发明的可选实施例,并非因此限制本发明的专利范围,凡是在本发明的发明构思下,利用本发明说明书及附图内容所作的等效结构变换,或直接/间接运用在其他相关的技术领域均包括在本发明的专利保护范围内。The above are only optional embodiments of the present invention, and are not intended to limit the patent scope of the present invention. All equivalent structural changes made using the contents of the present invention's specification and drawings, or directly/indirectly applied in other related technical fields, are included in the patent protection scope of the present invention.
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202210467189.XACN114710729B (en) | 2022-04-29 | 2022-04-29 | Split earphone box, earphone assembly and head-mounted device |
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202210467189.XACN114710729B (en) | 2022-04-29 | 2022-04-29 | Split earphone box, earphone assembly and head-mounted device |
| Publication Number | Publication Date |
|---|---|
| CN114710729A CN114710729A (en) | 2022-07-05 |
| CN114710729Btrue CN114710729B (en) | 2024-11-05 |
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202210467189.XAActiveCN114710729B (en) | 2022-04-29 | 2022-04-29 | Split earphone box, earphone assembly and head-mounted device |
| Country | Link |
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| CN (1) | CN114710729B (en) |
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| CN210577849U (en)* | 2019-09-06 | 2020-05-19 | 炬芯(珠海)科技有限公司 | Portable charging box |
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| DK3151582T3 (en)* | 2015-09-30 | 2020-10-12 | Apple Inc | HEADPHONE WITH CHARGING SYSTEM CASE |
| CN209949358U (en)* | 2019-05-31 | 2020-01-14 | 歌尔科技有限公司 | Earphone charging box |
| CN210016603U (en)* | 2019-09-10 | 2020-02-04 | 周作飞 | Earphone charging box and earphone |
| CN110572736B (en)* | 2019-09-20 | 2021-05-11 | 歌尔科技有限公司 | Wireless earphone, charging box and wireless earphone charging system |
| CN113809784B (en)* | 2020-06-12 | 2025-09-16 | Oppo广东移动通信有限公司 | Charging method, earphone assembly, earphone box and storage medium |
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| CN210577849U (en)* | 2019-09-06 | 2020-05-19 | 炬芯(珠海)科技有限公司 | Portable charging box |
| CN110536209A (en)* | 2019-09-17 | 2019-12-03 | 刁志聪 | A kind of charging cabin that can be seperated and earphone suit |
| Publication number | Publication date |
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| CN114710729A (en) | 2022-07-05 |
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