WO2022006935A1 - 耳机充电装置及蓝牙耳机 - Google Patents

耳机充电装置及蓝牙耳机 Download PDF

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Publication number
WO2022006935A1
WO2022006935A1 PCT/CN2020/102071 CN2020102071W WO2022006935A1 WO 2022006935 A1 WO2022006935 A1 WO 2022006935A1 CN 2020102071 W CN2020102071 W CN 2020102071W WO 2022006935 A1 WO2022006935 A1 WO 2022006935A1
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WO
WIPO (PCT)
Prior art keywords
earphone
earphone body
charging
accommodating cavity
telescopic mechanism
Prior art date
Application number
PCT/CN2020/102071
Other languages
English (en)
French (fr)
Inventor
黄雷
潘政民
苏蔚
张胜
汤良宇
Original Assignee
瑞声声学科技(深圳)有限公司
瑞声科技(新加坡)有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 瑞声声学科技(深圳)有限公司, 瑞声科技(新加坡)有限公司 filed Critical 瑞声声学科技(深圳)有限公司
Publication of WO2022006935A1 publication Critical patent/WO2022006935A1/zh

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04RLOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
    • H04R1/00Details of transducers, loudspeakers or microphones
    • H04R1/10Earpieces; Attachments therefor ; Earphones; Monophonic headphones

Definitions

  • the present application relates to the technical field of wearable devices, and in particular, to an earphone charging device and a Bluetooth earphone.
  • a Bluetooth headset can be used to receive electrical signals from terminal devices such as mobile phones and players to listen to music or voice calls, and can charge the Bluetooth headset in a charging box.
  • the traditional Bluetooth headset needs to be put into a customized charging box for charging.
  • the user needs to cut off the power supply and stop charging.
  • most of them will have different degrees of delay and overcharge.
  • the longevity and safety of the battery will be affected, and the traditional charging box includes the box body and the box cover.
  • the way the Bluetooth headset is half-buried in the box body and the cover of the box will make it difficult for users to grab the Bluetooth headset and affect the user experience. needs improvement.
  • the purpose of this application is to provide an earphone charging device and a bluetooth earphone, so as to solve the problem that the current Bluetooth earphone and earphone charging device are charged together, which is prone to delay and overcharge, and the bluetooth earphone is half-buried in the box body and the box cover.
  • the occlusion of the device will lead to technical problems that users are difficult to grasp the Bluetooth headset.
  • An earphone charging device comprising: a device body and a telescopic mechanism arranged in the device body, the device body is provided with an accommodating cavity for accommodating the earphone body, and a power supply contact is arranged in the accommodating cavity, so The power supply contacts are used to cooperate with the charging contacts of the earphone body, the opening of the accommodating cavity is exposed on the device body and remains exposed, and the telescopic mechanism can accommodate the earphone body in the accommodating state.
  • the power supply contact is connected to the charging contact to charge the earphone body, and the telescopic mechanism can also push the earphone body out of the accommodating cavity, so that the power supply contact separated from the charging contacts;
  • the telescopic mechanism includes a placing member and a driving assembly, the placing member is used to place the earphone body, and the driving assembly can drive the placing member to move in a first direction, so as to push the earphone body to extend out of the accommodating
  • the driving assembly can also drive the placing member to move in a second direction, so that the earphone body is accommodated in the accommodating cavity, and the first direction is opposite to the second direction; the placing member Extending along a third direction, the placing member is deformed along the first direction to form a concave portion, and the driving component is at least partially disposed in the concave portion, and the first direction is perpendicular to the third direction.
  • a detection element is further provided in the accommodating cavity, and the detection element is used to detect the charging state of the earphone body.
  • the earphone charging device Stop the power supply to the earphone body.
  • the earphone charging device further includes a control circuit, when the detection element detects that the charging of the earphone body is completed, the control circuit stops supplying power to the power supply contact.
  • the telescopic mechanism pushes the earphone body out of the accommodating cavity, so as to separate the power supply contact from the charging contact.
  • a communication hole is provided on the placing member, and the power supply contact can pass through the communication hole and be connected with the charging contact.
  • the telescopic mechanism includes a first magnetic attraction component, and the first magnetic attraction component is detachably connected to the second magnetic attraction component in the earphone body.
  • the device body is provided with a control switch, which can control the telescopic mechanism to accommodate the earphone body in the accommodating cavity, or control the telescopic mechanism to push the earphone body out the accommodating cavity.
  • the device body further includes a Bluetooth module
  • the Bluetooth module can receive a control signal and control the telescopic mechanism to accommodate the earphone body in the accommodating cavity, or control the telescopic mechanism to The earphone body is pushed out of the accommodating cavity.
  • a sensing element is provided in the accommodating cavity, and the sensing element is used for sensing the earphone body.
  • a Bluetooth headset is also provided, which includes a headset body accommodated in the above-mentioned headset charging device, and the headset body includes a charging contact matched with the power supply contact.
  • the beneficial effect of the earphone charging device is that: the driving component can drive the placing member to move in the first direction to push the earphone body out of the accommodating cavity, and the driving component can also drive the placing member to move in the second direction, so that the earphone body can be moved along the second direction. It is accommodated in the accommodating cavity, so that the volume of the earphone body outside the accommodating cavity is large, which is convenient for users to take.
  • the earphone charging device stops supplying power to the power supply contacts, and stops the charging state of the earphone body in time to avoid delayed charging and overcharging, which can improve the service life of the battery in the earphone body. and application security.
  • the beneficial effect of the Bluetooth headset provided by the present application is that: the headset body includes charging contacts matched with the power supply contacts in the headset charging device, and after the charging of the headset body is completed, the charging state of the headset body can be stopped in time to avoid delayed charging , Overcharging can improve the service life of the battery in the earphone body and the safety of the application, and the earphone body can be pushed out of the accommodating cavity by the placing piece, so that the earphone body outside the accommodating cavity has a larger volume, which is convenient for users to take.
  • FIG. 1 is a schematic structural diagram of an earphone charging device and a Bluetooth earphone provided by an embodiment of the present application;
  • FIG. 2 is a top view of the earphone charging device and the Bluetooth earphone shown in FIG. 1;
  • FIG. 3 is an A-A cross-sectional view of the earphone charging device and the Bluetooth earphone shown in FIG. 2;
  • FIG. 4 is a schematic diagram of another state structure of the earphone charging device and the Bluetooth earphone shown in FIG. 1;
  • FIG. 5 is a top view of the headset charging device and the Bluetooth headset shown in FIG. 4;
  • Fig. 6 is the B-B sectional view of the earphone charging device and the Bluetooth earphone shown in Fig. 5;
  • FIG. 7 is a schematic structural diagram of a state of the earphone charging device shown in FIG. 1;
  • FIG. 8 is a schematic diagram of a telescopic mechanism and a Bluetooth headset in the headset charging device and the Bluetooth headset shown in FIG. 1;
  • FIG. 9 is an exploded view of the telescopic mechanism and the Bluetooth headset shown in FIG. 8 .
  • an earphone charging device 10 which includes: a device body 100 and a telescopic mechanism 200 disposed in the device body 100 .
  • the device body 100 is provided with an accommodating cavity for accommodating the earphone body 300 110.
  • a power supply contact 111 is provided in the accommodating cavity 110.
  • the power supply contact 111 is used to cooperate with the charging contact 310 of the earphone body 300.
  • the opening of the accommodating cavity 110 is exposed on the device body 100 and remains exposed to avoid the cover body.
  • the setting of the earphone body 300 causes obstacles for the user to take the earphone body 300.
  • the telescopic mechanism 200 can accommodate the earphone body 300 in the accommodating cavity 110, so that the power supply contacts 111 and the charging contacts 310 are connected to charge the earphone body 300, so as to realize When charging the earphone body 300, the telescopic mechanism 200 can also push the earphone body 300 out of the accommodating cavity 110 to separate the power supply contacts 111 from the charging contacts 310.
  • the accommodating cavity 110 is also provided with a detection piece 400, and the detection piece 400 is used for detection
  • the charging state of the earphone body 300 when the detecting element 400 detects that the charging of the earphone body 300 is completed, the earphone charging device 10 stops supplying power to the power supply contacts 111, and stops the charging state of the earphone body 300 in time to avoid delayed charging and overcharging , which can improve the service life of the battery in the earphone body 300 and the safety of the application.
  • the telescopic mechanism 200 is used for control, which is convenient for placing, charging, and taking out the earphone body 300 for use.
  • the earphone body 300 is a bluetooth earphone, and the bluetooth earphone can be used together with the earphone charging device 10 to realize the charging of the bluetooth earphone.
  • the power supply contact 111 is connected with a control circuit, and the detection element 400 will send an alarm signal to the control circuit after detecting that the charging of the earphone body 300 is completed, and the control circuit can cut off the transmission after receiving the alarm signal.
  • the electrical signal to the power supply contact 111 stops charging to the earphone body 300 to avoid delayed charging and overcharging, which can improve the service life of the battery in the earphone body 300 and the safety of the application.
  • the telescopic mechanism 200 pushes the earphone body 300 out of the accommodating cavity 110 to separate the power supply contacts 111 from the charging contacts 310, and the power supply contacts 111 and the charging contacts.
  • the point 310 is powered off and separated, the charged earphone body 300 can be pushed out of the accommodating cavity 110 in time for the user to take, while avoiding delayed charging and overcharging.
  • the power supply contact 111 is a power supply electrode and is electrically connected to the power supply on the earphone charging device 10
  • the charging contact 310 is a charging electrode and is electrically connected to the power supply on the earphone body 300 to realize the earphone body 300 .
  • the power sources on the earphone charging device 10 and the earphone body 300 are lithium batteries.
  • the opening of the accommodating cavity 110 is in an exposed state, and the earphone body 300 is completely accommodated in the accommodating cavity 110 , so that the earphone body 300 can be charged without the need for additional installation.
  • the cover body is used to cover the opening of the accommodating cavity 110 , so as to prevent the setting of the cover body from causing obstacles for the user to take the earphone body 300 , and to provide better protection for the earphone body 300 .
  • the accommodating cavity 110 can also partially accommodate the earphone body 300, so that when the earphone body 300 is in the charging state, the upper part of the earphone body 300 is still exposed outside the accommodating cavity 110, causing the It is easier for the user to take the earphone body 300 , but it increases the possibility of damage to the earphone body 300 after the earphone charging device 10 collides.
  • the telescopic mechanism 200 includes a placing member 210 and a driving component
  • the earphone body includes a first earphone body 320 and a second earphone body 330
  • the first earphone body 320 and the second earphone body 330 are placed on the placing member 210, in order to realize the lifting of the first earphone body 320 and the second earphone body 330
  • the driving component can drive the placing member 210 to move along the first direction, so as to push the first earphone body 320 and the second earphone body 330 out of the accommodating cavity 110 for the user to take
  • the driving component can also drive the placing member 210 to move in the second direction, so that the first earphone body 320 and the second earphone body 330 are accommodated in the accommodating cavity 110, and the first earphone body 320 and the The second earphone body 330 is safely and stably charged, and the first direction is opposite to the second direction.
  • the driving component drives the placing member 210 to move in the second direction to return to the original position.
  • the telescopic mechanism 200 may be provided with two placing members 210, and the two placing members 210 are respectively disposed corresponding to the first earphone body 320 and the second earphone body 330, and two drivers may be used.
  • the components are connected with the corresponding placing pieces 210 to realize the independent control of the first earphone body 320 and the second earphone body 330, and the first earphone body 320 and the second earphone body 330 can also be pushed out of the accommodating cavity 110 for the user to take. , or the first earphone body 320 and the second earphone body 330 are accommodated in the accommodating cavity 110 to realize charging.
  • the placing member 210 extends along the third direction, the placing member 210 is deformed along the first direction to form a concave portion 211 , the driving component is at least partially disposed in the concave portion 211 , and the first direction is perpendicular to the third direction , the installation dimensions of the earphone body 300 , the placing member 210 and the driving assembly in the first direction can be reduced, which is beneficial to the miniaturization of the earphone charging device 10 , and can ensure that the placing member 210 has a sufficient movement stroke to connect the first earphone body 320 and the drive assembly.
  • the second earphone body 330 is pushed out of the accommodating cavity 110 for the user to take.
  • the concave portion 211 is disposed in the middle position of the placing member 210, and the two sides of the placing member 210 are respectively used to hold the first earphone body 320 and the second earphone body 330, so that the placing member 210 can move along the first direction and the second earphone body 330.
  • the movement of the direction is more stable.
  • the recessed portion 211 can also be provided at the end of the placing member 210 , and the placing member 210 can also realize the lifting of the first earphone body 320 and the second earphone body 330 , and the placing member 210
  • the specific structural design of the device can be adjusted according to the layout of the earphone charging device 10 .
  • the placement member 210 is provided with a communication hole 212 , the power supply contact 111 can pass through the communication hole 212 and be connected to the charging contact 310 , and the power supply contact 111 and the charging contact 310 can be connected through the communication hole 212 .
  • Electrical connection for charging can be understood that, in different embodiments, the placement member 210 may also be provided with a gap, an electrical connector or other structures, and the power supply contact 111 can pass through the gap and be connected to the charging contact 310.
  • the power supply contact The 111 can be electrically connected to the charging contact 310 through the electrical connector, and can also be charged.
  • the driving assembly includes a telescopic structure 220 and a driving member 230.
  • the driving member 230 is connected to the telescopic structure 220 and used to drive the telescopic structure 220 to extend or retract, so as to realize the placing member 210 along the first direction and the second direction. directional drive movement.
  • the driving member 230 is a driving motor.
  • the telescopic structure 220 includes a rotating member 221 and a moving member 222 threadedly connected to the rotating member 221 .
  • the moving member 222 is connected to the placing member 210 , and the driving member 230 can
  • the rotating member 221 is driven to rotate, so that the moving member 222 moves in the first direction, so that the placing member 210 can push the first earphone body 320 and the second earphone body 330 out or retract the accommodating cavity 110 to realize the first earphone body 320 and the position control of the second earphone body 330 .
  • the driving member 230 is a stepping motor.
  • the telescopic structure 220 further includes a fixed sleeve 223.
  • the fixed sleeve 223 is provided with a guide groove 2231.
  • the movable member 222 is provided with a guide protrusion 2221 matched with the guide groove 2231.
  • the guide groove 2231 extends along the first direction to After the guide protrusion 2221 is slidably matched with the guide groove 2231 , the movable member 222 can be guided to move in the first direction, so that the rotation of the rotating member 221 can drive the movable member 222 to move in the first direction.
  • the telescopic mechanism 200 further includes a fixed seat 240, the fixed sleeve 223 is sleeved on the outside of the moving member 222, and the fixed sleeve 223 is connected with the device body 100 by the fixed seat 240, so as to install the telescopic mechanism 200 in the assembly groove of the device body 100,
  • the connection between the telescopic mechanism 200 and the device body 100 is stable and reliable.
  • the accommodating cavity 110 includes a first accommodating cavity 112 matched with the first earphone body 320 , a second accommodating cavity 113 matched with the second earphone body 330 , and a third accommodating cavity for installing the telescopic mechanism 200 .
  • the cavity 114, the first accommodating cavity 112, the second accommodating cavity 113 are communicated with the third accommodating cavity 114
  • the earphone body 300 includes a first earphone body 320 and a second earphone body 330, which can be used together to correspond to the left and right ears of the user .
  • the first accommodating cavity 112 and the second accommodating cavity 113 can also be combined into one accommodating cavity, and the storage and storage of the first earphone body 320 and the second earphone body 330 can also be realized.
  • the earphone body 300 may only include the first earphone body 320 matched with the accommodating cavity, and the functions of music listening and calling of the first earphone body 320 may also be realized.
  • the shape of the first accommodating cavity 112 matches the shape of the first earphone body 320
  • the shape of the second accommodating cavity 113 matches the shape of the second earphone body 330, so that the earphone body 300 can be stored in the
  • the accommodating cavity 110 can be placed in the accommodating cavity 110 more stably, which can reduce the risk of the earphone body 300 falling after the earphone charging device 10 is impacted.
  • the telescopic mechanism 200 includes a first magnetic attraction component, and the first magnetic attraction component is detachably connected to the second magnetic attraction component in the earphone body, so that the earphone body 300 and the telescopic mechanism 200 pass through the first magnetic attraction component It is easy to place and take the earphone body 300 on the telescopic mechanism 200 and has high portability.
  • one of the first and second magnetic components is a magnet.
  • the other is a magnet or a magnetic metal. When both the first magnetic component and the second magnetic component are magnets, the magnets in the first magnetic component and the magnets in the second magnetic component attract each other.
  • the first magnetic attraction component can be replaced with an elastic snap slot
  • the second magnetic attraction component can be replaced with an elastic snap fit matched with the elastic snap slot
  • the earphone body 300 can also be realized. Removable connection to telescopic mechanism 200.
  • the device body 100 is provided with a control switch 120, and the control switch 120 can control the telescopic mechanism 200 to push out the earphone body or accommodate the earphone body in the accommodating cavity 110, so as to realize the key control of the telescopic mechanism 200, which is beneficial for the user to operate in any
  • the control switch 120 is operated, the earphone body 300 can be taken out or put in.
  • a sensing element 130 is disposed in the accommodating cavity 110 , and the sensing element 130 is used to sense the earphone body 300 .
  • the sensing element 130 senses whether the earphone body 300 exists in the accommodating cavity 110, and when it is determined that the earphone body 300 exists in the accommodating cavity 110, the telescopic mechanism 200 is controlled to push the earphone body 300 out.
  • the accommodating cavity 110 is for the user to take. When it is judged that the earphone body 300 does not exist in the accommodating cavity 110, the telescopic mechanism 200 does not work.
  • the sensing element 130 When the sensing element 130 senses that the earphone body 300 is taken out by the user, or the earphone body 300 is in the extended state for a period of time, the telescopic mechanism 200 retracts so that the earphone body 300 is accommodated in the accommodating cavity 110. When the earphone body 300 needs to be charged , the earphone body 300 can be placed in the accommodating cavity 110 to charge the earphone body 300 .
  • the sensing element 130 includes a first sensing element corresponding to the first earphone body 320 and a second sensing element corresponding to the second earphone body 330 .
  • the telescopic mechanism 200 retracts, so as to re-accommodate the earphone body 300 in the accommodating cavity 110 when the user abandons using the earphone body 300 .
  • the duration of the extended state may also be 25 seconds, 35 seconds or other times, which may be set according to the design requirements of the earphone charging device 10 .
  • the earphone charging device 10 further includes a Bluetooth module, and the Bluetooth module can receive control signals and control the telescopic mechanism 200 to accommodate the earphone body 300 in the accommodating cavity 110, or control the telescopic mechanism 200 to push the earphone body 300 out of the accommodating cavity.
  • the Bluetooth module can receive control signals and control the telescopic mechanism 200 to accommodate the earphone body 300 in the accommodating cavity 110, or control the telescopic mechanism 200 to push the earphone body 300 out of the accommodating cavity.
  • the external device can be a mobile phone, a tablet computer or other control terminals, that is, a mobile phone program can be used to control the operation of the telescopic mechanism 200. Telescoping and retracting.
  • the present application also discloses a Bluetooth headset, which includes an earphone body 300 accommodated in the above-mentioned earphone charging device 10 , the earphone body 300 includes a charging contact 310 matched with the power supply contact 111 , and The earphone body 300 can be placed in the accommodating cavity 110 of the earphone charging device 10 for charging. After the earphone body 300 is charged, the charging state of the earphone body 300 can be stopped in time to avoid delayed charging and overcharging, and the earphone body can be improved. 300 battery life and application safety. In addition, after the power supply contact 111 and the charging contact 310 are powered off, the earphone body 300 can be pushed out of the accommodating cavity 110 by the telescopic mechanism 200 for the user to take.
  • the Bluetooth headset is a TWS headset, which can provide a better stereo effect.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Acoustics & Sound (AREA)
  • Signal Processing (AREA)
  • Charge And Discharge Circuits For Batteries Or The Like (AREA)

Abstract

本申请公开了一种耳机充电装置及蓝牙耳机,该耳机充电装置包括:装置本体、设置于装置本体内的伸缩机构及检测件,装置本体上开设有容纳腔,容纳腔内设置有供电触点,供电触点用于与耳机本体的充电触点配合,容纳腔的开口露设于装置本体且保持露出状态,伸缩机构能将耳机本体收容于容纳腔内,以使供电触点与充电触点连接,以向耳机本体充电,伸缩机构还能将耳机本体推出容纳腔,当检测件检测到耳机本体充电完成,耳机充电装置停止向供电触点的供电,以及时停止耳机本体的充电状态,以避免延时充电、过度充电,可提高耳机本体中电池的使用寿命及应用的安全性。另外,采用伸缩机构控制,利于耳机本体的放置充电及取出使用。

Description

耳机充电装置及蓝牙耳机 技术领域
本申请涉及可穿戴设备技术领域,尤其涉及一种耳机充电装置及蓝牙耳机。
背景技术
蓝牙耳机作为一种便携式电子设备,可以用于接收手机、播放器等终端设备的电信号,以收听音乐或语音通话,并可在充电盒中对蓝牙耳机进行充电。
技术问题
传统的蓝牙耳机需放进定制的充电盒中进行充电,当充电完成时,需要用户切断电源,停止充电,实际操作过程中,大多会产生不同程度的延时和过充,对蓝牙耳机中电池的寿命及安全都会产生影响,并且传统的充电盒包括盒本体及盒盖,蓝牙耳机半身埋入盒本体内的配合方式以及盒盖的遮挡,会导致用户抓取蓝牙耳机困难,影响用户体验,需要改进。
因此,有必要提供一种新的耳机充电装置及蓝牙耳机以解决上述技术问题。
技术解决方案
本申请的目的在于提供一种耳机充电装置及蓝牙耳机,以解决目前蓝牙耳机与耳机充电装置配合充电,易产生延时和过充,且蓝牙耳机半身埋入盒本体内的配合方式以及盒盖的遮挡,会导致用户抓取蓝牙耳机困难的技术问题。
本申请的技术方案如下:
提供一种耳机充电装置,包括:装置本体及设置于所述装置本体内的伸缩机构,所述装置本体上开设有用于容纳耳机本体的容纳腔,所述容纳腔内设置有供电触点,所述供电触点用于与所述耳机本体的充电触点配合,所述容纳腔的开口露设于所述装置本体且保持露出状态,所述伸缩机构能将所述耳机本体收容于所述容纳腔内,以使所述供电触点与所述充电触点连接,以向所述耳机本体充电,所述伸缩机构还能将所述耳机本体推出所述容纳腔,以使所述供电触点与所述充电触点分离;
所述伸缩机构包括放置件及驱动组件,所述放置件用于放置所述耳机本体,所述驱动组件能驱动所述放置件沿第一方向移动,以推动所述耳机本体伸出所述容纳腔,所述驱动组件还能驱动所述放置件沿第二方向移动,以使所述耳机本体收容于所述容纳腔内,所述第一方向与所述第二方向相反;所述放置件沿第三方向延伸,所述放置件沿所述第一方向变形形成凹陷部,所述驱动组件至少部分的设置于所述凹陷部内,所述第一方向与所述第三方向垂直。
作为一种改进,所述容纳腔内还设置有检测件,所述检测件用于检测所述耳机本体的充电状态,当所述检测件检测到所述耳机本体充电完成,所述耳机充电装置停止向所述耳机本体的供电。
作为一种改进,所述耳机充电装置还包括控制电路,当所述检测件检测到所述耳机本体充电完成,所述控制电路停止向所述供电触点供电。
作为一种改进,当所述检测件检测到所述耳机本体充电完成,所述伸缩机构将所述耳机本体推出所述容纳腔,以使所述供电触点与所述充电触点分离。
作为一种改进,所述放置件上设置有连通孔,所述供电触点能穿过所述连通孔,并与所述充电触点连接。
作为一种改进,所述伸缩机构包括第一磁吸组件,所述第一磁吸组件与所述耳机本体中的第二磁吸组件可拆卸连接。
作为一种改进,所述装置本体上设置有控制开关,所述控制开关能控制所述伸缩机构将所述耳机本体收容于所述容纳腔内,或控制所述伸缩机构将所述耳机本体推出所述容纳腔。
作为一种改进,所述装置本体上还包括蓝牙模块,所述蓝牙模块能接收控制信号,并控制所述伸缩机构将所述耳机本体收容于所述容纳腔内,或控制所述伸缩机构将所述耳机本体推出所述容纳腔。
作为一种改进,所述容纳腔内设置有感应件,所述感应件用于感测所述耳机本体。
还提供一种蓝牙耳机,包括容纳于上述耳机充电装置中的耳机本体,所述耳机本体包括与所述供电触点相配合的充电触点。
有益效果
本申请提供的耳机充电装置的有益效果在于:驱动组件能驱动放置件沿第一方向移动,以推动耳机本体伸出容纳腔,驱动组件还能驱动放置件沿第二方向移动,以使耳机本体收容于容纳腔内,以使而耳机本体位于容纳腔外部的体积较大,利于用户的拿取。另外,当检测件检测到耳机本体充电完成,耳机充电装置停止向供电触点的供电,以及时停止耳机本体的充电状态,以避免延时充电、过度充电,可提高耳机本体中电池的使用寿命及应用的安全性。
本申请提供的蓝牙耳机的有益效果在于:耳机本体包括与耳机充电装置中供电触点相配合的充电触点,耳机本体在充电完成后,可及时停止耳机本体的充电状态,以避免延时充电、过度充电,可提高耳机本体中电池的使用寿命及应用的安全性,且耳机本体可被放置件推出容纳腔,以使而耳机本体位于容纳腔外部的体积较大,利于用户的拿取。
附图说明
为了更清楚地说明本申请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申请的一些实施例,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获得其他的附图。
其中:
图1为本申请的一个实施例提供的耳机充电装置及蓝牙耳机的结构示意图;
图2为图1所示的耳机充电装置及蓝牙耳机的俯视图;
图3为图2所示的耳机充电装置及蓝牙耳机的A-A 剖视图;
图4为图1所示的耳机充电装置及蓝牙耳机的另一种状态结构示意图;
图5为图4所示的耳机充电装置及蓝牙耳机的俯视图;
图6为图5所示的耳机充电装置及蓝牙耳机的B-B 剖视图;
图7为图1所示的耳机充电装置的一种状态结构示意图;
图8为图1所示的耳机充电装置及蓝牙耳机中伸缩机构及蓝牙耳机示意图;
图9为图8所示的伸缩机构及蓝牙耳机的爆炸图。
本发明的实施方式
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,所描述的实施例仅仅是本申请一部分实施例,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,都属于本申请保护的范围。
请参阅图1至图7,本申请公开了一种耳机充电装置10,包括:装置本体100及设置于装置本体100内的伸缩机构200,装置本体100上开设有用于容纳耳机本体300的容纳腔110,容纳腔110内设置有供电触点111,供电触点111用于与耳机本体300的充电触点310配合,容纳腔110的开口露设于装置本体100且保持露出状态,以避免盖体的设置而对用户拿取耳机本体300造成障碍,伸缩机构200能将耳机本体300收容于容纳腔110内,以使供电触点111与充电触点310连接,以向耳机本体300充电,以实现耳机本体300的充电,伸缩机构200还能将耳机本体300推出容纳腔110,以使供电触点111与充电触点310分离,容纳腔110内还设置有检测件400,检测件400用于检测耳机本体300的充电状态,当检测件400检测到耳机本体300充电完成,耳机充电装置10停止向供电触点111的供电,以及时停止耳机本体300的充电状态,以避免延时充电、过度充电,可提高耳机本体300中电池的使用寿命及应用的安全性。另外,采用伸缩机构200控制,利于耳机本体300的放置充电及取出使用。
耳机本体300为蓝牙耳机,可将蓝牙耳机与耳机充电装置10配合使用,以实现蓝牙耳机的充电。
在一实施例中,该供电触点111连接有控制电路,检测件400在检测到耳机本体300充电完成,会向控制电路发出警报信号,该控制电路能在接收到该警报信号后,切断输送向供电触点111的电信号,以停止向耳机本体300充电,以避免延时充电、过度充电,可提高耳机本体300中电池的使用寿命及应用的安全性。
在一实施例中,当检测件400检测到耳机本体300充电完成,伸缩机构200将耳机本体300推出容纳腔110,以使供电触点111与充电触点310分离,供电触点111与充电触点310断电并分离,可及时的将充电完成的耳机本体300推出容纳腔110,以供用户拿取,同时避免延时充电、过度充电。
在一实施例中,供电触点111为供电电极,并与耳机充电装置10上的电源电连接,充电触点310为充电电极,并与耳机本体300上的电源电连接,以实现耳机本体300的充电。优选的,耳机充电装置10及耳机本体300上的电源为锂电池。
在一实施例中,耳机本体300收容于容纳腔110内时,容纳腔110的开口处于露出状态,且耳机本体300完全收容于容纳腔110内,可实现耳机本体300的充电,不需设置额外的盖体以遮挡容纳腔110的开口,以避免盖体的设置而对用户拿取耳机本体300造成障碍,并可对耳机本体300提供较好的防护。当然,可以理解的是,在不同实施例中,容纳腔110也可部分收容耳机本体300,以使耳机本体300在充电状态时,耳机本体300的上部还露在容纳腔110的外部,会使用户更易拿取耳机本体300,但会增加耳机充电装置10碰撞后,耳机本体300受损的可能性。
请继续参阅图3及图5,伸缩机构200包括放置件210及驱动组件,耳机本体包括第一耳机本体320及第二耳机本体330,第一耳机本体320及第二耳机本体330放置于放置件210上,以实现第一耳机本体320及第二耳机本体330的托举,驱动组件能驱动放置件210沿第一方向移动,以推动第一耳机本体320及第二耳机本体330伸出容纳腔110,以供用户拿取,驱动组件还能驱动放置件210沿第二方向移动,以使第一耳机本体320及第二耳机本体330收容于容纳腔110内,可实现第一耳机本体320及第二耳机本体330安全、稳定的充电,第一方向与第二方向相反。另外,在用户取出第一耳机本体320及第二耳机本体330后,驱动组件驱动放置件210第二方向移动以回复原位。当然,可以理解的是,在不同实施例中,伸缩机构200可设置有二放置件210,且二放置件210分别与第一耳机本体320及第二耳机本体330对应设置,并可采用二驱动组件与对应的放置件210连接,以实现第一耳机本体320及第二耳机本体330的独立控制,也可将第一耳机本体320及第二耳机本体330推出容纳腔110,以供用户拿取,或将第一耳机本体320及第二耳机本体330收容于容纳腔110内,以实现充电。
请参阅图8及图9,放置件210沿第三方向延伸,放置件210沿第一方向变形形成凹陷部211,驱动组件至少部分的设置于凹陷部211内,第一方向与第三方向垂直,可降低第一方向上耳机本体300、放置件210及驱动组件的安装尺寸,利于耳机充电装置10的小型化,并可保证放置件210具有足够的移动行程,以将第一耳机本体320及第二耳机本体330推出容纳腔110,以供用户拿取。优选的,凹陷部211设置于放置件210的中间位置,放置件210的两侧分别用于托举第一耳机本体320及第二耳机本体330,可使放置件210沿第一方向和第二方向的移动更加稳定。当然,可以理解的是,在不同实施例中,凹陷部211也可设置于放置件210的端部,放置件210也可实现第一耳机本体320及第二耳机本体330托举,放置件210的具体结构设计,可根据耳机充电装置10的布局进行调整。
在一实施例中,放置件210上设置有连通孔212,供电触点111能穿过连通孔212,并与充电触点310连接,通过连通孔212实现供电触点111与充电触点310的电连接,以实现充电。当然,可以理解的是,在不同实施例中,放置件210上还可设置有豁口、电连接件或其他结构,供电触点111能穿过豁口,并与充电触点310连接,供电触点111能通过电连接件与充电触点310电导通,也可实现充电。
在一实施例中,驱动组件包括伸缩结构220及驱动件230,驱动件230与伸缩结构220连接,并用于驱动伸缩结构220伸出或缩回,以实现放置件210沿第一方向和第二方向的驱动移动。
请继续参阅图8及图9,驱动件230为驱动电机,伸缩结构220包括转动件221及与转动件221螺纹连接的移动件222,移动件222与所述放置件210连接,驱动件230能驱动转动件221转动,以使移动件222在第一方向上移动,以使放置件210能将第一耳机本体320及第二耳机本体330推出或收回容纳腔110,以实现第一耳机本体320及第二耳机本体330的位置控制。优选的,该驱动件230为步进电机。
具体的,伸缩结构220还包括固定套223,固定套223上设置有导向槽2231,移动件222上设置有与导向槽2231相配合的导向凸起2221,导向槽2231沿第一方向延伸,以使导向凸起2221与导向槽2231滑动配合后,能引导移动件222沿第一方向移动,以实现转动件221转动能驱动移动件222沿第一方向移动。
另外,伸缩机构200还包括固定座240,固定套223套接在移动件222外部,固定套223采用固定座240与装置本体100连接,以将伸缩机构200安装在装置本体100的装配槽内,实现伸缩机构200与装置本体100的连接稳定、可靠。
在一实施例中,容纳腔110包括与第一耳机本体320相配合的第一容纳腔112、与第二耳机本体330相配合的第二容纳腔113及用于安装伸缩机构200的第三容纳腔114,第一容纳腔112、第二容纳腔113与第三容纳腔114连通,耳机本体300包括第一耳机本体320及第二耳机本体330,可配套使用,以与用户的左右耳朵相对应。当然,可以理解的是,在不同实施例中,第一容纳腔112及第二容纳腔113还可合并为一收容腔体,也可实现第一耳机本体320及第二耳机本体330的收纳及充电,另外,耳机本体300也可仅包括与收容腔体相配合的第一耳机本体320,也可实现第一耳机本体320的音乐收听及通话功能。
在一实施例中,第一容纳腔112的形状与第一耳机本体320的形状相配合,第二容纳腔113的形状与第二耳机本体330的形状相配合,以使耳机本体300在收纳于容纳腔110内,可更加稳定的放置在容纳腔110内,可降低耳机充电装置10受到冲击后,耳机本体300掉落的风险。
在一实施例中,伸缩机构200包括第一磁吸组件,第一磁吸组件与耳机本体中的第二磁吸组件可拆卸连接,以使耳机本体300与伸缩机构200通过第一磁吸组件及第二磁吸组件吸合配合,便于耳机本体300在伸缩机构200上的放置及拿取,便携性高,具体地,该第一磁吸组件和第二磁吸组件中的一者为磁铁,另一者为磁铁或磁吸金属,当第一磁吸组件和第二磁吸组件都为磁铁时,第一磁吸组件中的磁铁与第二磁吸组件中的磁铁相互吸附。当然,可以理解的是,在不同实施例中,第一磁吸组件可以替换为弹性卡槽,第二磁吸组件可以替换为与弹性卡槽相配合的弹性卡扣,也可实现耳机本体300与伸缩机构200的可拆卸连接。
在一实施例中,装置本体100上设置有控制开关120,控制开关120能控制伸缩机构200推出耳机本体或将耳机本体收容于容纳腔110,以实现伸缩机构200的按键控制,利于用户在任何时候操作该控制开关120以将耳机本体300取出或放入。
在一实施例中,容纳腔110内设置有感应件130,感应件130用于感测耳机本体300,该感应件130可感测到耳机本体是否存在于容纳腔110内,并与伸缩机构200配合使用,当用户按下控制开关120,感应件130感测耳机本体300是否存在于容纳腔110内,当判断该耳机本体300存在于容纳腔110内,则控制伸缩机构200将耳机本体300推出容纳腔110,以供用户拿取,当判断该耳机本体300不存在于容纳腔110内,则伸缩机构200不工作。
当感应件130感应到耳机本体300被用户取出,或耳机本体300位于伸出状态持续一段时间后,伸缩机构200缩回,以使耳机本体300收容于容纳腔110内,当耳机本体300需要充电时,可将耳机本体300放置在容纳腔110,进行耳机本体300的充电。优选的,感应件130包括与第一耳机本体320对应的第一感应件及与第二耳机本体330对应的第二感应件。
进一步的,当感应件130感应到耳机本体300位于伸出状态持续30秒后,伸缩机构200缩回,以在用户放弃使用耳机本体300时,将耳机本体300重新收容于容纳腔110内。当然,可以理解的是,在不同实施例中,伸出状态的持续时间还可以是25秒、35秒或其他时间,可根据耳机充电装置10的设计要求进行设定。
在一实施例中,耳机充电装置10还包括蓝牙模块,蓝牙模块能接收控制信号,并控制伸缩机构200将耳机本体300收容于容纳腔110内,或控制伸缩机构200将耳机本体300推出容纳腔110,以采用外部设备与耳机充电装置10蓝牙连接,实现耳机充电装置10的操作控制,优选的,该外部设备可以为手机、平板电脑或其他控制终端,即可以采用手机程序控制伸缩机构200的伸缩和缩回。
请参阅图1至图6,本申请还公开了一种蓝牙耳机,包括容纳于上述耳机充电装置10中的耳机本体300,耳机本体300包括与供电触点111相配合的充电触点310,并可将耳机本体300放置在耳机充电装置10中的容纳腔110内充电, 耳机本体300在充电完成后,可及时停止耳机本体300的充电状态,以避免延时充电、过度充电,可提高耳机本体300中电池的使用寿命及应用的安全性。另外,在供电触点111与充电触点310断电后,耳机本体300能被伸缩机构200推出容纳腔110,以供用户拿取。
优选的,该蓝牙耳机为TWS耳机,可提供较好的立体声效果。
需要说明的是,本申请中提到的“多个”指的是两个或两个以上;术语“第一”、“第二”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。
以上的仅是本申请的实施方式,在此应当指出,对于本领域的普通技术人员来说,在不脱离本申请创造构思的前提下,还可以做出改进,但这些均属于本申请的保护范围。

Claims (10)

  1. 一种耳机充电装置,其特征在于,包括:装置本体及设置于所述装置本体内的伸缩机构,所述装置本体上开设有用于容纳耳机本体的容纳腔,所述容纳腔内设置有供电触点,所述供电触点用于与所述耳机本体的充电触点配合,所述容纳腔的开口露设于所述装置本体且保持露出状态,所述伸缩机构能将所述耳机本体收容于所述容纳腔内,以使所述供电触点与所述充电触点连接,以向所述耳机本体充电,所述伸缩机构还能将所述耳机本体推出所述容纳腔,以使所述供电触点与所述充电触点分离;
    所述伸缩机构包括放置件及驱动组件,所述放置件用于放置所述耳机本体,所述驱动组件能驱动所述放置件沿第一方向移动,以推动所述耳机本体伸出所述容纳腔,所述驱动组件还能驱动所述放置件沿第二方向移动,以使所述耳机本体收容于所述容纳腔内,所述第一方向与所述第二方向相反;所述放置件沿第三方向延伸,所述放置件沿所述第一方向变形形成凹陷部,所述驱动组件至少部分的设置于所述凹陷部内,所述第一方向与所述第三方向垂直。
  2. 根据权利要求1所述的耳机充电装置,其特征在于,所述容纳腔内还设置有检测件,所述检测件用于检测所述耳机本体的充电状态,当所述检测件检测到所述耳机本体充电完成,所述耳机充电装置停止向所述耳机本体供电。
  3. 根据权利要求2所述的耳机充电装置,其特征在于,所述耳机充电装置还包括控制电路,当所述检测件检测到所述耳机本体充电完成,所述控制电路停止向所述供电触点供电。
  4. 根据权利要求2或3所述的耳机充电装置,其特征在于,当所述检测件检测到所述耳机本体充电完成,所述伸缩机构将所述耳机本体推出所述容纳腔,以使所述供电触点与所述充电触点分离。
  5. 根据权利要求1所述的耳机充电装置,其特征在于,所述放置件上设置有连通孔,所述供电触点能穿过所述连通孔,并与所述充电触点连接。
  6. 根据权利要求1所述的耳机充电装置,其特征在于,所述伸缩机构包括第一磁吸组件,所述第一磁吸组件与所述耳机本体中的第二磁吸组件可拆卸连接。
  7. 根据权利要求1所述的耳机充电装置,其特征在于,所述装置本体上设置有控制开关,所述控制开关能控制所述伸缩机构将所述耳机本体收容于所述容纳腔内,或控制所述伸缩机构将所述耳机本体推出所述容纳腔。
  8. 根据权利要求1所述的耳机充电装置,其特征在于,所述装置本体上还包括蓝牙模块,所述蓝牙模块能接收控制信号,并控制所述伸缩机构将所述耳机本体收容于所述容纳腔内,或控制所述伸缩机构将所述耳机本体推出所述容纳腔。
  9. 根据权利要求1所述的耳机充电装置,其特征在于,所述容纳腔内设置有感应件,所述感应件用于感测所述耳机本体。
  10. 一种蓝牙耳机,其特征在于,包括容纳于权利要求1至9任意一项所述耳机充电装置中的耳机本体,所述耳机本体包括与所述供电触点相配合的充电触点。
PCT/CN2020/102071 2020-07-07 2020-07-15 耳机充电装置及蓝牙耳机 WO2022006935A1 (zh)

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